From 0396318d2dd40da24715a2cd7c9274f23898be1b Mon Sep 17 00:00:00 2001 From: Thraix Date: Sat, 7 Jan 2023 21:09:01 +0100 Subject: [PATCH] Initial commit --- .gitignore | 7 + Vulkan.sln | 31 + Vulkan/Vulkan.vcxproj | 166 + Vulkan/Vulkan.vcxproj.filters | 43 + Vulkan/Vulkan.vcxproj.user | 14 + Vulkan/ext/include/GLFW/glfw3.h | 5912 +++++++++++++++++ Vulkan/ext/include/GLFW/glfw3native.h | 628 ++ Vulkan/ext/include/glm/CMakeLists.txt | 70 + Vulkan/ext/include/glm/common.hpp | 539 ++ Vulkan/ext/include/glm/detail/_features.hpp | 394 ++ Vulkan/ext/include/glm/detail/_fixes.hpp | 27 + Vulkan/ext/include/glm/detail/_noise.hpp | 81 + Vulkan/ext/include/glm/detail/_swizzle.hpp | 804 +++ .../ext/include/glm/detail/_swizzle_func.hpp | 682 ++ Vulkan/ext/include/glm/detail/_vectorize.hpp | 162 + .../ext/include/glm/detail/compute_common.hpp | 50 + .../glm/detail/compute_vector_relational.hpp | 30 + Vulkan/ext/include/glm/detail/func_common.inl | 792 +++ .../include/glm/detail/func_common_simd.inl | 231 + .../include/glm/detail/func_exponential.inl | 152 + .../glm/detail/func_exponential_simd.inl | 37 + .../ext/include/glm/detail/func_geometric.inl | 243 + .../glm/detail/func_geometric_simd.inl | 163 + .../ext/include/glm/detail/func_integer.inl | 372 ++ .../include/glm/detail/func_integer_simd.inl | 65 + Vulkan/ext/include/glm/detail/func_matrix.inl | 398 ++ .../include/glm/detail/func_matrix_simd.inl | 249 + .../ext/include/glm/detail/func_packing.inl | 189 + .../include/glm/detail/func_packing_simd.inl | 6 + .../include/glm/detail/func_trigonometric.inl | 197 + .../glm/detail/func_trigonometric_simd.inl | 0 .../glm/detail/func_vector_relational.inl | 87 + .../detail/func_vector_relational_simd.inl | 6 + Vulkan/ext/include/glm/detail/glm.cpp | 263 + Vulkan/ext/include/glm/detail/qualifier.hpp | 230 + Vulkan/ext/include/glm/detail/setup.hpp | 1135 ++++ Vulkan/ext/include/glm/detail/type_float.hpp | 68 + Vulkan/ext/include/glm/detail/type_half.hpp | 16 + 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.../ext/include/glm/ext/matrix_float2x2.hpp | 23 + .../glm/ext/matrix_float2x2_precision.hpp | 49 + .../ext/include/glm/ext/matrix_float2x3.hpp | 18 + .../glm/ext/matrix_float2x3_precision.hpp | 31 + .../ext/include/glm/ext/matrix_float2x4.hpp | 18 + .../glm/ext/matrix_float2x4_precision.hpp | 31 + .../ext/include/glm/ext/matrix_float3x2.hpp | 18 + .../glm/ext/matrix_float3x2_precision.hpp | 31 + .../ext/include/glm/ext/matrix_float3x3.hpp | 23 + .../glm/ext/matrix_float3x3_precision.hpp | 49 + .../ext/include/glm/ext/matrix_float3x4.hpp | 18 + .../glm/ext/matrix_float3x4_precision.hpp | 31 + .../ext/include/glm/ext/matrix_float4x2.hpp | 18 + .../glm/ext/matrix_float4x2_precision.hpp | 31 + .../ext/include/glm/ext/matrix_float4x3.hpp | 18 + .../glm/ext/matrix_float4x3_precision.hpp | 31 + .../ext/include/glm/ext/matrix_float4x4.hpp | 23 + .../glm/ext/matrix_float4x4_precision.hpp | 49 + Vulkan/ext/include/glm/ext/matrix_int2x2.hpp | 38 + .../include/glm/ext/matrix_int2x2_sized.hpp | 70 + Vulkan/ext/include/glm/ext/matrix_int2x3.hpp | 33 + .../include/glm/ext/matrix_int2x3_sized.hpp | 49 + Vulkan/ext/include/glm/ext/matrix_int2x4.hpp | 33 + .../include/glm/ext/matrix_int2x4_sized.hpp | 49 + Vulkan/ext/include/glm/ext/matrix_int3x2.hpp | 33 + .../include/glm/ext/matrix_int3x2_sized.hpp | 49 + Vulkan/ext/include/glm/ext/matrix_int3x3.hpp | 38 + .../include/glm/ext/matrix_int3x3_sized.hpp | 70 + Vulkan/ext/include/glm/ext/matrix_int3x4.hpp | 33 + .../include/glm/ext/matrix_int3x4_sized.hpp | 49 + Vulkan/ext/include/glm/ext/matrix_int4x2.hpp | 33 + .../include/glm/ext/matrix_int4x2_sized.hpp | 49 + Vulkan/ext/include/glm/ext/matrix_int4x3.hpp | 33 + .../include/glm/ext/matrix_int4x3_sized.hpp | 49 + Vulkan/ext/include/glm/ext/matrix_int4x4.hpp | 38 + .../include/glm/ext/matrix_int4x4_sized.hpp | 70 + .../ext/include/glm/ext/matrix_projection.hpp | 149 + .../ext/include/glm/ext/matrix_projection.inl | 106 + .../ext/include/glm/ext/matrix_relational.hpp | 132 + 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+ .../glm/ext/vector_float4_precision.hpp | 31 + Vulkan/ext/include/glm/ext/vector_int1.hpp | 32 + .../ext/include/glm/ext/vector_int1_sized.hpp | 49 + Vulkan/ext/include/glm/ext/vector_int2.hpp | 18 + .../ext/include/glm/ext/vector_int2_sized.hpp | 49 + Vulkan/ext/include/glm/ext/vector_int3.hpp | 18 + .../ext/include/glm/ext/vector_int3_sized.hpp | 49 + Vulkan/ext/include/glm/ext/vector_int4.hpp | 18 + .../ext/include/glm/ext/vector_int4_sized.hpp | 49 + Vulkan/ext/include/glm/ext/vector_integer.hpp | 149 + Vulkan/ext/include/glm/ext/vector_integer.inl | 85 + Vulkan/ext/include/glm/ext/vector_packing.hpp | 32 + Vulkan/ext/include/glm/ext/vector_packing.inl | 0 .../ext/include/glm/ext/vector_relational.hpp | 107 + .../ext/include/glm/ext/vector_relational.inl | 75 + Vulkan/ext/include/glm/ext/vector_uint1.hpp | 32 + .../include/glm/ext/vector_uint1_sized.hpp | 49 + Vulkan/ext/include/glm/ext/vector_uint2.hpp | 18 + .../include/glm/ext/vector_uint2_sized.hpp | 49 + 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100644 Vulkan/src/Common.h create mode 100644 Vulkan/src/DebugMessenger.h create mode 100644 Vulkan/src/FileSystem.h create mode 100644 Vulkan/src/SwapChain.h create mode 100644 Vulkan/src/main.cpp diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..516effa --- /dev/null +++ b/.gitignore @@ -0,0 +1,7 @@ +Debug/ +Release/ +.vs/ +*/Debug/ +*/Release/ +bin/ +.ycm_extra_conf.py diff --git a/Vulkan.sln b/Vulkan.sln new file mode 100644 index 0000000..9b91ba0 --- /dev/null +++ b/Vulkan.sln @@ -0,0 +1,31 @@ + +Microsoft Visual Studio Solution File, Format Version 12.00 +# Visual Studio Version 17 +VisualStudioVersion = 17.1.32328.378 +MinimumVisualStudioVersion = 10.0.40219.1 +Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "Vulkan", "Vulkan\Vulkan.vcxproj", "{E660A65F-1AD7-4A3B-842B-1E0080FCFC35}" +EndProject +Global + GlobalSection(SolutionConfigurationPlatforms) = preSolution + Debug|x64 = Debug|x64 + Debug|x86 = Debug|x86 + Release|x64 = Release|x64 + Release|x86 = Release|x86 + EndGlobalSection + GlobalSection(ProjectConfigurationPlatforms) = postSolution + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Debug|x64.ActiveCfg = Debug|x64 + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Debug|x64.Build.0 = Debug|x64 + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Debug|x86.ActiveCfg = Debug|Win32 + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Debug|x86.Build.0 = Debug|Win32 + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Release|x64.ActiveCfg = Release|x64 + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Release|x64.Build.0 = Release|x64 + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Release|x86.ActiveCfg = Release|Win32 + {E660A65F-1AD7-4A3B-842B-1E0080FCFC35}.Release|x86.Build.0 = Release|Win32 + EndGlobalSection + GlobalSection(SolutionProperties) = preSolution + HideSolutionNode = FALSE + EndGlobalSection + GlobalSection(ExtensibilityGlobals) = postSolution + SolutionGuid = {8CA46360-3BB7-4DFC-8319-7D4372B4C851} + EndGlobalSection +EndGlobal diff --git a/Vulkan/Vulkan.vcxproj b/Vulkan/Vulkan.vcxproj new file mode 100644 index 0000000..1b57a78 --- /dev/null +++ b/Vulkan/Vulkan.vcxproj @@ -0,0 +1,166 @@ + + + + + Debug + Win32 + + + Release + Win32 + + + Debug + x64 + + + Release + x64 + + + + 16.0 + Win32Proj + {e660a65f-1ad7-4a3b-842b-1e0080fcfc35} + Vulkan + 10.0 + + + + Application + true + v143 + Unicode + + + Application + false + v143 + true + Unicode + + + Application + true + v143 + Unicode + + + Application + false + v143 + true + Unicode + + + + + + + + + + + + + + + + + + + + + true + + + false + + + true + + + false + + + + Level3 + true + WIN32;_DEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + + + Console + true + + + + + Level3 + true + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + + + Console + true + true + true + + + + + Level3 + true + _DEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + $(ProjectDir)ext/include/;C:/VulkanSDK/1.3.236.0/Include;%(AdditionalIncludeDirectories) + stdcpp17 + + + Console + true + $(ProjectDir)ext/lib/;C:/VulkanSDK/1.3.236.0/Lib;%(AdditionalLibraryDirectories) + vulkan-1.lib;glfw3.lib;%(AdditionalDependencies) + + + + + Level3 + true + true + true + NDEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + $(ProjectDir)ext/include/;C:/VulkanSDK/1.3.236.0/Include;%(AdditionalIncludeDirectories) + stdcpp17 + + + Console + true + true + true + $(ProjectDir)ext/lib/;C:/VulkanSDK/1.3.236.0/Lib;%(AdditionalLibraryDirectories) + vulkan-1.lib;glfw3.lib;%(AdditionalDependencies) + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/Vulkan/Vulkan.vcxproj.filters b/Vulkan/Vulkan.vcxproj.filters new file mode 100644 index 0000000..7bdbeb6 --- /dev/null +++ b/Vulkan/Vulkan.vcxproj.filters @@ -0,0 +1,43 @@ + + + + + {4FC737F1-C7A5-4376-A066-2A32D752A2FF} + cpp;c;cc;cxx;c++;cppm;ixx;def;odl;idl;hpj;bat;asm;asmx + + + {93995380-89BD-4b04-88EB-625FBE52EBFB} + h;hh;hpp;hxx;h++;hm;inl;inc;ipp;xsd + + + {67DA6AB6-F800-4c08-8B7A-83BB121AAD01} + rc;ico;cur;bmp;dlg;rc2;rct;bin;rgs;gif;jpg;jpeg;jpe;resx;tiff;tif;png;wav;mfcribbon-ms + + + + + Source Files + + + + + Header Files + + + Header Files + + + Header Files + + + Header Files + + + + + + + Source Files + + + \ No newline at end of file diff --git a/Vulkan/Vulkan.vcxproj.user b/Vulkan/Vulkan.vcxproj.user new file mode 100644 index 0000000..21b8a9b --- /dev/null +++ b/Vulkan/Vulkan.vcxproj.user @@ -0,0 +1,14 @@ + + + + true + + + VK_LAYER_PATH=C:\VulkanSDK\1.3.236.0\Bin + WindowsLocalDebugger + + + VK_LAYER_PATH=C:\VulkanSDK\1.3.236.0\Bin + WindowsLocalDebugger + + \ No newline at end of file diff --git a/Vulkan/ext/include/GLFW/glfw3.h b/Vulkan/ext/include/GLFW/glfw3.h new file mode 100644 index 0000000..31b201a --- /dev/null +++ b/Vulkan/ext/include/GLFW/glfw3.h @@ -0,0 +1,5912 @@ +/************************************************************************* + * GLFW 3.3 - www.glfw.org + * A library for OpenGL, window and input + *------------------------------------------------------------------------ + * Copyright (c) 2002-2006 Marcus Geelnard + * Copyright (c) 2006-2019 Camilla Löwy + * + * This software is provided 'as-is', without any express or implied + * warranty. In no event will the authors be held liable for any damages + * arising from the use of this software. + * + * Permission is granted to anyone to use this software for any purpose, + * including commercial applications, and to alter it and redistribute it + * freely, subject to the following restrictions: + * + * 1. The origin of this software must not be misrepresented; you must not + * claim that you wrote the original software. If you use this software + * in a product, an acknowledgment in the product documentation would + * be appreciated but is not required. + * + * 2. Altered source versions must be plainly marked as such, and must not + * be misrepresented as being the original software. + * + * 3. This notice may not be removed or altered from any source + * distribution. + * + *************************************************************************/ + +#ifndef _glfw3_h_ +#define _glfw3_h_ + +#ifdef __cplusplus +extern "C" { +#endif + + +/************************************************************************* + * Doxygen documentation + *************************************************************************/ + +/*! @file glfw3.h + * @brief The header of the GLFW 3 API. + * + * This is the header file of the GLFW 3 API. It defines all its types and + * declares all its functions. + * + * For more information about how to use this file, see @ref build_include. + */ +/*! @defgroup context Context reference + * @brief Functions and types related to OpenGL and OpenGL ES contexts. + * + * This is the reference documentation for OpenGL and OpenGL ES context related + * functions. For more task-oriented information, see the @ref context_guide. + */ +/*! @defgroup vulkan Vulkan support reference + * @brief Functions and types related to Vulkan. + * + * This is the reference documentation for Vulkan related functions and types. + * For more task-oriented information, see the @ref vulkan_guide. + */ +/*! @defgroup init Initialization, version and error reference + * @brief Functions and types related to initialization and error handling. + * + * This is the reference documentation for initialization and termination of + * the library, version management and error handling. For more task-oriented + * information, see the @ref intro_guide. + */ +/*! @defgroup input Input reference + * @brief Functions and types related to input handling. + * + * This is the reference documentation for input related functions and types. + * For more task-oriented information, see the @ref input_guide. + */ +/*! @defgroup monitor Monitor reference + * @brief Functions and types related to monitors. + * + * This is the reference documentation for monitor related functions and types. + * For more task-oriented information, see the @ref monitor_guide. + */ +/*! @defgroup window Window reference + * @brief Functions and types related to windows. + * + * This is the reference documentation for window related functions and types, + * including creation, deletion and event polling. For more task-oriented + * information, see the @ref window_guide. + */ + + +/************************************************************************* + * Compiler- and platform-specific preprocessor work + *************************************************************************/ + +/* If we are we on Windows, we want a single define for it. + */ +#if !defined(_WIN32) && (defined(__WIN32__) || defined(WIN32) || defined(__MINGW32__)) + #define _WIN32 +#endif /* _WIN32 */ + +/* Include because most Windows GLU headers need wchar_t and + * the macOS OpenGL header blocks the definition of ptrdiff_t by glext.h. + * Include it unconditionally to avoid surprising side-effects. + */ +#include + +/* Include because it is needed by Vulkan and related functions. + * Include it unconditionally to avoid surprising side-effects. + */ +#include + +#if defined(GLFW_INCLUDE_VULKAN) + #include +#endif /* Vulkan header */ + +/* The Vulkan header may have indirectly included windows.h (because of + * VK_USE_PLATFORM_WIN32_KHR) so we offer our replacement symbols after it. + */ + +/* It is customary to use APIENTRY for OpenGL function pointer declarations on + * all platforms. Additionally, the Windows OpenGL header needs APIENTRY. + */ +#if !defined(APIENTRY) + #if defined(_WIN32) + #define APIENTRY __stdcall + #else + #define APIENTRY + #endif + #define GLFW_APIENTRY_DEFINED +#endif /* APIENTRY */ + +/* Some Windows OpenGL headers need this. + */ +#if !defined(WINGDIAPI) && defined(_WIN32) + #define WINGDIAPI __declspec(dllimport) + #define GLFW_WINGDIAPI_DEFINED +#endif /* WINGDIAPI */ + +/* Some Windows GLU headers need this. + */ +#if !defined(CALLBACK) && defined(_WIN32) + #define CALLBACK __stdcall + #define GLFW_CALLBACK_DEFINED +#endif /* CALLBACK */ + +/* Include the chosen OpenGL or OpenGL ES headers. + */ +#if defined(GLFW_INCLUDE_ES1) + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif + +#elif defined(GLFW_INCLUDE_ES2) + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif + +#elif defined(GLFW_INCLUDE_ES3) + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif + +#elif defined(GLFW_INCLUDE_ES31) + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif + +#elif defined(GLFW_INCLUDE_ES32) + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif + +#elif defined(GLFW_INCLUDE_GLCOREARB) + + #if defined(__APPLE__) + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif /*GLFW_INCLUDE_GLEXT*/ + + #else /*__APPLE__*/ + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif + + #endif /*__APPLE__*/ + +#elif defined(GLFW_INCLUDE_GLU) + + #if defined(__APPLE__) + + #if defined(GLFW_INCLUDE_GLU) + #include + #endif + + #else /*__APPLE__*/ + + #if defined(GLFW_INCLUDE_GLU) + #include + #endif + + #endif /*__APPLE__*/ + +#elif !defined(GLFW_INCLUDE_NONE) && \ + !defined(__gl_h_) && \ + !defined(__gles1_gl_h_) && \ + !defined(__gles2_gl2_h_) && \ + !defined(__gles2_gl3_h_) && \ + !defined(__gles2_gl31_h_) && \ + !defined(__gles2_gl32_h_) && \ + !defined(__gl_glcorearb_h_) && \ + !defined(__gl2_h_) /*legacy*/ && \ + !defined(__gl3_h_) /*legacy*/ && \ + !defined(__gl31_h_) /*legacy*/ && \ + !defined(__gl32_h_) /*legacy*/ && \ + !defined(__glcorearb_h_) /*legacy*/ && \ + !defined(__GL_H__) /*non-standard*/ && \ + !defined(__gltypes_h_) /*non-standard*/ && \ + !defined(__glee_h_) /*non-standard*/ + + #if defined(__APPLE__) + + #if !defined(GLFW_INCLUDE_GLEXT) + #define GL_GLEXT_LEGACY + #endif + #include + + #else /*__APPLE__*/ + + #include + #if defined(GLFW_INCLUDE_GLEXT) + #include + #endif + + #endif /*__APPLE__*/ + +#endif /* OpenGL and OpenGL ES headers */ + +#if defined(GLFW_DLL) && defined(_GLFW_BUILD_DLL) + /* GLFW_DLL must be defined by applications that are linking against the DLL + * version of the GLFW library. _GLFW_BUILD_DLL is defined by the GLFW + * configuration header when compiling the DLL version of the library. + */ + #error "You must not have both GLFW_DLL and _GLFW_BUILD_DLL defined" +#endif + +/* GLFWAPI is used to declare public API functions for export + * from the DLL / shared library / dynamic library. + */ +#if defined(_WIN32) && defined(_GLFW_BUILD_DLL) + /* We are building GLFW as a Win32 DLL */ + #define GLFWAPI __declspec(dllexport) +#elif defined(_WIN32) && defined(GLFW_DLL) + /* We are calling a GLFW Win32 DLL */ + #define GLFWAPI __declspec(dllimport) +#elif defined(__GNUC__) && defined(_GLFW_BUILD_DLL) + /* We are building GLFW as a Unix shared library */ + #define GLFWAPI __attribute__((visibility("default"))) +#else + #define GLFWAPI +#endif + + +/************************************************************************* + * GLFW API tokens + *************************************************************************/ + +/*! @name GLFW version macros + * @{ */ +/*! @brief The major version number of the GLFW header. + * + * The major version number of the GLFW header. This is incremented when the + * API is changed in non-compatible ways. + * @ingroup init + */ +#define GLFW_VERSION_MAJOR 3 +/*! @brief The minor version number of the GLFW header. + * + * The minor version number of the GLFW header. This is incremented when + * features are added to the API but it remains backward-compatible. + * @ingroup init + */ +#define GLFW_VERSION_MINOR 3 +/*! @brief The revision number of the GLFW header. + * + * The revision number of the GLFW header. This is incremented when a bug fix + * release is made that does not contain any API changes. + * @ingroup init + */ +#define GLFW_VERSION_REVISION 8 +/*! @} */ + +/*! @brief One. + * + * This is only semantic sugar for the number 1. You can instead use `1` or + * `true` or `_True` or `GL_TRUE` or `VK_TRUE` or anything else that is equal + * to one. + * + * @ingroup init + */ +#define GLFW_TRUE 1 +/*! @brief Zero. + * + * This is only semantic sugar for the number 0. You can instead use `0` or + * `false` or `_False` or `GL_FALSE` or `VK_FALSE` or anything else that is + * equal to zero. + * + * @ingroup init + */ +#define GLFW_FALSE 0 + +/*! @name Key and button actions + * @{ */ +/*! @brief The key or mouse button was released. + * + * The key or mouse button was released. + * + * @ingroup input + */ +#define GLFW_RELEASE 0 +/*! @brief The key or mouse button was pressed. + * + * The key or mouse button was pressed. + * + * @ingroup input + */ +#define GLFW_PRESS 1 +/*! @brief The key was held down until it repeated. + * + * The key was held down until it repeated. + * + * @ingroup input + */ +#define GLFW_REPEAT 2 +/*! @} */ + +/*! @defgroup hat_state Joystick hat states + * @brief Joystick hat states. + * + * See [joystick hat input](@ref joystick_hat) for how these are used. + * + * @ingroup input + * @{ */ +#define GLFW_HAT_CENTERED 0 +#define GLFW_HAT_UP 1 +#define GLFW_HAT_RIGHT 2 +#define GLFW_HAT_DOWN 4 +#define GLFW_HAT_LEFT 8 +#define GLFW_HAT_RIGHT_UP (GLFW_HAT_RIGHT | GLFW_HAT_UP) +#define GLFW_HAT_RIGHT_DOWN (GLFW_HAT_RIGHT | GLFW_HAT_DOWN) +#define GLFW_HAT_LEFT_UP (GLFW_HAT_LEFT | GLFW_HAT_UP) +#define GLFW_HAT_LEFT_DOWN (GLFW_HAT_LEFT | GLFW_HAT_DOWN) +/*! @} */ + +/*! @defgroup keys Keyboard keys + * @brief Keyboard key IDs. + * + * See [key input](@ref input_key) for how these are used. + * + * These key codes are inspired by the _USB HID Usage Tables v1.12_ (p. 53-60), + * but re-arranged to map to 7-bit ASCII for printable keys (function keys are + * put in the 256+ range). + * + * The naming of the key codes follow these rules: + * - The US keyboard layout is used + * - Names of printable alpha-numeric characters are used (e.g. "A", "R", + * "3", etc.) + * - For non-alphanumeric characters, Unicode:ish names are used (e.g. + * "COMMA", "LEFT_SQUARE_BRACKET", etc.). Note that some names do not + * correspond to the Unicode standard (usually for brevity) + * - Keys that lack a clear US mapping are named "WORLD_x" + * - For non-printable keys, custom names are used (e.g. "F4", + * "BACKSPACE", etc.) + * + * @ingroup input + * @{ + */ + +/* The unknown key */ +#define GLFW_KEY_UNKNOWN -1 + +/* Printable keys */ +#define GLFW_KEY_SPACE 32 +#define GLFW_KEY_APOSTROPHE 39 /* ' */ +#define GLFW_KEY_COMMA 44 /* , */ +#define GLFW_KEY_MINUS 45 /* - */ +#define GLFW_KEY_PERIOD 46 /* . */ +#define GLFW_KEY_SLASH 47 /* / */ +#define GLFW_KEY_0 48 +#define GLFW_KEY_1 49 +#define GLFW_KEY_2 50 +#define GLFW_KEY_3 51 +#define GLFW_KEY_4 52 +#define GLFW_KEY_5 53 +#define GLFW_KEY_6 54 +#define GLFW_KEY_7 55 +#define GLFW_KEY_8 56 +#define GLFW_KEY_9 57 +#define GLFW_KEY_SEMICOLON 59 /* ; */ +#define GLFW_KEY_EQUAL 61 /* = */ +#define GLFW_KEY_A 65 +#define GLFW_KEY_B 66 +#define GLFW_KEY_C 67 +#define GLFW_KEY_D 68 +#define GLFW_KEY_E 69 +#define GLFW_KEY_F 70 +#define GLFW_KEY_G 71 +#define GLFW_KEY_H 72 +#define GLFW_KEY_I 73 +#define GLFW_KEY_J 74 +#define GLFW_KEY_K 75 +#define GLFW_KEY_L 76 +#define GLFW_KEY_M 77 +#define GLFW_KEY_N 78 +#define GLFW_KEY_O 79 +#define GLFW_KEY_P 80 +#define GLFW_KEY_Q 81 +#define GLFW_KEY_R 82 +#define GLFW_KEY_S 83 +#define GLFW_KEY_T 84 +#define GLFW_KEY_U 85 +#define GLFW_KEY_V 86 +#define GLFW_KEY_W 87 +#define GLFW_KEY_X 88 +#define GLFW_KEY_Y 89 +#define GLFW_KEY_Z 90 +#define GLFW_KEY_LEFT_BRACKET 91 /* [ */ +#define GLFW_KEY_BACKSLASH 92 /* \ */ +#define GLFW_KEY_RIGHT_BRACKET 93 /* ] */ +#define GLFW_KEY_GRAVE_ACCENT 96 /* ` */ +#define GLFW_KEY_WORLD_1 161 /* non-US #1 */ +#define GLFW_KEY_WORLD_2 162 /* non-US #2 */ + +/* Function keys */ +#define GLFW_KEY_ESCAPE 256 +#define GLFW_KEY_ENTER 257 +#define GLFW_KEY_TAB 258 +#define GLFW_KEY_BACKSPACE 259 +#define GLFW_KEY_INSERT 260 +#define GLFW_KEY_DELETE 261 +#define GLFW_KEY_RIGHT 262 +#define GLFW_KEY_LEFT 263 +#define GLFW_KEY_DOWN 264 +#define GLFW_KEY_UP 265 +#define GLFW_KEY_PAGE_UP 266 +#define GLFW_KEY_PAGE_DOWN 267 +#define GLFW_KEY_HOME 268 +#define GLFW_KEY_END 269 +#define GLFW_KEY_CAPS_LOCK 280 +#define GLFW_KEY_SCROLL_LOCK 281 +#define GLFW_KEY_NUM_LOCK 282 +#define GLFW_KEY_PRINT_SCREEN 283 +#define GLFW_KEY_PAUSE 284 +#define GLFW_KEY_F1 290 +#define GLFW_KEY_F2 291 +#define GLFW_KEY_F3 292 +#define GLFW_KEY_F4 293 +#define GLFW_KEY_F5 294 +#define GLFW_KEY_F6 295 +#define GLFW_KEY_F7 296 +#define GLFW_KEY_F8 297 +#define GLFW_KEY_F9 298 +#define GLFW_KEY_F10 299 +#define GLFW_KEY_F11 300 +#define GLFW_KEY_F12 301 +#define GLFW_KEY_F13 302 +#define GLFW_KEY_F14 303 +#define GLFW_KEY_F15 304 +#define GLFW_KEY_F16 305 +#define GLFW_KEY_F17 306 +#define GLFW_KEY_F18 307 +#define GLFW_KEY_F19 308 +#define GLFW_KEY_F20 309 +#define GLFW_KEY_F21 310 +#define GLFW_KEY_F22 311 +#define GLFW_KEY_F23 312 +#define GLFW_KEY_F24 313 +#define GLFW_KEY_F25 314 +#define GLFW_KEY_KP_0 320 +#define GLFW_KEY_KP_1 321 +#define GLFW_KEY_KP_2 322 +#define GLFW_KEY_KP_3 323 +#define GLFW_KEY_KP_4 324 +#define GLFW_KEY_KP_5 325 +#define GLFW_KEY_KP_6 326 +#define GLFW_KEY_KP_7 327 +#define GLFW_KEY_KP_8 328 +#define GLFW_KEY_KP_9 329 +#define GLFW_KEY_KP_DECIMAL 330 +#define GLFW_KEY_KP_DIVIDE 331 +#define GLFW_KEY_KP_MULTIPLY 332 +#define GLFW_KEY_KP_SUBTRACT 333 +#define GLFW_KEY_KP_ADD 334 +#define GLFW_KEY_KP_ENTER 335 +#define GLFW_KEY_KP_EQUAL 336 +#define GLFW_KEY_LEFT_SHIFT 340 +#define GLFW_KEY_LEFT_CONTROL 341 +#define GLFW_KEY_LEFT_ALT 342 +#define GLFW_KEY_LEFT_SUPER 343 +#define GLFW_KEY_RIGHT_SHIFT 344 +#define GLFW_KEY_RIGHT_CONTROL 345 +#define GLFW_KEY_RIGHT_ALT 346 +#define GLFW_KEY_RIGHT_SUPER 347 +#define GLFW_KEY_MENU 348 + +#define GLFW_KEY_LAST GLFW_KEY_MENU + +/*! @} */ + +/*! @defgroup mods Modifier key flags + * @brief Modifier key flags. + * + * See [key input](@ref input_key) for how these are used. + * + * @ingroup input + * @{ */ + +/*! @brief If this bit is set one or more Shift keys were held down. + * + * If this bit is set one or more Shift keys were held down. + */ +#define GLFW_MOD_SHIFT 0x0001 +/*! @brief If this bit is set one or more Control keys were held down. + * + * If this bit is set one or more Control keys were held down. + */ +#define GLFW_MOD_CONTROL 0x0002 +/*! @brief If this bit is set one or more Alt keys were held down. + * + * If this bit is set one or more Alt keys were held down. + */ +#define GLFW_MOD_ALT 0x0004 +/*! @brief If this bit is set one or more Super keys were held down. + * + * If this bit is set one or more Super keys were held down. + */ +#define GLFW_MOD_SUPER 0x0008 +/*! @brief If this bit is set the Caps Lock key is enabled. + * + * If this bit is set the Caps Lock key is enabled and the @ref + * GLFW_LOCK_KEY_MODS input mode is set. + */ +#define GLFW_MOD_CAPS_LOCK 0x0010 +/*! @brief If this bit is set the Num Lock key is enabled. + * + * If this bit is set the Num Lock key is enabled and the @ref + * GLFW_LOCK_KEY_MODS input mode is set. + */ +#define GLFW_MOD_NUM_LOCK 0x0020 + +/*! @} */ + +/*! @defgroup buttons Mouse buttons + * @brief Mouse button IDs. + * + * See [mouse button input](@ref input_mouse_button) for how these are used. + * + * @ingroup input + * @{ */ +#define GLFW_MOUSE_BUTTON_1 0 +#define GLFW_MOUSE_BUTTON_2 1 +#define GLFW_MOUSE_BUTTON_3 2 +#define GLFW_MOUSE_BUTTON_4 3 +#define GLFW_MOUSE_BUTTON_5 4 +#define GLFW_MOUSE_BUTTON_6 5 +#define GLFW_MOUSE_BUTTON_7 6 +#define GLFW_MOUSE_BUTTON_8 7 +#define GLFW_MOUSE_BUTTON_LAST GLFW_MOUSE_BUTTON_8 +#define GLFW_MOUSE_BUTTON_LEFT GLFW_MOUSE_BUTTON_1 +#define GLFW_MOUSE_BUTTON_RIGHT GLFW_MOUSE_BUTTON_2 +#define GLFW_MOUSE_BUTTON_MIDDLE GLFW_MOUSE_BUTTON_3 +/*! @} */ + +/*! @defgroup joysticks Joysticks + * @brief Joystick IDs. + * + * See [joystick input](@ref joystick) for how these are used. + * + * @ingroup input + * @{ */ +#define GLFW_JOYSTICK_1 0 +#define GLFW_JOYSTICK_2 1 +#define GLFW_JOYSTICK_3 2 +#define GLFW_JOYSTICK_4 3 +#define GLFW_JOYSTICK_5 4 +#define GLFW_JOYSTICK_6 5 +#define GLFW_JOYSTICK_7 6 +#define GLFW_JOYSTICK_8 7 +#define GLFW_JOYSTICK_9 8 +#define GLFW_JOYSTICK_10 9 +#define GLFW_JOYSTICK_11 10 +#define GLFW_JOYSTICK_12 11 +#define GLFW_JOYSTICK_13 12 +#define GLFW_JOYSTICK_14 13 +#define GLFW_JOYSTICK_15 14 +#define GLFW_JOYSTICK_16 15 +#define GLFW_JOYSTICK_LAST GLFW_JOYSTICK_16 +/*! @} */ + +/*! @defgroup gamepad_buttons Gamepad buttons + * @brief Gamepad buttons. + * + * See @ref gamepad for how these are used. + * + * @ingroup input + * @{ */ +#define GLFW_GAMEPAD_BUTTON_A 0 +#define GLFW_GAMEPAD_BUTTON_B 1 +#define GLFW_GAMEPAD_BUTTON_X 2 +#define GLFW_GAMEPAD_BUTTON_Y 3 +#define GLFW_GAMEPAD_BUTTON_LEFT_BUMPER 4 +#define GLFW_GAMEPAD_BUTTON_RIGHT_BUMPER 5 +#define GLFW_GAMEPAD_BUTTON_BACK 6 +#define GLFW_GAMEPAD_BUTTON_START 7 +#define GLFW_GAMEPAD_BUTTON_GUIDE 8 +#define GLFW_GAMEPAD_BUTTON_LEFT_THUMB 9 +#define GLFW_GAMEPAD_BUTTON_RIGHT_THUMB 10 +#define GLFW_GAMEPAD_BUTTON_DPAD_UP 11 +#define GLFW_GAMEPAD_BUTTON_DPAD_RIGHT 12 +#define GLFW_GAMEPAD_BUTTON_DPAD_DOWN 13 +#define GLFW_GAMEPAD_BUTTON_DPAD_LEFT 14 +#define GLFW_GAMEPAD_BUTTON_LAST GLFW_GAMEPAD_BUTTON_DPAD_LEFT + +#define GLFW_GAMEPAD_BUTTON_CROSS GLFW_GAMEPAD_BUTTON_A +#define GLFW_GAMEPAD_BUTTON_CIRCLE GLFW_GAMEPAD_BUTTON_B +#define GLFW_GAMEPAD_BUTTON_SQUARE GLFW_GAMEPAD_BUTTON_X +#define GLFW_GAMEPAD_BUTTON_TRIANGLE GLFW_GAMEPAD_BUTTON_Y +/*! @} */ + +/*! @defgroup gamepad_axes Gamepad axes + * @brief Gamepad axes. + * + * See @ref gamepad for how these are used. + * + * @ingroup input + * @{ */ +#define GLFW_GAMEPAD_AXIS_LEFT_X 0 +#define GLFW_GAMEPAD_AXIS_LEFT_Y 1 +#define GLFW_GAMEPAD_AXIS_RIGHT_X 2 +#define GLFW_GAMEPAD_AXIS_RIGHT_Y 3 +#define GLFW_GAMEPAD_AXIS_LEFT_TRIGGER 4 +#define GLFW_GAMEPAD_AXIS_RIGHT_TRIGGER 5 +#define GLFW_GAMEPAD_AXIS_LAST GLFW_GAMEPAD_AXIS_RIGHT_TRIGGER +/*! @} */ + +/*! @defgroup errors Error codes + * @brief Error codes. + * + * See [error handling](@ref error_handling) for how these are used. + * + * @ingroup init + * @{ */ +/*! @brief No error has occurred. + * + * No error has occurred. + * + * @analysis Yay. + */ +#define GLFW_NO_ERROR 0 +/*! @brief GLFW has not been initialized. + * + * This occurs if a GLFW function was called that must not be called unless the + * library is [initialized](@ref intro_init). + * + * @analysis Application programmer error. Initialize GLFW before calling any + * function that requires initialization. + */ +#define GLFW_NOT_INITIALIZED 0x00010001 +/*! @brief No context is current for this thread. + * + * This occurs if a GLFW function was called that needs and operates on the + * current OpenGL or OpenGL ES context but no context is current on the calling + * thread. One such function is @ref glfwSwapInterval. + * + * @analysis Application programmer error. Ensure a context is current before + * calling functions that require a current context. + */ +#define GLFW_NO_CURRENT_CONTEXT 0x00010002 +/*! @brief One of the arguments to the function was an invalid enum value. + * + * One of the arguments to the function was an invalid enum value, for example + * requesting @ref GLFW_RED_BITS with @ref glfwGetWindowAttrib. + * + * @analysis Application programmer error. Fix the offending call. + */ +#define GLFW_INVALID_ENUM 0x00010003 +/*! @brief One of the arguments to the function was an invalid value. + * + * One of the arguments to the function was an invalid value, for example + * requesting a non-existent OpenGL or OpenGL ES version like 2.7. + * + * Requesting a valid but unavailable OpenGL or OpenGL ES version will instead + * result in a @ref GLFW_VERSION_UNAVAILABLE error. + * + * @analysis Application programmer error. Fix the offending call. + */ +#define GLFW_INVALID_VALUE 0x00010004 +/*! @brief A memory allocation failed. + * + * A memory allocation failed. + * + * @analysis A bug in GLFW or the underlying operating system. Report the bug + * to our [issue tracker](https://github.com/glfw/glfw/issues). + */ +#define GLFW_OUT_OF_MEMORY 0x00010005 +/*! @brief GLFW could not find support for the requested API on the system. + * + * GLFW could not find support for the requested API on the system. + * + * @analysis The installed graphics driver does not support the requested + * API, or does not support it via the chosen context creation backend. + * Below are a few examples. + * + * @par + * Some pre-installed Windows graphics drivers do not support OpenGL. AMD only + * supports OpenGL ES via EGL, while Nvidia and Intel only support it via + * a WGL or GLX extension. macOS does not provide OpenGL ES at all. The Mesa + * EGL, OpenGL and OpenGL ES libraries do not interface with the Nvidia binary + * driver. Older graphics drivers do not support Vulkan. + */ +#define GLFW_API_UNAVAILABLE 0x00010006 +/*! @brief The requested OpenGL or OpenGL ES version is not available. + * + * The requested OpenGL or OpenGL ES version (including any requested context + * or framebuffer hints) is not available on this machine. + * + * @analysis The machine does not support your requirements. If your + * application is sufficiently flexible, downgrade your requirements and try + * again. Otherwise, inform the user that their machine does not match your + * requirements. + * + * @par + * Future invalid OpenGL and OpenGL ES versions, for example OpenGL 4.8 if 5.0 + * comes out before the 4.x series gets that far, also fail with this error and + * not @ref GLFW_INVALID_VALUE, because GLFW cannot know what future versions + * will exist. + */ +#define GLFW_VERSION_UNAVAILABLE 0x00010007 +/*! @brief A platform-specific error occurred that does not match any of the + * more specific categories. + * + * A platform-specific error occurred that does not match any of the more + * specific categories. + * + * @analysis A bug or configuration error in GLFW, the underlying operating + * system or its drivers, or a lack of required resources. Report the issue to + * our [issue tracker](https://github.com/glfw/glfw/issues). + */ +#define GLFW_PLATFORM_ERROR 0x00010008 +/*! @brief The requested format is not supported or available. + * + * If emitted during window creation, the requested pixel format is not + * supported. + * + * If emitted when querying the clipboard, the contents of the clipboard could + * not be converted to the requested format. + * + * @analysis If emitted during window creation, one or more + * [hard constraints](@ref window_hints_hard) did not match any of the + * available pixel formats. If your application is sufficiently flexible, + * downgrade your requirements and try again. Otherwise, inform the user that + * their machine does not match your requirements. + * + * @par + * If emitted when querying the clipboard, ignore the error or report it to + * the user, as appropriate. + */ +#define GLFW_FORMAT_UNAVAILABLE 0x00010009 +/*! @brief The specified window does not have an OpenGL or OpenGL ES context. + * + * A window that does not have an OpenGL or OpenGL ES context was passed to + * a function that requires it to have one. + * + * @analysis Application programmer error. Fix the offending call. + */ +#define GLFW_NO_WINDOW_CONTEXT 0x0001000A +/*! @} */ + +/*! @addtogroup window + * @{ */ +/*! @brief Input focus window hint and attribute + * + * Input focus [window hint](@ref GLFW_FOCUSED_hint) or + * [window attribute](@ref GLFW_FOCUSED_attrib). + */ +#define GLFW_FOCUSED 0x00020001 +/*! @brief Window iconification window attribute + * + * Window iconification [window attribute](@ref GLFW_ICONIFIED_attrib). + */ +#define GLFW_ICONIFIED 0x00020002 +/*! @brief Window resize-ability window hint and attribute + * + * Window resize-ability [window hint](@ref GLFW_RESIZABLE_hint) and + * [window attribute](@ref GLFW_RESIZABLE_attrib). + */ +#define GLFW_RESIZABLE 0x00020003 +/*! @brief Window visibility window hint and attribute + * + * Window visibility [window hint](@ref GLFW_VISIBLE_hint) and + * [window attribute](@ref GLFW_VISIBLE_attrib). + */ +#define GLFW_VISIBLE 0x00020004 +/*! @brief Window decoration window hint and attribute + * + * Window decoration [window hint](@ref GLFW_DECORATED_hint) and + * [window attribute](@ref GLFW_DECORATED_attrib). + */ +#define GLFW_DECORATED 0x00020005 +/*! @brief Window auto-iconification window hint and attribute + * + * Window auto-iconification [window hint](@ref GLFW_AUTO_ICONIFY_hint) and + * [window attribute](@ref GLFW_AUTO_ICONIFY_attrib). + */ +#define GLFW_AUTO_ICONIFY 0x00020006 +/*! @brief Window decoration window hint and attribute + * + * Window decoration [window hint](@ref GLFW_FLOATING_hint) and + * [window attribute](@ref GLFW_FLOATING_attrib). + */ +#define GLFW_FLOATING 0x00020007 +/*! @brief Window maximization window hint and attribute + * + * Window maximization [window hint](@ref GLFW_MAXIMIZED_hint) and + * [window attribute](@ref GLFW_MAXIMIZED_attrib). + */ +#define GLFW_MAXIMIZED 0x00020008 +/*! @brief Cursor centering window hint + * + * Cursor centering [window hint](@ref GLFW_CENTER_CURSOR_hint). + */ +#define GLFW_CENTER_CURSOR 0x00020009 +/*! @brief Window framebuffer transparency hint and attribute + * + * Window framebuffer transparency + * [window hint](@ref GLFW_TRANSPARENT_FRAMEBUFFER_hint) and + * [window attribute](@ref GLFW_TRANSPARENT_FRAMEBUFFER_attrib). + */ +#define GLFW_TRANSPARENT_FRAMEBUFFER 0x0002000A +/*! @brief Mouse cursor hover window attribute. + * + * Mouse cursor hover [window attribute](@ref GLFW_HOVERED_attrib). + */ +#define GLFW_HOVERED 0x0002000B +/*! @brief Input focus on calling show window hint and attribute + * + * Input focus [window hint](@ref GLFW_FOCUS_ON_SHOW_hint) or + * [window attribute](@ref GLFW_FOCUS_ON_SHOW_attrib). + */ +#define GLFW_FOCUS_ON_SHOW 0x0002000C + +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_RED_BITS). + */ +#define GLFW_RED_BITS 0x00021001 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_GREEN_BITS). + */ +#define GLFW_GREEN_BITS 0x00021002 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_BLUE_BITS). + */ +#define GLFW_BLUE_BITS 0x00021003 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_ALPHA_BITS). + */ +#define GLFW_ALPHA_BITS 0x00021004 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_DEPTH_BITS). + */ +#define GLFW_DEPTH_BITS 0x00021005 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_STENCIL_BITS). + */ +#define GLFW_STENCIL_BITS 0x00021006 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_ACCUM_RED_BITS). + */ +#define GLFW_ACCUM_RED_BITS 0x00021007 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_ACCUM_GREEN_BITS). + */ +#define GLFW_ACCUM_GREEN_BITS 0x00021008 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_ACCUM_BLUE_BITS). + */ +#define GLFW_ACCUM_BLUE_BITS 0x00021009 +/*! @brief Framebuffer bit depth hint. + * + * Framebuffer bit depth [hint](@ref GLFW_ACCUM_ALPHA_BITS). + */ +#define GLFW_ACCUM_ALPHA_BITS 0x0002100A +/*! @brief Framebuffer auxiliary buffer hint. + * + * Framebuffer auxiliary buffer [hint](@ref GLFW_AUX_BUFFERS). + */ +#define GLFW_AUX_BUFFERS 0x0002100B +/*! @brief OpenGL stereoscopic rendering hint. + * + * OpenGL stereoscopic rendering [hint](@ref GLFW_STEREO). + */ +#define GLFW_STEREO 0x0002100C +/*! @brief Framebuffer MSAA samples hint. + * + * Framebuffer MSAA samples [hint](@ref GLFW_SAMPLES). + */ +#define GLFW_SAMPLES 0x0002100D +/*! @brief Framebuffer sRGB hint. + * + * Framebuffer sRGB [hint](@ref GLFW_SRGB_CAPABLE). + */ +#define GLFW_SRGB_CAPABLE 0x0002100E +/*! @brief Monitor refresh rate hint. + * + * Monitor refresh rate [hint](@ref GLFW_REFRESH_RATE). + */ +#define GLFW_REFRESH_RATE 0x0002100F +/*! @brief Framebuffer double buffering hint. + * + * Framebuffer double buffering [hint](@ref GLFW_DOUBLEBUFFER). + */ +#define GLFW_DOUBLEBUFFER 0x00021010 + +/*! @brief Context client API hint and attribute. + * + * Context client API [hint](@ref GLFW_CLIENT_API_hint) and + * [attribute](@ref GLFW_CLIENT_API_attrib). + */ +#define GLFW_CLIENT_API 0x00022001 +/*! @brief Context client API major version hint and attribute. + * + * Context client API major version [hint](@ref GLFW_CONTEXT_VERSION_MAJOR_hint) + * and [attribute](@ref GLFW_CONTEXT_VERSION_MAJOR_attrib). + */ +#define GLFW_CONTEXT_VERSION_MAJOR 0x00022002 +/*! @brief Context client API minor version hint and attribute. + * + * Context client API minor version [hint](@ref GLFW_CONTEXT_VERSION_MINOR_hint) + * and [attribute](@ref GLFW_CONTEXT_VERSION_MINOR_attrib). + */ +#define GLFW_CONTEXT_VERSION_MINOR 0x00022003 +/*! @brief Context client API revision number attribute. + * + * Context client API revision number + * [attribute](@ref GLFW_CONTEXT_REVISION_attrib). + */ +#define GLFW_CONTEXT_REVISION 0x00022004 +/*! @brief Context robustness hint and attribute. + * + * Context client API revision number [hint](@ref GLFW_CONTEXT_ROBUSTNESS_hint) + * and [attribute](@ref GLFW_CONTEXT_ROBUSTNESS_attrib). + */ +#define GLFW_CONTEXT_ROBUSTNESS 0x00022005 +/*! @brief OpenGL forward-compatibility hint and attribute. + * + * OpenGL forward-compatibility [hint](@ref GLFW_OPENGL_FORWARD_COMPAT_hint) + * and [attribute](@ref GLFW_OPENGL_FORWARD_COMPAT_attrib). + */ +#define GLFW_OPENGL_FORWARD_COMPAT 0x00022006 +/*! @brief Debug mode context hint and attribute. + * + * Debug mode context [hint](@ref GLFW_OPENGL_DEBUG_CONTEXT_hint) and + * [attribute](@ref GLFW_OPENGL_DEBUG_CONTEXT_attrib). + */ +#define GLFW_OPENGL_DEBUG_CONTEXT 0x00022007 +/*! @brief OpenGL profile hint and attribute. + * + * OpenGL profile [hint](@ref GLFW_OPENGL_PROFILE_hint) and + * [attribute](@ref GLFW_OPENGL_PROFILE_attrib). + */ +#define GLFW_OPENGL_PROFILE 0x00022008 +/*! @brief Context flush-on-release hint and attribute. + * + * Context flush-on-release [hint](@ref GLFW_CONTEXT_RELEASE_BEHAVIOR_hint) and + * [attribute](@ref GLFW_CONTEXT_RELEASE_BEHAVIOR_attrib). + */ +#define GLFW_CONTEXT_RELEASE_BEHAVIOR 0x00022009 +/*! @brief Context error suppression hint and attribute. + * + * Context error suppression [hint](@ref GLFW_CONTEXT_NO_ERROR_hint) and + * [attribute](@ref GLFW_CONTEXT_NO_ERROR_attrib). + */ +#define GLFW_CONTEXT_NO_ERROR 0x0002200A +/*! @brief Context creation API hint and attribute. + * + * Context creation API [hint](@ref GLFW_CONTEXT_CREATION_API_hint) and + * [attribute](@ref GLFW_CONTEXT_CREATION_API_attrib). + */ +#define GLFW_CONTEXT_CREATION_API 0x0002200B +/*! @brief Window content area scaling window + * [window hint](@ref GLFW_SCALE_TO_MONITOR). + */ +#define GLFW_SCALE_TO_MONITOR 0x0002200C +/*! @brief macOS specific + * [window hint](@ref GLFW_COCOA_RETINA_FRAMEBUFFER_hint). + */ +#define GLFW_COCOA_RETINA_FRAMEBUFFER 0x00023001 +/*! @brief macOS specific + * [window hint](@ref GLFW_COCOA_FRAME_NAME_hint). + */ +#define GLFW_COCOA_FRAME_NAME 0x00023002 +/*! @brief macOS specific + * [window hint](@ref GLFW_COCOA_GRAPHICS_SWITCHING_hint). + */ +#define GLFW_COCOA_GRAPHICS_SWITCHING 0x00023003 +/*! @brief X11 specific + * [window hint](@ref GLFW_X11_CLASS_NAME_hint). + */ +#define GLFW_X11_CLASS_NAME 0x00024001 +/*! @brief X11 specific + * [window hint](@ref GLFW_X11_CLASS_NAME_hint). + */ +#define GLFW_X11_INSTANCE_NAME 0x00024002 +/*! @} */ + +#define GLFW_NO_API 0 +#define GLFW_OPENGL_API 0x00030001 +#define GLFW_OPENGL_ES_API 0x00030002 + +#define GLFW_NO_ROBUSTNESS 0 +#define GLFW_NO_RESET_NOTIFICATION 0x00031001 +#define GLFW_LOSE_CONTEXT_ON_RESET 0x00031002 + +#define GLFW_OPENGL_ANY_PROFILE 0 +#define GLFW_OPENGL_CORE_PROFILE 0x00032001 +#define GLFW_OPENGL_COMPAT_PROFILE 0x00032002 + +#define GLFW_CURSOR 0x00033001 +#define GLFW_STICKY_KEYS 0x00033002 +#define GLFW_STICKY_MOUSE_BUTTONS 0x00033003 +#define GLFW_LOCK_KEY_MODS 0x00033004 +#define GLFW_RAW_MOUSE_MOTION 0x00033005 + +#define GLFW_CURSOR_NORMAL 0x00034001 +#define GLFW_CURSOR_HIDDEN 0x00034002 +#define GLFW_CURSOR_DISABLED 0x00034003 + +#define GLFW_ANY_RELEASE_BEHAVIOR 0 +#define GLFW_RELEASE_BEHAVIOR_FLUSH 0x00035001 +#define GLFW_RELEASE_BEHAVIOR_NONE 0x00035002 + +#define GLFW_NATIVE_CONTEXT_API 0x00036001 +#define GLFW_EGL_CONTEXT_API 0x00036002 +#define GLFW_OSMESA_CONTEXT_API 0x00036003 + +/*! @defgroup shapes Standard cursor shapes + * @brief Standard system cursor shapes. + * + * See [standard cursor creation](@ref cursor_standard) for how these are used. + * + * @ingroup input + * @{ */ + +/*! @brief The regular arrow cursor shape. + * + * The regular arrow cursor. + */ +#define GLFW_ARROW_CURSOR 0x00036001 +/*! @brief The text input I-beam cursor shape. + * + * The text input I-beam cursor shape. + */ +#define GLFW_IBEAM_CURSOR 0x00036002 +/*! @brief The crosshair shape. + * + * The crosshair shape. + */ +#define GLFW_CROSSHAIR_CURSOR 0x00036003 +/*! @brief The hand shape. + * + * The hand shape. + */ +#define GLFW_HAND_CURSOR 0x00036004 +/*! @brief The horizontal resize arrow shape. + * + * The horizontal resize arrow shape. + */ +#define GLFW_HRESIZE_CURSOR 0x00036005 +/*! @brief The vertical resize arrow shape. + * + * The vertical resize arrow shape. + */ +#define GLFW_VRESIZE_CURSOR 0x00036006 +/*! @} */ + +#define GLFW_CONNECTED 0x00040001 +#define GLFW_DISCONNECTED 0x00040002 + +/*! @addtogroup init + * @{ */ +/*! @brief Joystick hat buttons init hint. + * + * Joystick hat buttons [init hint](@ref GLFW_JOYSTICK_HAT_BUTTONS). + */ +#define GLFW_JOYSTICK_HAT_BUTTONS 0x00050001 +/*! @brief macOS specific init hint. + * + * macOS specific [init hint](@ref GLFW_COCOA_CHDIR_RESOURCES_hint). + */ +#define GLFW_COCOA_CHDIR_RESOURCES 0x00051001 +/*! @brief macOS specific init hint. + * + * macOS specific [init hint](@ref GLFW_COCOA_MENUBAR_hint). + */ +#define GLFW_COCOA_MENUBAR 0x00051002 +/*! @} */ + +#define GLFW_DONT_CARE -1 + + +/************************************************************************* + * GLFW API types + *************************************************************************/ + +/*! @brief Client API function pointer type. + * + * Generic function pointer used for returning client API function pointers + * without forcing a cast from a regular pointer. + * + * @sa @ref context_glext + * @sa @ref glfwGetProcAddress + * + * @since Added in version 3.0. + * + * @ingroup context + */ +typedef void (*GLFWglproc)(void); + +/*! @brief Vulkan API function pointer type. + * + * Generic function pointer used for returning Vulkan API function pointers + * without forcing a cast from a regular pointer. + * + * @sa @ref vulkan_proc + * @sa @ref glfwGetInstanceProcAddress + * + * @since Added in version 3.2. + * + * @ingroup vulkan + */ +typedef void (*GLFWvkproc)(void); + +/*! @brief Opaque monitor object. + * + * Opaque monitor object. + * + * @see @ref monitor_object + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +typedef struct GLFWmonitor GLFWmonitor; + +/*! @brief Opaque window object. + * + * Opaque window object. + * + * @see @ref window_object + * + * @since Added in version 3.0. + * + * @ingroup window + */ +typedef struct GLFWwindow GLFWwindow; + +/*! @brief Opaque cursor object. + * + * Opaque cursor object. + * + * @see @ref cursor_object + * + * @since Added in version 3.1. + * + * @ingroup input + */ +typedef struct GLFWcursor GLFWcursor; + +/*! @brief The function pointer type for error callbacks. + * + * This is the function pointer type for error callbacks. An error callback + * function has the following signature: + * @code + * void callback_name(int error_code, const char* description) + * @endcode + * + * @param[in] error_code An [error code](@ref errors). Future releases may add + * more error codes. + * @param[in] description A UTF-8 encoded string describing the error. + * + * @pointer_lifetime The error description string is valid until the callback + * function returns. + * + * @sa @ref error_handling + * @sa @ref glfwSetErrorCallback + * + * @since Added in version 3.0. + * + * @ingroup init + */ +typedef void (* GLFWerrorfun)(int error_code, const char* description); + +/*! @brief The function pointer type for window position callbacks. + * + * This is the function pointer type for window position callbacks. A window + * position callback function has the following signature: + * @code + * void callback_name(GLFWwindow* window, int xpos, int ypos) + * @endcode + * + * @param[in] window The window that was moved. + * @param[in] xpos The new x-coordinate, in screen coordinates, of the + * upper-left corner of the content area of the window. + * @param[in] ypos The new y-coordinate, in screen coordinates, of the + * upper-left corner of the content area of the window. + * + * @sa @ref window_pos + * @sa @ref glfwSetWindowPosCallback + * + * @since Added in version 3.0. + * + * @ingroup window + */ +typedef void (* GLFWwindowposfun)(GLFWwindow* window, int xpos, int ypos); + +/*! @brief The function pointer type for window size callbacks. + * + * This is the function pointer type for window size callbacks. A window size + * callback function has the following signature: + * @code + * void callback_name(GLFWwindow* window, int width, int height) + * @endcode + * + * @param[in] window The window that was resized. + * @param[in] width The new width, in screen coordinates, of the window. + * @param[in] height The new height, in screen coordinates, of the window. + * + * @sa @ref window_size + * @sa @ref glfwSetWindowSizeCallback + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +typedef void (* GLFWwindowsizefun)(GLFWwindow* window, int width, int height); + +/*! @brief The function pointer type for window close callbacks. + * + * This is the function pointer type for window close callbacks. A window + * close callback function has the following signature: + * @code + * void function_name(GLFWwindow* window) + * @endcode + * + * @param[in] window The window that the user attempted to close. + * + * @sa @ref window_close + * @sa @ref glfwSetWindowCloseCallback + * + * @since Added in version 2.5. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +typedef void (* GLFWwindowclosefun)(GLFWwindow* window); + +/*! @brief The function pointer type for window content refresh callbacks. + * + * This is the function pointer type for window content refresh callbacks. + * A window content refresh callback function has the following signature: + * @code + * void function_name(GLFWwindow* window); + * @endcode + * + * @param[in] window The window whose content needs to be refreshed. + * + * @sa @ref window_refresh + * @sa @ref glfwSetWindowRefreshCallback + * + * @since Added in version 2.5. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +typedef void (* GLFWwindowrefreshfun)(GLFWwindow* window); + +/*! @brief The function pointer type for window focus callbacks. + * + * This is the function pointer type for window focus callbacks. A window + * focus callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int focused) + * @endcode + * + * @param[in] window The window that gained or lost input focus. + * @param[in] focused `GLFW_TRUE` if the window was given input focus, or + * `GLFW_FALSE` if it lost it. + * + * @sa @ref window_focus + * @sa @ref glfwSetWindowFocusCallback + * + * @since Added in version 3.0. + * + * @ingroup window + */ +typedef void (* GLFWwindowfocusfun)(GLFWwindow* window, int focused); + +/*! @brief The function pointer type for window iconify callbacks. + * + * This is the function pointer type for window iconify callbacks. A window + * iconify callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int iconified) + * @endcode + * + * @param[in] window The window that was iconified or restored. + * @param[in] iconified `GLFW_TRUE` if the window was iconified, or + * `GLFW_FALSE` if it was restored. + * + * @sa @ref window_iconify + * @sa @ref glfwSetWindowIconifyCallback + * + * @since Added in version 3.0. + * + * @ingroup window + */ +typedef void (* GLFWwindowiconifyfun)(GLFWwindow* window, int iconified); + +/*! @brief The function pointer type for window maximize callbacks. + * + * This is the function pointer type for window maximize callbacks. A window + * maximize callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int maximized) + * @endcode + * + * @param[in] window The window that was maximized or restored. + * @param[in] maximized `GLFW_TRUE` if the window was maximized, or + * `GLFW_FALSE` if it was restored. + * + * @sa @ref window_maximize + * @sa glfwSetWindowMaximizeCallback + * + * @since Added in version 3.3. + * + * @ingroup window + */ +typedef void (* GLFWwindowmaximizefun)(GLFWwindow* window, int maximized); + +/*! @brief The function pointer type for framebuffer size callbacks. + * + * This is the function pointer type for framebuffer size callbacks. + * A framebuffer size callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int width, int height) + * @endcode + * + * @param[in] window The window whose framebuffer was resized. + * @param[in] width The new width, in pixels, of the framebuffer. + * @param[in] height The new height, in pixels, of the framebuffer. + * + * @sa @ref window_fbsize + * @sa @ref glfwSetFramebufferSizeCallback + * + * @since Added in version 3.0. + * + * @ingroup window + */ +typedef void (* GLFWframebuffersizefun)(GLFWwindow* window, int width, int height); + +/*! @brief The function pointer type for window content scale callbacks. + * + * This is the function pointer type for window content scale callbacks. + * A window content scale callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, float xscale, float yscale) + * @endcode + * + * @param[in] window The window whose content scale changed. + * @param[in] xscale The new x-axis content scale of the window. + * @param[in] yscale The new y-axis content scale of the window. + * + * @sa @ref window_scale + * @sa @ref glfwSetWindowContentScaleCallback + * + * @since Added in version 3.3. + * + * @ingroup window + */ +typedef void (* GLFWwindowcontentscalefun)(GLFWwindow* window, float xscale, float yscale); + +/*! @brief The function pointer type for mouse button callbacks. + * + * This is the function pointer type for mouse button callback functions. + * A mouse button callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int button, int action, int mods) + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] button The [mouse button](@ref buttons) that was pressed or + * released. + * @param[in] action One of `GLFW_PRESS` or `GLFW_RELEASE`. Future releases + * may add more actions. + * @param[in] mods Bit field describing which [modifier keys](@ref mods) were + * held down. + * + * @sa @ref input_mouse_button + * @sa @ref glfwSetMouseButtonCallback + * + * @since Added in version 1.0. + * @glfw3 Added window handle and modifier mask parameters. + * + * @ingroup input + */ +typedef void (* GLFWmousebuttonfun)(GLFWwindow* window, int button, int action, int mods); + +/*! @brief The function pointer type for cursor position callbacks. + * + * This is the function pointer type for cursor position callbacks. A cursor + * position callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, double xpos, double ypos); + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] xpos The new cursor x-coordinate, relative to the left edge of + * the content area. + * @param[in] ypos The new cursor y-coordinate, relative to the top edge of the + * content area. + * + * @sa @ref cursor_pos + * @sa @ref glfwSetCursorPosCallback + * + * @since Added in version 3.0. Replaces `GLFWmouseposfun`. + * + * @ingroup input + */ +typedef void (* GLFWcursorposfun)(GLFWwindow* window, double xpos, double ypos); + +/*! @brief The function pointer type for cursor enter/leave callbacks. + * + * This is the function pointer type for cursor enter/leave callbacks. + * A cursor enter/leave callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int entered) + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] entered `GLFW_TRUE` if the cursor entered the window's content + * area, or `GLFW_FALSE` if it left it. + * + * @sa @ref cursor_enter + * @sa @ref glfwSetCursorEnterCallback + * + * @since Added in version 3.0. + * + * @ingroup input + */ +typedef void (* GLFWcursorenterfun)(GLFWwindow* window, int entered); + +/*! @brief The function pointer type for scroll callbacks. + * + * This is the function pointer type for scroll callbacks. A scroll callback + * function has the following signature: + * @code + * void function_name(GLFWwindow* window, double xoffset, double yoffset) + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] xoffset The scroll offset along the x-axis. + * @param[in] yoffset The scroll offset along the y-axis. + * + * @sa @ref scrolling + * @sa @ref glfwSetScrollCallback + * + * @since Added in version 3.0. Replaces `GLFWmousewheelfun`. + * + * @ingroup input + */ +typedef void (* GLFWscrollfun)(GLFWwindow* window, double xoffset, double yoffset); + +/*! @brief The function pointer type for keyboard key callbacks. + * + * This is the function pointer type for keyboard key callbacks. A keyboard + * key callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int key, int scancode, int action, int mods) + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] key The [keyboard key](@ref keys) that was pressed or released. + * @param[in] scancode The system-specific scancode of the key. + * @param[in] action `GLFW_PRESS`, `GLFW_RELEASE` or `GLFW_REPEAT`. Future + * releases may add more actions. + * @param[in] mods Bit field describing which [modifier keys](@ref mods) were + * held down. + * + * @sa @ref input_key + * @sa @ref glfwSetKeyCallback + * + * @since Added in version 1.0. + * @glfw3 Added window handle, scancode and modifier mask parameters. + * + * @ingroup input + */ +typedef void (* GLFWkeyfun)(GLFWwindow* window, int key, int scancode, int action, int mods); + +/*! @brief The function pointer type for Unicode character callbacks. + * + * This is the function pointer type for Unicode character callbacks. + * A Unicode character callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, unsigned int codepoint) + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] codepoint The Unicode code point of the character. + * + * @sa @ref input_char + * @sa @ref glfwSetCharCallback + * + * @since Added in version 2.4. + * @glfw3 Added window handle parameter. + * + * @ingroup input + */ +typedef void (* GLFWcharfun)(GLFWwindow* window, unsigned int codepoint); + +/*! @brief The function pointer type for Unicode character with modifiers + * callbacks. + * + * This is the function pointer type for Unicode character with modifiers + * callbacks. It is called for each input character, regardless of what + * modifier keys are held down. A Unicode character with modifiers callback + * function has the following signature: + * @code + * void function_name(GLFWwindow* window, unsigned int codepoint, int mods) + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] codepoint The Unicode code point of the character. + * @param[in] mods Bit field describing which [modifier keys](@ref mods) were + * held down. + * + * @sa @ref input_char + * @sa @ref glfwSetCharModsCallback + * + * @deprecated Scheduled for removal in version 4.0. + * + * @since Added in version 3.1. + * + * @ingroup input + */ +typedef void (* GLFWcharmodsfun)(GLFWwindow* window, unsigned int codepoint, int mods); + +/*! @brief The function pointer type for path drop callbacks. + * + * This is the function pointer type for path drop callbacks. A path drop + * callback function has the following signature: + * @code + * void function_name(GLFWwindow* window, int path_count, const char* paths[]) + * @endcode + * + * @param[in] window The window that received the event. + * @param[in] path_count The number of dropped paths. + * @param[in] paths The UTF-8 encoded file and/or directory path names. + * + * @pointer_lifetime The path array and its strings are valid until the + * callback function returns. + * + * @sa @ref path_drop + * @sa @ref glfwSetDropCallback + * + * @since Added in version 3.1. + * + * @ingroup input + */ +typedef void (* GLFWdropfun)(GLFWwindow* window, int path_count, const char* paths[]); + +/*! @brief The function pointer type for monitor configuration callbacks. + * + * This is the function pointer type for monitor configuration callbacks. + * A monitor callback function has the following signature: + * @code + * void function_name(GLFWmonitor* monitor, int event) + * @endcode + * + * @param[in] monitor The monitor that was connected or disconnected. + * @param[in] event One of `GLFW_CONNECTED` or `GLFW_DISCONNECTED`. Future + * releases may add more events. + * + * @sa @ref monitor_event + * @sa @ref glfwSetMonitorCallback + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +typedef void (* GLFWmonitorfun)(GLFWmonitor* monitor, int event); + +/*! @brief The function pointer type for joystick configuration callbacks. + * + * This is the function pointer type for joystick configuration callbacks. + * A joystick configuration callback function has the following signature: + * @code + * void function_name(int jid, int event) + * @endcode + * + * @param[in] jid The joystick that was connected or disconnected. + * @param[in] event One of `GLFW_CONNECTED` or `GLFW_DISCONNECTED`. Future + * releases may add more events. + * + * @sa @ref joystick_event + * @sa @ref glfwSetJoystickCallback + * + * @since Added in version 3.2. + * + * @ingroup input + */ +typedef void (* GLFWjoystickfun)(int jid, int event); + +/*! @brief Video mode type. + * + * This describes a single video mode. + * + * @sa @ref monitor_modes + * @sa @ref glfwGetVideoMode + * @sa @ref glfwGetVideoModes + * + * @since Added in version 1.0. + * @glfw3 Added refresh rate member. + * + * @ingroup monitor + */ +typedef struct GLFWvidmode +{ + /*! The width, in screen coordinates, of the video mode. + */ + int width; + /*! The height, in screen coordinates, of the video mode. + */ + int height; + /*! The bit depth of the red channel of the video mode. + */ + int redBits; + /*! The bit depth of the green channel of the video mode. + */ + int greenBits; + /*! The bit depth of the blue channel of the video mode. + */ + int blueBits; + /*! The refresh rate, in Hz, of the video mode. + */ + int refreshRate; +} GLFWvidmode; + +/*! @brief Gamma ramp. + * + * This describes the gamma ramp for a monitor. + * + * @sa @ref monitor_gamma + * @sa @ref glfwGetGammaRamp + * @sa @ref glfwSetGammaRamp + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +typedef struct GLFWgammaramp +{ + /*! An array of value describing the response of the red channel. + */ + unsigned short* red; + /*! An array of value describing the response of the green channel. + */ + unsigned short* green; + /*! An array of value describing the response of the blue channel. + */ + unsigned short* blue; + /*! The number of elements in each array. + */ + unsigned int size; +} GLFWgammaramp; + +/*! @brief Image data. + * + * This describes a single 2D image. See the documentation for each related + * function what the expected pixel format is. + * + * @sa @ref cursor_custom + * @sa @ref window_icon + * + * @since Added in version 2.1. + * @glfw3 Removed format and bytes-per-pixel members. + * + * @ingroup window + */ +typedef struct GLFWimage +{ + /*! The width, in pixels, of this image. + */ + int width; + /*! The height, in pixels, of this image. + */ + int height; + /*! The pixel data of this image, arranged left-to-right, top-to-bottom. + */ + unsigned char* pixels; +} GLFWimage; + +/*! @brief Gamepad input state + * + * This describes the input state of a gamepad. + * + * @sa @ref gamepad + * @sa @ref glfwGetGamepadState + * + * @since Added in version 3.3. + * + * @ingroup input + */ +typedef struct GLFWgamepadstate +{ + /*! The states of each [gamepad button](@ref gamepad_buttons), `GLFW_PRESS` + * or `GLFW_RELEASE`. + */ + unsigned char buttons[15]; + /*! The states of each [gamepad axis](@ref gamepad_axes), in the range -1.0 + * to 1.0 inclusive. + */ + float axes[6]; +} GLFWgamepadstate; + + +/************************************************************************* + * GLFW API functions + *************************************************************************/ + +/*! @brief Initializes the GLFW library. + * + * This function initializes the GLFW library. Before most GLFW functions can + * be used, GLFW must be initialized, and before an application terminates GLFW + * should be terminated in order to free any resources allocated during or + * after initialization. + * + * If this function fails, it calls @ref glfwTerminate before returning. If it + * succeeds, you should call @ref glfwTerminate before the application exits. + * + * Additional calls to this function after successful initialization but before + * termination will return `GLFW_TRUE` immediately. + * + * @return `GLFW_TRUE` if successful, or `GLFW_FALSE` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_PLATFORM_ERROR. + * + * @remark @macos This function will change the current directory of the + * application to the `Contents/Resources` subdirectory of the application's + * bundle, if present. This can be disabled with the @ref + * GLFW_COCOA_CHDIR_RESOURCES init hint. + * + * @remark @x11 This function will set the `LC_CTYPE` category of the + * application locale according to the current environment if that category is + * still "C". This is because the "C" locale breaks Unicode text input. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref intro_init + * @sa @ref glfwTerminate + * + * @since Added in version 1.0. + * + * @ingroup init + */ +GLFWAPI int glfwInit(void); + +/*! @brief Terminates the GLFW library. + * + * This function destroys all remaining windows and cursors, restores any + * modified gamma ramps and frees any other allocated resources. Once this + * function is called, you must again call @ref glfwInit successfully before + * you will be able to use most GLFW functions. + * + * If GLFW has been successfully initialized, this function should be called + * before the application exits. If initialization fails, there is no need to + * call this function, as it is called by @ref glfwInit before it returns + * failure. + * + * This function has no effect if GLFW is not initialized. + * + * @errors Possible errors include @ref GLFW_PLATFORM_ERROR. + * + * @remark This function may be called before @ref glfwInit. + * + * @warning The contexts of any remaining windows must not be current on any + * other thread when this function is called. + * + * @reentrancy This function must not be called from a callback. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref intro_init + * @sa @ref glfwInit + * + * @since Added in version 1.0. + * + * @ingroup init + */ +GLFWAPI void glfwTerminate(void); + +/*! @brief Sets the specified init hint to the desired value. + * + * This function sets hints for the next initialization of GLFW. + * + * The values you set hints to are never reset by GLFW, but they only take + * effect during initialization. Once GLFW has been initialized, any values + * you set will be ignored until the library is terminated and initialized + * again. + * + * Some hints are platform specific. These may be set on any platform but they + * will only affect their specific platform. Other platforms will ignore them. + * Setting these hints requires no platform specific headers or functions. + * + * @param[in] hint The [init hint](@ref init_hints) to set. + * @param[in] value The new value of the init hint. + * + * @errors Possible errors include @ref GLFW_INVALID_ENUM and @ref + * GLFW_INVALID_VALUE. + * + * @remarks This function may be called before @ref glfwInit. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa init_hints + * @sa glfwInit + * + * @since Added in version 3.3. + * + * @ingroup init + */ +GLFWAPI void glfwInitHint(int hint, int value); + +/*! @brief Retrieves the version of the GLFW library. + * + * This function retrieves the major, minor and revision numbers of the GLFW + * library. It is intended for when you are using GLFW as a shared library and + * want to ensure that you are using the minimum required version. + * + * Any or all of the version arguments may be `NULL`. + * + * @param[out] major Where to store the major version number, or `NULL`. + * @param[out] minor Where to store the minor version number, or `NULL`. + * @param[out] rev Where to store the revision number, or `NULL`. + * + * @errors None. + * + * @remark This function may be called before @ref glfwInit. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref intro_version + * @sa @ref glfwGetVersionString + * + * @since Added in version 1.0. + * + * @ingroup init + */ +GLFWAPI void glfwGetVersion(int* major, int* minor, int* rev); + +/*! @brief Returns a string describing the compile-time configuration. + * + * This function returns the compile-time generated + * [version string](@ref intro_version_string) of the GLFW library binary. It + * describes the version, platform, compiler and any platform-specific + * compile-time options. It should not be confused with the OpenGL or OpenGL + * ES version string, queried with `glGetString`. + * + * __Do not use the version string__ to parse the GLFW library version. The + * @ref glfwGetVersion function provides the version of the running library + * binary in numerical format. + * + * @return The ASCII encoded GLFW version string. + * + * @errors None. + * + * @remark This function may be called before @ref glfwInit. + * + * @pointer_lifetime The returned string is static and compile-time generated. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref intro_version + * @sa @ref glfwGetVersion + * + * @since Added in version 3.0. + * + * @ingroup init + */ +GLFWAPI const char* glfwGetVersionString(void); + +/*! @brief Returns and clears the last error for the calling thread. + * + * This function returns and clears the [error code](@ref errors) of the last + * error that occurred on the calling thread, and optionally a UTF-8 encoded + * human-readable description of it. If no error has occurred since the last + * call, it returns @ref GLFW_NO_ERROR (zero) and the description pointer is + * set to `NULL`. + * + * @param[in] description Where to store the error description pointer, or `NULL`. + * @return The last error code for the calling thread, or @ref GLFW_NO_ERROR + * (zero). + * + * @errors None. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is guaranteed to be valid only until the + * next error occurs or the library is terminated. + * + * @remark This function may be called before @ref glfwInit. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref error_handling + * @sa @ref glfwSetErrorCallback + * + * @since Added in version 3.3. + * + * @ingroup init + */ +GLFWAPI int glfwGetError(const char** description); + +/*! @brief Sets the error callback. + * + * This function sets the error callback, which is called with an error code + * and a human-readable description each time a GLFW error occurs. + * + * The error code is set before the callback is called. Calling @ref + * glfwGetError from the error callback will return the same value as the error + * code argument. + * + * The error callback is called on the thread where the error occurred. If you + * are using GLFW from multiple threads, your error callback needs to be + * written accordingly. + * + * Because the description string may have been generated specifically for that + * error, it is not guaranteed to be valid after the callback has returned. If + * you wish to use it after the callback returns, you need to make a copy. + * + * Once set, the error callback remains set even after the library has been + * terminated. + * + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set. + * + * @callback_signature + * @code + * void callback_name(int error_code, const char* description) + * @endcode + * For more information about the callback parameters, see the + * [callback pointer type](@ref GLFWerrorfun). + * + * @errors None. + * + * @remark This function may be called before @ref glfwInit. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref error_handling + * @sa @ref glfwGetError + * + * @since Added in version 3.0. + * + * @ingroup init + */ +GLFWAPI GLFWerrorfun glfwSetErrorCallback(GLFWerrorfun callback); + +/*! @brief Returns the currently connected monitors. + * + * This function returns an array of handles for all currently connected + * monitors. The primary monitor is always first in the returned array. If no + * monitors were found, this function returns `NULL`. + * + * @param[out] count Where to store the number of monitors in the returned + * array. This is set to zero if an error occurred. + * @return An array of monitor handles, or `NULL` if no monitors were found or + * if an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @pointer_lifetime The returned array is allocated and freed by GLFW. You + * should not free it yourself. It is guaranteed to be valid only until the + * monitor configuration changes or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_monitors + * @sa @ref monitor_event + * @sa @ref glfwGetPrimaryMonitor + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI GLFWmonitor** glfwGetMonitors(int* count); + +/*! @brief Returns the primary monitor. + * + * This function returns the primary monitor. This is usually the monitor + * where elements like the task bar or global menu bar are located. + * + * @return The primary monitor, or `NULL` if no monitors were found or if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @remark The primary monitor is always first in the array returned by @ref + * glfwGetMonitors. + * + * @sa @ref monitor_monitors + * @sa @ref glfwGetMonitors + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI GLFWmonitor* glfwGetPrimaryMonitor(void); + +/*! @brief Returns the position of the monitor's viewport on the virtual screen. + * + * This function returns the position, in screen coordinates, of the upper-left + * corner of the specified monitor. + * + * Any or all of the position arguments may be `NULL`. If an error occurs, all + * non-`NULL` position arguments will be set to zero. + * + * @param[in] monitor The monitor to query. + * @param[out] xpos Where to store the monitor x-coordinate, or `NULL`. + * @param[out] ypos Where to store the monitor y-coordinate, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_properties + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI void glfwGetMonitorPos(GLFWmonitor* monitor, int* xpos, int* ypos); + +/*! @brief Retrieves the work area of the monitor. + * + * This function returns the position, in screen coordinates, of the upper-left + * corner of the work area of the specified monitor along with the work area + * size in screen coordinates. The work area is defined as the area of the + * monitor not occluded by the operating system task bar where present. If no + * task bar exists then the work area is the monitor resolution in screen + * coordinates. + * + * Any or all of the position and size arguments may be `NULL`. If an error + * occurs, all non-`NULL` position and size arguments will be set to zero. + * + * @param[in] monitor The monitor to query. + * @param[out] xpos Where to store the monitor x-coordinate, or `NULL`. + * @param[out] ypos Where to store the monitor y-coordinate, or `NULL`. + * @param[out] width Where to store the monitor width, or `NULL`. + * @param[out] height Where to store the monitor height, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_workarea + * + * @since Added in version 3.3. + * + * @ingroup monitor + */ +GLFWAPI void glfwGetMonitorWorkarea(GLFWmonitor* monitor, int* xpos, int* ypos, int* width, int* height); + +/*! @brief Returns the physical size of the monitor. + * + * This function returns the size, in millimetres, of the display area of the + * specified monitor. + * + * Some systems do not provide accurate monitor size information, either + * because the monitor + * [EDID](https://en.wikipedia.org/wiki/Extended_display_identification_data) + * data is incorrect or because the driver does not report it accurately. + * + * Any or all of the size arguments may be `NULL`. If an error occurs, all + * non-`NULL` size arguments will be set to zero. + * + * @param[in] monitor The monitor to query. + * @param[out] widthMM Where to store the width, in millimetres, of the + * monitor's display area, or `NULL`. + * @param[out] heightMM Where to store the height, in millimetres, of the + * monitor's display area, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @remark @win32 On Windows 8 and earlier the physical size is calculated from + * the current resolution and system DPI instead of querying the monitor EDID data. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_properties + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI void glfwGetMonitorPhysicalSize(GLFWmonitor* monitor, int* widthMM, int* heightMM); + +/*! @brief Retrieves the content scale for the specified monitor. + * + * This function retrieves the content scale for the specified monitor. The + * content scale is the ratio between the current DPI and the platform's + * default DPI. This is especially important for text and any UI elements. If + * the pixel dimensions of your UI scaled by this look appropriate on your + * machine then it should appear at a reasonable size on other machines + * regardless of their DPI and scaling settings. This relies on the system DPI + * and scaling settings being somewhat correct. + * + * The content scale may depend on both the monitor resolution and pixel + * density and on user settings. It may be very different from the raw DPI + * calculated from the physical size and current resolution. + * + * @param[in] monitor The monitor to query. + * @param[out] xscale Where to store the x-axis content scale, or `NULL`. + * @param[out] yscale Where to store the y-axis content scale, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_scale + * @sa @ref glfwGetWindowContentScale + * + * @since Added in version 3.3. + * + * @ingroup monitor + */ +GLFWAPI void glfwGetMonitorContentScale(GLFWmonitor* monitor, float* xscale, float* yscale); + +/*! @brief Returns the name of the specified monitor. + * + * This function returns a human-readable name, encoded as UTF-8, of the + * specified monitor. The name typically reflects the make and model of the + * monitor and is not guaranteed to be unique among the connected monitors. + * + * @param[in] monitor The monitor to query. + * @return The UTF-8 encoded name of the monitor, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified monitor is + * disconnected or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_properties + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI const char* glfwGetMonitorName(GLFWmonitor* monitor); + +/*! @brief Sets the user pointer of the specified monitor. + * + * This function sets the user-defined pointer of the specified monitor. The + * current value is retained until the monitor is disconnected. The initial + * value is `NULL`. + * + * This function may be called from the monitor callback, even for a monitor + * that is being disconnected. + * + * @param[in] monitor The monitor whose pointer to set. + * @param[in] pointer The new value. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref monitor_userptr + * @sa @ref glfwGetMonitorUserPointer + * + * @since Added in version 3.3. + * + * @ingroup monitor + */ +GLFWAPI void glfwSetMonitorUserPointer(GLFWmonitor* monitor, void* pointer); + +/*! @brief Returns the user pointer of the specified monitor. + * + * This function returns the current value of the user-defined pointer of the + * specified monitor. The initial value is `NULL`. + * + * This function may be called from the monitor callback, even for a monitor + * that is being disconnected. + * + * @param[in] monitor The monitor whose pointer to return. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref monitor_userptr + * @sa @ref glfwSetMonitorUserPointer + * + * @since Added in version 3.3. + * + * @ingroup monitor + */ +GLFWAPI void* glfwGetMonitorUserPointer(GLFWmonitor* monitor); + +/*! @brief Sets the monitor configuration callback. + * + * This function sets the monitor configuration callback, or removes the + * currently set callback. This is called when a monitor is connected to or + * disconnected from the system. + * + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWmonitor* monitor, int event) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWmonitorfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_event + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI GLFWmonitorfun glfwSetMonitorCallback(GLFWmonitorfun callback); + +/*! @brief Returns the available video modes for the specified monitor. + * + * This function returns an array of all video modes supported by the specified + * monitor. The returned array is sorted in ascending order, first by color + * bit depth (the sum of all channel depths), then by resolution area (the + * product of width and height), then resolution width and finally by refresh + * rate. + * + * @param[in] monitor The monitor to query. + * @param[out] count Where to store the number of video modes in the returned + * array. This is set to zero if an error occurred. + * @return An array of video modes, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned array is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified monitor is + * disconnected, this function is called again for that monitor or the library + * is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_modes + * @sa @ref glfwGetVideoMode + * + * @since Added in version 1.0. + * @glfw3 Changed to return an array of modes for a specific monitor. + * + * @ingroup monitor + */ +GLFWAPI const GLFWvidmode* glfwGetVideoModes(GLFWmonitor* monitor, int* count); + +/*! @brief Returns the current mode of the specified monitor. + * + * This function returns the current video mode of the specified monitor. If + * you have created a full screen window for that monitor, the return value + * will depend on whether that window is iconified. + * + * @param[in] monitor The monitor to query. + * @return The current mode of the monitor, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned array is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified monitor is + * disconnected or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_modes + * @sa @ref glfwGetVideoModes + * + * @since Added in version 3.0. Replaces `glfwGetDesktopMode`. + * + * @ingroup monitor + */ +GLFWAPI const GLFWvidmode* glfwGetVideoMode(GLFWmonitor* monitor); + +/*! @brief Generates a gamma ramp and sets it for the specified monitor. + * + * This function generates an appropriately sized gamma ramp from the specified + * exponent and then calls @ref glfwSetGammaRamp with it. The value must be + * a finite number greater than zero. + * + * The software controlled gamma ramp is applied _in addition_ to the hardware + * gamma correction, which today is usually an approximation of sRGB gamma. + * This means that setting a perfectly linear ramp, or gamma 1.0, will produce + * the default (usually sRGB-like) behavior. + * + * For gamma correct rendering with OpenGL or OpenGL ES, see the @ref + * GLFW_SRGB_CAPABLE hint. + * + * @param[in] monitor The monitor whose gamma ramp to set. + * @param[in] gamma The desired exponent. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_VALUE and @ref GLFW_PLATFORM_ERROR. + * + * @remark @wayland Gamma handling is a privileged protocol, this function + * will thus never be implemented and emits @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_gamma + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI void glfwSetGamma(GLFWmonitor* monitor, float gamma); + +/*! @brief Returns the current gamma ramp for the specified monitor. + * + * This function returns the current gamma ramp of the specified monitor. + * + * @param[in] monitor The monitor to query. + * @return The current gamma ramp, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @wayland Gamma handling is a privileged protocol, this function + * will thus never be implemented and emits @ref GLFW_PLATFORM_ERROR while + * returning `NULL`. + * + * @pointer_lifetime The returned structure and its arrays are allocated and + * freed by GLFW. You should not free them yourself. They are valid until the + * specified monitor is disconnected, this function is called again for that + * monitor or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_gamma + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI const GLFWgammaramp* glfwGetGammaRamp(GLFWmonitor* monitor); + +/*! @brief Sets the current gamma ramp for the specified monitor. + * + * This function sets the current gamma ramp for the specified monitor. The + * original gamma ramp for that monitor is saved by GLFW the first time this + * function is called and is restored by @ref glfwTerminate. + * + * The software controlled gamma ramp is applied _in addition_ to the hardware + * gamma correction, which today is usually an approximation of sRGB gamma. + * This means that setting a perfectly linear ramp, or gamma 1.0, will produce + * the default (usually sRGB-like) behavior. + * + * For gamma correct rendering with OpenGL or OpenGL ES, see the @ref + * GLFW_SRGB_CAPABLE hint. + * + * @param[in] monitor The monitor whose gamma ramp to set. + * @param[in] ramp The gamma ramp to use. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark The size of the specified gamma ramp should match the size of the + * current ramp for that monitor. + * + * @remark @win32 The gamma ramp size must be 256. + * + * @remark @wayland Gamma handling is a privileged protocol, this function + * will thus never be implemented and emits @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The specified gamma ramp is copied before this function + * returns. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref monitor_gamma + * + * @since Added in version 3.0. + * + * @ingroup monitor + */ +GLFWAPI void glfwSetGammaRamp(GLFWmonitor* monitor, const GLFWgammaramp* ramp); + +/*! @brief Resets all window hints to their default values. + * + * This function resets all window hints to their + * [default values](@ref window_hints_values). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_hints + * @sa @ref glfwWindowHint + * @sa @ref glfwWindowHintString + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void glfwDefaultWindowHints(void); + +/*! @brief Sets the specified window hint to the desired value. + * + * This function sets hints for the next call to @ref glfwCreateWindow. The + * hints, once set, retain their values until changed by a call to this + * function or @ref glfwDefaultWindowHints, or until the library is terminated. + * + * Only integer value hints can be set with this function. String value hints + * are set with @ref glfwWindowHintString. + * + * This function does not check whether the specified hint values are valid. + * If you set hints to invalid values this will instead be reported by the next + * call to @ref glfwCreateWindow. + * + * Some hints are platform specific. These may be set on any platform but they + * will only affect their specific platform. Other platforms will ignore them. + * Setting these hints requires no platform specific headers or functions. + * + * @param[in] hint The [window hint](@ref window_hints) to set. + * @param[in] value The new value of the window hint. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_ENUM. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_hints + * @sa @ref glfwWindowHintString + * @sa @ref glfwDefaultWindowHints + * + * @since Added in version 3.0. Replaces `glfwOpenWindowHint`. + * + * @ingroup window + */ +GLFWAPI void glfwWindowHint(int hint, int value); + +/*! @brief Sets the specified window hint to the desired value. + * + * This function sets hints for the next call to @ref glfwCreateWindow. The + * hints, once set, retain their values until changed by a call to this + * function or @ref glfwDefaultWindowHints, or until the library is terminated. + * + * Only string type hints can be set with this function. Integer value hints + * are set with @ref glfwWindowHint. + * + * This function does not check whether the specified hint values are valid. + * If you set hints to invalid values this will instead be reported by the next + * call to @ref glfwCreateWindow. + * + * Some hints are platform specific. These may be set on any platform but they + * will only affect their specific platform. Other platforms will ignore them. + * Setting these hints requires no platform specific headers or functions. + * + * @param[in] hint The [window hint](@ref window_hints) to set. + * @param[in] value The new value of the window hint. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_ENUM. + * + * @pointer_lifetime The specified string is copied before this function + * returns. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_hints + * @sa @ref glfwWindowHint + * @sa @ref glfwDefaultWindowHints + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI void glfwWindowHintString(int hint, const char* value); + +/*! @brief Creates a window and its associated context. + * + * This function creates a window and its associated OpenGL or OpenGL ES + * context. Most of the options controlling how the window and its context + * should be created are specified with [window hints](@ref window_hints). + * + * Successful creation does not change which context is current. Before you + * can use the newly created context, you need to + * [make it current](@ref context_current). For information about the `share` + * parameter, see @ref context_sharing. + * + * The created window, framebuffer and context may differ from what you + * requested, as not all parameters and hints are + * [hard constraints](@ref window_hints_hard). This includes the size of the + * window, especially for full screen windows. To query the actual attributes + * of the created window, framebuffer and context, see @ref + * glfwGetWindowAttrib, @ref glfwGetWindowSize and @ref glfwGetFramebufferSize. + * + * To create a full screen window, you need to specify the monitor the window + * will cover. If no monitor is specified, the window will be windowed mode. + * Unless you have a way for the user to choose a specific monitor, it is + * recommended that you pick the primary monitor. For more information on how + * to query connected monitors, see @ref monitor_monitors. + * + * For full screen windows, the specified size becomes the resolution of the + * window's _desired video mode_. As long as a full screen window is not + * iconified, the supported video mode most closely matching the desired video + * mode is set for the specified monitor. For more information about full + * screen windows, including the creation of so called _windowed full screen_ + * or _borderless full screen_ windows, see @ref window_windowed_full_screen. + * + * Once you have created the window, you can switch it between windowed and + * full screen mode with @ref glfwSetWindowMonitor. This will not affect its + * OpenGL or OpenGL ES context. + * + * By default, newly created windows use the placement recommended by the + * window system. To create the window at a specific position, make it + * initially invisible using the [GLFW_VISIBLE](@ref GLFW_VISIBLE_hint) window + * hint, set its [position](@ref window_pos) and then [show](@ref window_hide) + * it. + * + * As long as at least one full screen window is not iconified, the screensaver + * is prohibited from starting. + * + * Window systems put limits on window sizes. Very large or very small window + * dimensions may be overridden by the window system on creation. Check the + * actual [size](@ref window_size) after creation. + * + * The [swap interval](@ref buffer_swap) is not set during window creation and + * the initial value may vary depending on driver settings and defaults. + * + * @param[in] width The desired width, in screen coordinates, of the window. + * This must be greater than zero. + * @param[in] height The desired height, in screen coordinates, of the window. + * This must be greater than zero. + * @param[in] title The initial, UTF-8 encoded window title. + * @param[in] monitor The monitor to use for full screen mode, or `NULL` for + * windowed mode. + * @param[in] share The window whose context to share resources with, or `NULL` + * to not share resources. + * @return The handle of the created window, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM, @ref GLFW_INVALID_VALUE, @ref GLFW_API_UNAVAILABLE, @ref + * GLFW_VERSION_UNAVAILABLE, @ref GLFW_FORMAT_UNAVAILABLE and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @win32 Window creation will fail if the Microsoft GDI software + * OpenGL implementation is the only one available. + * + * @remark @win32 If the executable has an icon resource named `GLFW_ICON,` it + * will be set as the initial icon for the window. If no such icon is present, + * the `IDI_APPLICATION` icon will be used instead. To set a different icon, + * see @ref glfwSetWindowIcon. + * + * @remark @win32 The context to share resources with must not be current on + * any other thread. + * + * @remark @macos The OS only supports forward-compatible core profile contexts + * for OpenGL versions 3.2 and later. Before creating an OpenGL context of + * version 3.2 or later you must set the + * [GLFW_OPENGL_FORWARD_COMPAT](@ref GLFW_OPENGL_FORWARD_COMPAT_hint) and + * [GLFW_OPENGL_PROFILE](@ref GLFW_OPENGL_PROFILE_hint) hints accordingly. + * OpenGL 3.0 and 3.1 contexts are not supported at all on macOS. + * + * @remark @macos The GLFW window has no icon, as it is not a document + * window, but the dock icon will be the same as the application bundle's icon. + * For more information on bundles, see the + * [Bundle Programming Guide](https://developer.apple.com/library/mac/documentation/CoreFoundation/Conceptual/CFBundles/) + * in the Mac Developer Library. + * + * @remark @macos The first time a window is created the menu bar is created. + * If GLFW finds a `MainMenu.nib` it is loaded and assumed to contain a menu + * bar. Otherwise a minimal menu bar is created manually with common commands + * like Hide, Quit and About. The About entry opens a minimal about dialog + * with information from the application's bundle. Menu bar creation can be + * disabled entirely with the @ref GLFW_COCOA_MENUBAR init hint. + * + * @remark @macos On OS X 10.10 and later the window frame will not be rendered + * at full resolution on Retina displays unless the + * [GLFW_COCOA_RETINA_FRAMEBUFFER](@ref GLFW_COCOA_RETINA_FRAMEBUFFER_hint) + * hint is `GLFW_TRUE` and the `NSHighResolutionCapable` key is enabled in the + * application bundle's `Info.plist`. For more information, see + * [High Resolution Guidelines for OS X](https://developer.apple.com/library/mac/documentation/GraphicsAnimation/Conceptual/HighResolutionOSX/Explained/Explained.html) + * in the Mac Developer Library. The GLFW test and example programs use + * a custom `Info.plist` template for this, which can be found as + * `CMake/MacOSXBundleInfo.plist.in` in the source tree. + * + * @remark @macos When activating frame autosaving with + * [GLFW_COCOA_FRAME_NAME](@ref GLFW_COCOA_FRAME_NAME_hint), the specified + * window size and position may be overridden by previously saved values. + * + * @remark @x11 Some window managers will not respect the placement of + * initially hidden windows. + * + * @remark @x11 Due to the asynchronous nature of X11, it may take a moment for + * a window to reach its requested state. This means you may not be able to + * query the final size, position or other attributes directly after window + * creation. + * + * @remark @x11 The class part of the `WM_CLASS` window property will by + * default be set to the window title passed to this function. The instance + * part will use the contents of the `RESOURCE_NAME` environment variable, if + * present and not empty, or fall back to the window title. Set the + * [GLFW_X11_CLASS_NAME](@ref GLFW_X11_CLASS_NAME_hint) and + * [GLFW_X11_INSTANCE_NAME](@ref GLFW_X11_INSTANCE_NAME_hint) window hints to + * override this. + * + * @remark @wayland Compositors should implement the xdg-decoration protocol + * for GLFW to decorate the window properly. If this protocol isn't + * supported, or if the compositor prefers client-side decorations, a very + * simple fallback frame will be drawn using the wp_viewporter protocol. A + * compositor can still emit close, maximize or fullscreen events, using for + * instance a keybind mechanism. If neither of these protocols is supported, + * the window won't be decorated. + * + * @remark @wayland A full screen window will not attempt to change the mode, + * no matter what the requested size or refresh rate. + * + * @remark @wayland Screensaver inhibition requires the idle-inhibit protocol + * to be implemented in the user's compositor. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_creation + * @sa @ref glfwDestroyWindow + * + * @since Added in version 3.0. Replaces `glfwOpenWindow`. + * + * @ingroup window + */ +GLFWAPI GLFWwindow* glfwCreateWindow(int width, int height, const char* title, GLFWmonitor* monitor, GLFWwindow* share); + +/*! @brief Destroys the specified window and its context. + * + * This function destroys the specified window and its context. On calling + * this function, no further callbacks will be called for that window. + * + * If the context of the specified window is current on the main thread, it is + * detached before being destroyed. + * + * @param[in] window The window to destroy. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @note The context of the specified window must not be current on any other + * thread when this function is called. + * + * @reentrancy This function must not be called from a callback. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_creation + * @sa @ref glfwCreateWindow + * + * @since Added in version 3.0. Replaces `glfwCloseWindow`. + * + * @ingroup window + */ +GLFWAPI void glfwDestroyWindow(GLFWwindow* window); + +/*! @brief Checks the close flag of the specified window. + * + * This function returns the value of the close flag of the specified window. + * + * @param[in] window The window to query. + * @return The value of the close flag. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref window_close + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI int glfwWindowShouldClose(GLFWwindow* window); + +/*! @brief Sets the close flag of the specified window. + * + * This function sets the value of the close flag of the specified window. + * This can be used to override the user's attempt to close the window, or + * to signal that it should be closed. + * + * @param[in] window The window whose flag to change. + * @param[in] value The new value. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref window_close + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowShouldClose(GLFWwindow* window, int value); + +/*! @brief Sets the title of the specified window. + * + * This function sets the window title, encoded as UTF-8, of the specified + * window. + * + * @param[in] window The window whose title to change. + * @param[in] title The UTF-8 encoded window title. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @macos The window title will not be updated until the next time you + * process events. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_title + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowTitle(GLFWwindow* window, const char* title); + +/*! @brief Sets the icon for the specified window. + * + * This function sets the icon of the specified window. If passed an array of + * candidate images, those of or closest to the sizes desired by the system are + * selected. If no images are specified, the window reverts to its default + * icon. + * + * The pixels are 32-bit, little-endian, non-premultiplied RGBA, i.e. eight + * bits per channel with the red channel first. They are arranged canonically + * as packed sequential rows, starting from the top-left corner. + * + * The desired image sizes varies depending on platform and system settings. + * The selected images will be rescaled as needed. Good sizes include 16x16, + * 32x32 and 48x48. + * + * @param[in] window The window whose icon to set. + * @param[in] count The number of images in the specified array, or zero to + * revert to the default window icon. + * @param[in] images The images to create the icon from. This is ignored if + * count is zero. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_VALUE and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The specified image data is copied before this function + * returns. + * + * @remark @macos The GLFW window has no icon, as it is not a document + * window, so this function does nothing. The dock icon will be the same as + * the application bundle's icon. For more information on bundles, see the + * [Bundle Programming Guide](https://developer.apple.com/library/mac/documentation/CoreFoundation/Conceptual/CFBundles/) + * in the Mac Developer Library. + * + * @remark @wayland There is no existing protocol to change an icon, the + * window will thus inherit the one defined in the application's desktop file. + * This function always emits @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_icon + * + * @since Added in version 3.2. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowIcon(GLFWwindow* window, int count, const GLFWimage* images); + +/*! @brief Retrieves the position of the content area of the specified window. + * + * This function retrieves the position, in screen coordinates, of the + * upper-left corner of the content area of the specified window. + * + * Any or all of the position arguments may be `NULL`. If an error occurs, all + * non-`NULL` position arguments will be set to zero. + * + * @param[in] window The window to query. + * @param[out] xpos Where to store the x-coordinate of the upper-left corner of + * the content area, or `NULL`. + * @param[out] ypos Where to store the y-coordinate of the upper-left corner of + * the content area, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @wayland There is no way for an application to retrieve the global + * position of its windows, this function will always emit @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_pos + * @sa @ref glfwSetWindowPos + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void glfwGetWindowPos(GLFWwindow* window, int* xpos, int* ypos); + +/*! @brief Sets the position of the content area of the specified window. + * + * This function sets the position, in screen coordinates, of the upper-left + * corner of the content area of the specified windowed mode window. If the + * window is a full screen window, this function does nothing. + * + * __Do not use this function__ to move an already visible window unless you + * have very good reasons for doing so, as it will confuse and annoy the user. + * + * The window manager may put limits on what positions are allowed. GLFW + * cannot and should not override these limits. + * + * @param[in] window The window to query. + * @param[in] xpos The x-coordinate of the upper-left corner of the content area. + * @param[in] ypos The y-coordinate of the upper-left corner of the content area. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @wayland There is no way for an application to set the global + * position of its windows, this function will always emit @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_pos + * @sa @ref glfwGetWindowPos + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowPos(GLFWwindow* window, int xpos, int ypos); + +/*! @brief Retrieves the size of the content area of the specified window. + * + * This function retrieves the size, in screen coordinates, of the content area + * of the specified window. If you wish to retrieve the size of the + * framebuffer of the window in pixels, see @ref glfwGetFramebufferSize. + * + * Any or all of the size arguments may be `NULL`. If an error occurs, all + * non-`NULL` size arguments will be set to zero. + * + * @param[in] window The window whose size to retrieve. + * @param[out] width Where to store the width, in screen coordinates, of the + * content area, or `NULL`. + * @param[out] height Where to store the height, in screen coordinates, of the + * content area, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_size + * @sa @ref glfwSetWindowSize + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +GLFWAPI void glfwGetWindowSize(GLFWwindow* window, int* width, int* height); + +/*! @brief Sets the size limits of the specified window. + * + * This function sets the size limits of the content area of the specified + * window. If the window is full screen, the size limits only take effect + * once it is made windowed. If the window is not resizable, this function + * does nothing. + * + * The size limits are applied immediately to a windowed mode window and may + * cause it to be resized. + * + * The maximum dimensions must be greater than or equal to the minimum + * dimensions and all must be greater than or equal to zero. + * + * @param[in] window The window to set limits for. + * @param[in] minwidth The minimum width, in screen coordinates, of the content + * area, or `GLFW_DONT_CARE`. + * @param[in] minheight The minimum height, in screen coordinates, of the + * content area, or `GLFW_DONT_CARE`. + * @param[in] maxwidth The maximum width, in screen coordinates, of the content + * area, or `GLFW_DONT_CARE`. + * @param[in] maxheight The maximum height, in screen coordinates, of the + * content area, or `GLFW_DONT_CARE`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_VALUE and @ref GLFW_PLATFORM_ERROR. + * + * @remark If you set size limits and an aspect ratio that conflict, the + * results are undefined. + * + * @remark @wayland The size limits will not be applied until the window is + * actually resized, either by the user or by the compositor. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_sizelimits + * @sa @ref glfwSetWindowAspectRatio + * + * @since Added in version 3.2. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowSizeLimits(GLFWwindow* window, int minwidth, int minheight, int maxwidth, int maxheight); + +/*! @brief Sets the aspect ratio of the specified window. + * + * This function sets the required aspect ratio of the content area of the + * specified window. If the window is full screen, the aspect ratio only takes + * effect once it is made windowed. If the window is not resizable, this + * function does nothing. + * + * The aspect ratio is specified as a numerator and a denominator and both + * values must be greater than zero. For example, the common 16:9 aspect ratio + * is specified as 16 and 9, respectively. + * + * If the numerator and denominator is set to `GLFW_DONT_CARE` then the aspect + * ratio limit is disabled. + * + * The aspect ratio is applied immediately to a windowed mode window and may + * cause it to be resized. + * + * @param[in] window The window to set limits for. + * @param[in] numer The numerator of the desired aspect ratio, or + * `GLFW_DONT_CARE`. + * @param[in] denom The denominator of the desired aspect ratio, or + * `GLFW_DONT_CARE`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_VALUE and @ref GLFW_PLATFORM_ERROR. + * + * @remark If you set size limits and an aspect ratio that conflict, the + * results are undefined. + * + * @remark @wayland The aspect ratio will not be applied until the window is + * actually resized, either by the user or by the compositor. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_sizelimits + * @sa @ref glfwSetWindowSizeLimits + * + * @since Added in version 3.2. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowAspectRatio(GLFWwindow* window, int numer, int denom); + +/*! @brief Sets the size of the content area of the specified window. + * + * This function sets the size, in screen coordinates, of the content area of + * the specified window. + * + * For full screen windows, this function updates the resolution of its desired + * video mode and switches to the video mode closest to it, without affecting + * the window's context. As the context is unaffected, the bit depths of the + * framebuffer remain unchanged. + * + * If you wish to update the refresh rate of the desired video mode in addition + * to its resolution, see @ref glfwSetWindowMonitor. + * + * The window manager may put limits on what sizes are allowed. GLFW cannot + * and should not override these limits. + * + * @param[in] window The window to resize. + * @param[in] width The desired width, in screen coordinates, of the window + * content area. + * @param[in] height The desired height, in screen coordinates, of the window + * content area. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @wayland A full screen window will not attempt to change the mode, + * no matter what the requested size. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_size + * @sa @ref glfwGetWindowSize + * @sa @ref glfwSetWindowMonitor + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowSize(GLFWwindow* window, int width, int height); + +/*! @brief Retrieves the size of the framebuffer of the specified window. + * + * This function retrieves the size, in pixels, of the framebuffer of the + * specified window. If you wish to retrieve the size of the window in screen + * coordinates, see @ref glfwGetWindowSize. + * + * Any or all of the size arguments may be `NULL`. If an error occurs, all + * non-`NULL` size arguments will be set to zero. + * + * @param[in] window The window whose framebuffer to query. + * @param[out] width Where to store the width, in pixels, of the framebuffer, + * or `NULL`. + * @param[out] height Where to store the height, in pixels, of the framebuffer, + * or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_fbsize + * @sa @ref glfwSetFramebufferSizeCallback + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void glfwGetFramebufferSize(GLFWwindow* window, int* width, int* height); + +/*! @brief Retrieves the size of the frame of the window. + * + * This function retrieves the size, in screen coordinates, of each edge of the + * frame of the specified window. This size includes the title bar, if the + * window has one. The size of the frame may vary depending on the + * [window-related hints](@ref window_hints_wnd) used to create it. + * + * Because this function retrieves the size of each window frame edge and not + * the offset along a particular coordinate axis, the retrieved values will + * always be zero or positive. + * + * Any or all of the size arguments may be `NULL`. If an error occurs, all + * non-`NULL` size arguments will be set to zero. + * + * @param[in] window The window whose frame size to query. + * @param[out] left Where to store the size, in screen coordinates, of the left + * edge of the window frame, or `NULL`. + * @param[out] top Where to store the size, in screen coordinates, of the top + * edge of the window frame, or `NULL`. + * @param[out] right Where to store the size, in screen coordinates, of the + * right edge of the window frame, or `NULL`. + * @param[out] bottom Where to store the size, in screen coordinates, of the + * bottom edge of the window frame, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_size + * + * @since Added in version 3.1. + * + * @ingroup window + */ +GLFWAPI void glfwGetWindowFrameSize(GLFWwindow* window, int* left, int* top, int* right, int* bottom); + +/*! @brief Retrieves the content scale for the specified window. + * + * This function retrieves the content scale for the specified window. The + * content scale is the ratio between the current DPI and the platform's + * default DPI. This is especially important for text and any UI elements. If + * the pixel dimensions of your UI scaled by this look appropriate on your + * machine then it should appear at a reasonable size on other machines + * regardless of their DPI and scaling settings. This relies on the system DPI + * and scaling settings being somewhat correct. + * + * On systems where each monitors can have its own content scale, the window + * content scale will depend on which monitor the system considers the window + * to be on. + * + * @param[in] window The window to query. + * @param[out] xscale Where to store the x-axis content scale, or `NULL`. + * @param[out] yscale Where to store the y-axis content scale, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_scale + * @sa @ref glfwSetWindowContentScaleCallback + * @sa @ref glfwGetMonitorContentScale + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI void glfwGetWindowContentScale(GLFWwindow* window, float* xscale, float* yscale); + +/*! @brief Returns the opacity of the whole window. + * + * This function returns the opacity of the window, including any decorations. + * + * The opacity (or alpha) value is a positive finite number between zero and + * one, where zero is fully transparent and one is fully opaque. If the system + * does not support whole window transparency, this function always returns one. + * + * The initial opacity value for newly created windows is one. + * + * @param[in] window The window to query. + * @return The opacity value of the specified window. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_transparency + * @sa @ref glfwSetWindowOpacity + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI float glfwGetWindowOpacity(GLFWwindow* window); + +/*! @brief Sets the opacity of the whole window. + * + * This function sets the opacity of the window, including any decorations. + * + * The opacity (or alpha) value is a positive finite number between zero and + * one, where zero is fully transparent and one is fully opaque. + * + * The initial opacity value for newly created windows is one. + * + * A window created with framebuffer transparency may not use whole window + * transparency. The results of doing this are undefined. + * + * @param[in] window The window to set the opacity for. + * @param[in] opacity The desired opacity of the specified window. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_transparency + * @sa @ref glfwGetWindowOpacity + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowOpacity(GLFWwindow* window, float opacity); + +/*! @brief Iconifies the specified window. + * + * This function iconifies (minimizes) the specified window if it was + * previously restored. If the window is already iconified, this function does + * nothing. + * + * If the specified window is a full screen window, GLFW restores the original + * video mode of the monitor. The window's desired video mode is set again + * when the window is restored. + * + * @param[in] window The window to iconify. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_iconify + * @sa @ref glfwRestoreWindow + * @sa @ref glfwMaximizeWindow + * + * @since Added in version 2.1. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +GLFWAPI void glfwIconifyWindow(GLFWwindow* window); + +/*! @brief Restores the specified window. + * + * This function restores the specified window if it was previously iconified + * (minimized) or maximized. If the window is already restored, this function + * does nothing. + * + * If the specified window is an iconified full screen window, its desired + * video mode is set again for its monitor when the window is restored. + * + * @param[in] window The window to restore. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_iconify + * @sa @ref glfwIconifyWindow + * @sa @ref glfwMaximizeWindow + * + * @since Added in version 2.1. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +GLFWAPI void glfwRestoreWindow(GLFWwindow* window); + +/*! @brief Maximizes the specified window. + * + * This function maximizes the specified window if it was previously not + * maximized. If the window is already maximized, this function does nothing. + * + * If the specified window is a full screen window, this function does nothing. + * + * @param[in] window The window to maximize. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @par Thread Safety + * This function may only be called from the main thread. + * + * @sa @ref window_iconify + * @sa @ref glfwIconifyWindow + * @sa @ref glfwRestoreWindow + * + * @since Added in GLFW 3.2. + * + * @ingroup window + */ +GLFWAPI void glfwMaximizeWindow(GLFWwindow* window); + +/*! @brief Makes the specified window visible. + * + * This function makes the specified window visible if it was previously + * hidden. If the window is already visible or is in full screen mode, this + * function does nothing. + * + * By default, windowed mode windows are focused when shown + * Set the [GLFW_FOCUS_ON_SHOW](@ref GLFW_FOCUS_ON_SHOW_hint) window hint + * to change this behavior for all newly created windows, or change the + * behavior for an existing window with @ref glfwSetWindowAttrib. + * + * @param[in] window The window to make visible. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @wayland Because Wayland wants every frame of the desktop to be + * complete, this function does not immediately make the window visible. + * Instead it will become visible the next time the window framebuffer is + * updated after this call. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_hide + * @sa @ref glfwHideWindow + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void glfwShowWindow(GLFWwindow* window); + +/*! @brief Hides the specified window. + * + * This function hides the specified window if it was previously visible. If + * the window is already hidden or is in full screen mode, this function does + * nothing. + * + * @param[in] window The window to hide. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_hide + * @sa @ref glfwShowWindow + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void glfwHideWindow(GLFWwindow* window); + +/*! @brief Brings the specified window to front and sets input focus. + * + * This function brings the specified window to front and sets input focus. + * The window should already be visible and not iconified. + * + * By default, both windowed and full screen mode windows are focused when + * initially created. Set the [GLFW_FOCUSED](@ref GLFW_FOCUSED_hint) to + * disable this behavior. + * + * Also by default, windowed mode windows are focused when shown + * with @ref glfwShowWindow. Set the + * [GLFW_FOCUS_ON_SHOW](@ref GLFW_FOCUS_ON_SHOW_hint) to disable this behavior. + * + * __Do not use this function__ to steal focus from other applications unless + * you are certain that is what the user wants. Focus stealing can be + * extremely disruptive. + * + * For a less disruptive way of getting the user's attention, see + * [attention requests](@ref window_attention). + * + * @param[in] window The window to give input focus. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @wayland It is not possible for an application to bring its windows + * to front, this function will always emit @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_focus + * @sa @ref window_attention + * + * @since Added in version 3.2. + * + * @ingroup window + */ +GLFWAPI void glfwFocusWindow(GLFWwindow* window); + +/*! @brief Requests user attention to the specified window. + * + * This function requests user attention to the specified window. On + * platforms where this is not supported, attention is requested to the + * application as a whole. + * + * Once the user has given attention, usually by focusing the window or + * application, the system will end the request automatically. + * + * @param[in] window The window to request attention to. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @macos Attention is requested to the application as a whole, not the + * specific window. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_attention + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI void glfwRequestWindowAttention(GLFWwindow* window); + +/*! @brief Returns the monitor that the window uses for full screen mode. + * + * This function returns the handle of the monitor that the specified window is + * in full screen on. + * + * @param[in] window The window to query. + * @return The monitor, or `NULL` if the window is in windowed mode or an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_monitor + * @sa @ref glfwSetWindowMonitor + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI GLFWmonitor* glfwGetWindowMonitor(GLFWwindow* window); + +/*! @brief Sets the mode, monitor, video mode and placement of a window. + * + * This function sets the monitor that the window uses for full screen mode or, + * if the monitor is `NULL`, makes it windowed mode. + * + * When setting a monitor, this function updates the width, height and refresh + * rate of the desired video mode and switches to the video mode closest to it. + * The window position is ignored when setting a monitor. + * + * When the monitor is `NULL`, the position, width and height are used to + * place the window content area. The refresh rate is ignored when no monitor + * is specified. + * + * If you only wish to update the resolution of a full screen window or the + * size of a windowed mode window, see @ref glfwSetWindowSize. + * + * When a window transitions from full screen to windowed mode, this function + * restores any previous window settings such as whether it is decorated, + * floating, resizable, has size or aspect ratio limits, etc. + * + * @param[in] window The window whose monitor, size or video mode to set. + * @param[in] monitor The desired monitor, or `NULL` to set windowed mode. + * @param[in] xpos The desired x-coordinate of the upper-left corner of the + * content area. + * @param[in] ypos The desired y-coordinate of the upper-left corner of the + * content area. + * @param[in] width The desired with, in screen coordinates, of the content + * area or video mode. + * @param[in] height The desired height, in screen coordinates, of the content + * area or video mode. + * @param[in] refreshRate The desired refresh rate, in Hz, of the video mode, + * or `GLFW_DONT_CARE`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark The OpenGL or OpenGL ES context will not be destroyed or otherwise + * affected by any resizing or mode switching, although you may need to update + * your viewport if the framebuffer size has changed. + * + * @remark @wayland The desired window position is ignored, as there is no way + * for an application to set this property. + * + * @remark @wayland Setting the window to full screen will not attempt to + * change the mode, no matter what the requested size or refresh rate. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_monitor + * @sa @ref window_full_screen + * @sa @ref glfwGetWindowMonitor + * @sa @ref glfwSetWindowSize + * + * @since Added in version 3.2. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowMonitor(GLFWwindow* window, GLFWmonitor* monitor, int xpos, int ypos, int width, int height, int refreshRate); + +/*! @brief Returns an attribute of the specified window. + * + * This function returns the value of an attribute of the specified window or + * its OpenGL or OpenGL ES context. + * + * @param[in] window The window to query. + * @param[in] attrib The [window attribute](@ref window_attribs) whose value to + * return. + * @return The value of the attribute, or zero if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @remark Framebuffer related hints are not window attributes. See @ref + * window_attribs_fb for more information. + * + * @remark Zero is a valid value for many window and context related + * attributes so you cannot use a return value of zero as an indication of + * errors. However, this function should not fail as long as it is passed + * valid arguments and the library has been [initialized](@ref intro_init). + * + * @remark @wayland The Wayland protocol provides no way to check whether a + * window is iconfied, so @ref GLFW_ICONIFIED always returns `GLFW_FALSE`. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_attribs + * @sa @ref glfwSetWindowAttrib + * + * @since Added in version 3.0. Replaces `glfwGetWindowParam` and + * `glfwGetGLVersion`. + * + * @ingroup window + */ +GLFWAPI int glfwGetWindowAttrib(GLFWwindow* window, int attrib); + +/*! @brief Sets an attribute of the specified window. + * + * This function sets the value of an attribute of the specified window. + * + * The supported attributes are [GLFW_DECORATED](@ref GLFW_DECORATED_attrib), + * [GLFW_RESIZABLE](@ref GLFW_RESIZABLE_attrib), + * [GLFW_FLOATING](@ref GLFW_FLOATING_attrib), + * [GLFW_AUTO_ICONIFY](@ref GLFW_AUTO_ICONIFY_attrib) and + * [GLFW_FOCUS_ON_SHOW](@ref GLFW_FOCUS_ON_SHOW_attrib). + * + * Some of these attributes are ignored for full screen windows. The new + * value will take effect if the window is later made windowed. + * + * Some of these attributes are ignored for windowed mode windows. The new + * value will take effect if the window is later made full screen. + * + * @param[in] window The window to set the attribute for. + * @param[in] attrib A supported window attribute. + * @param[in] value `GLFW_TRUE` or `GLFW_FALSE`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM, @ref GLFW_INVALID_VALUE and @ref GLFW_PLATFORM_ERROR. + * + * @remark Calling @ref glfwGetWindowAttrib will always return the latest + * value, even if that value is ignored by the current mode of the window. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_attribs + * @sa @ref glfwGetWindowAttrib + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowAttrib(GLFWwindow* window, int attrib, int value); + +/*! @brief Sets the user pointer of the specified window. + * + * This function sets the user-defined pointer of the specified window. The + * current value is retained until the window is destroyed. The initial value + * is `NULL`. + * + * @param[in] window The window whose pointer to set. + * @param[in] pointer The new value. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref window_userptr + * @sa @ref glfwGetWindowUserPointer + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void glfwSetWindowUserPointer(GLFWwindow* window, void* pointer); + +/*! @brief Returns the user pointer of the specified window. + * + * This function returns the current value of the user-defined pointer of the + * specified window. The initial value is `NULL`. + * + * @param[in] window The window whose pointer to return. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref window_userptr + * @sa @ref glfwSetWindowUserPointer + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI void* glfwGetWindowUserPointer(GLFWwindow* window); + +/*! @brief Sets the position callback for the specified window. + * + * This function sets the position callback of the specified window, which is + * called when the window is moved. The callback is provided with the + * position, in screen coordinates, of the upper-left corner of the content + * area of the window. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int xpos, int ypos) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowposfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @remark @wayland This callback will never be called, as there is no way for + * an application to know its global position. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_pos + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI GLFWwindowposfun glfwSetWindowPosCallback(GLFWwindow* window, GLFWwindowposfun callback); + +/*! @brief Sets the size callback for the specified window. + * + * This function sets the size callback of the specified window, which is + * called when the window is resized. The callback is provided with the size, + * in screen coordinates, of the content area of the window. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int width, int height) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowsizefun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_size + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter and return value. + * + * @ingroup window + */ +GLFWAPI GLFWwindowsizefun glfwSetWindowSizeCallback(GLFWwindow* window, GLFWwindowsizefun callback); + +/*! @brief Sets the close callback for the specified window. + * + * This function sets the close callback of the specified window, which is + * called when the user attempts to close the window, for example by clicking + * the close widget in the title bar. + * + * The close flag is set before this callback is called, but you can modify it + * at any time with @ref glfwSetWindowShouldClose. + * + * The close callback is not triggered by @ref glfwDestroyWindow. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowclosefun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @remark @macos Selecting Quit from the application menu will trigger the + * close callback for all windows. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_close + * + * @since Added in version 2.5. + * @glfw3 Added window handle parameter and return value. + * + * @ingroup window + */ +GLFWAPI GLFWwindowclosefun glfwSetWindowCloseCallback(GLFWwindow* window, GLFWwindowclosefun callback); + +/*! @brief Sets the refresh callback for the specified window. + * + * This function sets the refresh callback of the specified window, which is + * called when the content area of the window needs to be redrawn, for example + * if the window has been exposed after having been covered by another window. + * + * On compositing window systems such as Aero, Compiz, Aqua or Wayland, where + * the window contents are saved off-screen, this callback may be called only + * very infrequently or never at all. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window); + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowrefreshfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_refresh + * + * @since Added in version 2.5. + * @glfw3 Added window handle parameter and return value. + * + * @ingroup window + */ +GLFWAPI GLFWwindowrefreshfun glfwSetWindowRefreshCallback(GLFWwindow* window, GLFWwindowrefreshfun callback); + +/*! @brief Sets the focus callback for the specified window. + * + * This function sets the focus callback of the specified window, which is + * called when the window gains or loses input focus. + * + * After the focus callback is called for a window that lost input focus, + * synthetic key and mouse button release events will be generated for all such + * that had been pressed. For more information, see @ref glfwSetKeyCallback + * and @ref glfwSetMouseButtonCallback. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int focused) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowfocusfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_focus + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI GLFWwindowfocusfun glfwSetWindowFocusCallback(GLFWwindow* window, GLFWwindowfocusfun callback); + +/*! @brief Sets the iconify callback for the specified window. + * + * This function sets the iconification callback of the specified window, which + * is called when the window is iconified or restored. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int iconified) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowiconifyfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @remark @wayland The XDG-shell protocol has no event for iconification, so + * this callback will never be called. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_iconify + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI GLFWwindowiconifyfun glfwSetWindowIconifyCallback(GLFWwindow* window, GLFWwindowiconifyfun callback); + +/*! @brief Sets the maximize callback for the specified window. + * + * This function sets the maximization callback of the specified window, which + * is called when the window is maximized or restored. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int maximized) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowmaximizefun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_maximize + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI GLFWwindowmaximizefun glfwSetWindowMaximizeCallback(GLFWwindow* window, GLFWwindowmaximizefun callback); + +/*! @brief Sets the framebuffer resize callback for the specified window. + * + * This function sets the framebuffer resize callback of the specified window, + * which is called when the framebuffer of the specified window is resized. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int width, int height) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWframebuffersizefun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_fbsize + * + * @since Added in version 3.0. + * + * @ingroup window + */ +GLFWAPI GLFWframebuffersizefun glfwSetFramebufferSizeCallback(GLFWwindow* window, GLFWframebuffersizefun callback); + +/*! @brief Sets the window content scale callback for the specified window. + * + * This function sets the window content scale callback of the specified window, + * which is called when the content scale of the specified window changes. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, float xscale, float yscale) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWwindowcontentscalefun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref window_scale + * @sa @ref glfwGetWindowContentScale + * + * @since Added in version 3.3. + * + * @ingroup window + */ +GLFWAPI GLFWwindowcontentscalefun glfwSetWindowContentScaleCallback(GLFWwindow* window, GLFWwindowcontentscalefun callback); + +/*! @brief Processes all pending events. + * + * This function processes only those events that are already in the event + * queue and then returns immediately. Processing events will cause the window + * and input callbacks associated with those events to be called. + * + * On some platforms, a window move, resize or menu operation will cause event + * processing to block. This is due to how event processing is designed on + * those platforms. You can use the + * [window refresh callback](@ref window_refresh) to redraw the contents of + * your window when necessary during such operations. + * + * Do not assume that callbacks you set will _only_ be called in response to + * event processing functions like this one. While it is necessary to poll for + * events, window systems that require GLFW to register callbacks of its own + * can pass events to GLFW in response to many window system function calls. + * GLFW will pass those events on to the application callbacks before + * returning. + * + * Event processing is not required for joystick input to work. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @reentrancy This function must not be called from a callback. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref events + * @sa @ref glfwWaitEvents + * @sa @ref glfwWaitEventsTimeout + * + * @since Added in version 1.0. + * + * @ingroup window + */ +GLFWAPI void glfwPollEvents(void); + +/*! @brief Waits until events are queued and processes them. + * + * This function puts the calling thread to sleep until at least one event is + * available in the event queue. Once one or more events are available, + * it behaves exactly like @ref glfwPollEvents, i.e. the events in the queue + * are processed and the function then returns immediately. Processing events + * will cause the window and input callbacks associated with those events to be + * called. + * + * Since not all events are associated with callbacks, this function may return + * without a callback having been called even if you are monitoring all + * callbacks. + * + * On some platforms, a window move, resize or menu operation will cause event + * processing to block. This is due to how event processing is designed on + * those platforms. You can use the + * [window refresh callback](@ref window_refresh) to redraw the contents of + * your window when necessary during such operations. + * + * Do not assume that callbacks you set will _only_ be called in response to + * event processing functions like this one. While it is necessary to poll for + * events, window systems that require GLFW to register callbacks of its own + * can pass events to GLFW in response to many window system function calls. + * GLFW will pass those events on to the application callbacks before + * returning. + * + * Event processing is not required for joystick input to work. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @reentrancy This function must not be called from a callback. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref events + * @sa @ref glfwPollEvents + * @sa @ref glfwWaitEventsTimeout + * + * @since Added in version 2.5. + * + * @ingroup window + */ +GLFWAPI void glfwWaitEvents(void); + +/*! @brief Waits with timeout until events are queued and processes them. + * + * This function puts the calling thread to sleep until at least one event is + * available in the event queue, or until the specified timeout is reached. If + * one or more events are available, it behaves exactly like @ref + * glfwPollEvents, i.e. the events in the queue are processed and the function + * then returns immediately. Processing events will cause the window and input + * callbacks associated with those events to be called. + * + * The timeout value must be a positive finite number. + * + * Since not all events are associated with callbacks, this function may return + * without a callback having been called even if you are monitoring all + * callbacks. + * + * On some platforms, a window move, resize or menu operation will cause event + * processing to block. This is due to how event processing is designed on + * those platforms. You can use the + * [window refresh callback](@ref window_refresh) to redraw the contents of + * your window when necessary during such operations. + * + * Do not assume that callbacks you set will _only_ be called in response to + * event processing functions like this one. While it is necessary to poll for + * events, window systems that require GLFW to register callbacks of its own + * can pass events to GLFW in response to many window system function calls. + * GLFW will pass those events on to the application callbacks before + * returning. + * + * Event processing is not required for joystick input to work. + * + * @param[in] timeout The maximum amount of time, in seconds, to wait. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_VALUE and @ref GLFW_PLATFORM_ERROR. + * + * @reentrancy This function must not be called from a callback. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref events + * @sa @ref glfwPollEvents + * @sa @ref glfwWaitEvents + * + * @since Added in version 3.2. + * + * @ingroup window + */ +GLFWAPI void glfwWaitEventsTimeout(double timeout); + +/*! @brief Posts an empty event to the event queue. + * + * This function posts an empty event from the current thread to the event + * queue, causing @ref glfwWaitEvents or @ref glfwWaitEventsTimeout to return. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref events + * @sa @ref glfwWaitEvents + * @sa @ref glfwWaitEventsTimeout + * + * @since Added in version 3.1. + * + * @ingroup window + */ +GLFWAPI void glfwPostEmptyEvent(void); + +/*! @brief Returns the value of an input option for the specified window. + * + * This function returns the value of an input option for the specified window. + * The mode must be one of @ref GLFW_CURSOR, @ref GLFW_STICKY_KEYS, + * @ref GLFW_STICKY_MOUSE_BUTTONS, @ref GLFW_LOCK_KEY_MODS or + * @ref GLFW_RAW_MOUSE_MOTION. + * + * @param[in] window The window to query. + * @param[in] mode One of `GLFW_CURSOR`, `GLFW_STICKY_KEYS`, + * `GLFW_STICKY_MOUSE_BUTTONS`, `GLFW_LOCK_KEY_MODS` or + * `GLFW_RAW_MOUSE_MOTION`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_ENUM. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref glfwSetInputMode + * + * @since Added in version 3.0. + * + * @ingroup input + */ +GLFWAPI int glfwGetInputMode(GLFWwindow* window, int mode); + +/*! @brief Sets an input option for the specified window. + * + * This function sets an input mode option for the specified window. The mode + * must be one of @ref GLFW_CURSOR, @ref GLFW_STICKY_KEYS, + * @ref GLFW_STICKY_MOUSE_BUTTONS, @ref GLFW_LOCK_KEY_MODS or + * @ref GLFW_RAW_MOUSE_MOTION. + * + * If the mode is `GLFW_CURSOR`, the value must be one of the following cursor + * modes: + * - `GLFW_CURSOR_NORMAL` makes the cursor visible and behaving normally. + * - `GLFW_CURSOR_HIDDEN` makes the cursor invisible when it is over the + * content area of the window but does not restrict the cursor from leaving. + * - `GLFW_CURSOR_DISABLED` hides and grabs the cursor, providing virtual + * and unlimited cursor movement. This is useful for implementing for + * example 3D camera controls. + * + * If the mode is `GLFW_STICKY_KEYS`, the value must be either `GLFW_TRUE` to + * enable sticky keys, or `GLFW_FALSE` to disable it. If sticky keys are + * enabled, a key press will ensure that @ref glfwGetKey returns `GLFW_PRESS` + * the next time it is called even if the key had been released before the + * call. This is useful when you are only interested in whether keys have been + * pressed but not when or in which order. + * + * If the mode is `GLFW_STICKY_MOUSE_BUTTONS`, the value must be either + * `GLFW_TRUE` to enable sticky mouse buttons, or `GLFW_FALSE` to disable it. + * If sticky mouse buttons are enabled, a mouse button press will ensure that + * @ref glfwGetMouseButton returns `GLFW_PRESS` the next time it is called even + * if the mouse button had been released before the call. This is useful when + * you are only interested in whether mouse buttons have been pressed but not + * when or in which order. + * + * If the mode is `GLFW_LOCK_KEY_MODS`, the value must be either `GLFW_TRUE` to + * enable lock key modifier bits, or `GLFW_FALSE` to disable them. If enabled, + * callbacks that receive modifier bits will also have the @ref + * GLFW_MOD_CAPS_LOCK bit set when the event was generated with Caps Lock on, + * and the @ref GLFW_MOD_NUM_LOCK bit when Num Lock was on. + * + * If the mode is `GLFW_RAW_MOUSE_MOTION`, the value must be either `GLFW_TRUE` + * to enable raw (unscaled and unaccelerated) mouse motion when the cursor is + * disabled, or `GLFW_FALSE` to disable it. If raw motion is not supported, + * attempting to set this will emit @ref GLFW_PLATFORM_ERROR. Call @ref + * glfwRawMouseMotionSupported to check for support. + * + * @param[in] window The window whose input mode to set. + * @param[in] mode One of `GLFW_CURSOR`, `GLFW_STICKY_KEYS`, + * `GLFW_STICKY_MOUSE_BUTTONS`, `GLFW_LOCK_KEY_MODS` or + * `GLFW_RAW_MOUSE_MOTION`. + * @param[in] value The new value of the specified input mode. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref glfwGetInputMode + * + * @since Added in version 3.0. Replaces `glfwEnable` and `glfwDisable`. + * + * @ingroup input + */ +GLFWAPI void glfwSetInputMode(GLFWwindow* window, int mode, int value); + +/*! @brief Returns whether raw mouse motion is supported. + * + * This function returns whether raw mouse motion is supported on the current + * system. This status does not change after GLFW has been initialized so you + * only need to check this once. If you attempt to enable raw motion on + * a system that does not support it, @ref GLFW_PLATFORM_ERROR will be emitted. + * + * Raw mouse motion is closer to the actual motion of the mouse across + * a surface. It is not affected by the scaling and acceleration applied to + * the motion of the desktop cursor. That processing is suitable for a cursor + * while raw motion is better for controlling for example a 3D camera. Because + * of this, raw mouse motion is only provided when the cursor is disabled. + * + * @return `GLFW_TRUE` if raw mouse motion is supported on the current machine, + * or `GLFW_FALSE` otherwise. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref raw_mouse_motion + * @sa @ref glfwSetInputMode + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI int glfwRawMouseMotionSupported(void); + +/*! @brief Returns the layout-specific name of the specified printable key. + * + * This function returns the name of the specified printable key, encoded as + * UTF-8. This is typically the character that key would produce without any + * modifier keys, intended for displaying key bindings to the user. For dead + * keys, it is typically the diacritic it would add to a character. + * + * __Do not use this function__ for [text input](@ref input_char). You will + * break text input for many languages even if it happens to work for yours. + * + * If the key is `GLFW_KEY_UNKNOWN`, the scancode is used to identify the key, + * otherwise the scancode is ignored. If you specify a non-printable key, or + * `GLFW_KEY_UNKNOWN` and a scancode that maps to a non-printable key, this + * function returns `NULL` but does not emit an error. + * + * This behavior allows you to always pass in the arguments in the + * [key callback](@ref input_key) without modification. + * + * The printable keys are: + * - `GLFW_KEY_APOSTROPHE` + * - `GLFW_KEY_COMMA` + * - `GLFW_KEY_MINUS` + * - `GLFW_KEY_PERIOD` + * - `GLFW_KEY_SLASH` + * - `GLFW_KEY_SEMICOLON` + * - `GLFW_KEY_EQUAL` + * - `GLFW_KEY_LEFT_BRACKET` + * - `GLFW_KEY_RIGHT_BRACKET` + * - `GLFW_KEY_BACKSLASH` + * - `GLFW_KEY_WORLD_1` + * - `GLFW_KEY_WORLD_2` + * - `GLFW_KEY_0` to `GLFW_KEY_9` + * - `GLFW_KEY_A` to `GLFW_KEY_Z` + * - `GLFW_KEY_KP_0` to `GLFW_KEY_KP_9` + * - `GLFW_KEY_KP_DECIMAL` + * - `GLFW_KEY_KP_DIVIDE` + * - `GLFW_KEY_KP_MULTIPLY` + * - `GLFW_KEY_KP_SUBTRACT` + * - `GLFW_KEY_KP_ADD` + * - `GLFW_KEY_KP_EQUAL` + * + * Names for printable keys depend on keyboard layout, while names for + * non-printable keys are the same across layouts but depend on the application + * language and should be localized along with other user interface text. + * + * @param[in] key The key to query, or `GLFW_KEY_UNKNOWN`. + * @param[in] scancode The scancode of the key to query. + * @return The UTF-8 encoded, layout-specific name of the key, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark The contents of the returned string may change when a keyboard + * layout change event is received. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref input_key_name + * + * @since Added in version 3.2. + * + * @ingroup input + */ +GLFWAPI const char* glfwGetKeyName(int key, int scancode); + +/*! @brief Returns the platform-specific scancode of the specified key. + * + * This function returns the platform-specific scancode of the specified key. + * + * If the key is `GLFW_KEY_UNKNOWN` or does not exist on the keyboard this + * method will return `-1`. + * + * @param[in] key Any [named key](@ref keys). + * @return The platform-specific scancode for the key, or `-1` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref input_key + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI int glfwGetKeyScancode(int key); + +/*! @brief Returns the last reported state of a keyboard key for the specified + * window. + * + * This function returns the last state reported for the specified key to the + * specified window. The returned state is one of `GLFW_PRESS` or + * `GLFW_RELEASE`. The action `GLFW_REPEAT` is only reported to the key callback. + * + * If the @ref GLFW_STICKY_KEYS input mode is enabled, this function returns + * `GLFW_PRESS` the first time you call it for a key that was pressed, even if + * that key has already been released. + * + * The key functions deal with physical keys, with [key tokens](@ref keys) + * named after their use on the standard US keyboard layout. If you want to + * input text, use the Unicode character callback instead. + * + * The [modifier key bit masks](@ref mods) are not key tokens and cannot be + * used with this function. + * + * __Do not use this function__ to implement [text input](@ref input_char). + * + * @param[in] window The desired window. + * @param[in] key The desired [keyboard key](@ref keys). `GLFW_KEY_UNKNOWN` is + * not a valid key for this function. + * @return One of `GLFW_PRESS` or `GLFW_RELEASE`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_ENUM. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref input_key + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup input + */ +GLFWAPI int glfwGetKey(GLFWwindow* window, int key); + +/*! @brief Returns the last reported state of a mouse button for the specified + * window. + * + * This function returns the last state reported for the specified mouse button + * to the specified window. The returned state is one of `GLFW_PRESS` or + * `GLFW_RELEASE`. + * + * If the @ref GLFW_STICKY_MOUSE_BUTTONS input mode is enabled, this function + * returns `GLFW_PRESS` the first time you call it for a mouse button that was + * pressed, even if that mouse button has already been released. + * + * @param[in] window The desired window. + * @param[in] button The desired [mouse button](@ref buttons). + * @return One of `GLFW_PRESS` or `GLFW_RELEASE`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_ENUM. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref input_mouse_button + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup input + */ +GLFWAPI int glfwGetMouseButton(GLFWwindow* window, int button); + +/*! @brief Retrieves the position of the cursor relative to the content area of + * the window. + * + * This function returns the position of the cursor, in screen coordinates, + * relative to the upper-left corner of the content area of the specified + * window. + * + * If the cursor is disabled (with `GLFW_CURSOR_DISABLED`) then the cursor + * position is unbounded and limited only by the minimum and maximum values of + * a `double`. + * + * The coordinate can be converted to their integer equivalents with the + * `floor` function. Casting directly to an integer type works for positive + * coordinates, but fails for negative ones. + * + * Any or all of the position arguments may be `NULL`. If an error occurs, all + * non-`NULL` position arguments will be set to zero. + * + * @param[in] window The desired window. + * @param[out] xpos Where to store the cursor x-coordinate, relative to the + * left edge of the content area, or `NULL`. + * @param[out] ypos Where to store the cursor y-coordinate, relative to the to + * top edge of the content area, or `NULL`. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_pos + * @sa @ref glfwSetCursorPos + * + * @since Added in version 3.0. Replaces `glfwGetMousePos`. + * + * @ingroup input + */ +GLFWAPI void glfwGetCursorPos(GLFWwindow* window, double* xpos, double* ypos); + +/*! @brief Sets the position of the cursor, relative to the content area of the + * window. + * + * This function sets the position, in screen coordinates, of the cursor + * relative to the upper-left corner of the content area of the specified + * window. The window must have input focus. If the window does not have + * input focus when this function is called, it fails silently. + * + * __Do not use this function__ to implement things like camera controls. GLFW + * already provides the `GLFW_CURSOR_DISABLED` cursor mode that hides the + * cursor, transparently re-centers it and provides unconstrained cursor + * motion. See @ref glfwSetInputMode for more information. + * + * If the cursor mode is `GLFW_CURSOR_DISABLED` then the cursor position is + * unconstrained and limited only by the minimum and maximum values of + * a `double`. + * + * @param[in] window The desired window. + * @param[in] xpos The desired x-coordinate, relative to the left edge of the + * content area. + * @param[in] ypos The desired y-coordinate, relative to the top edge of the + * content area. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @remark @wayland This function will only work when the cursor mode is + * `GLFW_CURSOR_DISABLED`, otherwise it will do nothing. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_pos + * @sa @ref glfwGetCursorPos + * + * @since Added in version 3.0. Replaces `glfwSetMousePos`. + * + * @ingroup input + */ +GLFWAPI void glfwSetCursorPos(GLFWwindow* window, double xpos, double ypos); + +/*! @brief Creates a custom cursor. + * + * Creates a new custom cursor image that can be set for a window with @ref + * glfwSetCursor. The cursor can be destroyed with @ref glfwDestroyCursor. + * Any remaining cursors are destroyed by @ref glfwTerminate. + * + * The pixels are 32-bit, little-endian, non-premultiplied RGBA, i.e. eight + * bits per channel with the red channel first. They are arranged canonically + * as packed sequential rows, starting from the top-left corner. + * + * The cursor hotspot is specified in pixels, relative to the upper-left corner + * of the cursor image. Like all other coordinate systems in GLFW, the X-axis + * points to the right and the Y-axis points down. + * + * @param[in] image The desired cursor image. + * @param[in] xhot The desired x-coordinate, in pixels, of the cursor hotspot. + * @param[in] yhot The desired y-coordinate, in pixels, of the cursor hotspot. + * @return The handle of the created cursor, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_VALUE and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The specified image data is copied before this function + * returns. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_object + * @sa @ref glfwDestroyCursor + * @sa @ref glfwCreateStandardCursor + * + * @since Added in version 3.1. + * + * @ingroup input + */ +GLFWAPI GLFWcursor* glfwCreateCursor(const GLFWimage* image, int xhot, int yhot); + +/*! @brief Creates a cursor with a standard shape. + * + * Returns a cursor with a [standard shape](@ref shapes), that can be set for + * a window with @ref glfwSetCursor. + * + * @param[in] shape One of the [standard shapes](@ref shapes). + * @return A new cursor ready to use or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_object + * @sa @ref glfwCreateCursor + * + * @since Added in version 3.1. + * + * @ingroup input + */ +GLFWAPI GLFWcursor* glfwCreateStandardCursor(int shape); + +/*! @brief Destroys a cursor. + * + * This function destroys a cursor previously created with @ref + * glfwCreateCursor. Any remaining cursors will be destroyed by @ref + * glfwTerminate. + * + * If the specified cursor is current for any window, that window will be + * reverted to the default cursor. This does not affect the cursor mode. + * + * @param[in] cursor The cursor object to destroy. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @reentrancy This function must not be called from a callback. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_object + * @sa @ref glfwCreateCursor + * + * @since Added in version 3.1. + * + * @ingroup input + */ +GLFWAPI void glfwDestroyCursor(GLFWcursor* cursor); + +/*! @brief Sets the cursor for the window. + * + * This function sets the cursor image to be used when the cursor is over the + * content area of the specified window. The set cursor will only be visible + * when the [cursor mode](@ref cursor_mode) of the window is + * `GLFW_CURSOR_NORMAL`. + * + * On some platforms, the set cursor may not be visible unless the window also + * has input focus. + * + * @param[in] window The window to set the cursor for. + * @param[in] cursor The cursor to set, or `NULL` to switch back to the default + * arrow cursor. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_object + * + * @since Added in version 3.1. + * + * @ingroup input + */ +GLFWAPI void glfwSetCursor(GLFWwindow* window, GLFWcursor* cursor); + +/*! @brief Sets the key callback. + * + * This function sets the key callback of the specified window, which is called + * when a key is pressed, repeated or released. + * + * The key functions deal with physical keys, with layout independent + * [key tokens](@ref keys) named after their values in the standard US keyboard + * layout. If you want to input text, use the + * [character callback](@ref glfwSetCharCallback) instead. + * + * When a window loses input focus, it will generate synthetic key release + * events for all pressed keys. You can tell these events from user-generated + * events by the fact that the synthetic ones are generated after the focus + * loss event has been processed, i.e. after the + * [window focus callback](@ref glfwSetWindowFocusCallback) has been called. + * + * The scancode of a key is specific to that platform or sometimes even to that + * machine. Scancodes are intended to allow users to bind keys that don't have + * a GLFW key token. Such keys have `key` set to `GLFW_KEY_UNKNOWN`, their + * state is not saved and so it cannot be queried with @ref glfwGetKey. + * + * Sometimes GLFW needs to generate synthetic key events, in which case the + * scancode may be zero. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new key callback, or `NULL` to remove the currently + * set callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int key, int scancode, int action, int mods) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWkeyfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref input_key + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter and return value. + * + * @ingroup input + */ +GLFWAPI GLFWkeyfun glfwSetKeyCallback(GLFWwindow* window, GLFWkeyfun callback); + +/*! @brief Sets the Unicode character callback. + * + * This function sets the character callback of the specified window, which is + * called when a Unicode character is input. + * + * The character callback is intended for Unicode text input. As it deals with + * characters, it is keyboard layout dependent, whereas the + * [key callback](@ref glfwSetKeyCallback) is not. Characters do not map 1:1 + * to physical keys, as a key may produce zero, one or more characters. If you + * want to know whether a specific physical key was pressed or released, see + * the key callback instead. + * + * The character callback behaves as system text input normally does and will + * not be called if modifier keys are held down that would prevent normal text + * input on that platform, for example a Super (Command) key on macOS or Alt key + * on Windows. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, unsigned int codepoint) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWcharfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref input_char + * + * @since Added in version 2.4. + * @glfw3 Added window handle parameter and return value. + * + * @ingroup input + */ +GLFWAPI GLFWcharfun glfwSetCharCallback(GLFWwindow* window, GLFWcharfun callback); + +/*! @brief Sets the Unicode character with modifiers callback. + * + * This function sets the character with modifiers callback of the specified + * window, which is called when a Unicode character is input regardless of what + * modifier keys are used. + * + * The character with modifiers callback is intended for implementing custom + * Unicode character input. For regular Unicode text input, see the + * [character callback](@ref glfwSetCharCallback). Like the character + * callback, the character with modifiers callback deals with characters and is + * keyboard layout dependent. Characters do not map 1:1 to physical keys, as + * a key may produce zero, one or more characters. If you want to know whether + * a specific physical key was pressed or released, see the + * [key callback](@ref glfwSetKeyCallback) instead. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or an + * [error](@ref error_handling) occurred. + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, unsigned int codepoint, int mods) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWcharmodsfun). + * + * @deprecated Scheduled for removal in version 4.0. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref input_char + * + * @since Added in version 3.1. + * + * @ingroup input + */ +GLFWAPI GLFWcharmodsfun glfwSetCharModsCallback(GLFWwindow* window, GLFWcharmodsfun callback); + +/*! @brief Sets the mouse button callback. + * + * This function sets the mouse button callback of the specified window, which + * is called when a mouse button is pressed or released. + * + * When a window loses input focus, it will generate synthetic mouse button + * release events for all pressed mouse buttons. You can tell these events + * from user-generated events by the fact that the synthetic ones are generated + * after the focus loss event has been processed, i.e. after the + * [window focus callback](@ref glfwSetWindowFocusCallback) has been called. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int button, int action, int mods) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWmousebuttonfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref input_mouse_button + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter and return value. + * + * @ingroup input + */ +GLFWAPI GLFWmousebuttonfun glfwSetMouseButtonCallback(GLFWwindow* window, GLFWmousebuttonfun callback); + +/*! @brief Sets the cursor position callback. + * + * This function sets the cursor position callback of the specified window, + * which is called when the cursor is moved. The callback is provided with the + * position, in screen coordinates, relative to the upper-left corner of the + * content area of the window. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, double xpos, double ypos); + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWcursorposfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_pos + * + * @since Added in version 3.0. Replaces `glfwSetMousePosCallback`. + * + * @ingroup input + */ +GLFWAPI GLFWcursorposfun glfwSetCursorPosCallback(GLFWwindow* window, GLFWcursorposfun callback); + +/*! @brief Sets the cursor enter/leave callback. + * + * This function sets the cursor boundary crossing callback of the specified + * window, which is called when the cursor enters or leaves the content area of + * the window. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int entered) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWcursorenterfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref cursor_enter + * + * @since Added in version 3.0. + * + * @ingroup input + */ +GLFWAPI GLFWcursorenterfun glfwSetCursorEnterCallback(GLFWwindow* window, GLFWcursorenterfun callback); + +/*! @brief Sets the scroll callback. + * + * This function sets the scroll callback of the specified window, which is + * called when a scrolling device is used, such as a mouse wheel or scrolling + * area of a touchpad. + * + * The scroll callback receives all scrolling input, like that from a mouse + * wheel or a touchpad scrolling area. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new scroll callback, or `NULL` to remove the + * currently set callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, double xoffset, double yoffset) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWscrollfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref scrolling + * + * @since Added in version 3.0. Replaces `glfwSetMouseWheelCallback`. + * + * @ingroup input + */ +GLFWAPI GLFWscrollfun glfwSetScrollCallback(GLFWwindow* window, GLFWscrollfun callback); + +/*! @brief Sets the path drop callback. + * + * This function sets the path drop callback of the specified window, which is + * called when one or more dragged paths are dropped on the window. + * + * Because the path array and its strings may have been generated specifically + * for that event, they are not guaranteed to be valid after the callback has + * returned. If you wish to use them after the callback returns, you need to + * make a deep copy. + * + * @param[in] window The window whose callback to set. + * @param[in] callback The new file drop callback, or `NULL` to remove the + * currently set callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(GLFWwindow* window, int path_count, const char* paths[]) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWdropfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @remark @wayland File drop is currently unimplemented. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref path_drop + * + * @since Added in version 3.1. + * + * @ingroup input + */ +GLFWAPI GLFWdropfun glfwSetDropCallback(GLFWwindow* window, GLFWdropfun callback); + +/*! @brief Returns whether the specified joystick is present. + * + * This function returns whether the specified joystick is present. + * + * There is no need to call this function before other functions that accept + * a joystick ID, as they all check for presence before performing any other + * work. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @return `GLFW_TRUE` if the joystick is present, or `GLFW_FALSE` otherwise. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref joystick + * + * @since Added in version 3.0. Replaces `glfwGetJoystickParam`. + * + * @ingroup input + */ +GLFWAPI int glfwJoystickPresent(int jid); + +/*! @brief Returns the values of all axes of the specified joystick. + * + * This function returns the values of all axes of the specified joystick. + * Each element in the array is a value between -1.0 and 1.0. + * + * If the specified joystick is not present this function will return `NULL` + * but will not generate an error. This can be used instead of first calling + * @ref glfwJoystickPresent. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @param[out] count Where to store the number of axis values in the returned + * array. This is set to zero if the joystick is not present or an error + * occurred. + * @return An array of axis values, or `NULL` if the joystick is not present or + * an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned array is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified joystick is + * disconnected or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref joystick_axis + * + * @since Added in version 3.0. Replaces `glfwGetJoystickPos`. + * + * @ingroup input + */ +GLFWAPI const float* glfwGetJoystickAxes(int jid, int* count); + +/*! @brief Returns the state of all buttons of the specified joystick. + * + * This function returns the state of all buttons of the specified joystick. + * Each element in the array is either `GLFW_PRESS` or `GLFW_RELEASE`. + * + * For backward compatibility with earlier versions that did not have @ref + * glfwGetJoystickHats, the button array also includes all hats, each + * represented as four buttons. The hats are in the same order as returned by + * __glfwGetJoystickHats__ and are in the order _up_, _right_, _down_ and + * _left_. To disable these extra buttons, set the @ref + * GLFW_JOYSTICK_HAT_BUTTONS init hint before initialization. + * + * If the specified joystick is not present this function will return `NULL` + * but will not generate an error. This can be used instead of first calling + * @ref glfwJoystickPresent. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @param[out] count Where to store the number of button states in the returned + * array. This is set to zero if the joystick is not present or an error + * occurred. + * @return An array of button states, or `NULL` if the joystick is not present + * or an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned array is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified joystick is + * disconnected or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref joystick_button + * + * @since Added in version 2.2. + * @glfw3 Changed to return a dynamic array. + * + * @ingroup input + */ +GLFWAPI const unsigned char* glfwGetJoystickButtons(int jid, int* count); + +/*! @brief Returns the state of all hats of the specified joystick. + * + * This function returns the state of all hats of the specified joystick. + * Each element in the array is one of the following values: + * + * Name | Value + * ---- | ----- + * `GLFW_HAT_CENTERED` | 0 + * `GLFW_HAT_UP` | 1 + * `GLFW_HAT_RIGHT` | 2 + * `GLFW_HAT_DOWN` | 4 + * `GLFW_HAT_LEFT` | 8 + * `GLFW_HAT_RIGHT_UP` | `GLFW_HAT_RIGHT` \| `GLFW_HAT_UP` + * `GLFW_HAT_RIGHT_DOWN` | `GLFW_HAT_RIGHT` \| `GLFW_HAT_DOWN` + * `GLFW_HAT_LEFT_UP` | `GLFW_HAT_LEFT` \| `GLFW_HAT_UP` + * `GLFW_HAT_LEFT_DOWN` | `GLFW_HAT_LEFT` \| `GLFW_HAT_DOWN` + * + * The diagonal directions are bitwise combinations of the primary (up, right, + * down and left) directions and you can test for these individually by ANDing + * it with the corresponding direction. + * + * @code + * if (hats[2] & GLFW_HAT_RIGHT) + * { + * // State of hat 2 could be right-up, right or right-down + * } + * @endcode + * + * If the specified joystick is not present this function will return `NULL` + * but will not generate an error. This can be used instead of first calling + * @ref glfwJoystickPresent. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @param[out] count Where to store the number of hat states in the returned + * array. This is set to zero if the joystick is not present or an error + * occurred. + * @return An array of hat states, or `NULL` if the joystick is not present + * or an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned array is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified joystick is + * disconnected, this function is called again for that joystick or the library + * is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref joystick_hat + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI const unsigned char* glfwGetJoystickHats(int jid, int* count); + +/*! @brief Returns the name of the specified joystick. + * + * This function returns the name, encoded as UTF-8, of the specified joystick. + * The returned string is allocated and freed by GLFW. You should not free it + * yourself. + * + * If the specified joystick is not present this function will return `NULL` + * but will not generate an error. This can be used instead of first calling + * @ref glfwJoystickPresent. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @return The UTF-8 encoded name of the joystick, or `NULL` if the joystick + * is not present or an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified joystick is + * disconnected or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref joystick_name + * + * @since Added in version 3.0. + * + * @ingroup input + */ +GLFWAPI const char* glfwGetJoystickName(int jid); + +/*! @brief Returns the SDL compatible GUID of the specified joystick. + * + * This function returns the SDL compatible GUID, as a UTF-8 encoded + * hexadecimal string, of the specified joystick. The returned string is + * allocated and freed by GLFW. You should not free it yourself. + * + * The GUID is what connects a joystick to a gamepad mapping. A connected + * joystick will always have a GUID even if there is no gamepad mapping + * assigned to it. + * + * If the specified joystick is not present this function will return `NULL` + * but will not generate an error. This can be used instead of first calling + * @ref glfwJoystickPresent. + * + * The GUID uses the format introduced in SDL 2.0.5. This GUID tries to + * uniquely identify the make and model of a joystick but does not identify + * a specific unit, e.g. all wired Xbox 360 controllers will have the same + * GUID on that platform. The GUID for a unit may vary between platforms + * depending on what hardware information the platform specific APIs provide. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @return The UTF-8 encoded GUID of the joystick, or `NULL` if the joystick + * is not present or an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_INVALID_ENUM and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified joystick is + * disconnected or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref gamepad + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI const char* glfwGetJoystickGUID(int jid); + +/*! @brief Sets the user pointer of the specified joystick. + * + * This function sets the user-defined pointer of the specified joystick. The + * current value is retained until the joystick is disconnected. The initial + * value is `NULL`. + * + * This function may be called from the joystick callback, even for a joystick + * that is being disconnected. + * + * @param[in] jid The joystick whose pointer to set. + * @param[in] pointer The new value. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref joystick_userptr + * @sa @ref glfwGetJoystickUserPointer + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI void glfwSetJoystickUserPointer(int jid, void* pointer); + +/*! @brief Returns the user pointer of the specified joystick. + * + * This function returns the current value of the user-defined pointer of the + * specified joystick. The initial value is `NULL`. + * + * This function may be called from the joystick callback, even for a joystick + * that is being disconnected. + * + * @param[in] jid The joystick whose pointer to return. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @sa @ref joystick_userptr + * @sa @ref glfwSetJoystickUserPointer + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI void* glfwGetJoystickUserPointer(int jid); + +/*! @brief Returns whether the specified joystick has a gamepad mapping. + * + * This function returns whether the specified joystick is both present and has + * a gamepad mapping. + * + * If the specified joystick is present but does not have a gamepad mapping + * this function will return `GLFW_FALSE` but will not generate an error. Call + * @ref glfwJoystickPresent to check if a joystick is present regardless of + * whether it has a mapping. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @return `GLFW_TRUE` if a joystick is both present and has a gamepad mapping, + * or `GLFW_FALSE` otherwise. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_ENUM. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref gamepad + * @sa @ref glfwGetGamepadState + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI int glfwJoystickIsGamepad(int jid); + +/*! @brief Sets the joystick configuration callback. + * + * This function sets the joystick configuration callback, or removes the + * currently set callback. This is called when a joystick is connected to or + * disconnected from the system. + * + * For joystick connection and disconnection events to be delivered on all + * platforms, you need to call one of the [event processing](@ref events) + * functions. Joystick disconnection may also be detected and the callback + * called by joystick functions. The function will then return whatever it + * returns if the joystick is not present. + * + * @param[in] callback The new callback, or `NULL` to remove the currently set + * callback. + * @return The previously set callback, or `NULL` if no callback was set or the + * library had not been [initialized](@ref intro_init). + * + * @callback_signature + * @code + * void function_name(int jid, int event) + * @endcode + * For more information about the callback parameters, see the + * [function pointer type](@ref GLFWjoystickfun). + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref joystick_event + * + * @since Added in version 3.2. + * + * @ingroup input + */ +GLFWAPI GLFWjoystickfun glfwSetJoystickCallback(GLFWjoystickfun callback); + +/*! @brief Adds the specified SDL_GameControllerDB gamepad mappings. + * + * This function parses the specified ASCII encoded string and updates the + * internal list with any gamepad mappings it finds. This string may + * contain either a single gamepad mapping or many mappings separated by + * newlines. The parser supports the full format of the `gamecontrollerdb.txt` + * source file including empty lines and comments. + * + * See @ref gamepad_mapping for a description of the format. + * + * If there is already a gamepad mapping for a given GUID in the internal list, + * it will be replaced by the one passed to this function. If the library is + * terminated and re-initialized the internal list will revert to the built-in + * default. + * + * @param[in] string The string containing the gamepad mappings. + * @return `GLFW_TRUE` if successful, or `GLFW_FALSE` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_VALUE. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref gamepad + * @sa @ref glfwJoystickIsGamepad + * @sa @ref glfwGetGamepadName + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI int glfwUpdateGamepadMappings(const char* string); + +/*! @brief Returns the human-readable gamepad name for the specified joystick. + * + * This function returns the human-readable name of the gamepad from the + * gamepad mapping assigned to the specified joystick. + * + * If the specified joystick is not present or does not have a gamepad mapping + * this function will return `NULL` but will not generate an error. Call + * @ref glfwJoystickPresent to check whether it is present regardless of + * whether it has a mapping. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @return The UTF-8 encoded name of the gamepad, or `NULL` if the + * joystick is not present, does not have a mapping or an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref GLFW_INVALID_ENUM. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the specified joystick is + * disconnected, the gamepad mappings are updated or the library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref gamepad + * @sa @ref glfwJoystickIsGamepad + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI const char* glfwGetGamepadName(int jid); + +/*! @brief Retrieves the state of the specified joystick remapped as a gamepad. + * + * This function retrieves the state of the specified joystick remapped to + * an Xbox-like gamepad. + * + * If the specified joystick is not present or does not have a gamepad mapping + * this function will return `GLFW_FALSE` but will not generate an error. Call + * @ref glfwJoystickPresent to check whether it is present regardless of + * whether it has a mapping. + * + * The Guide button may not be available for input as it is often hooked by the + * system or the Steam client. + * + * Not all devices have all the buttons or axes provided by @ref + * GLFWgamepadstate. Unavailable buttons and axes will always report + * `GLFW_RELEASE` and 0.0 respectively. + * + * @param[in] jid The [joystick](@ref joysticks) to query. + * @param[out] state The gamepad input state of the joystick. + * @return `GLFW_TRUE` if successful, or `GLFW_FALSE` if no joystick is + * connected, it has no gamepad mapping or an [error](@ref error_handling) + * occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_ENUM. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref gamepad + * @sa @ref glfwUpdateGamepadMappings + * @sa @ref glfwJoystickIsGamepad + * + * @since Added in version 3.3. + * + * @ingroup input + */ +GLFWAPI int glfwGetGamepadState(int jid, GLFWgamepadstate* state); + +/*! @brief Sets the clipboard to the specified string. + * + * This function sets the system clipboard to the specified, UTF-8 encoded + * string. + * + * @param[in] window Deprecated. Any valid window or `NULL`. + * @param[in] string A UTF-8 encoded string. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The specified string is copied before this function + * returns. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref clipboard + * @sa @ref glfwGetClipboardString + * + * @since Added in version 3.0. + * + * @ingroup input + */ +GLFWAPI void glfwSetClipboardString(GLFWwindow* window, const char* string); + +/*! @brief Returns the contents of the clipboard as a string. + * + * This function returns the contents of the system clipboard, if it contains + * or is convertible to a UTF-8 encoded string. If the clipboard is empty or + * if its contents cannot be converted, `NULL` is returned and a @ref + * GLFW_FORMAT_UNAVAILABLE error is generated. + * + * @param[in] window Deprecated. Any valid window or `NULL`. + * @return The contents of the clipboard as a UTF-8 encoded string, or `NULL` + * if an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_FORMAT_UNAVAILABLE and @ref GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the next call to @ref + * glfwGetClipboardString or @ref glfwSetClipboardString, or until the library + * is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref clipboard + * @sa @ref glfwSetClipboardString + * + * @since Added in version 3.0. + * + * @ingroup input + */ +GLFWAPI const char* glfwGetClipboardString(GLFWwindow* window); + +/*! @brief Returns the GLFW time. + * + * This function returns the current GLFW time, in seconds. Unless the time + * has been set using @ref glfwSetTime it measures time elapsed since GLFW was + * initialized. + * + * This function and @ref glfwSetTime are helper functions on top of @ref + * glfwGetTimerFrequency and @ref glfwGetTimerValue. + * + * The resolution of the timer is system dependent, but is usually on the order + * of a few micro- or nanoseconds. It uses the highest-resolution monotonic + * time source on each supported platform. + * + * @return The current time, in seconds, or zero if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Reading and + * writing of the internal base time is not atomic, so it needs to be + * externally synchronized with calls to @ref glfwSetTime. + * + * @sa @ref time + * + * @since Added in version 1.0. + * + * @ingroup input + */ +GLFWAPI double glfwGetTime(void); + +/*! @brief Sets the GLFW time. + * + * This function sets the current GLFW time, in seconds. The value must be + * a positive finite number less than or equal to 18446744073.0, which is + * approximately 584.5 years. + * + * This function and @ref glfwGetTime are helper functions on top of @ref + * glfwGetTimerFrequency and @ref glfwGetTimerValue. + * + * @param[in] time The new value, in seconds. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_INVALID_VALUE. + * + * @remark The upper limit of GLFW time is calculated as + * floor((264 - 1) / 109) and is due to implementations + * storing nanoseconds in 64 bits. The limit may be increased in the future. + * + * @thread_safety This function may be called from any thread. Reading and + * writing of the internal base time is not atomic, so it needs to be + * externally synchronized with calls to @ref glfwGetTime. + * + * @sa @ref time + * + * @since Added in version 2.2. + * + * @ingroup input + */ +GLFWAPI void glfwSetTime(double time); + +/*! @brief Returns the current value of the raw timer. + * + * This function returns the current value of the raw timer, measured in + * 1 / frequency seconds. To get the frequency, call @ref + * glfwGetTimerFrequency. + * + * @return The value of the timer, or zero if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref time + * @sa @ref glfwGetTimerFrequency + * + * @since Added in version 3.2. + * + * @ingroup input + */ +GLFWAPI uint64_t glfwGetTimerValue(void); + +/*! @brief Returns the frequency, in Hz, of the raw timer. + * + * This function returns the frequency, in Hz, of the raw timer. + * + * @return The frequency of the timer, in Hz, or zero if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref time + * @sa @ref glfwGetTimerValue + * + * @since Added in version 3.2. + * + * @ingroup input + */ +GLFWAPI uint64_t glfwGetTimerFrequency(void); + +/*! @brief Makes the context of the specified window current for the calling + * thread. + * + * This function makes the OpenGL or OpenGL ES context of the specified window + * current on the calling thread. A context must only be made current on + * a single thread at a time and each thread can have only a single current + * context at a time. + * + * When moving a context between threads, you must make it non-current on the + * old thread before making it current on the new one. + * + * By default, making a context non-current implicitly forces a pipeline flush. + * On machines that support `GL_KHR_context_flush_control`, you can control + * whether a context performs this flush by setting the + * [GLFW_CONTEXT_RELEASE_BEHAVIOR](@ref GLFW_CONTEXT_RELEASE_BEHAVIOR_hint) + * hint. + * + * The specified window must have an OpenGL or OpenGL ES context. Specifying + * a window without a context will generate a @ref GLFW_NO_WINDOW_CONTEXT + * error. + * + * @param[in] window The window whose context to make current, or `NULL` to + * detach the current context. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_NO_WINDOW_CONTEXT and @ref GLFW_PLATFORM_ERROR. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref context_current + * @sa @ref glfwGetCurrentContext + * + * @since Added in version 3.0. + * + * @ingroup context + */ +GLFWAPI void glfwMakeContextCurrent(GLFWwindow* window); + +/*! @brief Returns the window whose context is current on the calling thread. + * + * This function returns the window whose OpenGL or OpenGL ES context is + * current on the calling thread. + * + * @return The window whose context is current, or `NULL` if no window's + * context is current. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref context_current + * @sa @ref glfwMakeContextCurrent + * + * @since Added in version 3.0. + * + * @ingroup context + */ +GLFWAPI GLFWwindow* glfwGetCurrentContext(void); + +/*! @brief Swaps the front and back buffers of the specified window. + * + * This function swaps the front and back buffers of the specified window when + * rendering with OpenGL or OpenGL ES. If the swap interval is greater than + * zero, the GPU driver waits the specified number of screen updates before + * swapping the buffers. + * + * The specified window must have an OpenGL or OpenGL ES context. Specifying + * a window without a context will generate a @ref GLFW_NO_WINDOW_CONTEXT + * error. + * + * This function does not apply to Vulkan. If you are rendering with Vulkan, + * see `vkQueuePresentKHR` instead. + * + * @param[in] window The window whose buffers to swap. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_NO_WINDOW_CONTEXT and @ref GLFW_PLATFORM_ERROR. + * + * @remark __EGL:__ The context of the specified window must be current on the + * calling thread. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref buffer_swap + * @sa @ref glfwSwapInterval + * + * @since Added in version 1.0. + * @glfw3 Added window handle parameter. + * + * @ingroup window + */ +GLFWAPI void glfwSwapBuffers(GLFWwindow* window); + +/*! @brief Sets the swap interval for the current context. + * + * This function sets the swap interval for the current OpenGL or OpenGL ES + * context, i.e. the number of screen updates to wait from the time @ref + * glfwSwapBuffers was called before swapping the buffers and returning. This + * is sometimes called _vertical synchronization_, _vertical retrace + * synchronization_ or just _vsync_. + * + * A context that supports either of the `WGL_EXT_swap_control_tear` and + * `GLX_EXT_swap_control_tear` extensions also accepts _negative_ swap + * intervals, which allows the driver to swap immediately even if a frame + * arrives a little bit late. You can check for these extensions with @ref + * glfwExtensionSupported. + * + * A context must be current on the calling thread. Calling this function + * without a current context will cause a @ref GLFW_NO_CURRENT_CONTEXT error. + * + * This function does not apply to Vulkan. If you are rendering with Vulkan, + * see the present mode of your swapchain instead. + * + * @param[in] interval The minimum number of screen updates to wait for + * until the buffers are swapped by @ref glfwSwapBuffers. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_NO_CURRENT_CONTEXT and @ref GLFW_PLATFORM_ERROR. + * + * @remark This function is not called during context creation, leaving the + * swap interval set to whatever is the default on that platform. This is done + * because some swap interval extensions used by GLFW do not allow the swap + * interval to be reset to zero once it has been set to a non-zero value. + * + * @remark Some GPU drivers do not honor the requested swap interval, either + * because of a user setting that overrides the application's request or due to + * bugs in the driver. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref buffer_swap + * @sa @ref glfwSwapBuffers + * + * @since Added in version 1.0. + * + * @ingroup context + */ +GLFWAPI void glfwSwapInterval(int interval); + +/*! @brief Returns whether the specified extension is available. + * + * This function returns whether the specified + * [API extension](@ref context_glext) is supported by the current OpenGL or + * OpenGL ES context. It searches both for client API extension and context + * creation API extensions. + * + * A context must be current on the calling thread. Calling this function + * without a current context will cause a @ref GLFW_NO_CURRENT_CONTEXT error. + * + * As this functions retrieves and searches one or more extension strings each + * call, it is recommended that you cache its results if it is going to be used + * frequently. The extension strings will not change during the lifetime of + * a context, so there is no danger in doing this. + * + * This function does not apply to Vulkan. If you are using Vulkan, see @ref + * glfwGetRequiredInstanceExtensions, `vkEnumerateInstanceExtensionProperties` + * and `vkEnumerateDeviceExtensionProperties` instead. + * + * @param[in] extension The ASCII encoded name of the extension. + * @return `GLFW_TRUE` if the extension is available, or `GLFW_FALSE` + * otherwise. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_NO_CURRENT_CONTEXT, @ref GLFW_INVALID_VALUE and @ref + * GLFW_PLATFORM_ERROR. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref context_glext + * @sa @ref glfwGetProcAddress + * + * @since Added in version 1.0. + * + * @ingroup context + */ +GLFWAPI int glfwExtensionSupported(const char* extension); + +/*! @brief Returns the address of the specified function for the current + * context. + * + * This function returns the address of the specified OpenGL or OpenGL ES + * [core or extension function](@ref context_glext), if it is supported + * by the current context. + * + * A context must be current on the calling thread. Calling this function + * without a current context will cause a @ref GLFW_NO_CURRENT_CONTEXT error. + * + * This function does not apply to Vulkan. If you are rendering with Vulkan, + * see @ref glfwGetInstanceProcAddress, `vkGetInstanceProcAddr` and + * `vkGetDeviceProcAddr` instead. + * + * @param[in] procname The ASCII encoded name of the function. + * @return The address of the function, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_NO_CURRENT_CONTEXT and @ref GLFW_PLATFORM_ERROR. + * + * @remark The address of a given function is not guaranteed to be the same + * between contexts. + * + * @remark This function may return a non-`NULL` address despite the + * associated version or extension not being available. Always check the + * context version or extension string first. + * + * @pointer_lifetime The returned function pointer is valid until the context + * is destroyed or the library is terminated. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref context_glext + * @sa @ref glfwExtensionSupported + * + * @since Added in version 1.0. + * + * @ingroup context + */ +GLFWAPI GLFWglproc glfwGetProcAddress(const char* procname); + +/*! @brief Returns whether the Vulkan loader and an ICD have been found. + * + * This function returns whether the Vulkan loader and any minimally functional + * ICD have been found. + * + * The availability of a Vulkan loader and even an ICD does not by itself guarantee that + * surface creation or even instance creation is possible. Call @ref + * glfwGetRequiredInstanceExtensions to check whether the extensions necessary for Vulkan + * surface creation are available and @ref glfwGetPhysicalDevicePresentationSupport to + * check whether a queue family of a physical device supports image presentation. + * + * @return `GLFW_TRUE` if Vulkan is minimally available, or `GLFW_FALSE` + * otherwise. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref vulkan_support + * + * @since Added in version 3.2. + * + * @ingroup vulkan + */ +GLFWAPI int glfwVulkanSupported(void); + +/*! @brief Returns the Vulkan instance extensions required by GLFW. + * + * This function returns an array of names of Vulkan instance extensions required + * by GLFW for creating Vulkan surfaces for GLFW windows. If successful, the + * list will always contain `VK_KHR_surface`, so if you don't require any + * additional extensions you can pass this list directly to the + * `VkInstanceCreateInfo` struct. + * + * If Vulkan is not available on the machine, this function returns `NULL` and + * generates a @ref GLFW_API_UNAVAILABLE error. Call @ref glfwVulkanSupported + * to check whether Vulkan is at least minimally available. + * + * If Vulkan is available but no set of extensions allowing window surface + * creation was found, this function returns `NULL`. You may still use Vulkan + * for off-screen rendering and compute work. + * + * @param[out] count Where to store the number of extensions in the returned + * array. This is set to zero if an error occurred. + * @return An array of ASCII encoded extension names, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_API_UNAVAILABLE. + * + * @remark Additional extensions may be required by future versions of GLFW. + * You should check if any extensions you wish to enable are already in the + * returned array, as it is an error to specify an extension more than once in + * the `VkInstanceCreateInfo` struct. + * + * @pointer_lifetime The returned array is allocated and freed by GLFW. You + * should not free it yourself. It is guaranteed to be valid only until the + * library is terminated. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref vulkan_ext + * @sa @ref glfwCreateWindowSurface + * + * @since Added in version 3.2. + * + * @ingroup vulkan + */ +GLFWAPI const char** glfwGetRequiredInstanceExtensions(uint32_t* count); + +#if defined(VK_VERSION_1_0) + +/*! @brief Returns the address of the specified Vulkan instance function. + * + * This function returns the address of the specified Vulkan core or extension + * function for the specified instance. If instance is set to `NULL` it can + * return any function exported from the Vulkan loader, including at least the + * following functions: + * + * - `vkEnumerateInstanceExtensionProperties` + * - `vkEnumerateInstanceLayerProperties` + * - `vkCreateInstance` + * - `vkGetInstanceProcAddr` + * + * If Vulkan is not available on the machine, this function returns `NULL` and + * generates a @ref GLFW_API_UNAVAILABLE error. Call @ref glfwVulkanSupported + * to check whether Vulkan is at least minimally available. + * + * This function is equivalent to calling `vkGetInstanceProcAddr` with + * a platform-specific query of the Vulkan loader as a fallback. + * + * @param[in] instance The Vulkan instance to query, or `NULL` to retrieve + * functions related to instance creation. + * @param[in] procname The ASCII encoded name of the function. + * @return The address of the function, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_API_UNAVAILABLE. + * + * @pointer_lifetime The returned function pointer is valid until the library + * is terminated. + * + * @thread_safety This function may be called from any thread. + * + * @sa @ref vulkan_proc + * + * @since Added in version 3.2. + * + * @ingroup vulkan + */ +GLFWAPI GLFWvkproc glfwGetInstanceProcAddress(VkInstance instance, const char* procname); + +/*! @brief Returns whether the specified queue family can present images. + * + * This function returns whether the specified queue family of the specified + * physical device supports presentation to the platform GLFW was built for. + * + * If Vulkan or the required window surface creation instance extensions are + * not available on the machine, or if the specified instance was not created + * with the required extensions, this function returns `GLFW_FALSE` and + * generates a @ref GLFW_API_UNAVAILABLE error. Call @ref glfwVulkanSupported + * to check whether Vulkan is at least minimally available and @ref + * glfwGetRequiredInstanceExtensions to check what instance extensions are + * required. + * + * @param[in] instance The instance that the physical device belongs to. + * @param[in] device The physical device that the queue family belongs to. + * @param[in] queuefamily The index of the queue family to query. + * @return `GLFW_TRUE` if the queue family supports presentation, or + * `GLFW_FALSE` otherwise. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_API_UNAVAILABLE and @ref GLFW_PLATFORM_ERROR. + * + * @remark @macos This function currently always returns `GLFW_TRUE`, as the + * `VK_MVK_macos_surface` and `VK_EXT_metal_surface` extensions do not provide + * a `vkGetPhysicalDevice*PresentationSupport` type function. + * + * @thread_safety This function may be called from any thread. For + * synchronization details of Vulkan objects, see the Vulkan specification. + * + * @sa @ref vulkan_present + * + * @since Added in version 3.2. + * + * @ingroup vulkan + */ +GLFWAPI int glfwGetPhysicalDevicePresentationSupport(VkInstance instance, VkPhysicalDevice device, uint32_t queuefamily); + +/*! @brief Creates a Vulkan surface for the specified window. + * + * This function creates a Vulkan surface for the specified window. + * + * If the Vulkan loader or at least one minimally functional ICD were not found, + * this function returns `VK_ERROR_INITIALIZATION_FAILED` and generates a @ref + * GLFW_API_UNAVAILABLE error. Call @ref glfwVulkanSupported to check whether + * Vulkan is at least minimally available. + * + * If the required window surface creation instance extensions are not + * available or if the specified instance was not created with these extensions + * enabled, this function returns `VK_ERROR_EXTENSION_NOT_PRESENT` and + * generates a @ref GLFW_API_UNAVAILABLE error. Call @ref + * glfwGetRequiredInstanceExtensions to check what instance extensions are + * required. + * + * The window surface cannot be shared with another API so the window must + * have been created with the [client api hint](@ref GLFW_CLIENT_API_attrib) + * set to `GLFW_NO_API` otherwise it generates a @ref GLFW_INVALID_VALUE error + * and returns `VK_ERROR_NATIVE_WINDOW_IN_USE_KHR`. + * + * The window surface must be destroyed before the specified Vulkan instance. + * It is the responsibility of the caller to destroy the window surface. GLFW + * does not destroy it for you. Call `vkDestroySurfaceKHR` to destroy the + * surface. + * + * @param[in] instance The Vulkan instance to create the surface in. + * @param[in] window The window to create the surface for. + * @param[in] allocator The allocator to use, or `NULL` to use the default + * allocator. + * @param[out] surface Where to store the handle of the surface. This is set + * to `VK_NULL_HANDLE` if an error occurred. + * @return `VK_SUCCESS` if successful, or a Vulkan error code if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED, @ref + * GLFW_API_UNAVAILABLE, @ref GLFW_PLATFORM_ERROR and @ref GLFW_INVALID_VALUE + * + * @remark If an error occurs before the creation call is made, GLFW returns + * the Vulkan error code most appropriate for the error. Appropriate use of + * @ref glfwVulkanSupported and @ref glfwGetRequiredInstanceExtensions should + * eliminate almost all occurrences of these errors. + * + * @remark @macos GLFW prefers the `VK_EXT_metal_surface` extension, with the + * `VK_MVK_macos_surface` extension as a fallback. The name of the selected + * extension, if any, is included in the array returned by @ref + * glfwGetRequiredInstanceExtensions. + * + * @remark @macos This function creates and sets a `CAMetalLayer` instance for + * the window content view, which is required for MoltenVK to function. + * + * @thread_safety This function may be called from any thread. For + * synchronization details of Vulkan objects, see the Vulkan specification. + * + * @sa @ref vulkan_surface + * @sa @ref glfwGetRequiredInstanceExtensions + * + * @since Added in version 3.2. + * + * @ingroup vulkan + */ +GLFWAPI VkResult glfwCreateWindowSurface(VkInstance instance, GLFWwindow* window, const VkAllocationCallbacks* allocator, VkSurfaceKHR* surface); + +#endif /*VK_VERSION_1_0*/ + + +/************************************************************************* + * Global definition cleanup + *************************************************************************/ + +/* ------------------- BEGIN SYSTEM/COMPILER SPECIFIC -------------------- */ + +#ifdef GLFW_WINGDIAPI_DEFINED + #undef WINGDIAPI + #undef GLFW_WINGDIAPI_DEFINED +#endif + +#ifdef GLFW_CALLBACK_DEFINED + #undef CALLBACK + #undef GLFW_CALLBACK_DEFINED +#endif + +/* Some OpenGL related headers need GLAPIENTRY, but it is unconditionally + * defined by some gl.h variants (OpenBSD) so define it after if needed. + */ +#ifndef GLAPIENTRY + #define GLAPIENTRY APIENTRY + #define GLFW_GLAPIENTRY_DEFINED +#endif + +/* -------------------- END SYSTEM/COMPILER SPECIFIC --------------------- */ + + +#ifdef __cplusplus +} +#endif + +#endif /* _glfw3_h_ */ + diff --git a/Vulkan/ext/include/GLFW/glfw3native.h b/Vulkan/ext/include/GLFW/glfw3native.h new file mode 100644 index 0000000..7be0227 --- /dev/null +++ b/Vulkan/ext/include/GLFW/glfw3native.h @@ -0,0 +1,628 @@ +/************************************************************************* + * GLFW 3.3 - www.glfw.org + * A library for OpenGL, window and input + *------------------------------------------------------------------------ + * Copyright (c) 2002-2006 Marcus Geelnard + * Copyright (c) 2006-2018 Camilla Löwy + * + * This software is provided 'as-is', without any express or implied + * warranty. In no event will the authors be held liable for any damages + * arising from the use of this software. + * + * Permission is granted to anyone to use this software for any purpose, + * including commercial applications, and to alter it and redistribute it + * freely, subject to the following restrictions: + * + * 1. The origin of this software must not be misrepresented; you must not + * claim that you wrote the original software. If you use this software + * in a product, an acknowledgment in the product documentation would + * be appreciated but is not required. + * + * 2. Altered source versions must be plainly marked as such, and must not + * be misrepresented as being the original software. + * + * 3. This notice may not be removed or altered from any source + * distribution. + * + *************************************************************************/ + +#ifndef _glfw3_native_h_ +#define _glfw3_native_h_ + +#ifdef __cplusplus +extern "C" { +#endif + + +/************************************************************************* + * Doxygen documentation + *************************************************************************/ + +/*! @file glfw3native.h + * @brief The header of the native access functions. + * + * This is the header file of the native access functions. See @ref native for + * more information. + */ +/*! @defgroup native Native access + * @brief Functions related to accessing native handles. + * + * **By using the native access functions you assert that you know what you're + * doing and how to fix problems caused by using them. If you don't, you + * shouldn't be using them.** + * + * Before the inclusion of @ref glfw3native.h, you may define zero or more + * window system API macro and zero or more context creation API macros. + * + * The chosen backends must match those the library was compiled for. Failure + * to do this will cause a link-time error. + * + * The available window API macros are: + * * `GLFW_EXPOSE_NATIVE_WIN32` + * * `GLFW_EXPOSE_NATIVE_COCOA` + * * `GLFW_EXPOSE_NATIVE_X11` + * * `GLFW_EXPOSE_NATIVE_WAYLAND` + * + * The available context API macros are: + * * `GLFW_EXPOSE_NATIVE_WGL` + * * `GLFW_EXPOSE_NATIVE_NSGL` + * * `GLFW_EXPOSE_NATIVE_GLX` + * * `GLFW_EXPOSE_NATIVE_EGL` + * * `GLFW_EXPOSE_NATIVE_OSMESA` + * + * These macros select which of the native access functions that are declared + * and which platform-specific headers to include. It is then up your (by + * definition platform-specific) code to handle which of these should be + * defined. + * + * If you do not want the platform-specific headers to be included, define + * `GLFW_NATIVE_INCLUDE_NONE` before including the @ref glfw3native.h header. + * + * @code + * #define GLFW_EXPOSE_NATIVE_WIN32 + * #define GLFW_EXPOSE_NATIVE_WGL + * #define GLFW_NATIVE_INCLUDE_NONE + * #include + * @endcode + */ + + +/************************************************************************* + * System headers and types + *************************************************************************/ + +#if !defined(GLFW_NATIVE_INCLUDE_NONE) + + #if defined(GLFW_EXPOSE_NATIVE_WIN32) || defined(GLFW_EXPOSE_NATIVE_WGL) + /* This is a workaround for the fact that glfw3.h needs to export APIENTRY (for + * example to allow applications to correctly declare a GL_KHR_debug callback) + * but windows.h assumes no one will define APIENTRY before it does + */ + #if defined(GLFW_APIENTRY_DEFINED) + #undef APIENTRY + #undef GLFW_APIENTRY_DEFINED + #endif + #include + #elif defined(GLFW_EXPOSE_NATIVE_COCOA) || defined(GLFW_EXPOSE_NATIVE_NSGL) + #if defined(__OBJC__) + #import + #else + #include + #include + #endif + #elif defined(GLFW_EXPOSE_NATIVE_X11) || defined(GLFW_EXPOSE_NATIVE_GLX) + #include + #include + #elif defined(GLFW_EXPOSE_NATIVE_WAYLAND) + #include + #endif + + #if defined(GLFW_EXPOSE_NATIVE_WGL) + /* WGL is declared by windows.h */ + #endif + #if defined(GLFW_EXPOSE_NATIVE_NSGL) + /* NSGL is declared by Cocoa.h */ + #endif + #if defined(GLFW_EXPOSE_NATIVE_GLX) + /* This is a workaround for the fact that glfw3.h defines GLAPIENTRY because by + * default it also acts as an OpenGL header + * However, glx.h will include gl.h, which will define it unconditionally + */ + #if defined(GLFW_GLAPIENTRY_DEFINED) + #undef GLAPIENTRY + #undef GLFW_GLAPIENTRY_DEFINED + #endif + #include + #endif + #if defined(GLFW_EXPOSE_NATIVE_EGL) + #include + #endif + #if defined(GLFW_EXPOSE_NATIVE_OSMESA) + /* This is a workaround for the fact that glfw3.h defines GLAPIENTRY because by + * default it also acts as an OpenGL header + * However, osmesa.h will include gl.h, which will define it unconditionally + */ + #if defined(GLFW_GLAPIENTRY_DEFINED) + #undef GLAPIENTRY + #undef GLFW_GLAPIENTRY_DEFINED + #endif + #include + #endif + +#endif /*GLFW_NATIVE_INCLUDE_NONE*/ + + +/************************************************************************* + * Functions + *************************************************************************/ + +#if defined(GLFW_EXPOSE_NATIVE_WIN32) +/*! @brief Returns the adapter device name of the specified monitor. + * + * @return The UTF-8 encoded adapter device name (for example `\\.\DISPLAY1`) + * of the specified monitor, or `NULL` if an [error](@ref error_handling) + * occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.1. + * + * @ingroup native + */ +GLFWAPI const char* glfwGetWin32Adapter(GLFWmonitor* monitor); + +/*! @brief Returns the display device name of the specified monitor. + * + * @return The UTF-8 encoded display device name (for example + * `\\.\DISPLAY1\Monitor0`) of the specified monitor, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.1. + * + * @ingroup native + */ +GLFWAPI const char* glfwGetWin32Monitor(GLFWmonitor* monitor); + +/*! @brief Returns the `HWND` of the specified window. + * + * @return The `HWND` of the specified window, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @remark The `HDC` associated with the window can be queried with the + * [GetDC](https://docs.microsoft.com/en-us/windows/win32/api/winuser/nf-winuser-getdc) + * function. + * @code + * HDC dc = GetDC(glfwGetWin32Window(window)); + * @endcode + * This DC is private and does not need to be released. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI HWND glfwGetWin32Window(GLFWwindow* window); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_WGL) +/*! @brief Returns the `HGLRC` of the specified window. + * + * @return The `HGLRC` of the specified window, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @remark The `HDC` associated with the window can be queried with the + * [GetDC](https://docs.microsoft.com/en-us/windows/win32/api/winuser/nf-winuser-getdc) + * function. + * @code + * HDC dc = GetDC(glfwGetWin32Window(window)); + * @endcode + * This DC is private and does not need to be released. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI HGLRC glfwGetWGLContext(GLFWwindow* window); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_COCOA) +/*! @brief Returns the `CGDirectDisplayID` of the specified monitor. + * + * @return The `CGDirectDisplayID` of the specified monitor, or + * `kCGNullDirectDisplay` if an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.1. + * + * @ingroup native + */ +GLFWAPI CGDirectDisplayID glfwGetCocoaMonitor(GLFWmonitor* monitor); + +/*! @brief Returns the `NSWindow` of the specified window. + * + * @return The `NSWindow` of the specified window, or `nil` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI id glfwGetCocoaWindow(GLFWwindow* window); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_NSGL) +/*! @brief Returns the `NSOpenGLContext` of the specified window. + * + * @return The `NSOpenGLContext` of the specified window, or `nil` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI id glfwGetNSGLContext(GLFWwindow* window); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_X11) +/*! @brief Returns the `Display` used by GLFW. + * + * @return The `Display` used by GLFW, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI Display* glfwGetX11Display(void); + +/*! @brief Returns the `RRCrtc` of the specified monitor. + * + * @return The `RRCrtc` of the specified monitor, or `None` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.1. + * + * @ingroup native + */ +GLFWAPI RRCrtc glfwGetX11Adapter(GLFWmonitor* monitor); + +/*! @brief Returns the `RROutput` of the specified monitor. + * + * @return The `RROutput` of the specified monitor, or `None` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.1. + * + * @ingroup native + */ +GLFWAPI RROutput glfwGetX11Monitor(GLFWmonitor* monitor); + +/*! @brief Returns the `Window` of the specified window. + * + * @return The `Window` of the specified window, or `None` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI Window glfwGetX11Window(GLFWwindow* window); + +/*! @brief Sets the current primary selection to the specified string. + * + * @param[in] string A UTF-8 encoded string. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The specified string is copied before this function + * returns. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref clipboard + * @sa glfwGetX11SelectionString + * @sa glfwSetClipboardString + * + * @since Added in version 3.3. + * + * @ingroup native + */ +GLFWAPI void glfwSetX11SelectionString(const char* string); + +/*! @brief Returns the contents of the current primary selection as a string. + * + * If the selection is empty or if its contents cannot be converted, `NULL` + * is returned and a @ref GLFW_FORMAT_UNAVAILABLE error is generated. + * + * @return The contents of the selection as a UTF-8 encoded string, or `NULL` + * if an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED and @ref + * GLFW_PLATFORM_ERROR. + * + * @pointer_lifetime The returned string is allocated and freed by GLFW. You + * should not free it yourself. It is valid until the next call to @ref + * glfwGetX11SelectionString or @ref glfwSetX11SelectionString, or until the + * library is terminated. + * + * @thread_safety This function must only be called from the main thread. + * + * @sa @ref clipboard + * @sa glfwSetX11SelectionString + * @sa glfwGetClipboardString + * + * @since Added in version 3.3. + * + * @ingroup native + */ +GLFWAPI const char* glfwGetX11SelectionString(void); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_GLX) +/*! @brief Returns the `GLXContext` of the specified window. + * + * @return The `GLXContext` of the specified window, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI GLXContext glfwGetGLXContext(GLFWwindow* window); + +/*! @brief Returns the `GLXWindow` of the specified window. + * + * @return The `GLXWindow` of the specified window, or `None` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.2. + * + * @ingroup native + */ +GLFWAPI GLXWindow glfwGetGLXWindow(GLFWwindow* window); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_WAYLAND) +/*! @brief Returns the `struct wl_display*` used by GLFW. + * + * @return The `struct wl_display*` used by GLFW, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.2. + * + * @ingroup native + */ +GLFWAPI struct wl_display* glfwGetWaylandDisplay(void); + +/*! @brief Returns the `struct wl_output*` of the specified monitor. + * + * @return The `struct wl_output*` of the specified monitor, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.2. + * + * @ingroup native + */ +GLFWAPI struct wl_output* glfwGetWaylandMonitor(GLFWmonitor* monitor); + +/*! @brief Returns the main `struct wl_surface*` of the specified window. + * + * @return The main `struct wl_surface*` of the specified window, or `NULL` if + * an [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.2. + * + * @ingroup native + */ +GLFWAPI struct wl_surface* glfwGetWaylandWindow(GLFWwindow* window); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_EGL) +/*! @brief Returns the `EGLDisplay` used by GLFW. + * + * @return The `EGLDisplay` used by GLFW, or `EGL_NO_DISPLAY` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NOT_INITIALIZED. + * + * @remark Because EGL is initialized on demand, this function will return + * `EGL_NO_DISPLAY` until the first context has been created via EGL. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI EGLDisplay glfwGetEGLDisplay(void); + +/*! @brief Returns the `EGLContext` of the specified window. + * + * @return The `EGLContext` of the specified window, or `EGL_NO_CONTEXT` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI EGLContext glfwGetEGLContext(GLFWwindow* window); + +/*! @brief Returns the `EGLSurface` of the specified window. + * + * @return The `EGLSurface` of the specified window, or `EGL_NO_SURFACE` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.0. + * + * @ingroup native + */ +GLFWAPI EGLSurface glfwGetEGLSurface(GLFWwindow* window); +#endif + +#if defined(GLFW_EXPOSE_NATIVE_OSMESA) +/*! @brief Retrieves the color buffer associated with the specified window. + * + * @param[in] window The window whose color buffer to retrieve. + * @param[out] width Where to store the width of the color buffer, or `NULL`. + * @param[out] height Where to store the height of the color buffer, or `NULL`. + * @param[out] format Where to store the OSMesa pixel format of the color + * buffer, or `NULL`. + * @param[out] buffer Where to store the address of the color buffer, or + * `NULL`. + * @return `GLFW_TRUE` if successful, or `GLFW_FALSE` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.3. + * + * @ingroup native + */ +GLFWAPI int glfwGetOSMesaColorBuffer(GLFWwindow* window, int* width, int* height, int* format, void** buffer); + +/*! @brief Retrieves the depth buffer associated with the specified window. + * + * @param[in] window The window whose depth buffer to retrieve. + * @param[out] width Where to store the width of the depth buffer, or `NULL`. + * @param[out] height Where to store the height of the depth buffer, or `NULL`. + * @param[out] bytesPerValue Where to store the number of bytes per depth + * buffer element, or `NULL`. + * @param[out] buffer Where to store the address of the depth buffer, or + * `NULL`. + * @return `GLFW_TRUE` if successful, or `GLFW_FALSE` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.3. + * + * @ingroup native + */ +GLFWAPI int glfwGetOSMesaDepthBuffer(GLFWwindow* window, int* width, int* height, int* bytesPerValue, void** buffer); + +/*! @brief Returns the `OSMesaContext` of the specified window. + * + * @return The `OSMesaContext` of the specified window, or `NULL` if an + * [error](@ref error_handling) occurred. + * + * @errors Possible errors include @ref GLFW_NO_WINDOW_CONTEXT and @ref + * GLFW_NOT_INITIALIZED. + * + * @thread_safety This function may be called from any thread. Access is not + * synchronized. + * + * @since Added in version 3.3. + * + * @ingroup native + */ +GLFWAPI OSMesaContext glfwGetOSMesaContext(GLFWwindow* window); +#endif + +#ifdef __cplusplus +} +#endif + +#endif /* _glfw3_native_h_ */ + diff --git a/Vulkan/ext/include/glm/CMakeLists.txt b/Vulkan/ext/include/glm/CMakeLists.txt new file mode 100644 index 0000000..4ff51c8 --- /dev/null +++ b/Vulkan/ext/include/glm/CMakeLists.txt @@ -0,0 +1,70 @@ +file(GLOB ROOT_SOURCE *.cpp) +file(GLOB ROOT_INLINE *.inl) +file(GLOB ROOT_HEADER *.hpp) +file(GLOB ROOT_TEXT ../*.txt) +file(GLOB ROOT_MD ../*.md) +file(GLOB ROOT_NAT ../util/glm.natvis) + +file(GLOB_RECURSE CORE_SOURCE ./detail/*.cpp) +file(GLOB_RECURSE CORE_INLINE ./detail/*.inl) +file(GLOB_RECURSE CORE_HEADER ./detail/*.hpp) + +file(GLOB_RECURSE EXT_SOURCE ./ext/*.cpp) +file(GLOB_RECURSE EXT_INLINE ./ext/*.inl) +file(GLOB_RECURSE EXT_HEADER ./ext/*.hpp) + +file(GLOB_RECURSE GTC_SOURCE ./gtc/*.cpp) +file(GLOB_RECURSE GTC_INLINE ./gtc/*.inl) +file(GLOB_RECURSE GTC_HEADER ./gtc/*.hpp) + +file(GLOB_RECURSE GTX_SOURCE ./gtx/*.cpp) +file(GLOB_RECURSE GTX_INLINE ./gtx/*.inl) +file(GLOB_RECURSE GTX_HEADER ./gtx/*.hpp) + +file(GLOB_RECURSE SIMD_SOURCE ./simd/*.cpp) +file(GLOB_RECURSE SIMD_INLINE ./simd/*.inl) +file(GLOB_RECURSE SIMD_HEADER ./simd/*.h) + +source_group("Text Files" FILES ${ROOT_TEXT} ${ROOT_MD}) +source_group("Core Files" FILES ${CORE_SOURCE}) +source_group("Core Files" FILES ${CORE_INLINE}) +source_group("Core Files" FILES ${CORE_HEADER}) +source_group("EXT Files" FILES ${EXT_SOURCE}) +source_group("EXT Files" FILES ${EXT_INLINE}) +source_group("EXT Files" FILES ${EXT_HEADER}) +source_group("GTC Files" FILES ${GTC_SOURCE}) +source_group("GTC Files" FILES ${GTC_INLINE}) +source_group("GTC Files" FILES ${GTC_HEADER}) +source_group("GTX Files" FILES ${GTX_SOURCE}) +source_group("GTX Files" FILES ${GTX_INLINE}) +source_group("GTX Files" FILES ${GTX_HEADER}) +source_group("SIMD Files" FILES ${SIMD_SOURCE}) +source_group("SIMD Files" FILES ${SIMD_INLINE}) +source_group("SIMD Files" FILES ${SIMD_HEADER}) + +add_library(glm INTERFACE) +target_include_directories(glm INTERFACE ../) + +if(BUILD_STATIC_LIBS) +add_library(glm_static STATIC ${ROOT_TEXT} ${ROOT_MD} ${ROOT_NAT} + ${ROOT_SOURCE} ${ROOT_INLINE} ${ROOT_HEADER} + ${CORE_SOURCE} ${CORE_INLINE} ${CORE_HEADER} + ${EXT_SOURCE} ${EXT_INLINE} ${EXT_HEADER} + ${GTC_SOURCE} ${GTC_INLINE} ${GTC_HEADER} + ${GTX_SOURCE} ${GTX_INLINE} ${GTX_HEADER} + ${SIMD_SOURCE} ${SIMD_INLINE} ${SIMD_HEADER}) + target_link_libraries(glm_static PUBLIC glm) + add_library(glm::glm_static ALIAS glm_static) +endif() + +if(BUILD_SHARED_LIBS) +add_library(glm_shared SHARED ${ROOT_TEXT} ${ROOT_MD} ${ROOT_NAT} + ${ROOT_SOURCE} ${ROOT_INLINE} ${ROOT_HEADER} + ${CORE_SOURCE} ${CORE_INLINE} ${CORE_HEADER} + ${EXT_SOURCE} ${EXT_INLINE} ${EXT_HEADER} + ${GTC_SOURCE} ${GTC_INLINE} ${GTC_HEADER} + ${GTX_SOURCE} ${GTX_INLINE} ${GTX_HEADER} + ${SIMD_SOURCE} ${SIMD_INLINE} ${SIMD_HEADER}) + target_link_libraries(glm_shared PUBLIC glm) + add_library(glm::glm_shared ALIAS glm_shared) +endif() diff --git a/Vulkan/ext/include/glm/common.hpp b/Vulkan/ext/include/glm/common.hpp new file mode 100644 index 0000000..0328dc9 --- /dev/null +++ b/Vulkan/ext/include/glm/common.hpp @@ -0,0 +1,539 @@ +/// @ref core +/// @file glm/common.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.3 Common Functions +/// +/// @defgroup core_func_common Common functions +/// @ingroup core +/// +/// Provides GLSL common functions +/// +/// These all operate component-wise. The description is per component. +/// +/// Include to use these core features. + +#pragma once + +#include "detail/qualifier.hpp" +#include "detail/_fixes.hpp" + +namespace glm +{ + /// @addtogroup core_func_common + /// @{ + + /// Returns x if x >= 0; otherwise, it returns -x. + /// + /// @tparam genType floating-point or signed integer; scalar or vector types. + /// + /// @see GLSL abs man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR genType abs(genType x); + + /// Returns x if x >= 0; otherwise, it returns -x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or signed integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL abs man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec abs(vec const& x); + + /// Returns 1.0 if x > 0, 0.0 if x == 0, or -1.0 if x < 0. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL sign man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec sign(vec const& x); + + /// Returns a value equal to the nearest integer that is less then or equal to x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL floor man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec floor(vec const& x); + + /// Returns a value equal to the nearest integer to x + /// whose absolute value is not larger than the absolute value of x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL trunc man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec trunc(vec const& x); + + /// Returns a value equal to the nearest integer to x. + /// The fraction 0.5 will round in a direction chosen by the + /// implementation, presumably the direction that is fastest. + /// This includes the possibility that round(x) returns the + /// same value as roundEven(x) for all values of x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL round man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec round(vec const& x); + + /// Returns a value equal to the nearest integer to x. + /// A fractional part of 0.5 will round toward the nearest even + /// integer. (Both 3.5 and 4.5 for x will return 4.0.) + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL roundEven man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + /// @see New round to even technique + template + GLM_FUNC_DECL vec roundEven(vec const& x); + + /// Returns a value equal to the nearest integer + /// that is greater than or equal to x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL ceil man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec ceil(vec const& x); + + /// Return x - floor(x). + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see GLSL fract man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL genType fract(genType x); + + /// Return x - floor(x). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL fract man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec fract(vec const& x); + + template + GLM_FUNC_DECL genType mod(genType x, genType y); + + template + GLM_FUNC_DECL vec mod(vec const& x, T y); + + /// Modulus. Returns x - y * floor(x / y) + /// for each component in x using the floating point value y. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types, include glm/gtc/integer for integer scalar types support + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL mod man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec mod(vec const& x, vec const& y); + + /// Returns the fractional part of x and sets i to the integer + /// part (as a whole number floating point value). Both the + /// return value and the output parameter will have the same + /// sign as x. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see GLSL modf man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL genType modf(genType x, genType& i); + + /// Returns y if y < x; otherwise, it returns x. + /// + /// @tparam genType Floating-point or integer; scalar or vector types. + /// + /// @see GLSL min man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR genType min(genType x, genType y); + + /// Returns y if y < x; otherwise, it returns x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL min man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec min(vec const& x, T y); + + /// Returns y if y < x; otherwise, it returns x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL min man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec min(vec const& x, vec const& y); + + /// Returns y if x < y; otherwise, it returns x. + /// + /// @tparam genType Floating-point or integer; scalar or vector types. + /// + /// @see GLSL max man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR genType max(genType x, genType y); + + /// Returns y if x < y; otherwise, it returns x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL max man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec max(vec const& x, T y); + + /// Returns y if x < y; otherwise, it returns x. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL max man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec max(vec const& x, vec const& y); + + /// Returns min(max(x, minVal), maxVal) for each component in x + /// using the floating-point values minVal and maxVal. + /// + /// @tparam genType Floating-point or integer; scalar or vector types. + /// + /// @see GLSL clamp man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR genType clamp(genType x, genType minVal, genType maxVal); + + /// Returns min(max(x, minVal), maxVal) for each component in x + /// using the floating-point values minVal and maxVal. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL clamp man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec clamp(vec const& x, T minVal, T maxVal); + + /// Returns min(max(x, minVal), maxVal) for each component in x + /// using the floating-point values minVal and maxVal. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL clamp man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec clamp(vec const& x, vec const& minVal, vec const& maxVal); + + /// If genTypeU is a floating scalar or vector: + /// Returns x * (1.0 - a) + y * a, i.e., the linear blend of + /// x and y using the floating-point value a. + /// The value for a is not restricted to the range [0, 1]. + /// + /// If genTypeU is a boolean scalar or vector: + /// Selects which vector each returned component comes + /// from. For a component of 'a' that is false, the + /// corresponding component of 'x' is returned. For a + /// component of 'a' that is true, the corresponding + /// component of 'y' is returned. Components of 'x' and 'y' that + /// are not selected are allowed to be invalid floating point + /// values and will have no effect on the results. Thus, this + /// provides different functionality than + /// genType mix(genType x, genType y, genType(a)) + /// where a is a Boolean vector. + /// + /// @see GLSL mix man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + /// + /// @param[in] x Value to interpolate. + /// @param[in] y Value to interpolate. + /// @param[in] a Interpolant. + /// + /// @tparam genTypeT Floating point scalar or vector. + /// @tparam genTypeU Floating point or boolean scalar or vector. It can't be a vector if it is the length of genTypeT. + /// + /// @code + /// #include + /// ... + /// float a; + /// bool b; + /// glm::dvec3 e; + /// glm::dvec3 f; + /// glm::vec4 g; + /// glm::vec4 h; + /// ... + /// glm::vec4 r = glm::mix(g, h, a); // Interpolate with a floating-point scalar two vectors. + /// glm::vec4 s = glm::mix(g, h, b); // Returns g or h; + /// glm::dvec3 t = glm::mix(e, f, a); // Types of the third parameter is not required to match with the first and the second. + /// glm::vec4 u = glm::mix(g, h, r); // Interpolations can be perform per component with a vector for the last parameter. + /// @endcode + template + GLM_FUNC_DECL genTypeT mix(genTypeT x, genTypeT y, genTypeU a); + + template + GLM_FUNC_DECL vec mix(vec const& x, vec const& y, vec const& a); + + template + GLM_FUNC_DECL vec mix(vec const& x, vec const& y, U a); + + /// Returns 0.0 if x < edge, otherwise it returns 1.0 for each component of a genType. + /// + /// @see GLSL step man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL genType step(genType edge, genType x); + + /// Returns 0.0 if x < edge, otherwise it returns 1.0. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL step man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec step(T edge, vec const& x); + + /// Returns 0.0 if x < edge, otherwise it returns 1.0. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL step man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec step(vec const& edge, vec const& x); + + /// Returns 0.0 if x <= edge0 and 1.0 if x >= edge1 and + /// performs smooth Hermite interpolation between 0 and 1 + /// when edge0 < x < edge1. This is useful in cases where + /// you would want a threshold function with a smooth + /// transition. This is equivalent to: + /// genType t; + /// t = clamp ((x - edge0) / (edge1 - edge0), 0, 1); + /// return t * t * (3 - 2 * t); + /// Results are undefined if edge0 >= edge1. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see GLSL smoothstep man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL genType smoothstep(genType edge0, genType edge1, genType x); + + template + GLM_FUNC_DECL vec smoothstep(T edge0, T edge1, vec const& x); + + template + GLM_FUNC_DECL vec smoothstep(vec const& edge0, vec const& edge1, vec const& x); + + /// Returns true if x holds a NaN (not a number) + /// representation in the underlying implementation's set of + /// floating point representations. Returns false otherwise, + /// including for implementations with no NaN + /// representations. + /// + /// /!\ When using compiler fast math, this function may fail. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL isnan man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec isnan(vec const& x); + + /// Returns true if x holds a positive infinity or negative + /// infinity representation in the underlying implementation's + /// set of floating point representations. Returns false + /// otherwise, including for implementations with no infinity + /// representations. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL isinf man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec isinf(vec const& x); + + /// Returns a signed integer value representing + /// the encoding of a floating-point value. The floating-point + /// value's bit-level representation is preserved. + /// + /// @see GLSL floatBitsToInt man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + GLM_FUNC_DECL int floatBitsToInt(float const& v); + + /// Returns a signed integer value representing + /// the encoding of a floating-point value. The floatingpoint + /// value's bit-level representation is preserved. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL floatBitsToInt man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec floatBitsToInt(vec const& v); + + /// Returns a unsigned integer value representing + /// the encoding of a floating-point value. The floatingpoint + /// value's bit-level representation is preserved. + /// + /// @see GLSL floatBitsToUint man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + GLM_FUNC_DECL uint floatBitsToUint(float const& v); + + /// Returns a unsigned integer value representing + /// the encoding of a floating-point value. The floatingpoint + /// value's bit-level representation is preserved. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL floatBitsToUint man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec floatBitsToUint(vec const& v); + + /// Returns a floating-point value corresponding to a signed + /// integer encoding of a floating-point value. + /// If an inf or NaN is passed in, it will not signal, and the + /// resulting floating point value is unspecified. Otherwise, + /// the bit-level representation is preserved. + /// + /// @see GLSL intBitsToFloat man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + GLM_FUNC_DECL float intBitsToFloat(int const& v); + + /// Returns a floating-point value corresponding to a signed + /// integer encoding of a floating-point value. + /// If an inf or NaN is passed in, it will not signal, and the + /// resulting floating point value is unspecified. Otherwise, + /// the bit-level representation is preserved. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL intBitsToFloat man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec intBitsToFloat(vec const& v); + + /// Returns a floating-point value corresponding to a + /// unsigned integer encoding of a floating-point value. + /// If an inf or NaN is passed in, it will not signal, and the + /// resulting floating point value is unspecified. Otherwise, + /// the bit-level representation is preserved. + /// + /// @see GLSL uintBitsToFloat man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + GLM_FUNC_DECL float uintBitsToFloat(uint const& v); + + /// Returns a floating-point value corresponding to a + /// unsigned integer encoding of a floating-point value. + /// If an inf or NaN is passed in, it will not signal, and the + /// resulting floating point value is unspecified. Otherwise, + /// the bit-level representation is preserved. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL uintBitsToFloat man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL vec uintBitsToFloat(vec const& v); + + /// Computes and returns a * b + c. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see GLSL fma man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL genType fma(genType const& a, genType const& b, genType const& c); + + /// Splits x into a floating-point significand in the range + /// [0.5, 1.0) and an integral exponent of two, such that: + /// x = significand * exp(2, exponent) + /// + /// The significand is returned by the function and the + /// exponent is returned in the parameter exp. For a + /// floating-point value of zero, the significant and exponent + /// are both zero. For a floating-point value that is an + /// infinity or is not a number, the results are undefined. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see GLSL frexp man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL genType frexp(genType x, int& exp); + + template + GLM_FUNC_DECL vec frexp(vec const& v, vec& exp); + + /// Builds a floating-point number from x and the + /// corresponding integral exponent of two in exp, returning: + /// significand * exp(2, exponent) + /// + /// If this product is too large to be represented in the + /// floating-point type, the result is undefined. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see GLSL ldexp man page; + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL genType ldexp(genType const& x, int const& exp); + + template + GLM_FUNC_DECL vec ldexp(vec const& v, vec const& exp); + + /// @} +}//namespace glm + +#include "detail/func_common.inl" + diff --git a/Vulkan/ext/include/glm/detail/_features.hpp b/Vulkan/ext/include/glm/detail/_features.hpp new file mode 100644 index 0000000..b0cbe9f --- /dev/null +++ b/Vulkan/ext/include/glm/detail/_features.hpp @@ -0,0 +1,394 @@ +#pragma once + +// #define GLM_CXX98_EXCEPTIONS +// #define GLM_CXX98_RTTI + +// #define GLM_CXX11_RVALUE_REFERENCES +// Rvalue references - GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n2118.html + +// GLM_CXX11_TRAILING_RETURN +// Rvalue references for *this - GCC not supported +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2439.htm + +// GLM_CXX11_NONSTATIC_MEMBER_INIT +// Initialization of class objects by rvalues - GCC any +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1610.html + +// GLM_CXX11_NONSTATIC_MEMBER_INIT +// Non-static data member initializers - GCC 4.7 +// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2008/n2756.htm + +// #define GLM_CXX11_VARIADIC_TEMPLATE +// Variadic templates - GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2242.pdf + +// +// Extending variadic template template parameters - GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2555.pdf + +// #define GLM_CXX11_GENERALIZED_INITIALIZERS +// Initializer lists - GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2672.htm + +// #define GLM_CXX11_STATIC_ASSERT +// Static assertions - GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1720.html + +// #define GLM_CXX11_AUTO_TYPE +// auto-typed variables - GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1984.pdf + +// #define GLM_CXX11_AUTO_TYPE +// Multi-declarator auto - GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1737.pdf + +// #define GLM_CXX11_AUTO_TYPE +// Removal of auto as a storage-class specifier - GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2546.htm + +// #define GLM_CXX11_AUTO_TYPE +// New function declarator syntax - GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2541.htm + +// #define GLM_CXX11_LAMBDAS +// New wording for C++0x lambdas - GCC 4.5 +// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2009/n2927.pdf + +// #define GLM_CXX11_DECLTYPE +// Declared type of an expression - GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2343.pdf + +// +// Right angle brackets - GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1757.html + +// +// Default template arguments for function templates DR226 GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/cwg_defects.html#226 + +// +// Solving the SFINAE problem for expressions DR339 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2634.html + +// #define GLM_CXX11_ALIAS_TEMPLATE +// Template aliases N2258 GCC 4.7 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2258.pdf + +// +// Extern templates N1987 Yes +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1987.htm + +// #define GLM_CXX11_NULLPTR +// Null pointer constant N2431 GCC 4.6 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2431.pdf + +// #define GLM_CXX11_STRONG_ENUMS +// Strongly-typed enums N2347 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2347.pdf + +// +// Forward declarations for enums N2764 GCC 4.6 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2764.pdf + +// +// Generalized attributes N2761 GCC 4.8 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2761.pdf + +// +// Generalized constant expressions N2235 GCC 4.6 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2235.pdf + +// +// Alignment support N2341 GCC 4.8 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2341.pdf + +// #define GLM_CXX11_DELEGATING_CONSTRUCTORS +// Delegating constructors N1986 GCC 4.7 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1986.pdf + +// +// Inheriting constructors N2540 GCC 4.8 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2540.htm + +// #define GLM_CXX11_EXPLICIT_CONVERSIONS +// Explicit conversion operators N2437 GCC 4.5 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2437.pdf + +// +// New character types N2249 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2249.html + +// +// Unicode string literals N2442 GCC 4.5 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2442.htm + +// +// Raw string literals N2442 GCC 4.5 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2442.htm + +// +// Universal character name literals N2170 GCC 4.5 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2170.html + +// #define GLM_CXX11_USER_LITERALS +// User-defined literals N2765 GCC 4.7 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2765.pdf + +// +// Standard Layout Types N2342 GCC 4.5 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2342.htm + +// #define GLM_CXX11_DEFAULTED_FUNCTIONS +// #define GLM_CXX11_DELETED_FUNCTIONS +// Defaulted and deleted functions N2346 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2346.htm + +// +// Extended friend declarations N1791 GCC 4.7 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1791.pdf + +// +// Extending sizeof N2253 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2253.html + +// #define GLM_CXX11_INLINE_NAMESPACES +// Inline namespaces N2535 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2535.htm + +// #define GLM_CXX11_UNRESTRICTED_UNIONS +// Unrestricted unions N2544 GCC 4.6 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2544.pdf + +// #define GLM_CXX11_LOCAL_TYPE_TEMPLATE_ARGS +// Local and unnamed types as template arguments N2657 GCC 4.5 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2657.htm + +// #define GLM_CXX11_RANGE_FOR +// Range-based for N2930 GCC 4.6 +// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2009/n2930.html + +// #define GLM_CXX11_OVERRIDE_CONTROL +// Explicit virtual overrides N2928 N3206 N3272 GCC 4.7 +// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2009/n2928.htm +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2010/n3206.htm +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2011/n3272.htm + +// +// Minimal support for garbage collection and reachability-based leak detection N2670 No +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2670.htm + +// #define GLM_CXX11_NOEXCEPT +// Allowing move constructors to throw [noexcept] N3050 GCC 4.6 (core language only) +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2010/n3050.html + +// +// Defining move special member functions N3053 GCC 4.6 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2010/n3053.html + +// +// Sequence points N2239 Yes +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2239.html + +// +// Atomic operations N2427 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2239.html + +// +// Strong Compare and Exchange N2748 GCC 4.5 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2427.html + +// +// Bidirectional Fences N2752 GCC 4.8 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2752.htm + +// +// Memory model N2429 GCC 4.8 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2429.htm + +// +// Data-dependency ordering: atomics and memory model N2664 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2664.htm + +// +// Propagating exceptions N2179 GCC 4.4 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2179.html + +// +// Abandoning a process and at_quick_exit N2440 GCC 4.8 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2440.htm + +// +// Allow atomics use in signal handlers N2547 Yes +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2547.htm + +// +// Thread-local storage N2659 GCC 4.8 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2659.htm + +// +// Dynamic initialization and destruction with concurrency N2660 GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2660.htm + +// +// __func__ predefined identifier N2340 GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2340.htm + +// +// C99 preprocessor N1653 GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1653.htm + +// +// long long N1811 GCC 4.3 +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1811.pdf + +// +// Extended integral types N1988 Yes +// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1988.pdf + +#if(GLM_COMPILER & GLM_COMPILER_GCC) + +# define GLM_CXX11_STATIC_ASSERT + +#elif(GLM_COMPILER & GLM_COMPILER_CLANG) +# if(__has_feature(cxx_exceptions)) +# define GLM_CXX98_EXCEPTIONS +# endif + +# if(__has_feature(cxx_rtti)) +# define GLM_CXX98_RTTI +# endif + +# if(__has_feature(cxx_access_control_sfinae)) +# define GLM_CXX11_ACCESS_CONTROL_SFINAE +# endif + +# if(__has_feature(cxx_alias_templates)) +# define GLM_CXX11_ALIAS_TEMPLATE +# endif + +# if(__has_feature(cxx_alignas)) +# define GLM_CXX11_ALIGNAS +# endif + +# if(__has_feature(cxx_attributes)) +# define GLM_CXX11_ATTRIBUTES +# endif + +# if(__has_feature(cxx_constexpr)) +# define GLM_CXX11_CONSTEXPR +# endif + +# if(__has_feature(cxx_decltype)) +# define GLM_CXX11_DECLTYPE +# endif + +# if(__has_feature(cxx_default_function_template_args)) +# define GLM_CXX11_DEFAULT_FUNCTION_TEMPLATE_ARGS +# endif + +# if(__has_feature(cxx_defaulted_functions)) +# define GLM_CXX11_DEFAULTED_FUNCTIONS +# endif + +# if(__has_feature(cxx_delegating_constructors)) +# define GLM_CXX11_DELEGATING_CONSTRUCTORS +# endif + +# if(__has_feature(cxx_deleted_functions)) +# define GLM_CXX11_DELETED_FUNCTIONS +# endif + +# if(__has_feature(cxx_explicit_conversions)) +# define GLM_CXX11_EXPLICIT_CONVERSIONS +# endif + +# if(__has_feature(cxx_generalized_initializers)) +# define GLM_CXX11_GENERALIZED_INITIALIZERS +# endif + +# if(__has_feature(cxx_implicit_moves)) +# define GLM_CXX11_IMPLICIT_MOVES +# endif + +# if(__has_feature(cxx_inheriting_constructors)) +# define GLM_CXX11_INHERITING_CONSTRUCTORS +# endif + +# if(__has_feature(cxx_inline_namespaces)) +# define GLM_CXX11_INLINE_NAMESPACES +# endif + +# if(__has_feature(cxx_lambdas)) +# define GLM_CXX11_LAMBDAS +# endif + +# if(__has_feature(cxx_local_type_template_args)) +# define GLM_CXX11_LOCAL_TYPE_TEMPLATE_ARGS +# endif + +# if(__has_feature(cxx_noexcept)) +# define GLM_CXX11_NOEXCEPT +# endif + +# if(__has_feature(cxx_nonstatic_member_init)) +# define GLM_CXX11_NONSTATIC_MEMBER_INIT +# endif + +# if(__has_feature(cxx_nullptr)) +# define GLM_CXX11_NULLPTR +# endif + +# if(__has_feature(cxx_override_control)) +# define GLM_CXX11_OVERRIDE_CONTROL +# endif + +# if(__has_feature(cxx_reference_qualified_functions)) +# define GLM_CXX11_REFERENCE_QUALIFIED_FUNCTIONS +# endif + +# if(__has_feature(cxx_range_for)) +# define GLM_CXX11_RANGE_FOR +# endif + +# if(__has_feature(cxx_raw_string_literals)) +# define GLM_CXX11_RAW_STRING_LITERALS +# endif + +# if(__has_feature(cxx_rvalue_references)) +# define GLM_CXX11_RVALUE_REFERENCES +# endif + +# if(__has_feature(cxx_static_assert)) +# define GLM_CXX11_STATIC_ASSERT +# endif + +# if(__has_feature(cxx_auto_type)) +# define GLM_CXX11_AUTO_TYPE +# endif + +# if(__has_feature(cxx_strong_enums)) +# define GLM_CXX11_STRONG_ENUMS +# endif + +# if(__has_feature(cxx_trailing_return)) +# define GLM_CXX11_TRAILING_RETURN +# endif + +# if(__has_feature(cxx_unicode_literals)) +# define GLM_CXX11_UNICODE_LITERALS +# endif + +# if(__has_feature(cxx_unrestricted_unions)) +# define GLM_CXX11_UNRESTRICTED_UNIONS +# endif + +# if(__has_feature(cxx_user_literals)) +# define GLM_CXX11_USER_LITERALS +# endif + +# if(__has_feature(cxx_variadic_templates)) +# define GLM_CXX11_VARIADIC_TEMPLATES +# endif + +#endif//(GLM_COMPILER & GLM_COMPILER_CLANG) diff --git a/Vulkan/ext/include/glm/detail/_fixes.hpp b/Vulkan/ext/include/glm/detail/_fixes.hpp new file mode 100644 index 0000000..a503c7c --- /dev/null +++ b/Vulkan/ext/include/glm/detail/_fixes.hpp @@ -0,0 +1,27 @@ +#include + +//! Workaround for compatibility with other libraries +#ifdef max +#undef max +#endif + +//! Workaround for compatibility with other libraries +#ifdef min +#undef min +#endif + +//! Workaround for Android +#ifdef isnan +#undef isnan +#endif + +//! Workaround for Android +#ifdef isinf +#undef isinf +#endif + +//! Workaround for Chrone Native Client +#ifdef log2 +#undef log2 +#endif + diff --git a/Vulkan/ext/include/glm/detail/_noise.hpp b/Vulkan/ext/include/glm/detail/_noise.hpp new file mode 100644 index 0000000..5a874a0 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/_noise.hpp @@ -0,0 +1,81 @@ +#pragma once + +#include "../common.hpp" + +namespace glm{ +namespace detail +{ + template + GLM_FUNC_QUALIFIER T mod289(T const& x) + { + return x - floor(x * (static_cast(1.0) / static_cast(289.0))) * static_cast(289.0); + } + + template + GLM_FUNC_QUALIFIER T permute(T const& x) + { + return mod289(((x * static_cast(34)) + static_cast(1)) * x); + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> permute(vec<2, T, Q> const& x) + { + return mod289(((x * static_cast(34)) + static_cast(1)) * x); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> permute(vec<3, T, Q> const& x) + { + return mod289(((x * static_cast(34)) + static_cast(1)) * x); + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> permute(vec<4, T, Q> const& x) + { + return mod289(((x * static_cast(34)) + static_cast(1)) * x); + } + + template + GLM_FUNC_QUALIFIER T taylorInvSqrt(T const& r) + { + return static_cast(1.79284291400159) - static_cast(0.85373472095314) * r; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> taylorInvSqrt(vec<2, T, Q> const& r) + { + return static_cast(1.79284291400159) - static_cast(0.85373472095314) * r; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> taylorInvSqrt(vec<3, T, Q> const& r) + { + return static_cast(1.79284291400159) - static_cast(0.85373472095314) * r; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> taylorInvSqrt(vec<4, T, Q> const& r) + { + return static_cast(1.79284291400159) - static_cast(0.85373472095314) * r; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> fade(vec<2, T, Q> const& t) + { + return (t * t * t) * (t * (t * static_cast(6) - static_cast(15)) + static_cast(10)); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> fade(vec<3, T, Q> const& t) + { + return (t * t * t) * (t * (t * static_cast(6) - static_cast(15)) + static_cast(10)); + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> fade(vec<4, T, Q> const& t) + { + return (t * t * t) * (t * (t * static_cast(6) - static_cast(15)) + static_cast(10)); + } +}//namespace detail +}//namespace glm + diff --git a/Vulkan/ext/include/glm/detail/_swizzle.hpp b/Vulkan/ext/include/glm/detail/_swizzle.hpp new file mode 100644 index 0000000..87896ef --- /dev/null +++ b/Vulkan/ext/include/glm/detail/_swizzle.hpp @@ -0,0 +1,804 @@ +#pragma once + +namespace glm{ +namespace detail +{ + // Internal class for implementing swizzle operators + template + struct _swizzle_base0 + { + protected: + GLM_FUNC_QUALIFIER T& elem(size_t i){ return (reinterpret_cast(_buffer))[i]; } + GLM_FUNC_QUALIFIER T const& elem(size_t i) const{ return (reinterpret_cast(_buffer))[i]; } + + // Use an opaque buffer to *ensure* the compiler doesn't call a constructor. + // The size 1 buffer is assumed to aligned to the actual members so that the + // elem() + char _buffer[1]; + }; + + template + struct _swizzle_base1 : public _swizzle_base0 + { + }; + + template + struct _swizzle_base1<2, T, Q, E0,E1,-1,-2, Aligned> : public _swizzle_base0 + { + GLM_FUNC_QUALIFIER vec<2, T, Q> operator ()() const { return vec<2, T, Q>(this->elem(E0), this->elem(E1)); } + }; + + template + struct _swizzle_base1<3, T, Q, E0,E1,E2,-1, Aligned> : public _swizzle_base0 + { + GLM_FUNC_QUALIFIER vec<3, T, Q> operator ()() const { return vec<3, T, Q>(this->elem(E0), this->elem(E1), this->elem(E2)); } + }; + + template + struct _swizzle_base1<4, T, Q, E0,E1,E2,E3, Aligned> : public _swizzle_base0 + { + GLM_FUNC_QUALIFIER vec<4, T, Q> operator ()() const { return vec<4, T, Q>(this->elem(E0), this->elem(E1), this->elem(E2), this->elem(E3)); } + }; + + // Internal class for implementing swizzle operators + /* + Template parameters: + + T = type of scalar values (e.g. float, double) + N = number of components in the vector (e.g. 3) + E0...3 = what index the n-th element of this swizzle refers to in the unswizzled vec + + DUPLICATE_ELEMENTS = 1 if there is a repeated element, 0 otherwise (used to specialize swizzles + containing duplicate elements so that they cannot be used as r-values). + */ + template + struct _swizzle_base2 : public _swizzle_base1::value> + { + struct op_equal + { + GLM_FUNC_QUALIFIER void operator() (T& e, T& t) const{ e = t; } + }; + + struct op_minus + { + GLM_FUNC_QUALIFIER void operator() (T& e, T& t) const{ e -= t; } + }; + + struct op_plus + { + GLM_FUNC_QUALIFIER void operator() (T& e, T& t) const{ e += t; } + }; + + struct op_mul + { + GLM_FUNC_QUALIFIER void operator() (T& e, T& t) const{ e *= t; } + }; + + struct op_div + { + GLM_FUNC_QUALIFIER void operator() (T& e, T& t) const{ e /= t; } + }; + + public: + GLM_FUNC_QUALIFIER _swizzle_base2& operator= (const T& t) + { + for (int i = 0; i < N; ++i) + (*this)[i] = t; + return *this; + } + + GLM_FUNC_QUALIFIER _swizzle_base2& operator= (vec const& that) + { + _apply_op(that, op_equal()); + return *this; + } + + GLM_FUNC_QUALIFIER void operator -= (vec const& that) + { + _apply_op(that, op_minus()); + } + + GLM_FUNC_QUALIFIER void operator += (vec const& that) + { + _apply_op(that, op_plus()); + } + + GLM_FUNC_QUALIFIER void operator *= (vec const& that) + { + _apply_op(that, op_mul()); + } + + GLM_FUNC_QUALIFIER void operator /= (vec const& that) + { + _apply_op(that, op_div()); + } + + GLM_FUNC_QUALIFIER T& operator[](size_t i) + { + const int offset_dst[4] = { E0, E1, E2, E3 }; + return this->elem(offset_dst[i]); + } + GLM_FUNC_QUALIFIER T operator[](size_t i) const + { + const int offset_dst[4] = { E0, E1, E2, E3 }; + return this->elem(offset_dst[i]); + } + + protected: + template + GLM_FUNC_QUALIFIER void _apply_op(vec const& that, const U& op) + { + // Make a copy of the data in this == &that. + // The copier should optimize out the copy in cases where the function is + // properly inlined and the copy is not necessary. + T t[N]; + for (int i = 0; i < N; ++i) + t[i] = that[i]; + for (int i = 0; i < N; ++i) + op( (*this)[i], t[i] ); + } + }; + + // Specialization for swizzles containing duplicate elements. These cannot be modified. + template + struct _swizzle_base2 : public _swizzle_base1::value> + { + struct Stub {}; + + GLM_FUNC_QUALIFIER _swizzle_base2& operator= (Stub const&) { return *this; } + + GLM_FUNC_QUALIFIER T operator[] (size_t i) const + { + const int offset_dst[4] = { E0, E1, E2, E3 }; + return this->elem(offset_dst[i]); + } + }; + + template + struct _swizzle : public _swizzle_base2 + { + typedef _swizzle_base2 base_type; + + using base_type::operator=; + + GLM_FUNC_QUALIFIER operator vec () const { return (*this)(); } + }; + +// +// To prevent the C++ syntax from getting entirely overwhelming, define some alias macros +// +#define GLM_SWIZZLE_TEMPLATE1 template +#define GLM_SWIZZLE_TEMPLATE2 template +#define GLM_SWIZZLE_TYPE1 _swizzle +#define GLM_SWIZZLE_TYPE2 _swizzle + +// +// Wrapper for a binary operator (e.g. u.yy + v.zy) +// +#define GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(OPERAND) \ + GLM_SWIZZLE_TEMPLATE2 \ + GLM_FUNC_QUALIFIER vec operator OPERAND ( const GLM_SWIZZLE_TYPE1& a, const GLM_SWIZZLE_TYPE2& b) \ + { \ + return a() OPERAND b(); \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER vec operator OPERAND ( const GLM_SWIZZLE_TYPE1& a, const vec& b) \ + { \ + return a() OPERAND b; \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER vec operator OPERAND ( const vec& a, const GLM_SWIZZLE_TYPE1& b) \ + { \ + return a OPERAND b(); \ + } + +// +// Wrapper for a operand between a swizzle and a binary (e.g. 1.0f - u.xyz) +// +#define GLM_SWIZZLE_SCALAR_BINARY_OPERATOR_IMPLEMENTATION(OPERAND) \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER vec operator OPERAND ( const GLM_SWIZZLE_TYPE1& a, const T& b) \ + { \ + return a() OPERAND b; \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER vec operator OPERAND ( const T& a, const GLM_SWIZZLE_TYPE1& b) \ + { \ + return a OPERAND b(); \ + } + +// +// Macro for wrapping a function taking one argument (e.g. abs()) +// +#define GLM_SWIZZLE_FUNCTION_1_ARGS(RETURN_TYPE,FUNCTION) \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const GLM_SWIZZLE_TYPE1& a) \ + { \ + return FUNCTION(a()); \ + } + +// +// Macro for wrapping a function taking two vector arguments (e.g. dot()). +// +#define GLM_SWIZZLE_FUNCTION_2_ARGS(RETURN_TYPE,FUNCTION) \ + GLM_SWIZZLE_TEMPLATE2 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const GLM_SWIZZLE_TYPE1& a, const GLM_SWIZZLE_TYPE2& b) \ + { \ + return FUNCTION(a(), b()); \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const GLM_SWIZZLE_TYPE1& a, const GLM_SWIZZLE_TYPE1& b) \ + { \ + return FUNCTION(a(), b()); \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const GLM_SWIZZLE_TYPE1& a, const typename V& b) \ + { \ + return FUNCTION(a(), b); \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const V& a, const GLM_SWIZZLE_TYPE1& b) \ + { \ + return FUNCTION(a, b()); \ + } + +// +// Macro for wrapping a function take 2 vec arguments followed by a scalar (e.g. mix()). +// +#define GLM_SWIZZLE_FUNCTION_2_ARGS_SCALAR(RETURN_TYPE,FUNCTION) \ + GLM_SWIZZLE_TEMPLATE2 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const GLM_SWIZZLE_TYPE1& a, const GLM_SWIZZLE_TYPE2& b, const T& c) \ + { \ + return FUNCTION(a(), b(), c); \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const GLM_SWIZZLE_TYPE1& a, const GLM_SWIZZLE_TYPE1& b, const T& c) \ + { \ + return FUNCTION(a(), b(), c); \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const GLM_SWIZZLE_TYPE1& a, const typename S0::vec_type& b, const T& c)\ + { \ + return FUNCTION(a(), b, c); \ + } \ + GLM_SWIZZLE_TEMPLATE1 \ + GLM_FUNC_QUALIFIER typename GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const typename V& a, const GLM_SWIZZLE_TYPE1& b, const T& c) \ + { \ + return FUNCTION(a, b(), c); \ + } + +}//namespace detail +}//namespace glm + +namespace glm +{ + namespace detail + { + GLM_SWIZZLE_SCALAR_BINARY_OPERATOR_IMPLEMENTATION(-) + GLM_SWIZZLE_SCALAR_BINARY_OPERATOR_IMPLEMENTATION(*) + GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(+) + GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(-) + GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(*) + GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(/) + } + + // + // Swizzles are distinct types from the unswizzled type. The below macros will + // provide template specializations for the swizzle types for the given functions + // so that the compiler does not have any ambiguity to choosing how to handle + // the function. + // + // The alternative is to use the operator()() when calling the function in order + // to explicitly convert the swizzled type to the unswizzled type. + // + + //GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, abs); + //GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, acos); + //GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, acosh); + //GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, all); + //GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, any); + + //GLM_SWIZZLE_FUNCTION_2_ARGS(value_type, dot); + //GLM_SWIZZLE_FUNCTION_2_ARGS(vec_type, cross); + //GLM_SWIZZLE_FUNCTION_2_ARGS(vec_type, step); + //GLM_SWIZZLE_FUNCTION_2_ARGS_SCALAR(vec_type, mix); +} + +#define GLM_SWIZZLE2_2_MEMBERS(T, Q, E0,E1) \ + struct { detail::_swizzle<2, T, Q, 0,0,-1,-2> E0 ## E0; }; \ + struct { detail::_swizzle<2, T, Q, 0,1,-1,-2> E0 ## E1; }; \ + struct { detail::_swizzle<2, T, Q, 1,0,-1,-2> E1 ## E0; }; \ + struct { detail::_swizzle<2, T, Q, 1,1,-1,-2> E1 ## E1; }; + +#define GLM_SWIZZLE2_3_MEMBERS(T, Q, E0,E1) \ + struct { detail::_swizzle<3,T, Q, 0,0,0,-1> E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<3,T, Q, 0,0,1,-1> E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<3,T, Q, 0,1,0,-1> E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<3,T, Q, 0,1,1,-1> E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<3,T, Q, 1,0,0,-1> E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<3,T, Q, 1,0,1,-1> E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<3,T, Q, 1,1,0,-1> E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<3,T, Q, 1,1,1,-1> E1 ## E1 ## E1; }; + +#define GLM_SWIZZLE2_4_MEMBERS(T, Q, E0,E1) \ + struct { detail::_swizzle<4,T, Q, 0,0,0,0> E0 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,0,1> E0 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,1,0> E0 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,1,1> E0 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,0,0> E0 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,0,1> E0 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,1,0> E0 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,1,1> E0 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,0,0> E1 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,0,1> E1 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,1,0> E1 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,1,1> E1 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,0,0> E1 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,0,1> E1 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,1,0> E1 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,1,1> E1 ## E1 ## E1 ## E1; }; + +#define GLM_SWIZZLE3_2_MEMBERS(T, Q, E0,E1,E2) \ + struct { detail::_swizzle<2,T, Q, 0,0,-1,-2> E0 ## E0; }; \ + struct { detail::_swizzle<2,T, Q, 0,1,-1,-2> E0 ## E1; }; \ + struct { detail::_swizzle<2,T, Q, 0,2,-1,-2> E0 ## E2; }; \ + struct { detail::_swizzle<2,T, Q, 1,0,-1,-2> E1 ## E0; }; \ + struct { detail::_swizzle<2,T, Q, 1,1,-1,-2> E1 ## E1; }; \ + struct { detail::_swizzle<2,T, Q, 1,2,-1,-2> E1 ## E2; }; \ + struct { detail::_swizzle<2,T, Q, 2,0,-1,-2> E2 ## E0; }; \ + struct { detail::_swizzle<2,T, Q, 2,1,-1,-2> E2 ## E1; }; \ + struct { detail::_swizzle<2,T, Q, 2,2,-1,-2> E2 ## E2; }; + +#define GLM_SWIZZLE3_3_MEMBERS(T, Q ,E0,E1,E2) \ + struct { detail::_swizzle<3, T, Q, 0,0,0,-1> E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 0,0,1,-1> E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 0,0,2,-1> E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 0,1,0,-1> E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 0,1,1,-1> E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 0,1,2,-1> E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 0,2,0,-1> E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 0,2,1,-1> E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 0,2,2,-1> E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 1,0,0,-1> E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 1,0,1,-1> E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 1,0,2,-1> E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 1,1,0,-1> E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 1,1,1,-1> E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 1,1,2,-1> E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 1,2,0,-1> E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 1,2,1,-1> E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 1,2,2,-1> E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 2,0,0,-1> E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 2,0,1,-1> E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 2,0,2,-1> E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 2,1,0,-1> E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 2,1,1,-1> E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 2,1,2,-1> E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 2,2,0,-1> E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 2,2,1,-1> E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 2,2,2,-1> E2 ## E2 ## E2; }; + +#define GLM_SWIZZLE3_4_MEMBERS(T, Q, E0,E1,E2) \ + struct { detail::_swizzle<4,T, Q, 0,0,0,0> E0 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,0,1> E0 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,0,2> E0 ## E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,1,0> E0 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,1,1> E0 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,1,2> E0 ## E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,2,0> E0 ## E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,2,1> E0 ## E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,0,2,2> E0 ## E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,0,0> E0 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,0,1> E0 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,0,2> E0 ## E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,1,0> E0 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,1,1> E0 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,1,2> E0 ## E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,2,0> E0 ## E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,2,1> E0 ## E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,1,2,2> E0 ## E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,0,0> E0 ## E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,0,1> E0 ## E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,0,2> E0 ## E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,1,0> E0 ## E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,1,1> E0 ## E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,1,2> E0 ## E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,2,0> E0 ## E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,2,1> E0 ## E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 0,2,2,2> E0 ## E2 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,0,0> E1 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,0,1> E1 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,0,2> E1 ## E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,1,0> E1 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,1,1> E1 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,1,2> E1 ## E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,2,0> E1 ## E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,2,1> E1 ## E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,0,2,2> E1 ## E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,0,0> E1 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,0,1> E1 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,0,2> E1 ## E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,1,0> E1 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,1,1> E1 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,1,2> E1 ## E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,2,0> E1 ## E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,2,1> E1 ## E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,1,2,2> E1 ## E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,0,0> E1 ## E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,0,1> E1 ## E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,0,2> E1 ## E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,1,0> E1 ## E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,1,1> E1 ## E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,1,2> E1 ## E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,2,0> E1 ## E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,2,1> E1 ## E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 1,2,2,2> E1 ## E2 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,0,0> E2 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,0,1> E2 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,0,2> E2 ## E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,1,0> E2 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,1,1> E2 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,1,2> E2 ## E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,2,0> E2 ## E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,2,1> E2 ## E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,0,2,2> E2 ## E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,0,0> E2 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,0,1> E2 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,0,2> E2 ## E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,1,0> E2 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,1,1> E2 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,1,2> E2 ## E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,2,0> E2 ## E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,2,1> E2 ## E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,1,2,2> E2 ## E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,0,0> E2 ## E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,0,1> E2 ## E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,0,2> E2 ## E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,1,0> E2 ## E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,1,1> E2 ## E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,1,2> E2 ## E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,2,0> E2 ## E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,2,1> E2 ## E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<4,T, Q, 2,2,2,2> E2 ## E2 ## E2 ## E2; }; + +#define GLM_SWIZZLE4_2_MEMBERS(T, Q, E0,E1,E2,E3) \ + struct { detail::_swizzle<2,T, Q, 0,0,-1,-2> E0 ## E0; }; \ + struct { detail::_swizzle<2,T, Q, 0,1,-1,-2> E0 ## E1; }; \ + struct { detail::_swizzle<2,T, Q, 0,2,-1,-2> E0 ## E2; }; \ + struct { detail::_swizzle<2,T, Q, 0,3,-1,-2> E0 ## E3; }; \ + struct { detail::_swizzle<2,T, Q, 1,0,-1,-2> E1 ## E0; }; \ + struct { detail::_swizzle<2,T, Q, 1,1,-1,-2> E1 ## E1; }; \ + struct { detail::_swizzle<2,T, Q, 1,2,-1,-2> E1 ## E2; }; \ + struct { detail::_swizzle<2,T, Q, 1,3,-1,-2> E1 ## E3; }; \ + struct { detail::_swizzle<2,T, Q, 2,0,-1,-2> E2 ## E0; }; \ + struct { detail::_swizzle<2,T, Q, 2,1,-1,-2> E2 ## E1; }; \ + struct { detail::_swizzle<2,T, Q, 2,2,-1,-2> E2 ## E2; }; \ + struct { detail::_swizzle<2,T, Q, 2,3,-1,-2> E2 ## E3; }; \ + struct { detail::_swizzle<2,T, Q, 3,0,-1,-2> E3 ## E0; }; \ + struct { detail::_swizzle<2,T, Q, 3,1,-1,-2> E3 ## E1; }; \ + struct { detail::_swizzle<2,T, Q, 3,2,-1,-2> E3 ## E2; }; \ + struct { detail::_swizzle<2,T, Q, 3,3,-1,-2> E3 ## E3; }; + +#define GLM_SWIZZLE4_3_MEMBERS(T, Q, E0,E1,E2,E3) \ + struct { detail::_swizzle<3, T, Q, 0,0,0,-1> E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 0,0,1,-1> E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 0,0,2,-1> E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 0,0,3,-1> E0 ## E0 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 0,1,0,-1> E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 0,1,1,-1> E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 0,1,2,-1> E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 0,1,3,-1> E0 ## E1 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 0,2,0,-1> E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 0,2,1,-1> E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 0,2,2,-1> E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 0,2,3,-1> E0 ## E2 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 0,3,0,-1> E0 ## E3 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 0,3,1,-1> E0 ## E3 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 0,3,2,-1> E0 ## E3 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 0,3,3,-1> E0 ## E3 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 1,0,0,-1> E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 1,0,1,-1> E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 1,0,2,-1> E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 1,0,3,-1> E1 ## E0 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 1,1,0,-1> E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 1,1,1,-1> E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 1,1,2,-1> E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 1,1,3,-1> E1 ## E1 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 1,2,0,-1> E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 1,2,1,-1> E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 1,2,2,-1> E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 1,2,3,-1> E1 ## E2 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 1,3,0,-1> E1 ## E3 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 1,3,1,-1> E1 ## E3 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 1,3,2,-1> E1 ## E3 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 1,3,3,-1> E1 ## E3 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 2,0,0,-1> E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 2,0,1,-1> E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 2,0,2,-1> E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 2,0,3,-1> E2 ## E0 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 2,1,0,-1> E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 2,1,1,-1> E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 2,1,2,-1> E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 2,1,3,-1> E2 ## E1 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 2,2,0,-1> E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 2,2,1,-1> E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 2,2,2,-1> E2 ## E2 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 2,2,3,-1> E2 ## E2 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 2,3,0,-1> E2 ## E3 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 2,3,1,-1> E2 ## E3 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 2,3,2,-1> E2 ## E3 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 2,3,3,-1> E2 ## E3 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 3,0,0,-1> E3 ## E0 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 3,0,1,-1> E3 ## E0 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 3,0,2,-1> E3 ## E0 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 3,0,3,-1> E3 ## E0 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 3,1,0,-1> E3 ## E1 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 3,1,1,-1> E3 ## E1 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 3,1,2,-1> E3 ## E1 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 3,1,3,-1> E3 ## E1 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 3,2,0,-1> E3 ## E2 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 3,2,1,-1> E3 ## E2 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 3,2,2,-1> E3 ## E2 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 3,2,3,-1> E3 ## E2 ## E3; }; \ + struct { detail::_swizzle<3, T, Q, 3,3,0,-1> E3 ## E3 ## E0; }; \ + struct { detail::_swizzle<3, T, Q, 3,3,1,-1> E3 ## E3 ## E1; }; \ + struct { detail::_swizzle<3, T, Q, 3,3,2,-1> E3 ## E3 ## E2; }; \ + struct { detail::_swizzle<3, T, Q, 3,3,3,-1> E3 ## E3 ## E3; }; + +#define GLM_SWIZZLE4_4_MEMBERS(T, Q, E0,E1,E2,E3) \ + struct { detail::_swizzle<4, T, Q, 0,0,0,0> E0 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,0,1> E0 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,0,2> E0 ## E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,0,3> E0 ## E0 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,1,0> E0 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,1,1> E0 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,1,2> E0 ## E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,1,3> E0 ## E0 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,2,0> E0 ## E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,2,1> E0 ## E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,2,2> E0 ## E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,2,3> E0 ## E0 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,3,0> E0 ## E0 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,3,1> E0 ## E0 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,3,2> E0 ## E0 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,0,3,3> E0 ## E0 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,0,0> E0 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,0,1> E0 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,0,2> E0 ## E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,0,3> E0 ## E1 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,1,0> E0 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,1,1> E0 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,1,2> E0 ## E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,1,3> E0 ## E1 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,2,0> E0 ## E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,2,1> E0 ## E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,2,2> E0 ## E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,2,3> E0 ## E1 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,3,0> E0 ## E1 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,3,1> E0 ## E1 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,3,2> E0 ## E1 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,1,3,3> E0 ## E1 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,0,0> E0 ## E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,0,1> E0 ## E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,0,2> E0 ## E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,0,3> E0 ## E2 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,1,0> E0 ## E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,1,1> E0 ## E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,1,2> E0 ## E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,1,3> E0 ## E2 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,2,0> E0 ## E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,2,1> E0 ## E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,2,2> E0 ## E2 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,2,3> E0 ## E2 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,3,0> E0 ## E2 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,3,1> E0 ## E2 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,3,2> E0 ## E2 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,2,3,3> E0 ## E2 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,0,0> E0 ## E3 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,0,1> E0 ## E3 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,0,2> E0 ## E3 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,0,3> E0 ## E3 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,1,0> E0 ## E3 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,1,1> E0 ## E3 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,1,2> E0 ## E3 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,1,3> E0 ## E3 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,2,0> E0 ## E3 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,2,1> E0 ## E3 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,2,2> E0 ## E3 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,2,3> E0 ## E3 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,3,0> E0 ## E3 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,3,1> E0 ## E3 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,3,2> E0 ## E3 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 0,3,3,3> E0 ## E3 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,0,0> E1 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,0,1> E1 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,0,2> E1 ## E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,0,3> E1 ## E0 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,1,0> E1 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,1,1> E1 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,1,2> E1 ## E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,1,3> E1 ## E0 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,2,0> E1 ## E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,2,1> E1 ## E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,2,2> E1 ## E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,2,3> E1 ## E0 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,3,0> E1 ## E0 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,3,1> E1 ## E0 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,3,2> E1 ## E0 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,0,3,3> E1 ## E0 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,0,0> E1 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,0,1> E1 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,0,2> E1 ## E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,0,3> E1 ## E1 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,1,0> E1 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,1,1> E1 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,1,2> E1 ## E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,1,3> E1 ## E1 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,2,0> E1 ## E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,2,1> E1 ## E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,2,2> E1 ## E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,2,3> E1 ## E1 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,3,0> E1 ## E1 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,3,1> E1 ## E1 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,3,2> E1 ## E1 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,1,3,3> E1 ## E1 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,0,0> E1 ## E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,0,1> E1 ## E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,0,2> E1 ## E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,0,3> E1 ## E2 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,1,0> E1 ## E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,1,1> E1 ## E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,1,2> E1 ## E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,1,3> E1 ## E2 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,2,0> E1 ## E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,2,1> E1 ## E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,2,2> E1 ## E2 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,2,3> E1 ## E2 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,3,0> E1 ## E2 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,3,1> E1 ## E2 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,3,2> E1 ## E2 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,2,3,3> E1 ## E2 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,0,0> E1 ## E3 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,0,1> E1 ## E3 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,0,2> E1 ## E3 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,0,3> E1 ## E3 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,1,0> E1 ## E3 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,1,1> E1 ## E3 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,1,2> E1 ## E3 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,1,3> E1 ## E3 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,2,0> E1 ## E3 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,2,1> E1 ## E3 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,2,2> E1 ## E3 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,2,3> E1 ## E3 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,3,0> E1 ## E3 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,3,1> E1 ## E3 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,3,2> E1 ## E3 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 1,3,3,3> E1 ## E3 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,0,0> E2 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,0,1> E2 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,0,2> E2 ## E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,0,3> E2 ## E0 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,1,0> E2 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,1,1> E2 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,1,2> E2 ## E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,1,3> E2 ## E0 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,2,0> E2 ## E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,2,1> E2 ## E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,2,2> E2 ## E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,2,3> E2 ## E0 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,3,0> E2 ## E0 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,3,1> E2 ## E0 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,3,2> E2 ## E0 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,0,3,3> E2 ## E0 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,0,0> E2 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,0,1> E2 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,0,2> E2 ## E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,0,3> E2 ## E1 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,1,0> E2 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,1,1> E2 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,1,2> E2 ## E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,1,3> E2 ## E1 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,2,0> E2 ## E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,2,1> E2 ## E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,2,2> E2 ## E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,2,3> E2 ## E1 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,3,0> E2 ## E1 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,3,1> E2 ## E1 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,3,2> E2 ## E1 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,1,3,3> E2 ## E1 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,0,0> E2 ## E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,0,1> E2 ## E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,0,2> E2 ## E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,0,3> E2 ## E2 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,1,0> E2 ## E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,1,1> E2 ## E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,1,2> E2 ## E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,1,3> E2 ## E2 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,2,0> E2 ## E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,2,1> E2 ## E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,2,2> E2 ## E2 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,2,3> E2 ## E2 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,3,0> E2 ## E2 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,3,1> E2 ## E2 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,3,2> E2 ## E2 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,2,3,3> E2 ## E2 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,0,0> E2 ## E3 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,0,1> E2 ## E3 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,0,2> E2 ## E3 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,0,3> E2 ## E3 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,1,0> E2 ## E3 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,1,1> E2 ## E3 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,1,2> E2 ## E3 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,1,3> E2 ## E3 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,2,0> E2 ## E3 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,2,1> E2 ## E3 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,2,2> E2 ## E3 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,2,3> E2 ## E3 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,3,0> E2 ## E3 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,3,1> E2 ## E3 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,3,2> E2 ## E3 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 2,3,3,3> E2 ## E3 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,0,0> E3 ## E0 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,0,1> E3 ## E0 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,0,2> E3 ## E0 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,0,3> E3 ## E0 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,1,0> E3 ## E0 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,1,1> E3 ## E0 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,1,2> E3 ## E0 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,1,3> E3 ## E0 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,2,0> E3 ## E0 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,2,1> E3 ## E0 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,2,2> E3 ## E0 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,2,3> E3 ## E0 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,3,0> E3 ## E0 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,3,1> E3 ## E0 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,3,2> E3 ## E0 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,0,3,3> E3 ## E0 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,0,0> E3 ## E1 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,0,1> E3 ## E1 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,0,2> E3 ## E1 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,0,3> E3 ## E1 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,1,0> E3 ## E1 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,1,1> E3 ## E1 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,1,2> E3 ## E1 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,1,3> E3 ## E1 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,2,0> E3 ## E1 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,2,1> E3 ## E1 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,2,2> E3 ## E1 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,2,3> E3 ## E1 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,3,0> E3 ## E1 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,3,1> E3 ## E1 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,3,2> E3 ## E1 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,1,3,3> E3 ## E1 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,0,0> E3 ## E2 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,0,1> E3 ## E2 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,0,2> E3 ## E2 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,0,3> E3 ## E2 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,1,0> E3 ## E2 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,1,1> E3 ## E2 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,1,2> E3 ## E2 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,1,3> E3 ## E2 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,2,0> E3 ## E2 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,2,1> E3 ## E2 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,2,2> E3 ## E2 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,2,3> E3 ## E2 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,3,0> E3 ## E2 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,3,1> E3 ## E2 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,3,2> E3 ## E2 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,2,3,3> E3 ## E2 ## E3 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,0,0> E3 ## E3 ## E0 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,0,1> E3 ## E3 ## E0 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,0,2> E3 ## E3 ## E0 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,0,3> E3 ## E3 ## E0 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,1,0> E3 ## E3 ## E1 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,1,1> E3 ## E3 ## E1 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,1,2> E3 ## E3 ## E1 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,1,3> E3 ## E3 ## E1 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,2,0> E3 ## E3 ## E2 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,2,1> E3 ## E3 ## E2 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,2,2> E3 ## E3 ## E2 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,2,3> E3 ## E3 ## E2 ## E3; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,3,0> E3 ## E3 ## E3 ## E0; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,3,1> E3 ## E3 ## E3 ## E1; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,3,2> E3 ## E3 ## E3 ## E2; }; \ + struct { detail::_swizzle<4, T, Q, 3,3,3,3> E3 ## E3 ## E3 ## E3; }; diff --git a/Vulkan/ext/include/glm/detail/_swizzle_func.hpp b/Vulkan/ext/include/glm/detail/_swizzle_func.hpp new file mode 100644 index 0000000..d93c6af --- /dev/null +++ b/Vulkan/ext/include/glm/detail/_swizzle_func.hpp @@ -0,0 +1,682 @@ +#pragma once + +#define GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, CONST, A, B) \ + vec<2, T, Q> A ## B() CONST \ + { \ + return vec<2, T, Q>(this->A, this->B); \ + } + +#define GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, CONST, A, B, C) \ + vec<3, T, Q> A ## B ## C() CONST \ + { \ + return vec<3, T, Q>(this->A, this->B, this->C); \ + } + +#define GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, CONST, A, B, C, D) \ + vec<4, T, Q> A ## B ## C ## D() CONST \ + { \ + return vec<4, T, Q>(this->A, this->B, this->C, this->D); \ + } + +#define GLM_SWIZZLE_GEN_VEC2_ENTRY_DEF(T, P, L, CONST, A, B) \ + template \ + vec vec::A ## B() CONST \ + { \ + return vec<2, T, Q>(this->A, this->B); \ + } + +#define GLM_SWIZZLE_GEN_VEC3_ENTRY_DEF(T, P, L, CONST, A, B, C) \ + template \ + vec<3, T, Q> vec::A ## B ## C() CONST \ + { \ + return vec<3, T, Q>(this->A, this->B, this->C); \ + } + +#define GLM_SWIZZLE_GEN_VEC4_ENTRY_DEF(T, P, L, CONST, A, B, C, D) \ + template \ + vec<4, T, Q> vec::A ## B ## C ## D() CONST \ + { \ + return vec<4, T, Q>(this->A, this->B, this->C, this->D); \ + } + +#define GLM_MUTABLE + +#define GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(T, P, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, 2, GLM_MUTABLE, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, 2, GLM_MUTABLE, B, A) + +#define GLM_SWIZZLE_GEN_REF_FROM_VEC2(T, P) \ + GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(T, P, x, y) \ + GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(T, P, r, g) \ + GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(T, P, s, t) + +#define GLM_SWIZZLE_GEN_REF2_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, A, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, B, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, B, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, C, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, C, B) + +#define GLM_SWIZZLE_GEN_REF3_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, GLM_MUTABLE, A, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, GLM_MUTABLE, A, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, GLM_MUTABLE, B, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, GLM_MUTABLE, B, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, GLM_MUTABLE, C, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, GLM_MUTABLE, C, B, A) + +#define GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_REF3_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_REF2_FROM_VEC3_SWIZZLE(T, P, A, B, C) + +#define GLM_SWIZZLE_GEN_REF_FROM_VEC3(T, P) \ + GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(T, P, x, y, z) \ + GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(T, P, r, g, b) \ + GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(T, P, s, t, p) + +#define GLM_SWIZZLE_GEN_REF2_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, A, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, A, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, B, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, B, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, B, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, C, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, C, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, C, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, D, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, D, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, GLM_MUTABLE, D, C) + +#define GLM_SWIZZLE_GEN_REF3_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , A, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , A, B, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , A, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , A, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , A, D, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , A, D, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , B, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , B, A, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , B, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , B, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , B, D, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , B, D, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , C, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , C, A, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , C, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , C, B, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , C, D, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , C, D, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , D, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , D, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , D, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , D, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , D, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, , D, C, B) + +#define GLM_SWIZZLE_GEN_REF4_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , A, C, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , A, C, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , A, D, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , A, D, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , A, B, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , B, C, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , B, C, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , B, D, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , B, D, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , B, A, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , B, A, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , C, B, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , C, B, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , C, D, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , C, D, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , C, A, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , C, A, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , D, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , D, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , D, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , D, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , D, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, , D, B, C, A) + +#define GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_REF2_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_REF3_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_REF4_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) + +#define GLM_SWIZZLE_GEN_REF_FROM_VEC4(T, P) \ + GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(T, P, x, y, z, w) \ + GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(T, P, r, g, b, a) \ + GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(T, P, s, t, p, q) + +#define GLM_SWIZZLE_GEN_VEC2_FROM_VEC2_SWIZZLE(T, P, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, B) + +#define GLM_SWIZZLE_GEN_VEC3_FROM_VEC2_SWIZZLE(T, P, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, B) + +#define GLM_SWIZZLE_GEN_VEC4_FROM_VEC2_SWIZZLE(T, P, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, B) + +#define GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(T, P, A, B) \ + GLM_SWIZZLE_GEN_VEC2_FROM_VEC2_SWIZZLE(T, P, A, B) \ + GLM_SWIZZLE_GEN_VEC3_FROM_VEC2_SWIZZLE(T, P, A, B) \ + GLM_SWIZZLE_GEN_VEC4_FROM_VEC2_SWIZZLE(T, P, A, B) + +#define GLM_SWIZZLE_GEN_VEC_FROM_VEC2(T, P) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(T, P, x, y) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(T, P, r, g) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(T, P, s, t) + +#define GLM_SWIZZLE_GEN_VEC2_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, C, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, C, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, C, C) + +#define GLM_SWIZZLE_GEN_VEC3_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, C, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, C, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, C, C) + +#define GLM_SWIZZLE_GEN_VEC4_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, C, C) + +#define GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC2_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC3_FROM_VEC3_SWIZZLE(T, P, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_FROM_VEC3_SWIZZLE(T, P, A, B, C) + +#define GLM_SWIZZLE_GEN_VEC_FROM_VEC3(T, P) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(T, P, x, y, z) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(T, P, r, g, b) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(T, P, s, t, p) + +#define GLM_SWIZZLE_GEN_VEC2_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, A, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, B, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, C, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, C, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, C, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, C, D) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, D, A) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, D, B) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, D, C) \ + GLM_SWIZZLE_GEN_VEC2_ENTRY(T, P, const, D, D) + +#define GLM_SWIZZLE_GEN_VEC3_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, A, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, B, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, C, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, D, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, D, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, D, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, A, D, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, A, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, B, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, C, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, D, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, D, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, D, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, B, D, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, A, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, B, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, C, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, D, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, D, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, D, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, C, D, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, A, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, A, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, A, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, A, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, B, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, B, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, B, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, B, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, C, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, C, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, C, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, C, D) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, D, A) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, D, B) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, D, C) \ + GLM_SWIZZLE_GEN_VEC3_ENTRY(T, P, const, D, D, D) + +#define GLM_SWIZZLE_GEN_VEC4_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, A, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, B, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, C, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, A, D, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, A, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, B, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, C, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, B, D, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, A, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, B, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, C, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, C, D, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, A, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, B, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, C, D, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, A, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, A, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, A, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, A, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, B, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, B, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, B, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, B, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, C, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, C, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, C, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, C, D) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, D, A) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, D, B) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, D, C) \ + GLM_SWIZZLE_GEN_VEC4_ENTRY(T, P, const, D, D, D, D) + +#define GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC2_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC3_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) \ + GLM_SWIZZLE_GEN_VEC4_FROM_VEC4_SWIZZLE(T, P, A, B, C, D) + +#define GLM_SWIZZLE_GEN_VEC_FROM_VEC4(T, P) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(T, P, x, y, z, w) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(T, P, r, g, b, a) \ + GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(T, P, s, t, p, q) + diff --git a/Vulkan/ext/include/glm/detail/_vectorize.hpp b/Vulkan/ext/include/glm/detail/_vectorize.hpp new file mode 100644 index 0000000..1fcaec3 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/_vectorize.hpp @@ -0,0 +1,162 @@ +#pragma once + +namespace glm{ +namespace detail +{ + template class vec, length_t L, typename R, typename T, qualifier Q> + struct functor1{}; + + template class vec, typename R, typename T, qualifier Q> + struct functor1 + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<1, R, Q> call(R (*Func) (T x), vec<1, T, Q> const& v) + { + return vec<1, R, Q>(Func(v.x)); + } + }; + + template class vec, typename R, typename T, qualifier Q> + struct functor1 + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<2, R, Q> call(R (*Func) (T x), vec<2, T, Q> const& v) + { + return vec<2, R, Q>(Func(v.x), Func(v.y)); + } + }; + + template class vec, typename R, typename T, qualifier Q> + struct functor1 + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<3, R, Q> call(R (*Func) (T x), vec<3, T, Q> const& v) + { + return vec<3, R, Q>(Func(v.x), Func(v.y), Func(v.z)); + } + }; + + template class vec, typename R, typename T, qualifier Q> + struct functor1 + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, R, Q> call(R (*Func) (T x), vec<4, T, Q> const& v) + { + return vec<4, R, Q>(Func(v.x), Func(v.y), Func(v.z), Func(v.w)); + } + }; + + template class vec, length_t L, typename T, qualifier Q> + struct functor2{}; + + template class vec, typename T, qualifier Q> + struct functor2 + { + GLM_FUNC_QUALIFIER static vec<1, T, Q> call(T (*Func) (T x, T y), vec<1, T, Q> const& a, vec<1, T, Q> const& b) + { + return vec<1, T, Q>(Func(a.x, b.x)); + } + }; + + template class vec, typename T, qualifier Q> + struct functor2 + { + GLM_FUNC_QUALIFIER static vec<2, T, Q> call(T (*Func) (T x, T y), vec<2, T, Q> const& a, vec<2, T, Q> const& b) + { + return vec<2, T, Q>(Func(a.x, b.x), Func(a.y, b.y)); + } + }; + + template class vec, typename T, qualifier Q> + struct functor2 + { + GLM_FUNC_QUALIFIER static vec<3, T, Q> call(T (*Func) (T x, T y), vec<3, T, Q> const& a, vec<3, T, Q> const& b) + { + return vec<3, T, Q>(Func(a.x, b.x), Func(a.y, b.y), Func(a.z, b.z)); + } + }; + + template class vec, typename T, qualifier Q> + struct functor2 + { + GLM_FUNC_QUALIFIER static vec<4, T, Q> call(T (*Func) (T x, T y), vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(Func(a.x, b.x), Func(a.y, b.y), Func(a.z, b.z), Func(a.w, b.w)); + } + }; + + template class vec, length_t L, typename T, qualifier Q> + struct functor2_vec_sca{}; + + template class vec, typename T, qualifier Q> + struct functor2_vec_sca + { + GLM_FUNC_QUALIFIER static vec<1, T, Q> call(T (*Func) (T x, T y), vec<1, T, Q> const& a, T b) + { + return vec<1, T, Q>(Func(a.x, b)); + } + }; + + template class vec, typename T, qualifier Q> + struct functor2_vec_sca + { + GLM_FUNC_QUALIFIER static vec<2, T, Q> call(T (*Func) (T x, T y), vec<2, T, Q> const& a, T b) + { + return vec<2, T, Q>(Func(a.x, b), Func(a.y, b)); + } + }; + + template class vec, typename T, qualifier Q> + struct functor2_vec_sca + { + GLM_FUNC_QUALIFIER static vec<3, T, Q> call(T (*Func) (T x, T y), vec<3, T, Q> const& a, T b) + { + return vec<3, T, Q>(Func(a.x, b), Func(a.y, b), Func(a.z, b)); + } + }; + + template class vec, typename T, qualifier Q> + struct functor2_vec_sca + { + GLM_FUNC_QUALIFIER static vec<4, T, Q> call(T (*Func) (T x, T y), vec<4, T, Q> const& a, T b) + { + return vec<4, T, Q>(Func(a.x, b), Func(a.y, b), Func(a.z, b), Func(a.w, b)); + } + }; + + template + struct functor2_vec_int {}; + + template + struct functor2_vec_int<1, T, Q> + { + GLM_FUNC_QUALIFIER static vec<1, int, Q> call(int (*Func) (T x, int y), vec<1, T, Q> const& a, vec<1, int, Q> const& b) + { + return vec<1, int, Q>(Func(a.x, b.x)); + } + }; + + template + struct functor2_vec_int<2, T, Q> + { + GLM_FUNC_QUALIFIER static vec<2, int, Q> call(int (*Func) (T x, int y), vec<2, T, Q> const& a, vec<2, int, Q> const& b) + { + return vec<2, int, Q>(Func(a.x, b.x), Func(a.y, b.y)); + } + }; + + template + struct functor2_vec_int<3, T, Q> + { + GLM_FUNC_QUALIFIER static vec<3, int, Q> call(int (*Func) (T x, int y), vec<3, T, Q> const& a, vec<3, int, Q> const& b) + { + return vec<3, int, Q>(Func(a.x, b.x), Func(a.y, b.y), Func(a.z, b.z)); + } + }; + + template + struct functor2_vec_int<4, T, Q> + { + GLM_FUNC_QUALIFIER static vec<4, int, Q> call(int (*Func) (T x, int y), vec<4, T, Q> const& a, vec<4, int, Q> const& b) + { + return vec<4, int, Q>(Func(a.x, b.x), Func(a.y, b.y), Func(a.z, b.z), Func(a.w, b.w)); + } + }; +}//namespace detail +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/compute_common.hpp b/Vulkan/ext/include/glm/detail/compute_common.hpp new file mode 100644 index 0000000..cc24b9e --- /dev/null +++ b/Vulkan/ext/include/glm/detail/compute_common.hpp @@ -0,0 +1,50 @@ +#pragma once + +#include "setup.hpp" +#include + +namespace glm{ +namespace detail +{ + template + struct compute_abs + {}; + + template + struct compute_abs + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static genFIType call(genFIType x) + { + GLM_STATIC_ASSERT( + std::numeric_limits::is_iec559 || std::numeric_limits::is_signed, + "'abs' only accept floating-point and integer scalar or vector inputs"); + + return x >= genFIType(0) ? x : -x; + // TODO, perf comp with: *(((int *) &x) + 1) &= 0x7fffffff; + } + }; + +#if GLM_COMPILER & GLM_COMPILER_CUDA + template<> + struct compute_abs + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static float call(float x) + { + return fabsf(x); + } + }; +#endif + + template + struct compute_abs + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static genFIType call(genFIType x) + { + GLM_STATIC_ASSERT( + (!std::numeric_limits::is_signed && std::numeric_limits::is_integer), + "'abs' only accept floating-point and integer scalar or vector inputs"); + return x; + } + }; +}//namespace detail +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/compute_vector_relational.hpp b/Vulkan/ext/include/glm/detail/compute_vector_relational.hpp new file mode 100644 index 0000000..167b634 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/compute_vector_relational.hpp @@ -0,0 +1,30 @@ +#pragma once + +//#include "compute_common.hpp" +#include "setup.hpp" +#include + +namespace glm{ +namespace detail +{ + template + struct compute_equal + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static bool call(T a, T b) + { + return a == b; + } + }; +/* + template + struct compute_equal + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static bool call(T a, T b) + { + return detail::compute_abs::is_signed>::call(b - a) <= static_cast(0); + //return std::memcmp(&a, &b, sizeof(T)) == 0; + } + }; +*/ +}//namespace detail +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/func_common.inl b/Vulkan/ext/include/glm/detail/func_common.inl new file mode 100644 index 0000000..4b5f144 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_common.inl @@ -0,0 +1,792 @@ +/// @ref core +/// @file glm/detail/func_common.inl + +#include "../vector_relational.hpp" +#include "compute_common.hpp" +#include "type_vec1.hpp" +#include "type_vec2.hpp" +#include "type_vec3.hpp" +#include "type_vec4.hpp" +#include "_vectorize.hpp" +#include + +namespace glm +{ + // min + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType min(genType x, genType y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer, "'min' only accept floating-point or integer inputs"); + return (y < x) ? y : x; + } + + // max + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType max(genType x, genType y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer, "'max' only accept floating-point or integer inputs"); + + return (x < y) ? y : x; + } + + // abs + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR int abs(int x) + { + int const y = x >> (sizeof(int) * 8 - 1); + return (x ^ y) - y; + } + + // round +# if GLM_HAS_CXX11_STL + using ::std::round; +# else + template + GLM_FUNC_QUALIFIER genType round(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'round' only accept floating-point inputs"); + + return x < static_cast(0) ? static_cast(int(x - static_cast(0.5))) : static_cast(int(x + static_cast(0.5))); + } +# endif + + // trunc +# if GLM_HAS_CXX11_STL + using ::std::trunc; +# else + template + GLM_FUNC_QUALIFIER genType trunc(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'trunc' only accept floating-point inputs"); + + return x < static_cast(0) ? -std::floor(-x) : std::floor(x); + } +# endif + +}//namespace glm + +namespace glm{ +namespace detail +{ + template + struct compute_abs_vector + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec call(vec const& x) + { + return detail::functor1::call(abs, x); + } + }; + + template + struct compute_mix_vector + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, vec const& y, vec const& a) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'mix' only accept floating-point inputs for the interpolator a"); + + return vec(vec(x) * (static_cast(1) - a) + vec(y) * a); + } + }; + + template + struct compute_mix_vector + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, vec const& y, vec const& a) + { + vec Result; + for(length_t i = 0; i < x.length(); ++i) + Result[i] = a[i] ? y[i] : x[i]; + return Result; + } + }; + + template + struct compute_mix_scalar + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, vec const& y, U const& a) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'mix' only accept floating-point inputs for the interpolator a"); + + return vec(vec(x) * (static_cast(1) - a) + vec(y) * a); + } + }; + + template + struct compute_mix_scalar + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, vec const& y, bool const& a) + { + return a ? y : x; + } + }; + + template + struct compute_mix + { + GLM_FUNC_QUALIFIER static T call(T const& x, T const& y, U const& a) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'mix' only accept floating-point inputs for the interpolator a"); + + return static_cast(static_cast(x) * (static_cast(1) - a) + static_cast(y) * a); + } + }; + + template + struct compute_mix + { + GLM_FUNC_QUALIFIER static T call(T const& x, T const& y, bool const& a) + { + return a ? y : x; + } + }; + + template + struct compute_sign + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return vec(glm::lessThan(vec(0), x)) - vec(glm::lessThan(x, vec(0))); + } + }; + +# if GLM_ARCH == GLM_ARCH_X86 + template + struct compute_sign + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + T const Shift(static_cast(sizeof(T) * 8 - 1)); + vec const y(vec::type, Q>(-x) >> typename detail::make_unsigned::type(Shift)); + + return (x >> Shift) | y; + } + }; +# endif + + template + struct compute_floor + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return detail::functor1::call(std::floor, x); + } + }; + + template + struct compute_ceil + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return detail::functor1::call(std::ceil, x); + } + }; + + template + struct compute_fract + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return x - floor(x); + } + }; + + template + struct compute_trunc + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return detail::functor1::call(trunc, x); + } + }; + + template + struct compute_round + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return detail::functor1::call(round, x); + } + }; + + template + struct compute_mod + { + GLM_FUNC_QUALIFIER static vec call(vec const& a, vec const& b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'mod' only accept floating-point inputs. Include for integer inputs."); + return a - b * floor(a / b); + } + }; + + template + struct compute_min_vector + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, vec const& y) + { + return detail::functor2::call(min, x, y); + } + }; + + template + struct compute_max_vector + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, vec const& y) + { + return detail::functor2::call(max, x, y); + } + }; + + template + struct compute_clamp_vector + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, vec const& minVal, vec const& maxVal) + { + return min(max(x, minVal), maxVal); + } + }; + + template + struct compute_step_vector + { + GLM_FUNC_QUALIFIER static vec call(vec const& edge, vec const& x) + { + return mix(vec(1), vec(0), glm::lessThan(x, edge)); + } + }; + + template + struct compute_smoothstep_vector + { + GLM_FUNC_QUALIFIER static vec call(vec const& edge0, vec const& edge1, vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'smoothstep' only accept floating-point inputs"); + vec const tmp(clamp((x - edge0) / (edge1 - edge0), static_cast(0), static_cast(1))); + return tmp * tmp * (static_cast(3) - static_cast(2) * tmp); + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genFIType abs(genFIType x) + { + return detail::compute_abs::is_signed>::call(x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec abs(vec const& x) + { + return detail::compute_abs_vector::value>::call(x); + } + + // sign + // fast and works for any type + template + GLM_FUNC_QUALIFIER genFIType sign(genFIType x) + { + GLM_STATIC_ASSERT( + std::numeric_limits::is_iec559 || (std::numeric_limits::is_signed && std::numeric_limits::is_integer), + "'sign' only accept signed inputs"); + + return detail::compute_sign<1, genFIType, defaultp, + std::numeric_limits::is_iec559, detail::is_aligned::value>::call(vec<1, genFIType>(x)).x; + } + + template + GLM_FUNC_QUALIFIER vec sign(vec const& x) + { + GLM_STATIC_ASSERT( + std::numeric_limits::is_iec559 || (std::numeric_limits::is_signed && std::numeric_limits::is_integer), + "'sign' only accept signed inputs"); + + return detail::compute_sign::is_iec559, detail::is_aligned::value>::call(x); + } + + // floor + using ::std::floor; + template + GLM_FUNC_QUALIFIER vec floor(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'floor' only accept floating-point inputs."); + return detail::compute_floor::value>::call(x); + } + + template + GLM_FUNC_QUALIFIER vec trunc(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'trunc' only accept floating-point inputs"); + return detail::compute_trunc::value>::call(x); + } + + template + GLM_FUNC_QUALIFIER vec round(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'round' only accept floating-point inputs"); + return detail::compute_round::value>::call(x); + } + +/* + // roundEven + template + GLM_FUNC_QUALIFIER genType roundEven(genType const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'roundEven' only accept floating-point inputs"); + + return genType(int(x + genType(int(x) % 2))); + } +*/ + + // roundEven + template + GLM_FUNC_QUALIFIER genType roundEven(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'roundEven' only accept floating-point inputs"); + + int Integer = static_cast(x); + genType IntegerPart = static_cast(Integer); + genType FractionalPart = fract(x); + + if(FractionalPart > static_cast(0.5) || FractionalPart < static_cast(0.5)) + { + return round(x); + } + else if((Integer % 2) == 0) + { + return IntegerPart; + } + else if(x <= static_cast(0)) // Work around... + { + return IntegerPart - static_cast(1); + } + else + { + return IntegerPart + static_cast(1); + } + //else // Bug on MinGW 4.5.2 + //{ + // return mix(IntegerPart + genType(-1), IntegerPart + genType(1), x <= genType(0)); + //} + } + + template + GLM_FUNC_QUALIFIER vec roundEven(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'roundEven' only accept floating-point inputs"); + return detail::functor1::call(roundEven, x); + } + + // ceil + using ::std::ceil; + template + GLM_FUNC_QUALIFIER vec ceil(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'ceil' only accept floating-point inputs"); + return detail::compute_ceil::value>::call(x); + } + + // fract + template + GLM_FUNC_QUALIFIER genType fract(genType x) + { + return fract(vec<1, genType>(x)).x; + } + + template + GLM_FUNC_QUALIFIER vec fract(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fract' only accept floating-point inputs"); + return detail::compute_fract::value>::call(x); + } + + // mod + template + GLM_FUNC_QUALIFIER genType mod(genType x, genType y) + { +# if GLM_COMPILER & GLM_COMPILER_CUDA + // Another Cuda compiler bug https://github.com/g-truc/glm/issues/530 + vec<1, genType, defaultp> Result(mod(vec<1, genType, defaultp>(x), y)); + return Result.x; +# else + return mod(vec<1, genType, defaultp>(x), y).x; +# endif + } + + template + GLM_FUNC_QUALIFIER vec mod(vec const& x, T y) + { + return detail::compute_mod::value>::call(x, vec(y)); + } + + template + GLM_FUNC_QUALIFIER vec mod(vec const& x, vec const& y) + { + return detail::compute_mod::value>::call(x, y); + } + + // modf + template + GLM_FUNC_QUALIFIER genType modf(genType x, genType & i) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'modf' only accept floating-point inputs"); + return std::modf(x, &i); + } + + template + GLM_FUNC_QUALIFIER vec<1, T, Q> modf(vec<1, T, Q> const& x, vec<1, T, Q> & i) + { + return vec<1, T, Q>( + modf(x.x, i.x)); + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> modf(vec<2, T, Q> const& x, vec<2, T, Q> & i) + { + return vec<2, T, Q>( + modf(x.x, i.x), + modf(x.y, i.y)); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> modf(vec<3, T, Q> const& x, vec<3, T, Q> & i) + { + return vec<3, T, Q>( + modf(x.x, i.x), + modf(x.y, i.y), + modf(x.z, i.z)); + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> modf(vec<4, T, Q> const& x, vec<4, T, Q> & i) + { + return vec<4, T, Q>( + modf(x.x, i.x), + modf(x.y, i.y), + modf(x.z, i.z), + modf(x.w, i.w)); + } + + //// Only valid if (INT_MIN <= x-y <= INT_MAX) + //// min(x,y) + //r = y + ((x - y) & ((x - y) >> (sizeof(int) * + //CHAR_BIT - 1))); + //// max(x,y) + //r = x - ((x - y) & ((x - y) >> (sizeof(int) * + //CHAR_BIT - 1))); + + // min + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec min(vec const& a, T b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer, "'min' only accept floating-point or integer inputs"); + return detail::compute_min_vector::value>::call(a, vec(b)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec min(vec const& a, vec const& b) + { + return detail::compute_min_vector::value>::call(a, b); + } + + // max + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec max(vec const& a, T b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer, "'max' only accept floating-point or integer inputs"); + return detail::compute_max_vector::value>::call(a, vec(b)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec max(vec const& a, vec const& b) + { + return detail::compute_max_vector::value>::call(a, b); + } + + // clamp + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType clamp(genType x, genType minVal, genType maxVal) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer, "'clamp' only accept floating-point or integer inputs"); + return min(max(x, minVal), maxVal); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec clamp(vec const& x, T minVal, T maxVal) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer, "'clamp' only accept floating-point or integer inputs"); + return detail::compute_clamp_vector::value>::call(x, vec(minVal), vec(maxVal)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec clamp(vec const& x, vec const& minVal, vec const& maxVal) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer, "'clamp' only accept floating-point or integer inputs"); + return detail::compute_clamp_vector::value>::call(x, minVal, maxVal); + } + + template + GLM_FUNC_QUALIFIER genTypeT mix(genTypeT x, genTypeT y, genTypeU a) + { + return detail::compute_mix::call(x, y, a); + } + + template + GLM_FUNC_QUALIFIER vec mix(vec const& x, vec const& y, U a) + { + return detail::compute_mix_scalar::value>::call(x, y, a); + } + + template + GLM_FUNC_QUALIFIER vec mix(vec const& x, vec const& y, vec const& a) + { + return detail::compute_mix_vector::value>::call(x, y, a); + } + + // step + template + GLM_FUNC_QUALIFIER genType step(genType edge, genType x) + { + return mix(static_cast(1), static_cast(0), x < edge); + } + + template + GLM_FUNC_QUALIFIER vec step(T edge, vec const& x) + { + return detail::compute_step_vector::value>::call(vec(edge), x); + } + + template + GLM_FUNC_QUALIFIER vec step(vec const& edge, vec const& x) + { + return detail::compute_step_vector::value>::call(edge, x); + } + + // smoothstep + template + GLM_FUNC_QUALIFIER genType smoothstep(genType edge0, genType edge1, genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'smoothstep' only accept floating-point inputs"); + + genType const tmp(clamp((x - edge0) / (edge1 - edge0), genType(0), genType(1))); + return tmp * tmp * (genType(3) - genType(2) * tmp); + } + + template + GLM_FUNC_QUALIFIER vec smoothstep(T edge0, T edge1, vec const& x) + { + return detail::compute_smoothstep_vector::value>::call(vec(edge0), vec(edge1), x); + } + + template + GLM_FUNC_QUALIFIER vec smoothstep(vec const& edge0, vec const& edge1, vec const& x) + { + return detail::compute_smoothstep_vector::value>::call(edge0, edge1, x); + } + +# if GLM_HAS_CXX11_STL + using std::isnan; +# else + template + GLM_FUNC_QUALIFIER bool isnan(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isnan' only accept floating-point inputs"); + +# if GLM_HAS_CXX11_STL + return std::isnan(x); +# elif GLM_COMPILER & GLM_COMPILER_VC + return _isnan(x) != 0; +# elif GLM_COMPILER & GLM_COMPILER_INTEL +# if GLM_PLATFORM & GLM_PLATFORM_WINDOWS + return _isnan(x) != 0; +# else + return ::isnan(x) != 0; +# endif +# elif (GLM_COMPILER & (GLM_COMPILER_GCC | GLM_COMPILER_CLANG)) && (GLM_PLATFORM & GLM_PLATFORM_ANDROID) && __cplusplus < 201103L + return _isnan(x) != 0; +# elif GLM_COMPILER & GLM_COMPILER_CUDA + return ::isnan(x) != 0; +# else + return std::isnan(x); +# endif + } +# endif + + template + GLM_FUNC_QUALIFIER vec isnan(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isnan' only accept floating-point inputs"); + + vec Result; + for (length_t l = 0; l < v.length(); ++l) + Result[l] = glm::isnan(v[l]); + return Result; + } + +# if GLM_HAS_CXX11_STL + using std::isinf; +# else + template + GLM_FUNC_QUALIFIER bool isinf(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isinf' only accept floating-point inputs"); + +# if GLM_HAS_CXX11_STL + return std::isinf(x); +# elif GLM_COMPILER & (GLM_COMPILER_INTEL | GLM_COMPILER_VC) +# if(GLM_PLATFORM & GLM_PLATFORM_WINDOWS) + return _fpclass(x) == _FPCLASS_NINF || _fpclass(x) == _FPCLASS_PINF; +# else + return ::isinf(x); +# endif +# elif GLM_COMPILER & (GLM_COMPILER_GCC | GLM_COMPILER_CLANG) +# if(GLM_PLATFORM & GLM_PLATFORM_ANDROID && __cplusplus < 201103L) + return _isinf(x) != 0; +# else + return std::isinf(x); +# endif +# elif GLM_COMPILER & GLM_COMPILER_CUDA + // http://developer.download.nvidia.com/compute/cuda/4_2/rel/toolkit/docs/online/group__CUDA__MATH__DOUBLE_g13431dd2b40b51f9139cbb7f50c18fab.html#g13431dd2b40b51f9139cbb7f50c18fab + return ::isinf(double(x)) != 0; +# else + return std::isinf(x); +# endif + } +# endif + + template + GLM_FUNC_QUALIFIER vec isinf(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isinf' only accept floating-point inputs"); + + vec Result; + for (length_t l = 0; l < v.length(); ++l) + Result[l] = glm::isinf(v[l]); + return Result; + } + + GLM_FUNC_QUALIFIER int floatBitsToInt(float const& v) + { + union + { + float in; + int out; + } u; + + u.in = v; + + return u.out; + } + + template + GLM_FUNC_QUALIFIER vec floatBitsToInt(vec const& v) + { + return reinterpret_cast&>(const_cast&>(v)); + } + + GLM_FUNC_QUALIFIER uint floatBitsToUint(float const& v) + { + union + { + float in; + uint out; + } u; + + u.in = v; + + return u.out; + } + + template + GLM_FUNC_QUALIFIER vec floatBitsToUint(vec const& v) + { + return reinterpret_cast&>(const_cast&>(v)); + } + + GLM_FUNC_QUALIFIER float intBitsToFloat(int const& v) + { + union + { + int in; + float out; + } u; + + u.in = v; + + return u.out; + } + + template + GLM_FUNC_QUALIFIER vec intBitsToFloat(vec const& v) + { + return reinterpret_cast&>(const_cast&>(v)); + } + + GLM_FUNC_QUALIFIER float uintBitsToFloat(uint const& v) + { + union + { + uint in; + float out; + } u; + + u.in = v; + + return u.out; + } + + template + GLM_FUNC_QUALIFIER vec uintBitsToFloat(vec const& v) + { + return reinterpret_cast&>(const_cast&>(v)); + } + +# if GLM_HAS_CXX11_STL + using std::fma; +# else + template + GLM_FUNC_QUALIFIER genType fma(genType const& a, genType const& b, genType const& c) + { + return a * b + c; + } +# endif + + template + GLM_FUNC_QUALIFIER genType frexp(genType x, int& exp) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'frexp' only accept floating-point inputs"); + + return std::frexp(x, &exp); + } + + template + GLM_FUNC_QUALIFIER vec frexp(vec const& v, vec& exp) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'frexp' only accept floating-point inputs"); + + vec Result; + for (length_t l = 0; l < v.length(); ++l) + Result[l] = std::frexp(v[l], &exp[l]); + return Result; + } + + template + GLM_FUNC_QUALIFIER genType ldexp(genType const& x, int const& exp) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'ldexp' only accept floating-point inputs"); + + return std::ldexp(x, exp); + } + + template + GLM_FUNC_QUALIFIER vec ldexp(vec const& v, vec const& exp) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'ldexp' only accept floating-point inputs"); + + vec Result; + for (length_t l = 0; l < v.length(); ++l) + Result[l] = std::ldexp(v[l], exp[l]); + return Result; + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_common_simd.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/func_common_simd.inl b/Vulkan/ext/include/glm/detail/func_common_simd.inl new file mode 100644 index 0000000..ce0032d --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_common_simd.inl @@ -0,0 +1,231 @@ +/// @ref core +/// @file glm/detail/func_common_simd.inl + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +#include "../simd/common.h" + +#include + +namespace glm{ +namespace detail +{ + template + struct compute_abs_vector<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + vec<4, float, Q> result; + result.data = glm_vec4_abs(v.data); + return result; + } + }; + + template + struct compute_abs_vector<4, int, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, int, Q> call(vec<4, int, Q> const& v) + { + vec<4, int, Q> result; + result.data = glm_ivec4_abs(v.data); + return result; + } + }; + + template + struct compute_floor<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + vec<4, float, Q> result; + result.data = glm_vec4_floor(v.data); + return result; + } + }; + + template + struct compute_ceil<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + vec<4, float, Q> result; + result.data = glm_vec4_ceil(v.data); + return result; + } + }; + + template + struct compute_fract<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + vec<4, float, Q> result; + result.data = glm_vec4_fract(v.data); + return result; + } + }; + + template + struct compute_round<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + vec<4, float, Q> result; + result.data = glm_vec4_round(v.data); + return result; + } + }; + + template + struct compute_mod<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& x, vec<4, float, Q> const& y) + { + vec<4, float, Q> result; + result.data = glm_vec4_mod(x.data, y.data); + return result; + } + }; + + template + struct compute_min_vector<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v1, vec<4, float, Q> const& v2) + { + vec<4, float, Q> result; + result.data = _mm_min_ps(v1.data, v2.data); + return result; + } + }; + + template + struct compute_min_vector<4, int, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, int, Q> call(vec<4, int, Q> const& v1, vec<4, int, Q> const& v2) + { + vec<4, int, Q> result; + result.data = _mm_min_epi32(v1.data, v2.data); + return result; + } + }; + + template + struct compute_min_vector<4, uint, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, uint, Q> call(vec<4, uint, Q> const& v1, vec<4, uint, Q> const& v2) + { + vec<4, uint, Q> result; + result.data = _mm_min_epu32(v1.data, v2.data); + return result; + } + }; + + template + struct compute_max_vector<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v1, vec<4, float, Q> const& v2) + { + vec<4, float, Q> result; + result.data = _mm_max_ps(v1.data, v2.data); + return result; + } + }; + + template + struct compute_max_vector<4, int, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, int, Q> call(vec<4, int, Q> const& v1, vec<4, int, Q> const& v2) + { + vec<4, int, Q> result; + result.data = _mm_max_epi32(v1.data, v2.data); + return result; + } + }; + + template + struct compute_max_vector<4, uint, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, uint, Q> call(vec<4, uint, Q> const& v1, vec<4, uint, Q> const& v2) + { + vec<4, uint, Q> result; + result.data = _mm_max_epu32(v1.data, v2.data); + return result; + } + }; + + template + struct compute_clamp_vector<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& x, vec<4, float, Q> const& minVal, vec<4, float, Q> const& maxVal) + { + vec<4, float, Q> result; + result.data = _mm_min_ps(_mm_max_ps(x.data, minVal.data), maxVal.data); + return result; + } + }; + + template + struct compute_clamp_vector<4, int, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, int, Q> call(vec<4, int, Q> const& x, vec<4, int, Q> const& minVal, vec<4, int, Q> const& maxVal) + { + vec<4, int, Q> result; + result.data = _mm_min_epi32(_mm_max_epi32(x.data, minVal.data), maxVal.data); + return result; + } + }; + + template + struct compute_clamp_vector<4, uint, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, uint, Q> call(vec<4, uint, Q> const& x, vec<4, uint, Q> const& minVal, vec<4, uint, Q> const& maxVal) + { + vec<4, uint, Q> result; + result.data = _mm_min_epu32(_mm_max_epu32(x.data, minVal.data), maxVal.data); + return result; + } + }; + + template + struct compute_mix_vector<4, float, bool, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& x, vec<4, float, Q> const& y, vec<4, bool, Q> const& a) + { + __m128i const Load = _mm_set_epi32(-static_cast(a.w), -static_cast(a.z), -static_cast(a.y), -static_cast(a.x)); + __m128 const Mask = _mm_castsi128_ps(Load); + + vec<4, float, Q> Result; +# if 0 && GLM_ARCH & GLM_ARCH_AVX + Result.data = _mm_blendv_ps(x.data, y.data, Mask); +# else + Result.data = _mm_or_ps(_mm_and_ps(Mask, y.data), _mm_andnot_ps(Mask, x.data)); +# endif + return Result; + } + }; +/* FIXME + template + struct compute_step_vector + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& edge, vec<4, float, Q> const& x) + { + vec<4, float, Q> Result; + result.data = glm_vec4_step(edge.data, x.data); + return result; + } + }; +*/ + template + struct compute_smoothstep_vector<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& edge0, vec<4, float, Q> const& edge1, vec<4, float, Q> const& x) + { + vec<4, float, Q> Result; + Result.data = glm_vec4_smoothstep(edge0.data, edge1.data, x.data); + return Result; + } + }; +}//namespace detail +}//namespace glm + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/detail/func_exponential.inl b/Vulkan/ext/include/glm/detail/func_exponential.inl new file mode 100644 index 0000000..2040d41 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_exponential.inl @@ -0,0 +1,152 @@ +/// @ref core +/// @file glm/detail/func_exponential.inl + +#include "../vector_relational.hpp" +#include "_vectorize.hpp" +#include +#include +#include + +namespace glm{ +namespace detail +{ +# if GLM_HAS_CXX11_STL + using std::log2; +# else + template + genType log2(genType Value) + { + return std::log(Value) * static_cast(1.4426950408889634073599246810019); + } +# endif + + template + struct compute_log2 + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'log2' only accept floating-point inputs. Include for integer inputs."); + + return detail::functor1::call(log2, v); + } + }; + + template + struct compute_sqrt + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return detail::functor1::call(std::sqrt, x); + } + }; + + template + struct compute_inversesqrt + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return static_cast(1) / sqrt(x); + } + }; + + template + struct compute_inversesqrt + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + vec tmp(x); + vec xhalf(tmp * 0.5f); + vec* p = reinterpret_cast*>(const_cast*>(&x)); + vec i = vec(0x5f375a86) - (*p >> vec(1)); + vec* ptmp = reinterpret_cast*>(&i); + tmp = *ptmp; + tmp = tmp * (1.5f - xhalf * tmp * tmp); + return tmp; + } + }; +}//namespace detail + + // pow + using std::pow; + template + GLM_FUNC_QUALIFIER vec pow(vec const& base, vec const& exponent) + { + return detail::functor2::call(pow, base, exponent); + } + + // exp + using std::exp; + template + GLM_FUNC_QUALIFIER vec exp(vec const& x) + { + return detail::functor1::call(exp, x); + } + + // log + using std::log; + template + GLM_FUNC_QUALIFIER vec log(vec const& x) + { + return detail::functor1::call(log, x); + } + +# if GLM_HAS_CXX11_STL + using std::exp2; +# else + //exp2, ln2 = 0.69314718055994530941723212145818f + template + GLM_FUNC_QUALIFIER genType exp2(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'exp2' only accept floating-point inputs"); + + return std::exp(static_cast(0.69314718055994530941723212145818) * x); + } +# endif + + template + GLM_FUNC_QUALIFIER vec exp2(vec const& x) + { + return detail::functor1::call(exp2, x); + } + + // log2, ln2 = 0.69314718055994530941723212145818f + template + GLM_FUNC_QUALIFIER genType log2(genType x) + { + return log2(vec<1, genType>(x)).x; + } + + template + GLM_FUNC_QUALIFIER vec log2(vec const& x) + { + return detail::compute_log2::is_iec559, detail::is_aligned::value>::call(x); + } + + // sqrt + using std::sqrt; + template + GLM_FUNC_QUALIFIER vec sqrt(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'sqrt' only accept floating-point inputs"); + return detail::compute_sqrt::value>::call(x); + } + + // inversesqrt + template + GLM_FUNC_QUALIFIER genType inversesqrt(genType x) + { + return static_cast(1) / sqrt(x); + } + + template + GLM_FUNC_QUALIFIER vec inversesqrt(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'inversesqrt' only accept floating-point inputs"); + return detail::compute_inversesqrt::value>::call(x); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_exponential_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/detail/func_exponential_simd.inl b/Vulkan/ext/include/glm/detail/func_exponential_simd.inl new file mode 100644 index 0000000..fb78951 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_exponential_simd.inl @@ -0,0 +1,37 @@ +/// @ref core +/// @file glm/detail/func_exponential_simd.inl + +#include "../simd/exponential.h" + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +namespace glm{ +namespace detail +{ + template + struct compute_sqrt<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + vec<4, float, Q> Result; + Result.data = _mm_sqrt_ps(v.data); + return Result; + } + }; + +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE + template<> + struct compute_sqrt<4, float, aligned_lowp, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, aligned_lowp> call(vec<4, float, aligned_lowp> const& v) + { + vec<4, float, aligned_lowp> Result; + Result.data = glm_vec4_sqrt_lowp(v.data); + return Result; + } + }; +# endif +}//namespace detail +}//namespace glm + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/detail/func_geometric.inl b/Vulkan/ext/include/glm/detail/func_geometric.inl new file mode 100644 index 0000000..9cde28f --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_geometric.inl @@ -0,0 +1,243 @@ +#include "../exponential.hpp" +#include "../common.hpp" + +namespace glm{ +namespace detail +{ + template + struct compute_length + { + GLM_FUNC_QUALIFIER static T call(vec const& v) + { + return sqrt(dot(v, v)); + } + }; + + template + struct compute_distance + { + GLM_FUNC_QUALIFIER static T call(vec const& p0, vec const& p1) + { + return length(p1 - p0); + } + }; + + template + struct compute_dot{}; + + template + struct compute_dot, T, Aligned> + { + GLM_FUNC_QUALIFIER static T call(vec<1, T, Q> const& a, vec<1, T, Q> const& b) + { + return a.x * b.x; + } + }; + + template + struct compute_dot, T, Aligned> + { + GLM_FUNC_QUALIFIER static T call(vec<2, T, Q> const& a, vec<2, T, Q> const& b) + { + vec<2, T, Q> tmp(a * b); + return tmp.x + tmp.y; + } + }; + + template + struct compute_dot, T, Aligned> + { + GLM_FUNC_QUALIFIER static T call(vec<3, T, Q> const& a, vec<3, T, Q> const& b) + { + vec<3, T, Q> tmp(a * b); + return tmp.x + tmp.y + tmp.z; + } + }; + + template + struct compute_dot, T, Aligned> + { + GLM_FUNC_QUALIFIER static T call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> tmp(a * b); + return (tmp.x + tmp.y) + (tmp.z + tmp.w); + } + }; + + template + struct compute_cross + { + GLM_FUNC_QUALIFIER static vec<3, T, Q> call(vec<3, T, Q> const& x, vec<3, T, Q> const& y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'cross' accepts only floating-point inputs"); + + return vec<3, T, Q>( + x.y * y.z - y.y * x.z, + x.z * y.x - y.z * x.x, + x.x * y.y - y.x * x.y); + } + }; + + template + struct compute_normalize + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'normalize' accepts only floating-point inputs"); + + return v * inversesqrt(dot(v, v)); + } + }; + + template + struct compute_faceforward + { + GLM_FUNC_QUALIFIER static vec call(vec const& N, vec const& I, vec const& Nref) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'normalize' accepts only floating-point inputs"); + + return dot(Nref, I) < static_cast(0) ? N : -N; + } + }; + + template + struct compute_reflect + { + GLM_FUNC_QUALIFIER static vec call(vec const& I, vec const& N) + { + return I - N * dot(N, I) * static_cast(2); + } + }; + + template + struct compute_refract + { + GLM_FUNC_QUALIFIER static vec call(vec const& I, vec const& N, T eta) + { + T const dotValue(dot(N, I)); + T const k(static_cast(1) - eta * eta * (static_cast(1) - dotValue * dotValue)); + vec const Result = + (k >= static_cast(0)) ? (eta * I - (eta * dotValue + std::sqrt(k)) * N) : vec(0); + return Result; + } + }; +}//namespace detail + + // length + template + GLM_FUNC_QUALIFIER genType length(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'length' accepts only floating-point inputs"); + + return abs(x); + } + + template + GLM_FUNC_QUALIFIER T length(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'length' accepts only floating-point inputs"); + + return detail::compute_length::value>::call(v); + } + + // distance + template + GLM_FUNC_QUALIFIER genType distance(genType const& p0, genType const& p1) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'distance' accepts only floating-point inputs"); + + return length(p1 - p0); + } + + template + GLM_FUNC_QUALIFIER T distance(vec const& p0, vec const& p1) + { + return detail::compute_distance::value>::call(p0, p1); + } + + // dot + template + GLM_FUNC_QUALIFIER T dot(T x, T y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'dot' accepts only floating-point inputs"); + return x * y; + } + + template + GLM_FUNC_QUALIFIER T dot(vec const& x, vec const& y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'dot' accepts only floating-point inputs"); + return detail::compute_dot, T, detail::is_aligned::value>::call(x, y); + } + + // cross + template + GLM_FUNC_QUALIFIER vec<3, T, Q> cross(vec<3, T, Q> const& x, vec<3, T, Q> const& y) + { + return detail::compute_cross::value>::call(x, y); + } +/* + // normalize + template + GLM_FUNC_QUALIFIER genType normalize(genType const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'normalize' accepts only floating-point inputs"); + + return x < genType(0) ? genType(-1) : genType(1); + } +*/ + template + GLM_FUNC_QUALIFIER vec normalize(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'normalize' accepts only floating-point inputs"); + + return detail::compute_normalize::value>::call(x); + } + + // faceforward + template + GLM_FUNC_QUALIFIER genType faceforward(genType const& N, genType const& I, genType const& Nref) + { + return dot(Nref, I) < static_cast(0) ? N : -N; + } + + template + GLM_FUNC_QUALIFIER vec faceforward(vec const& N, vec const& I, vec const& Nref) + { + return detail::compute_faceforward::value>::call(N, I, Nref); + } + + // reflect + template + GLM_FUNC_QUALIFIER genType reflect(genType const& I, genType const& N) + { + return I - N * dot(N, I) * genType(2); + } + + template + GLM_FUNC_QUALIFIER vec reflect(vec const& I, vec const& N) + { + return detail::compute_reflect::value>::call(I, N); + } + + // refract + template + GLM_FUNC_QUALIFIER genType refract(genType const& I, genType const& N, genType eta) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'refract' accepts only floating-point inputs"); + genType const dotValue(dot(N, I)); + genType const k(static_cast(1) - eta * eta * (static_cast(1) - dotValue * dotValue)); + return (eta * I - (eta * dotValue + sqrt(k)) * N) * static_cast(k >= static_cast(0)); + } + + template + GLM_FUNC_QUALIFIER vec refract(vec const& I, vec const& N, T eta) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'refract' accepts only floating-point inputs"); + return detail::compute_refract::value>::call(I, N, eta); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_geometric_simd.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/func_geometric_simd.inl b/Vulkan/ext/include/glm/detail/func_geometric_simd.inl new file mode 100644 index 0000000..2076dae --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_geometric_simd.inl @@ -0,0 +1,163 @@ +/// @ref core +/// @file glm/detail/func_geometric_simd.inl + +#include "../simd/geometric.h" + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +namespace glm{ +namespace detail +{ + template + struct compute_length<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static float call(vec<4, float, Q> const& v) + { + return _mm_cvtss_f32(glm_vec4_length(v.data)); + } + }; + + template + struct compute_distance<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static float call(vec<4, float, Q> const& p0, vec<4, float, Q> const& p1) + { + return _mm_cvtss_f32(glm_vec4_distance(p0.data, p1.data)); + } + }; + + template + struct compute_dot, float, true> + { + GLM_FUNC_QUALIFIER static float call(vec<4, float, Q> const& x, vec<4, float, Q> const& y) + { + return _mm_cvtss_f32(glm_vec1_dot(x.data, y.data)); + } + }; + + template + struct compute_cross + { + GLM_FUNC_QUALIFIER static vec<3, float, Q> call(vec<3, float, Q> const& a, vec<3, float, Q> const& b) + { + __m128 const set0 = _mm_set_ps(0.0f, a.z, a.y, a.x); + __m128 const set1 = _mm_set_ps(0.0f, b.z, b.y, b.x); + __m128 const xpd0 = glm_vec4_cross(set0, set1); + + vec<4, float, Q> Result; + Result.data = xpd0; + return vec<3, float, Q>(Result); + } + }; + + template + struct compute_normalize<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + vec<4, float, Q> Result; + Result.data = glm_vec4_normalize(v.data); + return Result; + } + }; + + template + struct compute_faceforward<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& N, vec<4, float, Q> const& I, vec<4, float, Q> const& Nref) + { + vec<4, float, Q> Result; + Result.data = glm_vec4_faceforward(N.data, I.data, Nref.data); + return Result; + } + }; + + template + struct compute_reflect<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& I, vec<4, float, Q> const& N) + { + vec<4, float, Q> Result; + Result.data = glm_vec4_reflect(I.data, N.data); + return Result; + } + }; + + template + struct compute_refract<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& I, vec<4, float, Q> const& N, float eta) + { + vec<4, float, Q> Result; + Result.data = glm_vec4_refract(I.data, N.data, _mm_set1_ps(eta)); + return Result; + } + }; +}//namespace detail +}//namespace glm + +#elif GLM_ARCH & GLM_ARCH_NEON_BIT +namespace glm{ +namespace detail +{ + template + struct compute_length<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static float call(vec<4, float, Q> const& v) + { + return sqrt(compute_dot, float, true>::call(v, v)); + } + }; + + template + struct compute_distance<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static float call(vec<4, float, Q> const& p0, vec<4, float, Q> const& p1) + { + return compute_length<4, float, Q, true>::call(p1 - p0); + } + }; + + + template + struct compute_dot, float, true> + { + GLM_FUNC_QUALIFIER static float call(vec<4, float, Q> const& x, vec<4, float, Q> const& y) + { +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + float32x4_t v = vmulq_f32(x.data, y.data); + return vaddvq_f32(v); +#else // Armv7a with Neon + float32x4_t p = vmulq_f32(x.data, y.data); + float32x2_t v = vpadd_f32(vget_low_f32(p), vget_high_f32(p)); + v = vpadd_f32(v, v); + return vget_lane_f32(v, 0); +#endif + } + }; + + template + struct compute_normalize<4, float, Q, true> + { + GLM_FUNC_QUALIFIER static vec<4, float, Q> call(vec<4, float, Q> const& v) + { + float32x4_t p = vmulq_f32(v.data, v.data); +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + p = vpaddq_f32(p, p); + p = vpaddq_f32(p, p); +#else + float32x2_t t = vpadd_f32(vget_low_f32(p), vget_high_f32(p)); + t = vpadd_f32(t, t); + p = vcombine_f32(t, t); +#endif + + float32x4_t vd = vrsqrteq_f32(p); + vec<4, float, Q> Result; + Result.data = vmulq_f32(v.data, vd); + return Result; + } + }; +}//namespace detail +}//namespace glm + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/detail/func_integer.inl b/Vulkan/ext/include/glm/detail/func_integer.inl new file mode 100644 index 0000000..091e1e0 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_integer.inl @@ -0,0 +1,372 @@ +/// @ref core + +#include "_vectorize.hpp" +#if(GLM_ARCH & GLM_ARCH_X86 && GLM_COMPILER & GLM_COMPILER_VC) +# include +# pragma intrinsic(_BitScanReverse) +#endif//(GLM_ARCH & GLM_ARCH_X86 && GLM_COMPILER & GLM_COMPILER_VC) +#include + +#if !GLM_HAS_EXTENDED_INTEGER_TYPE +# if GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic ignored "-Wlong-long" +# endif +# if (GLM_COMPILER & GLM_COMPILER_CLANG) +# pragma clang diagnostic ignored "-Wc++11-long-long" +# endif +#endif + +namespace glm{ +namespace detail +{ + template + GLM_FUNC_QUALIFIER T mask(T Bits) + { + return Bits >= static_cast(sizeof(T) * 8) ? ~static_cast(0) : (static_cast(1) << Bits) - static_cast(1); + } + + template + struct compute_bitfieldReverseStep + { + GLM_FUNC_QUALIFIER static vec call(vec const& v, T, T) + { + return v; + } + }; + + template + struct compute_bitfieldReverseStep + { + GLM_FUNC_QUALIFIER static vec call(vec const& v, T Mask, T Shift) + { + return (v & Mask) << Shift | (v & (~Mask)) >> Shift; + } + }; + + template + struct compute_bitfieldBitCountStep + { + GLM_FUNC_QUALIFIER static vec call(vec const& v, T, T) + { + return v; + } + }; + + template + struct compute_bitfieldBitCountStep + { + GLM_FUNC_QUALIFIER static vec call(vec const& v, T Mask, T Shift) + { + return (v & Mask) + ((v >> Shift) & Mask); + } + }; + + template + struct compute_findLSB + { + GLM_FUNC_QUALIFIER static int call(genIUType Value) + { + if(Value == 0) + return -1; + + return glm::bitCount(~Value & (Value - static_cast(1))); + } + }; + +# if GLM_HAS_BITSCAN_WINDOWS + template + struct compute_findLSB + { + GLM_FUNC_QUALIFIER static int call(genIUType Value) + { + unsigned long Result(0); + unsigned char IsNotNull = _BitScanForward(&Result, *reinterpret_cast(&Value)); + return IsNotNull ? int(Result) : -1; + } + }; + +# if !((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_MODEL == GLM_MODEL_32)) + template + struct compute_findLSB + { + GLM_FUNC_QUALIFIER static int call(genIUType Value) + { + unsigned long Result(0); + unsigned char IsNotNull = _BitScanForward64(&Result, *reinterpret_cast(&Value)); + return IsNotNull ? int(Result) : -1; + } + }; +# endif +# endif//GLM_HAS_BITSCAN_WINDOWS + + template + struct compute_findMSB_step_vec + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, T Shift) + { + return x | (x >> Shift); + } + }; + + template + struct compute_findMSB_step_vec + { + GLM_FUNC_QUALIFIER static vec call(vec const& x, T) + { + return x; + } + }; + + template + struct compute_findMSB_vec + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + vec x(v); + x = compute_findMSB_step_vec= 8>::call(x, static_cast( 1)); + x = compute_findMSB_step_vec= 8>::call(x, static_cast( 2)); + x = compute_findMSB_step_vec= 8>::call(x, static_cast( 4)); + x = compute_findMSB_step_vec= 16>::call(x, static_cast( 8)); + x = compute_findMSB_step_vec= 32>::call(x, static_cast(16)); + x = compute_findMSB_step_vec= 64>::call(x, static_cast(32)); + return vec(sizeof(T) * 8 - 1) - glm::bitCount(~x); + } + }; + +# if GLM_HAS_BITSCAN_WINDOWS + template + GLM_FUNC_QUALIFIER int compute_findMSB_32(genIUType Value) + { + unsigned long Result(0); + unsigned char IsNotNull = _BitScanReverse(&Result, *reinterpret_cast(&Value)); + return IsNotNull ? int(Result) : -1; + } + + template + struct compute_findMSB_vec + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return detail::functor1::call(compute_findMSB_32, x); + } + }; + +# if !((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_MODEL == GLM_MODEL_32)) + template + GLM_FUNC_QUALIFIER int compute_findMSB_64(genIUType Value) + { + unsigned long Result(0); + unsigned char IsNotNull = _BitScanReverse64(&Result, *reinterpret_cast(&Value)); + return IsNotNull ? int(Result) : -1; + } + + template + struct compute_findMSB_vec + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + return detail::functor1::call(compute_findMSB_64, x); + } + }; +# endif +# endif//GLM_HAS_BITSCAN_WINDOWS +}//namespace detail + + // uaddCarry + GLM_FUNC_QUALIFIER uint uaddCarry(uint const& x, uint const& y, uint & Carry) + { + detail::uint64 const Value64(static_cast(x) + static_cast(y)); + detail::uint64 const Max32((static_cast(1) << static_cast(32)) - static_cast(1)); + Carry = Value64 > Max32 ? 1u : 0u; + return static_cast(Value64 % (Max32 + static_cast(1))); + } + + template + GLM_FUNC_QUALIFIER vec uaddCarry(vec const& x, vec const& y, vec& Carry) + { + vec Value64(vec(x) + vec(y)); + vec Max32((static_cast(1) << static_cast(32)) - static_cast(1)); + Carry = mix(vec(0), vec(1), greaterThan(Value64, Max32)); + return vec(Value64 % (Max32 + static_cast(1))); + } + + // usubBorrow + GLM_FUNC_QUALIFIER uint usubBorrow(uint const& x, uint const& y, uint & Borrow) + { + Borrow = x >= y ? static_cast(0) : static_cast(1); + if(y >= x) + return y - x; + else + return static_cast((static_cast(1) << static_cast(32)) + (static_cast(y) - static_cast(x))); + } + + template + GLM_FUNC_QUALIFIER vec usubBorrow(vec const& x, vec const& y, vec& Borrow) + { + Borrow = mix(vec(1), vec(0), greaterThanEqual(x, y)); + vec const YgeX(y - x); + vec const XgeY(vec((static_cast(1) << static_cast(32)) + (vec(y) - vec(x)))); + return mix(XgeY, YgeX, greaterThanEqual(y, x)); + } + + // umulExtended + GLM_FUNC_QUALIFIER void umulExtended(uint const& x, uint const& y, uint & msb, uint & lsb) + { + detail::uint64 Value64 = static_cast(x) * static_cast(y); + msb = static_cast(Value64 >> static_cast(32)); + lsb = static_cast(Value64); + } + + template + GLM_FUNC_QUALIFIER void umulExtended(vec const& x, vec const& y, vec& msb, vec& lsb) + { + vec Value64(vec(x) * vec(y)); + msb = vec(Value64 >> static_cast(32)); + lsb = vec(Value64); + } + + // imulExtended + GLM_FUNC_QUALIFIER void imulExtended(int x, int y, int& msb, int& lsb) + { + detail::int64 Value64 = static_cast(x) * static_cast(y); + msb = static_cast(Value64 >> static_cast(32)); + lsb = static_cast(Value64); + } + + template + GLM_FUNC_QUALIFIER void imulExtended(vec const& x, vec const& y, vec& msb, vec& lsb) + { + vec Value64(vec(x) * vec(y)); + lsb = vec(Value64 & static_cast(0xFFFFFFFF)); + msb = vec((Value64 >> static_cast(32)) & static_cast(0xFFFFFFFF)); + } + + // bitfieldExtract + template + GLM_FUNC_QUALIFIER genIUType bitfieldExtract(genIUType Value, int Offset, int Bits) + { + return bitfieldExtract(vec<1, genIUType>(Value), Offset, Bits).x; + } + + template + GLM_FUNC_QUALIFIER vec bitfieldExtract(vec const& Value, int Offset, int Bits) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldExtract' only accept integer inputs"); + + return (Value >> static_cast(Offset)) & static_cast(detail::mask(Bits)); + } + + // bitfieldInsert + template + GLM_FUNC_QUALIFIER genIUType bitfieldInsert(genIUType const& Base, genIUType const& Insert, int Offset, int Bits) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldInsert' only accept integer values"); + + return bitfieldInsert(vec<1, genIUType>(Base), vec<1, genIUType>(Insert), Offset, Bits).x; + } + + template + GLM_FUNC_QUALIFIER vec bitfieldInsert(vec const& Base, vec const& Insert, int Offset, int Bits) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldInsert' only accept integer values"); + + T const Mask = static_cast(detail::mask(Bits) << Offset); + return (Base & ~Mask) | ((Insert << static_cast(Offset)) & Mask); + } + + // bitfieldReverse + template + GLM_FUNC_QUALIFIER genIUType bitfieldReverse(genIUType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldReverse' only accept integer values"); + + return bitfieldReverse(glm::vec<1, genIUType, glm::defaultp>(x)).x; + } + + template + GLM_FUNC_QUALIFIER vec bitfieldReverse(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldReverse' only accept integer values"); + + vec x(v); + x = detail::compute_bitfieldReverseStep::value, sizeof(T) * 8>= 2>::call(x, static_cast(0x5555555555555555ull), static_cast( 1)); + x = detail::compute_bitfieldReverseStep::value, sizeof(T) * 8>= 4>::call(x, static_cast(0x3333333333333333ull), static_cast( 2)); + x = detail::compute_bitfieldReverseStep::value, sizeof(T) * 8>= 8>::call(x, static_cast(0x0F0F0F0F0F0F0F0Full), static_cast( 4)); + x = detail::compute_bitfieldReverseStep::value, sizeof(T) * 8>= 16>::call(x, static_cast(0x00FF00FF00FF00FFull), static_cast( 8)); + x = detail::compute_bitfieldReverseStep::value, sizeof(T) * 8>= 32>::call(x, static_cast(0x0000FFFF0000FFFFull), static_cast(16)); + x = detail::compute_bitfieldReverseStep::value, sizeof(T) * 8>= 64>::call(x, static_cast(0x00000000FFFFFFFFull), static_cast(32)); + return x; + } + + // bitCount + template + GLM_FUNC_QUALIFIER int bitCount(genIUType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitCount' only accept integer values"); + + return bitCount(glm::vec<1, genIUType, glm::defaultp>(x)).x; + } + + template + GLM_FUNC_QUALIFIER vec bitCount(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitCount' only accept integer values"); + +# if GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(push) +# pragma warning(disable : 4310) //cast truncates constant value +# endif + + vec::type, Q> x(*reinterpret_cast::type, Q> const *>(&v)); + x = detail::compute_bitfieldBitCountStep::type, Q, detail::is_aligned::value, sizeof(T) * 8>= 2>::call(x, typename detail::make_unsigned::type(0x5555555555555555ull), typename detail::make_unsigned::type( 1)); + x = detail::compute_bitfieldBitCountStep::type, Q, detail::is_aligned::value, sizeof(T) * 8>= 4>::call(x, typename detail::make_unsigned::type(0x3333333333333333ull), typename detail::make_unsigned::type( 2)); + x = detail::compute_bitfieldBitCountStep::type, Q, detail::is_aligned::value, sizeof(T) * 8>= 8>::call(x, typename detail::make_unsigned::type(0x0F0F0F0F0F0F0F0Full), typename detail::make_unsigned::type( 4)); + x = detail::compute_bitfieldBitCountStep::type, Q, detail::is_aligned::value, sizeof(T) * 8>= 16>::call(x, typename detail::make_unsigned::type(0x00FF00FF00FF00FFull), typename detail::make_unsigned::type( 8)); + x = detail::compute_bitfieldBitCountStep::type, Q, detail::is_aligned::value, sizeof(T) * 8>= 32>::call(x, typename detail::make_unsigned::type(0x0000FFFF0000FFFFull), typename detail::make_unsigned::type(16)); + x = detail::compute_bitfieldBitCountStep::type, Q, detail::is_aligned::value, sizeof(T) * 8>= 64>::call(x, typename detail::make_unsigned::type(0x00000000FFFFFFFFull), typename detail::make_unsigned::type(32)); + return vec(x); + +# if GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(pop) +# endif + } + + // findLSB + template + GLM_FUNC_QUALIFIER int findLSB(genIUType Value) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'findLSB' only accept integer values"); + + return detail::compute_findLSB::call(Value); + } + + template + GLM_FUNC_QUALIFIER vec findLSB(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'findLSB' only accept integer values"); + + return detail::functor1::call(findLSB, x); + } + + // findMSB + template + GLM_FUNC_QUALIFIER int findMSB(genIUType v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'findMSB' only accept integer values"); + + return findMSB(vec<1, genIUType>(v)).x; + } + + template + GLM_FUNC_QUALIFIER vec findMSB(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'findMSB' only accept integer values"); + + return detail::compute_findMSB_vec::call(v); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_integer_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/detail/func_integer_simd.inl b/Vulkan/ext/include/glm/detail/func_integer_simd.inl new file mode 100644 index 0000000..8be6c9c --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_integer_simd.inl @@ -0,0 +1,65 @@ +#include "../simd/integer.h" + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +namespace glm{ +namespace detail +{ + template + struct compute_bitfieldReverseStep<4, uint, Q, true, true> + { + GLM_FUNC_QUALIFIER static vec<4, uint, Q> call(vec<4, uint, Q> const& v, uint Mask, uint Shift) + { + __m128i const set0 = v.data; + + __m128i const set1 = _mm_set1_epi32(static_cast(Mask)); + __m128i const and1 = _mm_and_si128(set0, set1); + __m128i const sft1 = _mm_slli_epi32(and1, Shift); + + __m128i const set2 = _mm_andnot_si128(set0, _mm_set1_epi32(-1)); + __m128i const and2 = _mm_and_si128(set0, set2); + __m128i const sft2 = _mm_srai_epi32(and2, Shift); + + __m128i const or0 = _mm_or_si128(sft1, sft2); + + return or0; + } + }; + + template + struct compute_bitfieldBitCountStep<4, uint, Q, true, true> + { + GLM_FUNC_QUALIFIER static vec<4, uint, Q> call(vec<4, uint, Q> const& v, uint Mask, uint Shift) + { + __m128i const set0 = v.data; + + __m128i const set1 = _mm_set1_epi32(static_cast(Mask)); + __m128i const and0 = _mm_and_si128(set0, set1); + __m128i const sft0 = _mm_slli_epi32(set0, Shift); + __m128i const and1 = _mm_and_si128(sft0, set1); + __m128i const add0 = _mm_add_epi32(and0, and1); + + return add0; + } + }; +}//namespace detail + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template<> + GLM_FUNC_QUALIFIER int bitCount(uint x) + { + return _mm_popcnt_u32(x); + } + +# if(GLM_MODEL == GLM_MODEL_64) + template<> + GLM_FUNC_QUALIFIER int bitCount(detail::uint64 x) + { + return static_cast(_mm_popcnt_u64(x)); + } +# endif//GLM_MODEL +# endif//GLM_ARCH + +}//namespace glm + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/detail/func_matrix.inl b/Vulkan/ext/include/glm/detail/func_matrix.inl new file mode 100644 index 0000000..d980c6d --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_matrix.inl @@ -0,0 +1,398 @@ +#include "../geometric.hpp" +#include + +namespace glm{ +namespace detail +{ + template + struct compute_matrixCompMult + { + GLM_FUNC_QUALIFIER static mat call(mat const& x, mat const& y) + { + mat Result; + for(length_t i = 0; i < Result.length(); ++i) + Result[i] = x[i] * y[i]; + return Result; + } + }; + + template + struct compute_transpose{}; + + template + struct compute_transpose<2, 2, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<2, 2, T, Q> call(mat<2, 2, T, Q> const& m) + { + mat<2, 2, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + return Result; + } + }; + + template + struct compute_transpose<2, 3, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<3, 2, T, Q> call(mat<2, 3, T, Q> const& m) + { + mat<3,2, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + return Result; + } + }; + + template + struct compute_transpose<2, 4, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<4, 2, T, Q> call(mat<2, 4, T, Q> const& m) + { + mat<4, 2, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + Result[3][0] = m[0][3]; + Result[3][1] = m[1][3]; + return Result; + } + }; + + template + struct compute_transpose<3, 2, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<2, 3, T, Q> call(mat<3, 2, T, Q> const& m) + { + mat<2, 3, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + return Result; + } + }; + + template + struct compute_transpose<3, 3, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<3, 3, T, Q> call(mat<3, 3, T, Q> const& m) + { + mat<3, 3, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + Result[2][2] = m[2][2]; + return Result; + } + }; + + template + struct compute_transpose<3, 4, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<4, 3, T, Q> call(mat<3, 4, T, Q> const& m) + { + mat<4, 3, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + Result[2][2] = m[2][2]; + Result[3][0] = m[0][3]; + Result[3][1] = m[1][3]; + Result[3][2] = m[2][3]; + return Result; + } + }; + + template + struct compute_transpose<4, 2, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<2, 4, T, Q> call(mat<4, 2, T, Q> const& m) + { + mat<2, 4, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + Result[0][3] = m[3][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + Result[1][3] = m[3][1]; + return Result; + } + }; + + template + struct compute_transpose<4, 3, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<3, 4, T, Q> call(mat<4, 3, T, Q> const& m) + { + mat<3, 4, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + Result[0][3] = m[3][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + Result[1][3] = m[3][1]; + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + Result[2][2] = m[2][2]; + Result[2][3] = m[3][2]; + return Result; + } + }; + + template + struct compute_transpose<4, 4, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<4, 4, T, Q> call(mat<4, 4, T, Q> const& m) + { + mat<4, 4, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + Result[0][3] = m[3][0]; + + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + Result[1][3] = m[3][1]; + + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + Result[2][2] = m[2][2]; + Result[2][3] = m[3][2]; + + Result[3][0] = m[0][3]; + Result[3][1] = m[1][3]; + Result[3][2] = m[2][3]; + Result[3][3] = m[3][3]; + return Result; + } + }; + + template + struct compute_determinant{}; + + template + struct compute_determinant<2, 2, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static T call(mat<2, 2, T, Q> const& m) + { + return m[0][0] * m[1][1] - m[1][0] * m[0][1]; + } + }; + + template + struct compute_determinant<3, 3, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static T call(mat<3, 3, T, Q> const& m) + { + return + + m[0][0] * (m[1][1] * m[2][2] - m[2][1] * m[1][2]) + - m[1][0] * (m[0][1] * m[2][2] - m[2][1] * m[0][2]) + + m[2][0] * (m[0][1] * m[1][2] - m[1][1] * m[0][2]); + } + }; + + template + struct compute_determinant<4, 4, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static T call(mat<4, 4, T, Q> const& m) + { + T SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + T SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + T SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + T SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + T SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + T SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + + vec<4, T, Q> DetCof( + + (m[1][1] * SubFactor00 - m[1][2] * SubFactor01 + m[1][3] * SubFactor02), + - (m[1][0] * SubFactor00 - m[1][2] * SubFactor03 + m[1][3] * SubFactor04), + + (m[1][0] * SubFactor01 - m[1][1] * SubFactor03 + m[1][3] * SubFactor05), + - (m[1][0] * SubFactor02 - m[1][1] * SubFactor04 + m[1][2] * SubFactor05)); + + return + m[0][0] * DetCof[0] + m[0][1] * DetCof[1] + + m[0][2] * DetCof[2] + m[0][3] * DetCof[3]; + } + }; + + template + struct compute_inverse{}; + + template + struct compute_inverse<2, 2, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<2, 2, T, Q> call(mat<2, 2, T, Q> const& m) + { + T OneOverDeterminant = static_cast(1) / ( + + m[0][0] * m[1][1] + - m[1][0] * m[0][1]); + + mat<2, 2, T, Q> Inverse( + + m[1][1] * OneOverDeterminant, + - m[0][1] * OneOverDeterminant, + - m[1][0] * OneOverDeterminant, + + m[0][0] * OneOverDeterminant); + + return Inverse; + } + }; + + template + struct compute_inverse<3, 3, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<3, 3, T, Q> call(mat<3, 3, T, Q> const& m) + { + T OneOverDeterminant = static_cast(1) / ( + + m[0][0] * (m[1][1] * m[2][2] - m[2][1] * m[1][2]) + - m[1][0] * (m[0][1] * m[2][2] - m[2][1] * m[0][2]) + + m[2][0] * (m[0][1] * m[1][2] - m[1][1] * m[0][2])); + + mat<3, 3, T, Q> Inverse; + Inverse[0][0] = + (m[1][1] * m[2][2] - m[2][1] * m[1][2]) * OneOverDeterminant; + Inverse[1][0] = - (m[1][0] * m[2][2] - m[2][0] * m[1][2]) * OneOverDeterminant; + Inverse[2][0] = + (m[1][0] * m[2][1] - m[2][0] * m[1][1]) * OneOverDeterminant; + Inverse[0][1] = - (m[0][1] * m[2][2] - m[2][1] * m[0][2]) * OneOverDeterminant; + Inverse[1][1] = + (m[0][0] * m[2][2] - m[2][0] * m[0][2]) * OneOverDeterminant; + Inverse[2][1] = - (m[0][0] * m[2][1] - m[2][0] * m[0][1]) * OneOverDeterminant; + Inverse[0][2] = + (m[0][1] * m[1][2] - m[1][1] * m[0][2]) * OneOverDeterminant; + Inverse[1][2] = - (m[0][0] * m[1][2] - m[1][0] * m[0][2]) * OneOverDeterminant; + Inverse[2][2] = + (m[0][0] * m[1][1] - m[1][0] * m[0][1]) * OneOverDeterminant; + + return Inverse; + } + }; + + template + struct compute_inverse<4, 4, T, Q, Aligned> + { + GLM_FUNC_QUALIFIER static mat<4, 4, T, Q> call(mat<4, 4, T, Q> const& m) + { + T Coef00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + T Coef02 = m[1][2] * m[3][3] - m[3][2] * m[1][3]; + T Coef03 = m[1][2] * m[2][3] - m[2][2] * m[1][3]; + + T Coef04 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + T Coef06 = m[1][1] * m[3][3] - m[3][1] * m[1][3]; + T Coef07 = m[1][1] * m[2][3] - m[2][1] * m[1][3]; + + T Coef08 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + T Coef10 = m[1][1] * m[3][2] - m[3][1] * m[1][2]; + T Coef11 = m[1][1] * m[2][2] - m[2][1] * m[1][2]; + + T Coef12 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + T Coef14 = m[1][0] * m[3][3] - m[3][0] * m[1][3]; + T Coef15 = m[1][0] * m[2][3] - m[2][0] * m[1][3]; + + T Coef16 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + T Coef18 = m[1][0] * m[3][2] - m[3][0] * m[1][2]; + T Coef19 = m[1][0] * m[2][2] - m[2][0] * m[1][2]; + + T Coef20 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + T Coef22 = m[1][0] * m[3][1] - m[3][0] * m[1][1]; + T Coef23 = m[1][0] * m[2][1] - m[2][0] * m[1][1]; + + vec<4, T, Q> Fac0(Coef00, Coef00, Coef02, Coef03); + vec<4, T, Q> Fac1(Coef04, Coef04, Coef06, Coef07); + vec<4, T, Q> Fac2(Coef08, Coef08, Coef10, Coef11); + vec<4, T, Q> Fac3(Coef12, Coef12, Coef14, Coef15); + vec<4, T, Q> Fac4(Coef16, Coef16, Coef18, Coef19); + vec<4, T, Q> Fac5(Coef20, Coef20, Coef22, Coef23); + + vec<4, T, Q> Vec0(m[1][0], m[0][0], m[0][0], m[0][0]); + vec<4, T, Q> Vec1(m[1][1], m[0][1], m[0][1], m[0][1]); + vec<4, T, Q> Vec2(m[1][2], m[0][2], m[0][2], m[0][2]); + vec<4, T, Q> Vec3(m[1][3], m[0][3], m[0][3], m[0][3]); + + vec<4, T, Q> Inv0(Vec1 * Fac0 - Vec2 * Fac1 + Vec3 * Fac2); + vec<4, T, Q> Inv1(Vec0 * Fac0 - Vec2 * Fac3 + Vec3 * Fac4); + vec<4, T, Q> Inv2(Vec0 * Fac1 - Vec1 * Fac3 + Vec3 * Fac5); + vec<4, T, Q> Inv3(Vec0 * Fac2 - Vec1 * Fac4 + Vec2 * Fac5); + + vec<4, T, Q> SignA(+1, -1, +1, -1); + vec<4, T, Q> SignB(-1, +1, -1, +1); + mat<4, 4, T, Q> Inverse(Inv0 * SignA, Inv1 * SignB, Inv2 * SignA, Inv3 * SignB); + + vec<4, T, Q> Row0(Inverse[0][0], Inverse[1][0], Inverse[2][0], Inverse[3][0]); + + vec<4, T, Q> Dot0(m[0] * Row0); + T Dot1 = (Dot0.x + Dot0.y) + (Dot0.z + Dot0.w); + + T OneOverDeterminant = static_cast(1) / Dot1; + + return Inverse * OneOverDeterminant; + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER mat matrixCompMult(mat const& x, mat const& y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'matrixCompMult' only accept floating-point inputs"); + return detail::compute_matrixCompMult::value>::call(x, y); + } + + template + GLM_FUNC_QUALIFIER typename detail::outerProduct_trait::type outerProduct(vec const& c, vec const& r) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'outerProduct' only accept floating-point inputs"); + + typename detail::outerProduct_trait::type m; + for(length_t i = 0; i < m.length(); ++i) + m[i] = c * r[i]; + return m; + } + + template + GLM_FUNC_QUALIFIER typename mat::transpose_type transpose(mat const& m) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'transpose' only accept floating-point inputs"); + return detail::compute_transpose::value>::call(m); + } + + template + GLM_FUNC_QUALIFIER T determinant(mat const& m) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'determinant' only accept floating-point inputs"); + return detail::compute_determinant::value>::call(m); + } + + template + GLM_FUNC_QUALIFIER mat inverse(mat const& m) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || GLM_CONFIG_UNRESTRICTED_GENTYPE, "'inverse' only accept floating-point inputs"); + return detail::compute_inverse::value>::call(m); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_matrix_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/detail/func_matrix_simd.inl b/Vulkan/ext/include/glm/detail/func_matrix_simd.inl new file mode 100644 index 0000000..f67ac66 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_matrix_simd.inl @@ -0,0 +1,249 @@ +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +#include "type_mat4x4.hpp" +#include "../geometric.hpp" +#include "../simd/matrix.h" +#include + +namespace glm{ +namespace detail +{ +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE + template + struct compute_matrixCompMult<4, 4, float, Q, true> + { + GLM_STATIC_ASSERT(detail::is_aligned::value, "Specialization requires aligned"); + + GLM_FUNC_QUALIFIER static mat<4, 4, float, Q> call(mat<4, 4, float, Q> const& x, mat<4, 4, float, Q> const& y) + { + mat<4, 4, float, Q> Result; + glm_mat4_matrixCompMult( + *static_cast(&x[0].data), + *static_cast(&y[0].data), + *static_cast(&Result[0].data)); + return Result; + } + }; +# endif + + template + struct compute_transpose<4, 4, float, Q, true> + { + GLM_FUNC_QUALIFIER static mat<4, 4, float, Q> call(mat<4, 4, float, Q> const& m) + { + mat<4, 4, float, Q> Result; + glm_mat4_transpose(&m[0].data, &Result[0].data); + return Result; + } + }; + + template + struct compute_determinant<4, 4, float, Q, true> + { + GLM_FUNC_QUALIFIER static float call(mat<4, 4, float, Q> const& m) + { + return _mm_cvtss_f32(glm_mat4_determinant(&m[0].data)); + } + }; + + template + struct compute_inverse<4, 4, float, Q, true> + { + GLM_FUNC_QUALIFIER static mat<4, 4, float, Q> call(mat<4, 4, float, Q> const& m) + { + mat<4, 4, float, Q> Result; + glm_mat4_inverse(&m[0].data, &Result[0].data); + return Result; + } + }; +}//namespace detail + +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE + template<> + GLM_FUNC_QUALIFIER mat<4, 4, float, aligned_lowp> outerProduct<4, 4, float, aligned_lowp>(vec<4, float, aligned_lowp> const& c, vec<4, float, aligned_lowp> const& r) + { + __m128 NativeResult[4]; + glm_mat4_outerProduct(c.data, r.data, NativeResult); + mat<4, 4, float, aligned_lowp> Result; + std::memcpy(&Result[0], &NativeResult[0], sizeof(Result)); + return Result; + } + + template<> + GLM_FUNC_QUALIFIER mat<4, 4, float, aligned_mediump> outerProduct<4, 4, float, aligned_mediump>(vec<4, float, aligned_mediump> const& c, vec<4, float, aligned_mediump> const& r) + { + __m128 NativeResult[4]; + glm_mat4_outerProduct(c.data, r.data, NativeResult); + mat<4, 4, float, aligned_mediump> Result; + std::memcpy(&Result[0], &NativeResult[0], sizeof(Result)); + return Result; + } + + template<> + GLM_FUNC_QUALIFIER mat<4, 4, float, aligned_highp> outerProduct<4, 4, float, aligned_highp>(vec<4, float, aligned_highp> const& c, vec<4, float, aligned_highp> const& r) + { + __m128 NativeResult[4]; + glm_mat4_outerProduct(c.data, r.data, NativeResult); + mat<4, 4, float, aligned_highp> Result; + std::memcpy(&Result[0], &NativeResult[0], sizeof(Result)); + return Result; + } +# endif +}//namespace glm + +#elif GLM_ARCH & GLM_ARCH_NEON_BIT + +namespace glm { +#if GLM_LANG & GLM_LANG_CXX11_FLAG + template + GLM_FUNC_QUALIFIER + typename std::enable_if::value, mat<4, 4, float, Q>>::type + operator*(mat<4, 4, float, Q> const & m1, mat<4, 4, float, Q> const & m2) + { + auto MulRow = [&](int l) { + float32x4_t const SrcA = m2[l].data; + + float32x4_t r = neon::mul_lane(m1[0].data, SrcA, 0); + r = neon::madd_lane(r, m1[1].data, SrcA, 1); + r = neon::madd_lane(r, m1[2].data, SrcA, 2); + r = neon::madd_lane(r, m1[3].data, SrcA, 3); + + return r; + }; + + mat<4, 4, float, aligned_highp> Result; + Result[0].data = MulRow(0); + Result[1].data = MulRow(1); + Result[2].data = MulRow(2); + Result[3].data = MulRow(3); + + return Result; + } +#endif // CXX11 + + template + struct detail::compute_inverse<4, 4, float, Q, true> + { + GLM_FUNC_QUALIFIER static mat<4, 4, float, Q> call(mat<4, 4, float, Q> const& m) + { + float32x4_t const& m0 = m[0].data; + float32x4_t const& m1 = m[1].data; + float32x4_t const& m2 = m[2].data; + float32x4_t const& m3 = m[3].data; + + // m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // m[1][2] * m[3][3] - m[3][2] * m[1][3]; + // m[1][2] * m[2][3] - m[2][2] * m[1][3]; + + float32x4_t Fac0; + { + float32x4_t w0 = vcombine_f32(neon::dup_lane(m2, 2), neon::dup_lane(m1, 2)); + float32x4_t w1 = neon::copy_lane(neon::dupq_lane(m3, 3), 3, m2, 3); + float32x4_t w2 = neon::copy_lane(neon::dupq_lane(m3, 2), 3, m2, 2); + float32x4_t w3 = vcombine_f32(neon::dup_lane(m2, 3), neon::dup_lane(m1, 3)); + Fac0 = w0 * w1 - w2 * w3; + } + + // m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // m[1][1] * m[3][3] - m[3][1] * m[1][3]; + // m[1][1] * m[2][3] - m[2][1] * m[1][3]; + + float32x4_t Fac1; + { + float32x4_t w0 = vcombine_f32(neon::dup_lane(m2, 1), neon::dup_lane(m1, 1)); + float32x4_t w1 = neon::copy_lane(neon::dupq_lane(m3, 3), 3, m2, 3); + float32x4_t w2 = neon::copy_lane(neon::dupq_lane(m3, 1), 3, m2, 1); + float32x4_t w3 = vcombine_f32(neon::dup_lane(m2, 3), neon::dup_lane(m1, 3)); + Fac1 = w0 * w1 - w2 * w3; + } + + // m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // m[1][1] * m[3][2] - m[3][1] * m[1][2]; + // m[1][1] * m[2][2] - m[2][1] * m[1][2]; + + float32x4_t Fac2; + { + float32x4_t w0 = vcombine_f32(neon::dup_lane(m2, 1), neon::dup_lane(m1, 1)); + float32x4_t w1 = neon::copy_lane(neon::dupq_lane(m3, 2), 3, m2, 2); + float32x4_t w2 = neon::copy_lane(neon::dupq_lane(m3, 1), 3, m2, 1); + float32x4_t w3 = vcombine_f32(neon::dup_lane(m2, 2), neon::dup_lane(m1, 2)); + Fac2 = w0 * w1 - w2 * w3; + } + + // m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // m[1][0] * m[3][3] - m[3][0] * m[1][3]; + // m[1][0] * m[2][3] - m[2][0] * m[1][3]; + + float32x4_t Fac3; + { + float32x4_t w0 = vcombine_f32(neon::dup_lane(m2, 0), neon::dup_lane(m1, 0)); + float32x4_t w1 = neon::copy_lane(neon::dupq_lane(m3, 3), 3, m2, 3); + float32x4_t w2 = neon::copy_lane(neon::dupq_lane(m3, 0), 3, m2, 0); + float32x4_t w3 = vcombine_f32(neon::dup_lane(m2, 3), neon::dup_lane(m1, 3)); + Fac3 = w0 * w1 - w2 * w3; + } + + // m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // m[1][0] * m[3][2] - m[3][0] * m[1][2]; + // m[1][0] * m[2][2] - m[2][0] * m[1][2]; + + float32x4_t Fac4; + { + float32x4_t w0 = vcombine_f32(neon::dup_lane(m2, 0), neon::dup_lane(m1, 0)); + float32x4_t w1 = neon::copy_lane(neon::dupq_lane(m3, 2), 3, m2, 2); + float32x4_t w2 = neon::copy_lane(neon::dupq_lane(m3, 0), 3, m2, 0); + float32x4_t w3 = vcombine_f32(neon::dup_lane(m2, 2), neon::dup_lane(m1, 2)); + Fac4 = w0 * w1 - w2 * w3; + } + + // m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // m[1][0] * m[3][1] - m[3][0] * m[1][1]; + // m[1][0] * m[2][1] - m[2][0] * m[1][1]; + + float32x4_t Fac5; + { + float32x4_t w0 = vcombine_f32(neon::dup_lane(m2, 0), neon::dup_lane(m1, 0)); + float32x4_t w1 = neon::copy_lane(neon::dupq_lane(m3, 1), 3, m2, 1); + float32x4_t w2 = neon::copy_lane(neon::dupq_lane(m3, 0), 3, m2, 0); + float32x4_t w3 = vcombine_f32(neon::dup_lane(m2, 1), neon::dup_lane(m1, 1)); + Fac5 = w0 * w1 - w2 * w3; + } + + float32x4_t Vec0 = neon::copy_lane(neon::dupq_lane(m0, 0), 0, m1, 0); // (m[1][0], m[0][0], m[0][0], m[0][0]); + float32x4_t Vec1 = neon::copy_lane(neon::dupq_lane(m0, 1), 0, m1, 1); // (m[1][1], m[0][1], m[0][1], m[0][1]); + float32x4_t Vec2 = neon::copy_lane(neon::dupq_lane(m0, 2), 0, m1, 2); // (m[1][2], m[0][2], m[0][2], m[0][2]); + float32x4_t Vec3 = neon::copy_lane(neon::dupq_lane(m0, 3), 0, m1, 3); // (m[1][3], m[0][3], m[0][3], m[0][3]); + + float32x4_t Inv0 = Vec1 * Fac0 - Vec2 * Fac1 + Vec3 * Fac2; + float32x4_t Inv1 = Vec0 * Fac0 - Vec2 * Fac3 + Vec3 * Fac4; + float32x4_t Inv2 = Vec0 * Fac1 - Vec1 * Fac3 + Vec3 * Fac5; + float32x4_t Inv3 = Vec0 * Fac2 - Vec1 * Fac4 + Vec2 * Fac5; + + float32x4_t r0 = float32x4_t{-1, +1, -1, +1} * Inv0; + float32x4_t r1 = float32x4_t{+1, -1, +1, -1} * Inv1; + float32x4_t r2 = float32x4_t{-1, +1, -1, +1} * Inv2; + float32x4_t r3 = float32x4_t{+1, -1, +1, -1} * Inv3; + + float32x4_t det = neon::mul_lane(r0, m0, 0); + det = neon::madd_lane(det, r1, m0, 1); + det = neon::madd_lane(det, r2, m0, 2); + det = neon::madd_lane(det, r3, m0, 3); + + float32x4_t rdet = vdupq_n_f32(1 / vgetq_lane_f32(det, 0)); + + mat<4, 4, float, Q> r; + r[0].data = vmulq_f32(r0, rdet); + r[1].data = vmulq_f32(r1, rdet); + r[2].data = vmulq_f32(r2, rdet); + r[3].data = vmulq_f32(r3, rdet); + return r; + } + }; +}//namespace glm +#endif diff --git a/Vulkan/ext/include/glm/detail/func_packing.inl b/Vulkan/ext/include/glm/detail/func_packing.inl new file mode 100644 index 0000000..234b093 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_packing.inl @@ -0,0 +1,189 @@ +/// @ref core +/// @file glm/detail/func_packing.inl + +#include "../common.hpp" +#include "type_half.hpp" + +namespace glm +{ + GLM_FUNC_QUALIFIER uint packUnorm2x16(vec2 const& v) + { + union + { + unsigned short in[2]; + uint out; + } u; + + vec<2, unsigned short, defaultp> result(round(clamp(v, 0.0f, 1.0f) * 65535.0f)); + + u.in[0] = result[0]; + u.in[1] = result[1]; + + return u.out; + } + + GLM_FUNC_QUALIFIER vec2 unpackUnorm2x16(uint p) + { + union + { + uint in; + unsigned short out[2]; + } u; + + u.in = p; + + return vec2(u.out[0], u.out[1]) * 1.5259021896696421759365224689097e-5f; + } + + GLM_FUNC_QUALIFIER uint packSnorm2x16(vec2 const& v) + { + union + { + signed short in[2]; + uint out; + } u; + + vec<2, short, defaultp> result(round(clamp(v, -1.0f, 1.0f) * 32767.0f)); + + u.in[0] = result[0]; + u.in[1] = result[1]; + + return u.out; + } + + GLM_FUNC_QUALIFIER vec2 unpackSnorm2x16(uint p) + { + union + { + uint in; + signed short out[2]; + } u; + + u.in = p; + + return clamp(vec2(u.out[0], u.out[1]) * 3.0518509475997192297128208258309e-5f, -1.0f, 1.0f); + } + + GLM_FUNC_QUALIFIER uint packUnorm4x8(vec4 const& v) + { + union + { + unsigned char in[4]; + uint out; + } u; + + vec<4, unsigned char, defaultp> result(round(clamp(v, 0.0f, 1.0f) * 255.0f)); + + u.in[0] = result[0]; + u.in[1] = result[1]; + u.in[2] = result[2]; + u.in[3] = result[3]; + + return u.out; + } + + GLM_FUNC_QUALIFIER vec4 unpackUnorm4x8(uint p) + { + union + { + uint in; + unsigned char out[4]; + } u; + + u.in = p; + + return vec4(u.out[0], u.out[1], u.out[2], u.out[3]) * 0.0039215686274509803921568627451f; + } + + GLM_FUNC_QUALIFIER uint packSnorm4x8(vec4 const& v) + { + union + { + signed char in[4]; + uint out; + } u; + + vec<4, signed char, defaultp> result(round(clamp(v, -1.0f, 1.0f) * 127.0f)); + + u.in[0] = result[0]; + u.in[1] = result[1]; + u.in[2] = result[2]; + u.in[3] = result[3]; + + return u.out; + } + + GLM_FUNC_QUALIFIER glm::vec4 unpackSnorm4x8(uint p) + { + union + { + uint in; + signed char out[4]; + } u; + + u.in = p; + + return clamp(vec4(u.out[0], u.out[1], u.out[2], u.out[3]) * 0.0078740157480315f, -1.0f, 1.0f); + } + + GLM_FUNC_QUALIFIER double packDouble2x32(uvec2 const& v) + { + union + { + uint in[2]; + double out; + } u; + + u.in[0] = v[0]; + u.in[1] = v[1]; + + return u.out; + } + + GLM_FUNC_QUALIFIER uvec2 unpackDouble2x32(double v) + { + union + { + double in; + uint out[2]; + } u; + + u.in = v; + + return uvec2(u.out[0], u.out[1]); + } + + GLM_FUNC_QUALIFIER uint packHalf2x16(vec2 const& v) + { + union + { + signed short in[2]; + uint out; + } u; + + u.in[0] = detail::toFloat16(v.x); + u.in[1] = detail::toFloat16(v.y); + + return u.out; + } + + GLM_FUNC_QUALIFIER vec2 unpackHalf2x16(uint v) + { + union + { + uint in; + signed short out[2]; + } u; + + u.in = v; + + return vec2( + detail::toFloat32(u.out[0]), + detail::toFloat32(u.out[1])); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_packing_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/detail/func_packing_simd.inl b/Vulkan/ext/include/glm/detail/func_packing_simd.inl new file mode 100644 index 0000000..fd0fe8b --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_packing_simd.inl @@ -0,0 +1,6 @@ +namespace glm{ +namespace detail +{ + +}//namespace detail +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/func_trigonometric.inl b/Vulkan/ext/include/glm/detail/func_trigonometric.inl new file mode 100644 index 0000000..e129dce --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_trigonometric.inl @@ -0,0 +1,197 @@ +#include "_vectorize.hpp" +#include +#include + +namespace glm +{ + // radians + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType radians(genType degrees) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'radians' only accept floating-point input"); + + return degrees * static_cast(0.01745329251994329576923690768489); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec radians(vec const& v) + { + return detail::functor1::call(radians, v); + } + + // degrees + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType degrees(genType radians) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'degrees' only accept floating-point input"); + + return radians * static_cast(57.295779513082320876798154814105); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec degrees(vec const& v) + { + return detail::functor1::call(degrees, v); + } + + // sin + using ::std::sin; + + template + GLM_FUNC_QUALIFIER vec sin(vec const& v) + { + return detail::functor1::call(sin, v); + } + + // cos + using std::cos; + + template + GLM_FUNC_QUALIFIER vec cos(vec const& v) + { + return detail::functor1::call(cos, v); + } + + // tan + using std::tan; + + template + GLM_FUNC_QUALIFIER vec tan(vec const& v) + { + return detail::functor1::call(tan, v); + } + + // asin + using std::asin; + + template + GLM_FUNC_QUALIFIER vec asin(vec const& v) + { + return detail::functor1::call(asin, v); + } + + // acos + using std::acos; + + template + GLM_FUNC_QUALIFIER vec acos(vec const& v) + { + return detail::functor1::call(acos, v); + } + + // atan + template + GLM_FUNC_QUALIFIER genType atan(genType y, genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'atan' only accept floating-point input"); + + return ::std::atan2(y, x); + } + + template + GLM_FUNC_QUALIFIER vec atan(vec const& a, vec const& b) + { + return detail::functor2::call(::std::atan2, a, b); + } + + using std::atan; + + template + GLM_FUNC_QUALIFIER vec atan(vec const& v) + { + return detail::functor1::call(atan, v); + } + + // sinh + using std::sinh; + + template + GLM_FUNC_QUALIFIER vec sinh(vec const& v) + { + return detail::functor1::call(sinh, v); + } + + // cosh + using std::cosh; + + template + GLM_FUNC_QUALIFIER vec cosh(vec const& v) + { + return detail::functor1::call(cosh, v); + } + + // tanh + using std::tanh; + + template + GLM_FUNC_QUALIFIER vec tanh(vec const& v) + { + return detail::functor1::call(tanh, v); + } + + // asinh +# if GLM_HAS_CXX11_STL + using std::asinh; +# else + template + GLM_FUNC_QUALIFIER genType asinh(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'asinh' only accept floating-point input"); + + return (x < static_cast(0) ? static_cast(-1) : (x > static_cast(0) ? static_cast(1) : static_cast(0))) * log(std::abs(x) + sqrt(static_cast(1) + x * x)); + } +# endif + + template + GLM_FUNC_QUALIFIER vec asinh(vec const& v) + { + return detail::functor1::call(asinh, v); + } + + // acosh +# if GLM_HAS_CXX11_STL + using std::acosh; +# else + template + GLM_FUNC_QUALIFIER genType acosh(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acosh' only accept floating-point input"); + + if(x < static_cast(1)) + return static_cast(0); + return log(x + sqrt(x * x - static_cast(1))); + } +# endif + + template + GLM_FUNC_QUALIFIER vec acosh(vec const& v) + { + return detail::functor1::call(acosh, v); + } + + // atanh +# if GLM_HAS_CXX11_STL + using std::atanh; +# else + template + GLM_FUNC_QUALIFIER genType atanh(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'atanh' only accept floating-point input"); + + if(std::abs(x) >= static_cast(1)) + return 0; + return static_cast(0.5) * log((static_cast(1) + x) / (static_cast(1) - x)); + } +# endif + + template + GLM_FUNC_QUALIFIER vec atanh(vec const& v) + { + return detail::functor1::call(atanh, v); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_trigonometric_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/detail/func_trigonometric_simd.inl b/Vulkan/ext/include/glm/detail/func_trigonometric_simd.inl new file mode 100644 index 0000000..e69de29 diff --git a/Vulkan/ext/include/glm/detail/func_vector_relational.inl b/Vulkan/ext/include/glm/detail/func_vector_relational.inl new file mode 100644 index 0000000..80c9e87 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_vector_relational.inl @@ -0,0 +1,87 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec lessThan(vec const& x, vec const& y) + { + vec Result(true); + for(length_t i = 0; i < L; ++i) + Result[i] = x[i] < y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec lessThanEqual(vec const& x, vec const& y) + { + vec Result(true); + for(length_t i = 0; i < L; ++i) + Result[i] = x[i] <= y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec greaterThan(vec const& x, vec const& y) + { + vec Result(true); + for(length_t i = 0; i < L; ++i) + Result[i] = x[i] > y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec greaterThanEqual(vec const& x, vec const& y) + { + vec Result(true); + for(length_t i = 0; i < L; ++i) + Result[i] = x[i] >= y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(vec const& x, vec const& y) + { + vec Result(true); + for(length_t i = 0; i < L; ++i) + Result[i] = x[i] == y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y) + { + vec Result(true); + for(length_t i = 0; i < L; ++i) + Result[i] = x[i] != y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool any(vec const& v) + { + bool Result = false; + for(length_t i = 0; i < L; ++i) + Result = Result || v[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool all(vec const& v) + { + bool Result = true; + for(length_t i = 0; i < L; ++i) + Result = Result && v[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec not_(vec const& v) + { + vec Result(true); + for(length_t i = 0; i < L; ++i) + Result[i] = !v[i]; + return Result; + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "func_vector_relational_simd.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/func_vector_relational_simd.inl b/Vulkan/ext/include/glm/detail/func_vector_relational_simd.inl new file mode 100644 index 0000000..fd0fe8b --- /dev/null +++ b/Vulkan/ext/include/glm/detail/func_vector_relational_simd.inl @@ -0,0 +1,6 @@ +namespace glm{ +namespace detail +{ + +}//namespace detail +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/glm.cpp b/Vulkan/ext/include/glm/detail/glm.cpp new file mode 100644 index 0000000..e0755bd --- /dev/null +++ b/Vulkan/ext/include/glm/detail/glm.cpp @@ -0,0 +1,263 @@ +/// @ref core +/// @file glm/glm.cpp + +#ifndef GLM_ENABLE_EXPERIMENTAL +#define GLM_ENABLE_EXPERIMENTAL +#endif +#include +#include +#include +#include +#include +#include + +namespace glm +{ +// tvec1 type explicit instantiation +template struct vec<1, uint8, lowp>; +template struct vec<1, uint16, lowp>; +template struct vec<1, uint32, lowp>; +template struct vec<1, uint64, lowp>; +template struct vec<1, int8, lowp>; +template struct vec<1, int16, lowp>; +template struct vec<1, int32, lowp>; +template struct vec<1, int64, lowp>; +template struct vec<1, float32, lowp>; +template struct vec<1, float64, lowp>; + +template struct vec<1, uint8, mediump>; +template struct vec<1, uint16, mediump>; +template struct vec<1, uint32, mediump>; +template struct vec<1, uint64, mediump>; +template struct vec<1, int8, mediump>; +template struct vec<1, int16, mediump>; +template struct vec<1, int32, mediump>; +template struct vec<1, int64, mediump>; +template struct vec<1, float32, mediump>; +template struct vec<1, float64, mediump>; + +template struct vec<1, uint8, highp>; +template struct vec<1, uint16, highp>; +template struct vec<1, uint32, highp>; +template struct vec<1, uint64, highp>; +template struct vec<1, int8, highp>; +template struct vec<1, int16, highp>; +template struct vec<1, int32, highp>; +template struct vec<1, int64, highp>; +template struct vec<1, float32, highp>; +template struct vec<1, float64, highp>; + +// tvec2 type explicit instantiation +template struct vec<2, uint8, lowp>; +template struct vec<2, uint16, lowp>; +template struct vec<2, uint32, lowp>; +template struct vec<2, uint64, lowp>; +template struct vec<2, int8, lowp>; +template struct vec<2, int16, lowp>; +template struct vec<2, int32, lowp>; +template struct vec<2, int64, lowp>; +template struct vec<2, float32, lowp>; +template struct vec<2, float64, lowp>; + +template struct vec<2, uint8, mediump>; +template struct vec<2, uint16, mediump>; +template struct vec<2, uint32, mediump>; +template struct vec<2, uint64, mediump>; +template struct vec<2, int8, mediump>; +template struct vec<2, int16, mediump>; +template struct vec<2, int32, mediump>; +template struct vec<2, int64, mediump>; +template struct vec<2, float32, mediump>; +template struct vec<2, float64, mediump>; + +template struct vec<2, uint8, highp>; +template struct vec<2, uint16, highp>; +template struct vec<2, uint32, highp>; +template struct vec<2, uint64, highp>; +template struct vec<2, int8, highp>; +template struct vec<2, int16, highp>; +template struct vec<2, int32, highp>; +template struct vec<2, int64, highp>; +template struct vec<2, float32, highp>; +template struct vec<2, float64, highp>; + +// tvec3 type explicit instantiation +template struct vec<3, uint8, lowp>; +template struct vec<3, uint16, lowp>; +template struct vec<3, uint32, lowp>; +template struct vec<3, uint64, lowp>; +template struct vec<3, int8, lowp>; +template struct vec<3, int16, lowp>; +template struct vec<3, int32, lowp>; +template struct vec<3, int64, lowp>; +template struct vec<3, float32, lowp>; +template struct vec<3, float64, lowp>; + +template struct vec<3, uint8, mediump>; +template struct vec<3, uint16, mediump>; +template struct vec<3, uint32, mediump>; +template struct vec<3, uint64, mediump>; +template struct vec<3, int8, mediump>; +template struct vec<3, int16, mediump>; +template struct vec<3, int32, mediump>; +template struct vec<3, int64, mediump>; +template struct vec<3, float32, mediump>; +template struct vec<3, float64, mediump>; + +template struct vec<3, uint8, highp>; +template struct vec<3, uint16, highp>; +template struct vec<3, uint32, highp>; +template struct vec<3, uint64, highp>; +template struct vec<3, int8, highp>; +template struct vec<3, int16, highp>; +template struct vec<3, int32, highp>; +template struct vec<3, int64, highp>; +template struct vec<3, float32, highp>; +template struct vec<3, float64, highp>; + +// tvec4 type explicit instantiation +template struct vec<4, uint8, lowp>; +template struct vec<4, uint16, lowp>; +template struct vec<4, uint32, lowp>; +template struct vec<4, uint64, lowp>; +template struct vec<4, int8, lowp>; +template struct vec<4, int16, lowp>; +template struct vec<4, int32, lowp>; +template struct vec<4, int64, lowp>; +template struct vec<4, float32, lowp>; +template struct vec<4, float64, lowp>; + +template struct vec<4, uint8, mediump>; +template struct vec<4, uint16, mediump>; +template struct vec<4, uint32, mediump>; +template struct vec<4, uint64, mediump>; +template struct vec<4, int8, mediump>; +template struct vec<4, int16, mediump>; +template struct vec<4, int32, mediump>; +template struct vec<4, int64, mediump>; +template struct vec<4, float32, mediump>; +template struct vec<4, float64, mediump>; + +template struct vec<4, uint8, highp>; +template struct vec<4, uint16, highp>; +template struct vec<4, uint32, highp>; +template struct vec<4, uint64, highp>; +template struct vec<4, int8, highp>; +template struct vec<4, int16, highp>; +template struct vec<4, int32, highp>; +template struct vec<4, int64, highp>; +template struct vec<4, float32, highp>; +template struct vec<4, float64, highp>; + +// tmat2x2 type explicit instantiation +template struct mat<2, 2, float32, lowp>; +template struct mat<2, 2, float64, lowp>; + +template struct mat<2, 2, float32, mediump>; +template struct mat<2, 2, float64, mediump>; + +template struct mat<2, 2, float32, highp>; +template struct mat<2, 2, float64, highp>; + +// tmat2x3 type explicit instantiation +template struct mat<2, 3, float32, lowp>; +template struct mat<2, 3, float64, lowp>; + +template struct mat<2, 3, float32, mediump>; +template struct mat<2, 3, float64, mediump>; + +template struct mat<2, 3, float32, highp>; +template struct mat<2, 3, float64, highp>; + +// tmat2x4 type explicit instantiation +template struct mat<2, 4, float32, lowp>; +template struct mat<2, 4, float64, lowp>; + +template struct mat<2, 4, float32, mediump>; +template struct mat<2, 4, float64, mediump>; + +template struct mat<2, 4, float32, highp>; +template struct mat<2, 4, float64, highp>; + +// tmat3x2 type explicit instantiation +template struct mat<3, 2, float32, lowp>; +template struct mat<3, 2, float64, lowp>; + +template struct mat<3, 2, float32, mediump>; +template struct mat<3, 2, float64, mediump>; + +template struct mat<3, 2, float32, highp>; +template struct mat<3, 2, float64, highp>; + +// tmat3x3 type explicit instantiation +template struct mat<3, 3, float32, lowp>; +template struct mat<3, 3, float64, lowp>; + +template struct mat<3, 3, float32, mediump>; +template struct mat<3, 3, float64, mediump>; + +template struct mat<3, 3, float32, highp>; +template struct mat<3, 3, float64, highp>; + +// tmat3x4 type explicit instantiation +template struct mat<3, 4, float32, lowp>; +template struct mat<3, 4, float64, lowp>; + +template struct mat<3, 4, float32, mediump>; +template struct mat<3, 4, float64, mediump>; + +template struct mat<3, 4, float32, highp>; +template struct mat<3, 4, float64, highp>; + +// tmat4x2 type explicit instantiation +template struct mat<4, 2, float32, lowp>; +template struct mat<4, 2, float64, lowp>; + +template struct mat<4, 2, float32, mediump>; +template struct mat<4, 2, float64, mediump>; + +template struct mat<4, 2, float32, highp>; +template struct mat<4, 2, float64, highp>; + +// tmat4x3 type explicit instantiation +template struct mat<4, 3, float32, lowp>; +template struct mat<4, 3, float64, lowp>; + +template struct mat<4, 3, float32, mediump>; +template struct mat<4, 3, float64, mediump>; + +template struct mat<4, 3, float32, highp>; +template struct mat<4, 3, float64, highp>; + +// tmat4x4 type explicit instantiation +template struct mat<4, 4, float32, lowp>; +template struct mat<4, 4, float64, lowp>; + +template struct mat<4, 4, float32, mediump>; +template struct mat<4, 4, float64, mediump>; + +template struct mat<4, 4, float32, highp>; +template struct mat<4, 4, float64, highp>; + +// tquat type explicit instantiation +template struct qua; +template struct qua; + +template struct qua; +template struct qua; + +template struct qua; +template struct qua; + +//tdualquat type explicit instantiation +template struct tdualquat; +template struct tdualquat; + +template struct tdualquat; +template struct tdualquat; + +template struct tdualquat; +template struct tdualquat; + +}//namespace glm + diff --git a/Vulkan/ext/include/glm/detail/qualifier.hpp b/Vulkan/ext/include/glm/detail/qualifier.hpp new file mode 100644 index 0000000..b6c9df0 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/qualifier.hpp @@ -0,0 +1,230 @@ +#pragma once + +#include "setup.hpp" + +namespace glm +{ + /// Qualify GLM types in term of alignment (packed, aligned) and precision in term of ULPs (lowp, mediump, highp) + enum qualifier + { + packed_highp, ///< Typed data is tightly packed in memory and operations are executed with high precision in term of ULPs + packed_mediump, ///< Typed data is tightly packed in memory and operations are executed with medium precision in term of ULPs for higher performance + packed_lowp, ///< Typed data is tightly packed in memory and operations are executed with low precision in term of ULPs to maximize performance + +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE + aligned_highp, ///< Typed data is aligned in memory allowing SIMD optimizations and operations are executed with high precision in term of ULPs + aligned_mediump, ///< Typed data is aligned in memory allowing SIMD optimizations and operations are executed with high precision in term of ULPs for higher performance + aligned_lowp, // ///< Typed data is aligned in memory allowing SIMD optimizations and operations are executed with high precision in term of ULPs to maximize performance + aligned = aligned_highp, ///< By default aligned qualifier is also high precision +# endif + + highp = packed_highp, ///< By default highp qualifier is also packed + mediump = packed_mediump, ///< By default mediump qualifier is also packed + lowp = packed_lowp, ///< By default lowp qualifier is also packed + packed = packed_highp, ///< By default packed qualifier is also high precision + +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE && defined(GLM_FORCE_DEFAULT_ALIGNED_GENTYPES) + defaultp = aligned_highp +# else + defaultp = highp +# endif + }; + + typedef qualifier precision; + + template struct vec; + template struct mat; + template struct qua; + +# if GLM_HAS_TEMPLATE_ALIASES + template using tvec1 = vec<1, T, Q>; + template using tvec2 = vec<2, T, Q>; + template using tvec3 = vec<3, T, Q>; + template using tvec4 = vec<4, T, Q>; + template using tmat2x2 = mat<2, 2, T, Q>; + template using tmat2x3 = mat<2, 3, T, Q>; + template using tmat2x4 = mat<2, 4, T, Q>; + template using tmat3x2 = mat<3, 2, T, Q>; + template using tmat3x3 = mat<3, 3, T, Q>; + template using tmat3x4 = mat<3, 4, T, Q>; + template using tmat4x2 = mat<4, 2, T, Q>; + template using tmat4x3 = mat<4, 3, T, Q>; + template using tmat4x4 = mat<4, 4, T, Q>; + template using tquat = qua; +# endif + +namespace detail +{ + template + struct is_aligned + { + static const bool value = false; + }; + +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE + template<> + struct is_aligned + { + static const bool value = true; + }; + + template<> + struct is_aligned + { + static const bool value = true; + }; + + template<> + struct is_aligned + { + static const bool value = true; + }; +# endif + + template + struct storage + { + typedef struct type { + T data[L]; + } type; + }; + +# if GLM_HAS_ALIGNOF + template + struct storage + { + typedef struct alignas(L * sizeof(T)) type { + T data[L]; + } type; + }; + + template + struct storage<3, T, true> + { + typedef struct alignas(4 * sizeof(T)) type { + T data[4]; + } type; + }; +# endif + +# if GLM_ARCH & GLM_ARCH_SSE2_BIT + template<> + struct storage<4, float, true> + { + typedef glm_f32vec4 type; + }; + + template<> + struct storage<4, int, true> + { + typedef glm_i32vec4 type; + }; + + template<> + struct storage<4, unsigned int, true> + { + typedef glm_u32vec4 type; + }; + + template<> + struct storage<2, double, true> + { + typedef glm_f64vec2 type; + }; + + template<> + struct storage<2, detail::int64, true> + { + typedef glm_i64vec2 type; + }; + + template<> + struct storage<2, detail::uint64, true> + { + typedef glm_u64vec2 type; + }; +# endif + +# if (GLM_ARCH & GLM_ARCH_AVX_BIT) + template<> + struct storage<4, double, true> + { + typedef glm_f64vec4 type; + }; +# endif + +# if (GLM_ARCH & GLM_ARCH_AVX2_BIT) + template<> + struct storage<4, detail::int64, true> + { + typedef glm_i64vec4 type; + }; + + template<> + struct storage<4, detail::uint64, true> + { + typedef glm_u64vec4 type; + }; +# endif + +# if GLM_ARCH & GLM_ARCH_NEON_BIT + template<> + struct storage<4, float, true> + { + typedef glm_f32vec4 type; + }; + + template<> + struct storage<4, int, true> + { + typedef glm_i32vec4 type; + }; + + template<> + struct storage<4, unsigned int, true> + { + typedef glm_u32vec4 type; + }; +# endif + + enum genTypeEnum + { + GENTYPE_VEC, + GENTYPE_MAT, + GENTYPE_QUAT + }; + + template + struct genTypeTrait + {}; + + template + struct genTypeTrait > + { + static const genTypeEnum GENTYPE = GENTYPE_MAT; + }; + + template + struct init_gentype + { + }; + + template + struct init_gentype + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static genType identity() + { + return genType(1, 0, 0, 0); + } + }; + + template + struct init_gentype + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static genType identity() + { + return genType(1); + } + }; +}//namespace detail +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/setup.hpp b/Vulkan/ext/include/glm/detail/setup.hpp new file mode 100644 index 0000000..2c01e02 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/setup.hpp @@ -0,0 +1,1135 @@ +#ifndef GLM_SETUP_INCLUDED + +#include +#include + +#define GLM_VERSION_MAJOR 0 +#define GLM_VERSION_MINOR 9 +#define GLM_VERSION_PATCH 9 +#define GLM_VERSION_REVISION 8 +#define GLM_VERSION 998 +#define GLM_VERSION_MESSAGE "GLM: version 0.9.9.8" + +#define GLM_SETUP_INCLUDED GLM_VERSION + +/////////////////////////////////////////////////////////////////////////////////// +// Active states + +#define GLM_DISABLE 0 +#define GLM_ENABLE 1 + +/////////////////////////////////////////////////////////////////////////////////// +// Messages + +#if defined(GLM_FORCE_MESSAGES) +# define GLM_MESSAGES GLM_ENABLE +#else +# define GLM_MESSAGES GLM_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Detect the platform + +#include "../simd/platform.h" + +/////////////////////////////////////////////////////////////////////////////////// +// Build model + +#if defined(_M_ARM64) || defined(__LP64__) || defined(_M_X64) || defined(__ppc64__) || defined(__x86_64__) +# define GLM_MODEL GLM_MODEL_64 +#elif defined(__i386__) || defined(__ppc__) || defined(__ILP32__) || defined(_M_ARM) +# define GLM_MODEL GLM_MODEL_32 +#else +# define GLM_MODEL GLM_MODEL_32 +#endif// + +#if !defined(GLM_MODEL) && GLM_COMPILER != 0 +# error "GLM_MODEL undefined, your compiler may not be supported by GLM. Add #define GLM_MODEL 0 to ignore this message." +#endif//GLM_MODEL + +/////////////////////////////////////////////////////////////////////////////////// +// C++ Version + +// User defines: GLM_FORCE_CXX98, GLM_FORCE_CXX03, GLM_FORCE_CXX11, GLM_FORCE_CXX14, GLM_FORCE_CXX17, GLM_FORCE_CXX2A + +#define GLM_LANG_CXX98_FLAG (1 << 1) +#define GLM_LANG_CXX03_FLAG (1 << 2) +#define GLM_LANG_CXX0X_FLAG (1 << 3) +#define GLM_LANG_CXX11_FLAG (1 << 4) +#define GLM_LANG_CXX14_FLAG (1 << 5) +#define GLM_LANG_CXX17_FLAG (1 << 6) +#define GLM_LANG_CXX2A_FLAG (1 << 7) +#define GLM_LANG_CXXMS_FLAG (1 << 8) +#define GLM_LANG_CXXGNU_FLAG (1 << 9) + +#define GLM_LANG_CXX98 GLM_LANG_CXX98_FLAG +#define GLM_LANG_CXX03 (GLM_LANG_CXX98 | GLM_LANG_CXX03_FLAG) +#define GLM_LANG_CXX0X (GLM_LANG_CXX03 | GLM_LANG_CXX0X_FLAG) +#define GLM_LANG_CXX11 (GLM_LANG_CXX0X | GLM_LANG_CXX11_FLAG) +#define GLM_LANG_CXX14 (GLM_LANG_CXX11 | GLM_LANG_CXX14_FLAG) +#define GLM_LANG_CXX17 (GLM_LANG_CXX14 | GLM_LANG_CXX17_FLAG) +#define GLM_LANG_CXX2A (GLM_LANG_CXX17 | GLM_LANG_CXX2A_FLAG) +#define GLM_LANG_CXXMS GLM_LANG_CXXMS_FLAG +#define GLM_LANG_CXXGNU GLM_LANG_CXXGNU_FLAG + +#if (defined(_MSC_EXTENSIONS)) +# define GLM_LANG_EXT GLM_LANG_CXXMS_FLAG +#elif ((GLM_COMPILER & (GLM_COMPILER_CLANG | GLM_COMPILER_GCC)) && (GLM_ARCH & GLM_ARCH_SIMD_BIT)) +# define GLM_LANG_EXT GLM_LANG_CXXMS_FLAG +#else +# define GLM_LANG_EXT 0 +#endif + +#if (defined(GLM_FORCE_CXX_UNKNOWN)) +# define GLM_LANG 0 +#elif defined(GLM_FORCE_CXX2A) +# define GLM_LANG (GLM_LANG_CXX2A | GLM_LANG_EXT) +# define GLM_LANG_STL11_FORCED +#elif defined(GLM_FORCE_CXX17) +# define GLM_LANG (GLM_LANG_CXX17 | GLM_LANG_EXT) +# define GLM_LANG_STL11_FORCED +#elif defined(GLM_FORCE_CXX14) +# define GLM_LANG (GLM_LANG_CXX14 | GLM_LANG_EXT) +# define GLM_LANG_STL11_FORCED +#elif defined(GLM_FORCE_CXX11) +# define GLM_LANG (GLM_LANG_CXX11 | GLM_LANG_EXT) +# define GLM_LANG_STL11_FORCED +#elif defined(GLM_FORCE_CXX03) +# define GLM_LANG (GLM_LANG_CXX03 | GLM_LANG_EXT) +#elif defined(GLM_FORCE_CXX98) +# define GLM_LANG (GLM_LANG_CXX98 | GLM_LANG_EXT) +#else +# if GLM_COMPILER & GLM_COMPILER_VC && defined(_MSVC_LANG) +# if GLM_COMPILER >= GLM_COMPILER_VC15_7 +# define GLM_LANG_PLATFORM _MSVC_LANG +# elif GLM_COMPILER >= GLM_COMPILER_VC15 +# if _MSVC_LANG > 201402L +# define GLM_LANG_PLATFORM 201402L +# else +# define GLM_LANG_PLATFORM _MSVC_LANG +# endif +# else +# define GLM_LANG_PLATFORM 0 +# endif +# else +# define GLM_LANG_PLATFORM 0 +# endif + +# if __cplusplus > 201703L || GLM_LANG_PLATFORM > 201703L +# define GLM_LANG (GLM_LANG_CXX2A | GLM_LANG_EXT) +# elif __cplusplus == 201703L || GLM_LANG_PLATFORM == 201703L +# define GLM_LANG (GLM_LANG_CXX17 | GLM_LANG_EXT) +# elif __cplusplus == 201402L || __cplusplus == 201500L || GLM_LANG_PLATFORM == 201402L +# define GLM_LANG (GLM_LANG_CXX14 | GLM_LANG_EXT) +# elif __cplusplus == 201103L || GLM_LANG_PLATFORM == 201103L +# define GLM_LANG (GLM_LANG_CXX11 | GLM_LANG_EXT) +# elif defined(__INTEL_CXX11_MODE__) || defined(_MSC_VER) || defined(__GXX_EXPERIMENTAL_CXX0X__) +# define GLM_LANG (GLM_LANG_CXX0X | GLM_LANG_EXT) +# elif __cplusplus == 199711L +# define GLM_LANG (GLM_LANG_CXX98 | GLM_LANG_EXT) +# else +# define GLM_LANG (0 | GLM_LANG_EXT) +# endif +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Has of C++ features + +// http://clang.llvm.org/cxx_status.html +// http://gcc.gnu.org/projects/cxx0x.html +// http://msdn.microsoft.com/en-us/library/vstudio/hh567368(v=vs.120).aspx + +// Android has multiple STLs but C++11 STL detection doesn't always work #284 #564 +#if GLM_PLATFORM == GLM_PLATFORM_ANDROID && !defined(GLM_LANG_STL11_FORCED) +# define GLM_HAS_CXX11_STL 0 +#elif GLM_COMPILER & GLM_COMPILER_CLANG +# if (defined(_LIBCPP_VERSION) || (GLM_LANG & GLM_LANG_CXX11_FLAG) || defined(GLM_LANG_STL11_FORCED)) +# define GLM_HAS_CXX11_STL 1 +# else +# define GLM_HAS_CXX11_STL 0 +# endif +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_CXX11_STL 1 +#else +# define GLM_HAS_CXX11_STL ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_GCC) && (GLM_COMPILER >= GLM_COMPILER_GCC48)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC12)) || \ + ((GLM_PLATFORM != GLM_PLATFORM_WINDOWS) && (GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_COMPILER >= GLM_COMPILER_INTEL15)))) +#endif + +// N1720 +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_STATIC_ASSERT __has_feature(cxx_static_assert) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_STATIC_ASSERT 1 +#else +# define GLM_HAS_STATIC_ASSERT ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_CUDA)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC)))) +#endif + +// N1988 +#if GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_EXTENDED_INTEGER_TYPE 1 +#else +# define GLM_HAS_EXTENDED_INTEGER_TYPE (\ + ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (GLM_COMPILER & GLM_COMPILER_VC)) || \ + ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (GLM_COMPILER & GLM_COMPILER_CUDA)) || \ + ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (GLM_COMPILER & GLM_COMPILER_CLANG))) +#endif + +// N2672 Initializer lists http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2672.htm +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_INITIALIZER_LISTS __has_feature(cxx_generalized_initializers) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_INITIALIZER_LISTS 1 +#else +# define GLM_HAS_INITIALIZER_LISTS ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC15)) || \ + ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_COMPILER >= GLM_COMPILER_INTEL14)) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA)))) +#endif + +// N2544 Unrestricted unions http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2544.pdf +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_UNRESTRICTED_UNIONS __has_feature(cxx_unrestricted_unions) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_UNRESTRICTED_UNIONS 1 +#else +# define GLM_HAS_UNRESTRICTED_UNIONS (GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + (GLM_COMPILER & GLM_COMPILER_VC) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA))) +#endif + +// N2346 +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_DEFAULTED_FUNCTIONS __has_feature(cxx_defaulted_functions) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_DEFAULTED_FUNCTIONS 1 +#else +# define GLM_HAS_DEFAULTED_FUNCTIONS ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC12)) || \ + ((GLM_COMPILER & GLM_COMPILER_INTEL)) || \ + (GLM_COMPILER & GLM_COMPILER_CUDA))) +#endif + +// N2118 +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_RVALUE_REFERENCES __has_feature(cxx_rvalue_references) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_RVALUE_REFERENCES 1 +#else +# define GLM_HAS_RVALUE_REFERENCES ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_VC)) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA)))) +#endif + +// N2437 http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2437.pdf +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_EXPLICIT_CONVERSION_OPERATORS __has_feature(cxx_explicit_conversions) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_EXPLICIT_CONVERSION_OPERATORS 1 +#else +# define GLM_HAS_EXPLICIT_CONVERSION_OPERATORS ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_COMPILER >= GLM_COMPILER_INTEL14)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC12)) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA)))) +#endif + +// N2258 http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2258.pdf +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_TEMPLATE_ALIASES __has_feature(cxx_alias_templates) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_TEMPLATE_ALIASES 1 +#else +# define GLM_HAS_TEMPLATE_ALIASES ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_INTEL)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC12)) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA)))) +#endif + +// N2930 http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2009/n2930.html +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_RANGE_FOR __has_feature(cxx_range_for) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_RANGE_FOR 1 +#else +# define GLM_HAS_RANGE_FOR ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_INTEL)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC)) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA)))) +#endif + +// N2341 http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2341.pdf +#if GLM_COMPILER & GLM_COMPILER_CLANG +# define GLM_HAS_ALIGNOF __has_feature(cxx_alignas) +#elif GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_ALIGNOF 1 +#else +# define GLM_HAS_ALIGNOF ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_COMPILER >= GLM_COMPILER_INTEL15)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC14)) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA)))) +#endif + +// N2235 Generalized Constant Expressions http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2235.pdf +// N3652 Extended Constant Expressions http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2013/n3652.html +#if (GLM_ARCH & GLM_ARCH_SIMD_BIT) // Compiler SIMD intrinsics don't support constexpr... +# define GLM_HAS_CONSTEXPR 0 +#elif (GLM_COMPILER & GLM_COMPILER_CLANG) +# define GLM_HAS_CONSTEXPR __has_feature(cxx_relaxed_constexpr) +#elif (GLM_LANG & GLM_LANG_CXX14_FLAG) +# define GLM_HAS_CONSTEXPR 1 +#else +# define GLM_HAS_CONSTEXPR ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && GLM_HAS_INITIALIZER_LISTS && (\ + ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_COMPILER >= GLM_COMPILER_INTEL17)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC15)))) +#endif + +#if GLM_HAS_CONSTEXPR +# define GLM_CONSTEXPR constexpr +#else +# define GLM_CONSTEXPR +#endif + +// +#if GLM_HAS_CONSTEXPR +# if (GLM_COMPILER & GLM_COMPILER_CLANG) +# if __has_feature(cxx_if_constexpr) +# define GLM_HAS_IF_CONSTEXPR 1 +# else +# define GLM_HAS_IF_CONSTEXPR 0 +# endif +# elif (GLM_LANG & GLM_LANG_CXX17_FLAG) +# define GLM_HAS_IF_CONSTEXPR 1 +# else +# define GLM_HAS_IF_CONSTEXPR 0 +# endif +#else +# define GLM_HAS_IF_CONSTEXPR 0 +#endif + +#if GLM_HAS_IF_CONSTEXPR +# define GLM_IF_CONSTEXPR if constexpr +#else +# define GLM_IF_CONSTEXPR if +#endif + +// +#if GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_ASSIGNABLE 1 +#else +# define GLM_HAS_ASSIGNABLE ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC15)) || \ + ((GLM_COMPILER & GLM_COMPILER_GCC) && (GLM_COMPILER >= GLM_COMPILER_GCC49)))) +#endif + +// +#define GLM_HAS_TRIVIAL_QUERIES 0 + +// +#if GLM_LANG & GLM_LANG_CXX11_FLAG +# define GLM_HAS_MAKE_SIGNED 1 +#else +# define GLM_HAS_MAKE_SIGNED ((GLM_LANG & GLM_LANG_CXX0X_FLAG) && (\ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC12)) || \ + ((GLM_COMPILER & GLM_COMPILER_CUDA)))) +#endif + +// +#if defined(GLM_FORCE_INTRINSICS) +# define GLM_HAS_BITSCAN_WINDOWS ((GLM_PLATFORM & GLM_PLATFORM_WINDOWS) && (\ + ((GLM_COMPILER & GLM_COMPILER_INTEL)) || \ + ((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC14) && (GLM_ARCH & GLM_ARCH_X86_BIT)))) +#else +# define GLM_HAS_BITSCAN_WINDOWS 0 +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// OpenMP +#ifdef _OPENMP +# if GLM_COMPILER & GLM_COMPILER_GCC +# if GLM_COMPILER >= GLM_COMPILER_GCC61 +# define GLM_HAS_OPENMP 45 +# elif GLM_COMPILER >= GLM_COMPILER_GCC49 +# define GLM_HAS_OPENMP 40 +# elif GLM_COMPILER >= GLM_COMPILER_GCC47 +# define GLM_HAS_OPENMP 31 +# else +# define GLM_HAS_OPENMP 0 +# endif +# elif GLM_COMPILER & GLM_COMPILER_CLANG +# if GLM_COMPILER >= GLM_COMPILER_CLANG38 +# define GLM_HAS_OPENMP 31 +# else +# define GLM_HAS_OPENMP 0 +# endif +# elif GLM_COMPILER & GLM_COMPILER_VC +# define GLM_HAS_OPENMP 20 +# elif GLM_COMPILER & GLM_COMPILER_INTEL +# if GLM_COMPILER >= GLM_COMPILER_INTEL16 +# define GLM_HAS_OPENMP 40 +# else +# define GLM_HAS_OPENMP 0 +# endif +# else +# define GLM_HAS_OPENMP 0 +# endif +#else +# define GLM_HAS_OPENMP 0 +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// nullptr + +#if GLM_LANG & GLM_LANG_CXX0X_FLAG +# define GLM_CONFIG_NULLPTR GLM_ENABLE +#else +# define GLM_CONFIG_NULLPTR GLM_DISABLE +#endif + +#if GLM_CONFIG_NULLPTR == GLM_ENABLE +# define GLM_NULLPTR nullptr +#else +# define GLM_NULLPTR 0 +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Static assert + +#if GLM_HAS_STATIC_ASSERT +# define GLM_STATIC_ASSERT(x, message) static_assert(x, message) +#elif GLM_COMPILER & GLM_COMPILER_VC +# define GLM_STATIC_ASSERT(x, message) typedef char __CASSERT__##__LINE__[(x) ? 1 : -1] +#else +# define GLM_STATIC_ASSERT(x, message) assert(x) +#endif//GLM_LANG + +/////////////////////////////////////////////////////////////////////////////////// +// Qualifiers + +#if GLM_COMPILER & GLM_COMPILER_CUDA +# define GLM_CUDA_FUNC_DEF __device__ __host__ +# define GLM_CUDA_FUNC_DECL __device__ __host__ +#else +# define GLM_CUDA_FUNC_DEF +# define GLM_CUDA_FUNC_DECL +#endif + +#if defined(GLM_FORCE_INLINE) +# if GLM_COMPILER & GLM_COMPILER_VC +# define GLM_INLINE __forceinline +# define GLM_NEVER_INLINE __declspec((noinline)) +# elif GLM_COMPILER & (GLM_COMPILER_GCC | GLM_COMPILER_CLANG) +# define GLM_INLINE inline __attribute__((__always_inline__)) +# define GLM_NEVER_INLINE __attribute__((__noinline__)) +# elif GLM_COMPILER & GLM_COMPILER_CUDA +# define GLM_INLINE __forceinline__ +# define GLM_NEVER_INLINE __noinline__ +# else +# define GLM_INLINE inline +# define GLM_NEVER_INLINE +# endif//GLM_COMPILER +#else +# define GLM_INLINE inline +# define GLM_NEVER_INLINE +#endif//defined(GLM_FORCE_INLINE) + +#define GLM_FUNC_DECL GLM_CUDA_FUNC_DECL +#define GLM_FUNC_QUALIFIER GLM_CUDA_FUNC_DEF GLM_INLINE + +/////////////////////////////////////////////////////////////////////////////////// +// Swizzle operators + +// User defines: GLM_FORCE_SWIZZLE + +#define GLM_SWIZZLE_DISABLED 0 +#define GLM_SWIZZLE_OPERATOR 1 +#define GLM_SWIZZLE_FUNCTION 2 + +#if defined(GLM_FORCE_XYZW_ONLY) +# undef GLM_FORCE_SWIZZLE +#endif + +#if defined(GLM_SWIZZLE) +# pragma message("GLM: GLM_SWIZZLE is deprecated, use GLM_FORCE_SWIZZLE instead.") +# define GLM_FORCE_SWIZZLE +#endif + +#if defined(GLM_FORCE_SWIZZLE) && (GLM_LANG & GLM_LANG_CXXMS_FLAG) +# define GLM_CONFIG_SWIZZLE GLM_SWIZZLE_OPERATOR +#elif defined(GLM_FORCE_SWIZZLE) +# define GLM_CONFIG_SWIZZLE GLM_SWIZZLE_FUNCTION +#else +# define GLM_CONFIG_SWIZZLE GLM_SWIZZLE_DISABLED +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Allows using not basic types as genType + +// #define GLM_FORCE_UNRESTRICTED_GENTYPE + +#ifdef GLM_FORCE_UNRESTRICTED_GENTYPE +# define GLM_CONFIG_UNRESTRICTED_GENTYPE GLM_ENABLE +#else +# define GLM_CONFIG_UNRESTRICTED_GENTYPE GLM_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Clip control, define GLM_FORCE_DEPTH_ZERO_TO_ONE before including GLM +// to use a clip space between 0 to 1. +// Coordinate system, define GLM_FORCE_LEFT_HANDED before including GLM +// to use left handed coordinate system by default. + +#define GLM_CLIP_CONTROL_ZO_BIT (1 << 0) // ZERO_TO_ONE +#define GLM_CLIP_CONTROL_NO_BIT (1 << 1) // NEGATIVE_ONE_TO_ONE +#define GLM_CLIP_CONTROL_LH_BIT (1 << 2) // LEFT_HANDED, For DirectX, Metal, Vulkan +#define GLM_CLIP_CONTROL_RH_BIT (1 << 3) // RIGHT_HANDED, For OpenGL, default in GLM + +#define GLM_CLIP_CONTROL_LH_ZO (GLM_CLIP_CONTROL_LH_BIT | GLM_CLIP_CONTROL_ZO_BIT) +#define GLM_CLIP_CONTROL_LH_NO (GLM_CLIP_CONTROL_LH_BIT | GLM_CLIP_CONTROL_NO_BIT) +#define GLM_CLIP_CONTROL_RH_ZO (GLM_CLIP_CONTROL_RH_BIT | GLM_CLIP_CONTROL_ZO_BIT) +#define GLM_CLIP_CONTROL_RH_NO (GLM_CLIP_CONTROL_RH_BIT | GLM_CLIP_CONTROL_NO_BIT) + +#ifdef GLM_FORCE_DEPTH_ZERO_TO_ONE +# ifdef GLM_FORCE_LEFT_HANDED +# define GLM_CONFIG_CLIP_CONTROL GLM_CLIP_CONTROL_LH_ZO +# else +# define GLM_CONFIG_CLIP_CONTROL GLM_CLIP_CONTROL_RH_ZO +# endif +#else +# ifdef GLM_FORCE_LEFT_HANDED +# define GLM_CONFIG_CLIP_CONTROL GLM_CLIP_CONTROL_LH_NO +# else +# define GLM_CONFIG_CLIP_CONTROL GLM_CLIP_CONTROL_RH_NO +# endif +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Qualifiers + +#if (GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS)) +# define GLM_DEPRECATED __declspec(deprecated) +# define GLM_ALIGNED_TYPEDEF(type, name, alignment) typedef __declspec(align(alignment)) type name +#elif GLM_COMPILER & (GLM_COMPILER_GCC | GLM_COMPILER_CLANG | GLM_COMPILER_INTEL) +# define GLM_DEPRECATED __attribute__((__deprecated__)) +# define GLM_ALIGNED_TYPEDEF(type, name, alignment) typedef type name __attribute__((aligned(alignment))) +#elif GLM_COMPILER & GLM_COMPILER_CUDA +# define GLM_DEPRECATED +# define GLM_ALIGNED_TYPEDEF(type, name, alignment) typedef type name __align__(x) +#else +# define GLM_DEPRECATED +# define GLM_ALIGNED_TYPEDEF(type, name, alignment) typedef type name +#endif + +/////////////////////////////////////////////////////////////////////////////////// + +#ifdef GLM_FORCE_EXPLICIT_CTOR +# define GLM_EXPLICIT explicit +#else +# define GLM_EXPLICIT +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// SYCL + +#if GLM_COMPILER==GLM_COMPILER_SYCL + +#include +#include + +namespace glm { +namespace std { + // Import SYCL's functions into the namespace glm::std to force their usages. + // It's important to use the math built-in function (sin, exp, ...) + // of SYCL instead the std ones. + using namespace cl::sycl; + + /////////////////////////////////////////////////////////////////////////////// + // Import some "harmless" std's stuffs used by glm into + // the new glm::std namespace. + template + using numeric_limits = ::std::numeric_limits; + + using ::std::size_t; + + using ::std::uint8_t; + using ::std::uint16_t; + using ::std::uint32_t; + using ::std::uint64_t; + + using ::std::int8_t; + using ::std::int16_t; + using ::std::int32_t; + using ::std::int64_t; + + using ::std::make_unsigned; + /////////////////////////////////////////////////////////////////////////////// +} //namespace std +} //namespace glm + +#endif + +/////////////////////////////////////////////////////////////////////////////////// + +/////////////////////////////////////////////////////////////////////////////////// +// Length type: all length functions returns a length_t type. +// When GLM_FORCE_SIZE_T_LENGTH is defined, length_t is a typedef of size_t otherwise +// length_t is a typedef of int like GLSL defines it. + +#define GLM_LENGTH_INT 1 +#define GLM_LENGTH_SIZE_T 2 + +#ifdef GLM_FORCE_SIZE_T_LENGTH +# define GLM_CONFIG_LENGTH_TYPE GLM_LENGTH_SIZE_T +#else +# define GLM_CONFIG_LENGTH_TYPE GLM_LENGTH_INT +#endif + +namespace glm +{ + using std::size_t; +# if GLM_CONFIG_LENGTH_TYPE == GLM_LENGTH_SIZE_T + typedef size_t length_t; +# else + typedef int length_t; +# endif +}//namespace glm + +/////////////////////////////////////////////////////////////////////////////////// +// constexpr + +#if GLM_HAS_CONSTEXPR +# define GLM_CONFIG_CONSTEXP GLM_ENABLE + + namespace glm + { + template + constexpr std::size_t countof(T const (&)[N]) + { + return N; + } + }//namespace glm +# define GLM_COUNTOF(arr) glm::countof(arr) +#elif defined(_MSC_VER) +# define GLM_CONFIG_CONSTEXP GLM_DISABLE + +# define GLM_COUNTOF(arr) _countof(arr) +#else +# define GLM_CONFIG_CONSTEXP GLM_DISABLE + +# define GLM_COUNTOF(arr) sizeof(arr) / sizeof(arr[0]) +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// uint + +namespace glm{ +namespace detail +{ + template + struct is_int + { + enum test {value = 0}; + }; + + template<> + struct is_int + { + enum test {value = ~0}; + }; + + template<> + struct is_int + { + enum test {value = ~0}; + }; +}//namespace detail + + typedef unsigned int uint; +}//namespace glm + +/////////////////////////////////////////////////////////////////////////////////// +// 64-bit int + +#if GLM_HAS_EXTENDED_INTEGER_TYPE +# include +#endif + +namespace glm{ +namespace detail +{ +# if GLM_HAS_EXTENDED_INTEGER_TYPE + typedef std::uint64_t uint64; + typedef std::int64_t int64; +# elif (defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)) // C99 detected, 64 bit types available + typedef uint64_t uint64; + typedef int64_t int64; +# elif GLM_COMPILER & GLM_COMPILER_VC + typedef unsigned __int64 uint64; + typedef signed __int64 int64; +# elif GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic ignored "-Wlong-long" + __extension__ typedef unsigned long long uint64; + __extension__ typedef signed long long int64; +# elif (GLM_COMPILER & GLM_COMPILER_CLANG) +# pragma clang diagnostic ignored "-Wc++11-long-long" + typedef unsigned long long uint64; + typedef signed long long int64; +# else//unknown compiler + typedef unsigned long long uint64; + typedef signed long long int64; +# endif +}//namespace detail +}//namespace glm + +/////////////////////////////////////////////////////////////////////////////////// +// make_unsigned + +#if GLM_HAS_MAKE_SIGNED +# include + +namespace glm{ +namespace detail +{ + using std::make_unsigned; +}//namespace detail +}//namespace glm + +#else + +namespace glm{ +namespace detail +{ + template + struct make_unsigned + {}; + + template<> + struct make_unsigned + { + typedef unsigned char type; + }; + + template<> + struct make_unsigned + { + typedef unsigned char type; + }; + + template<> + struct make_unsigned + { + typedef unsigned short type; + }; + + template<> + struct make_unsigned + { + typedef unsigned int type; + }; + + template<> + struct make_unsigned + { + typedef unsigned long type; + }; + + template<> + struct make_unsigned + { + typedef uint64 type; + }; + + template<> + struct make_unsigned + { + typedef unsigned char type; + }; + + template<> + struct make_unsigned + { + typedef unsigned short type; + }; + + template<> + struct make_unsigned + { + typedef unsigned int type; + }; + + template<> + struct make_unsigned + { + typedef unsigned long type; + }; + + template<> + struct make_unsigned + { + typedef uint64 type; + }; +}//namespace detail +}//namespace glm +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Only use x, y, z, w as vector type components + +#ifdef GLM_FORCE_XYZW_ONLY +# define GLM_CONFIG_XYZW_ONLY GLM_ENABLE +#else +# define GLM_CONFIG_XYZW_ONLY GLM_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Configure the use of defaulted initialized types + +#define GLM_CTOR_INIT_DISABLE 0 +#define GLM_CTOR_INITIALIZER_LIST 1 +#define GLM_CTOR_INITIALISATION 2 + +#if defined(GLM_FORCE_CTOR_INIT) && GLM_HAS_INITIALIZER_LISTS +# define GLM_CONFIG_CTOR_INIT GLM_CTOR_INITIALIZER_LIST +#elif defined(GLM_FORCE_CTOR_INIT) && !GLM_HAS_INITIALIZER_LISTS +# define GLM_CONFIG_CTOR_INIT GLM_CTOR_INITIALISATION +#else +# define GLM_CONFIG_CTOR_INIT GLM_CTOR_INIT_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Use SIMD instruction sets + +#if GLM_HAS_ALIGNOF && (GLM_LANG & GLM_LANG_CXXMS_FLAG) && (GLM_ARCH & GLM_ARCH_SIMD_BIT) +# define GLM_CONFIG_SIMD GLM_ENABLE +#else +# define GLM_CONFIG_SIMD GLM_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Configure the use of defaulted function + +#if GLM_HAS_DEFAULTED_FUNCTIONS && GLM_CONFIG_CTOR_INIT == GLM_CTOR_INIT_DISABLE +# define GLM_CONFIG_DEFAULTED_FUNCTIONS GLM_ENABLE +# define GLM_DEFAULT = default +#else +# define GLM_CONFIG_DEFAULTED_FUNCTIONS GLM_DISABLE +# define GLM_DEFAULT +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Configure the use of aligned gentypes + +#ifdef GLM_FORCE_ALIGNED // Legacy define +# define GLM_FORCE_DEFAULT_ALIGNED_GENTYPES +#endif + +#ifdef GLM_FORCE_DEFAULT_ALIGNED_GENTYPES +# define GLM_FORCE_ALIGNED_GENTYPES +#endif + +#if GLM_HAS_ALIGNOF && (GLM_LANG & GLM_LANG_CXXMS_FLAG) && (defined(GLM_FORCE_ALIGNED_GENTYPES) || (GLM_CONFIG_SIMD == GLM_ENABLE)) +# define GLM_CONFIG_ALIGNED_GENTYPES GLM_ENABLE +#else +# define GLM_CONFIG_ALIGNED_GENTYPES GLM_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Configure the use of anonymous structure as implementation detail + +#if ((GLM_CONFIG_SIMD == GLM_ENABLE) || (GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR) || (GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE)) +# define GLM_CONFIG_ANONYMOUS_STRUCT GLM_ENABLE +#else +# define GLM_CONFIG_ANONYMOUS_STRUCT GLM_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Silent warnings + +#ifdef GLM_FORCE_SILENT_WARNINGS +# define GLM_SILENT_WARNINGS GLM_ENABLE +#else +# define GLM_SILENT_WARNINGS GLM_DISABLE +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Precision + +#define GLM_HIGHP 1 +#define GLM_MEDIUMP 2 +#define GLM_LOWP 3 + +#if defined(GLM_FORCE_PRECISION_HIGHP_BOOL) || defined(GLM_PRECISION_HIGHP_BOOL) +# define GLM_CONFIG_PRECISION_BOOL GLM_HIGHP +#elif defined(GLM_FORCE_PRECISION_MEDIUMP_BOOL) || defined(GLM_PRECISION_MEDIUMP_BOOL) +# define GLM_CONFIG_PRECISION_BOOL GLM_MEDIUMP +#elif defined(GLM_FORCE_PRECISION_LOWP_BOOL) || defined(GLM_PRECISION_LOWP_BOOL) +# define GLM_CONFIG_PRECISION_BOOL GLM_LOWP +#else +# define GLM_CONFIG_PRECISION_BOOL GLM_HIGHP +#endif + +#if defined(GLM_FORCE_PRECISION_HIGHP_INT) || defined(GLM_PRECISION_HIGHP_INT) +# define GLM_CONFIG_PRECISION_INT GLM_HIGHP +#elif defined(GLM_FORCE_PRECISION_MEDIUMP_INT) || defined(GLM_PRECISION_MEDIUMP_INT) +# define GLM_CONFIG_PRECISION_INT GLM_MEDIUMP +#elif defined(GLM_FORCE_PRECISION_LOWP_INT) || defined(GLM_PRECISION_LOWP_INT) +# define GLM_CONFIG_PRECISION_INT GLM_LOWP +#else +# define GLM_CONFIG_PRECISION_INT GLM_HIGHP +#endif + +#if defined(GLM_FORCE_PRECISION_HIGHP_UINT) || defined(GLM_PRECISION_HIGHP_UINT) +# define GLM_CONFIG_PRECISION_UINT GLM_HIGHP +#elif defined(GLM_FORCE_PRECISION_MEDIUMP_UINT) || defined(GLM_PRECISION_MEDIUMP_UINT) +# define GLM_CONFIG_PRECISION_UINT GLM_MEDIUMP +#elif defined(GLM_FORCE_PRECISION_LOWP_UINT) || defined(GLM_PRECISION_LOWP_UINT) +# define GLM_CONFIG_PRECISION_UINT GLM_LOWP +#else +# define GLM_CONFIG_PRECISION_UINT GLM_HIGHP +#endif + +#if defined(GLM_FORCE_PRECISION_HIGHP_FLOAT) || defined(GLM_PRECISION_HIGHP_FLOAT) +# define GLM_CONFIG_PRECISION_FLOAT GLM_HIGHP +#elif defined(GLM_FORCE_PRECISION_MEDIUMP_FLOAT) || defined(GLM_PRECISION_MEDIUMP_FLOAT) +# define GLM_CONFIG_PRECISION_FLOAT GLM_MEDIUMP +#elif defined(GLM_FORCE_PRECISION_LOWP_FLOAT) || defined(GLM_PRECISION_LOWP_FLOAT) +# define GLM_CONFIG_PRECISION_FLOAT GLM_LOWP +#else +# define GLM_CONFIG_PRECISION_FLOAT GLM_HIGHP +#endif + +#if defined(GLM_FORCE_PRECISION_HIGHP_DOUBLE) || defined(GLM_PRECISION_HIGHP_DOUBLE) +# define GLM_CONFIG_PRECISION_DOUBLE GLM_HIGHP +#elif defined(GLM_FORCE_PRECISION_MEDIUMP_DOUBLE) || defined(GLM_PRECISION_MEDIUMP_DOUBLE) +# define GLM_CONFIG_PRECISION_DOUBLE GLM_MEDIUMP +#elif defined(GLM_FORCE_PRECISION_LOWP_DOUBLE) || defined(GLM_PRECISION_LOWP_DOUBLE) +# define GLM_CONFIG_PRECISION_DOUBLE GLM_LOWP +#else +# define GLM_CONFIG_PRECISION_DOUBLE GLM_HIGHP +#endif + +/////////////////////////////////////////////////////////////////////////////////// +// Check inclusions of different versions of GLM + +#elif ((GLM_SETUP_INCLUDED != GLM_VERSION) && !defined(GLM_FORCE_IGNORE_VERSION)) +# error "GLM error: A different version of GLM is already included. Define GLM_FORCE_IGNORE_VERSION before including GLM headers to ignore this error." +#elif GLM_SETUP_INCLUDED == GLM_VERSION + +/////////////////////////////////////////////////////////////////////////////////// +// Messages + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_MESSAGE_DISPLAYED) +# define GLM_MESSAGE_DISPLAYED +# define GLM_STR_HELPER(x) #x +# define GLM_STR(x) GLM_STR_HELPER(x) + + // Report GLM version +# pragma message (GLM_STR(GLM_VERSION_MESSAGE)) + + // Report C++ language +# if (GLM_LANG & GLM_LANG_CXX2A_FLAG) && (GLM_LANG & GLM_LANG_EXT) +# pragma message("GLM: C++ 2A with extensions") +# elif (GLM_LANG & GLM_LANG_CXX2A_FLAG) +# pragma message("GLM: C++ 2A") +# elif (GLM_LANG & GLM_LANG_CXX17_FLAG) && (GLM_LANG & GLM_LANG_EXT) +# pragma message("GLM: C++ 17 with extensions") +# elif (GLM_LANG & GLM_LANG_CXX17_FLAG) +# pragma message("GLM: C++ 17") +# elif (GLM_LANG & GLM_LANG_CXX14_FLAG) && (GLM_LANG & GLM_LANG_EXT) +# pragma message("GLM: C++ 14 with extensions") +# elif (GLM_LANG & GLM_LANG_CXX14_FLAG) +# pragma message("GLM: C++ 14") +# elif (GLM_LANG & GLM_LANG_CXX11_FLAG) && (GLM_LANG & GLM_LANG_EXT) +# pragma message("GLM: C++ 11 with extensions") +# elif (GLM_LANG & GLM_LANG_CXX11_FLAG) +# pragma message("GLM: C++ 11") +# elif (GLM_LANG & GLM_LANG_CXX0X_FLAG) && (GLM_LANG & GLM_LANG_EXT) +# pragma message("GLM: C++ 0x with extensions") +# elif (GLM_LANG & GLM_LANG_CXX0X_FLAG) +# pragma message("GLM: C++ 0x") +# elif (GLM_LANG & GLM_LANG_CXX03_FLAG) && (GLM_LANG & GLM_LANG_EXT) +# pragma message("GLM: C++ 03 with extensions") +# elif (GLM_LANG & GLM_LANG_CXX03_FLAG) +# pragma message("GLM: C++ 03") +# elif (GLM_LANG & GLM_LANG_CXX98_FLAG) && (GLM_LANG & GLM_LANG_EXT) +# pragma message("GLM: C++ 98 with extensions") +# elif (GLM_LANG & GLM_LANG_CXX98_FLAG) +# pragma message("GLM: C++ 98") +# else +# pragma message("GLM: C++ language undetected") +# endif//GLM_LANG + + // Report compiler detection +# if GLM_COMPILER & GLM_COMPILER_CUDA +# pragma message("GLM: CUDA compiler detected") +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma message("GLM: Visual C++ compiler detected") +# elif GLM_COMPILER & GLM_COMPILER_CLANG +# pragma message("GLM: Clang compiler detected") +# elif GLM_COMPILER & GLM_COMPILER_INTEL +# pragma message("GLM: Intel Compiler detected") +# elif GLM_COMPILER & GLM_COMPILER_GCC +# pragma message("GLM: GCC compiler detected") +# else +# pragma message("GLM: Compiler not detected") +# endif + + // Report build target +# if (GLM_ARCH & GLM_ARCH_AVX2_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits with AVX2 instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_AVX2_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits with AVX2 instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_AVX_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits with AVX instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_AVX_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits with AVX instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_SSE42_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits with SSE4.2 instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_SSE42_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits with SSE4.2 instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_SSE41_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits with SSE4.1 instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_SSE41_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits with SSE4.1 instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_SSSE3_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits with SSSE3 instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_SSSE3_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits with SSSE3 instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_SSE3_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits with SSE3 instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_SSE3_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits with SSE3 instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_SSE2_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits with SSE2 instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_SSE2_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits with SSE2 instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_X86_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: x86 64 bits build target") +# elif (GLM_ARCH & GLM_ARCH_X86_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: x86 32 bits build target") + +# elif (GLM_ARCH & GLM_ARCH_NEON_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: ARM 64 bits with Neon instruction set build target") +# elif (GLM_ARCH & GLM_ARCH_NEON_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: ARM 32 bits with Neon instruction set build target") + +# elif (GLM_ARCH & GLM_ARCH_ARM_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: ARM 64 bits build target") +# elif (GLM_ARCH & GLM_ARCH_ARM_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: ARM 32 bits build target") + +# elif (GLM_ARCH & GLM_ARCH_MIPS_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: MIPS 64 bits build target") +# elif (GLM_ARCH & GLM_ARCH_MIPS_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: MIPS 32 bits build target") + +# elif (GLM_ARCH & GLM_ARCH_PPC_BIT) && (GLM_MODEL == GLM_MODEL_64) +# pragma message("GLM: PowerPC 64 bits build target") +# elif (GLM_ARCH & GLM_ARCH_PPC_BIT) && (GLM_MODEL == GLM_MODEL_32) +# pragma message("GLM: PowerPC 32 bits build target") +# else +# pragma message("GLM: Unknown build target") +# endif//GLM_ARCH + + // Report platform name +# if(GLM_PLATFORM & GLM_PLATFORM_QNXNTO) +# pragma message("GLM: QNX platform detected") +//# elif(GLM_PLATFORM & GLM_PLATFORM_IOS) +//# pragma message("GLM: iOS platform detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_APPLE) +# pragma message("GLM: Apple platform detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_WINCE) +# pragma message("GLM: WinCE platform detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_WINDOWS) +# pragma message("GLM: Windows platform detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_CHROME_NACL) +# pragma message("GLM: Native Client detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) +# pragma message("GLM: Android platform detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_LINUX) +# pragma message("GLM: Linux platform detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_UNIX) +# pragma message("GLM: UNIX platform detected") +# elif(GLM_PLATFORM & GLM_PLATFORM_UNKNOWN) +# pragma message("GLM: platform unknown") +# else +# pragma message("GLM: platform not detected") +# endif + + // Report whether only xyzw component are used +# if defined GLM_FORCE_XYZW_ONLY +# pragma message("GLM: GLM_FORCE_XYZW_ONLY is defined. Only x, y, z and w component are available in vector type. This define disables swizzle operators and SIMD instruction sets.") +# endif + + // Report swizzle operator support +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR +# pragma message("GLM: GLM_FORCE_SWIZZLE is defined, swizzling operators enabled.") +# elif GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION +# pragma message("GLM: GLM_FORCE_SWIZZLE is defined, swizzling functions enabled. Enable compiler C++ language extensions to enable swizzle operators.") +# else +# pragma message("GLM: GLM_FORCE_SWIZZLE is undefined. swizzling functions or operators are disabled.") +# endif + + // Report .length() type +# if GLM_CONFIG_LENGTH_TYPE == GLM_LENGTH_SIZE_T +# pragma message("GLM: GLM_FORCE_SIZE_T_LENGTH is defined. .length() returns a glm::length_t, a typedef of std::size_t.") +# else +# pragma message("GLM: GLM_FORCE_SIZE_T_LENGTH is undefined. .length() returns a glm::length_t, a typedef of int following GLSL.") +# endif + +# if GLM_CONFIG_UNRESTRICTED_GENTYPE == GLM_ENABLE +# pragma message("GLM: GLM_FORCE_UNRESTRICTED_GENTYPE is defined. Removes GLSL restrictions on valid function genTypes.") +# else +# pragma message("GLM: GLM_FORCE_UNRESTRICTED_GENTYPE is undefined. Follows strictly GLSL on valid function genTypes.") +# endif + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# pragma message("GLM: GLM_FORCE_SILENT_WARNINGS is defined. Ignores C++ warnings from using C++ language extensions.") +# else +# pragma message("GLM: GLM_FORCE_SILENT_WARNINGS is undefined. Shows C++ warnings from using C++ language extensions.") +# endif + +# ifdef GLM_FORCE_SINGLE_ONLY +# pragma message("GLM: GLM_FORCE_SINGLE_ONLY is defined. Using only single precision floating-point types.") +# endif + +# if defined(GLM_FORCE_ALIGNED_GENTYPES) && (GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE) +# undef GLM_FORCE_ALIGNED_GENTYPES +# pragma message("GLM: GLM_FORCE_ALIGNED_GENTYPES is defined, allowing aligned types. This prevents the use of C++ constexpr.") +# elif defined(GLM_FORCE_ALIGNED_GENTYPES) && (GLM_CONFIG_ALIGNED_GENTYPES == GLM_DISABLE) +# undef GLM_FORCE_ALIGNED_GENTYPES +# pragma message("GLM: GLM_FORCE_ALIGNED_GENTYPES is defined but is disabled. It requires C++11 and language extensions.") +# endif + +# if defined(GLM_FORCE_DEFAULT_ALIGNED_GENTYPES) +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_DISABLE +# undef GLM_FORCE_DEFAULT_ALIGNED_GENTYPES +# pragma message("GLM: GLM_FORCE_DEFAULT_ALIGNED_GENTYPES is defined but is disabled. It requires C++11 and language extensions.") +# elif GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE +# pragma message("GLM: GLM_FORCE_DEFAULT_ALIGNED_GENTYPES is defined. All gentypes (e.g. vec3) will be aligned and padded by default.") +# endif +# endif + +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT +# pragma message("GLM: GLM_FORCE_DEPTH_ZERO_TO_ONE is defined. Using zero to one depth clip space.") +# else +# pragma message("GLM: GLM_FORCE_DEPTH_ZERO_TO_ONE is undefined. Using negative one to one depth clip space.") +# endif + +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT +# pragma message("GLM: GLM_FORCE_LEFT_HANDED is defined. Using left handed coordinate system.") +# else +# pragma message("GLM: GLM_FORCE_LEFT_HANDED is undefined. Using right handed coordinate system.") +# endif +#endif//GLM_MESSAGES + +#endif//GLM_SETUP_INCLUDED diff --git a/Vulkan/ext/include/glm/detail/type_float.hpp b/Vulkan/ext/include/glm/detail/type_float.hpp new file mode 100644 index 0000000..c8037eb --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_float.hpp @@ -0,0 +1,68 @@ +#pragma once + +#include "setup.hpp" + +#if GLM_COMPILER == GLM_COMPILER_VC12 +# pragma warning(push) +# pragma warning(disable: 4512) // assignment operator could not be generated +#endif + +namespace glm{ +namespace detail +{ + template + union float_t + {}; + + // https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/ + template <> + union float_t + { + typedef int int_type; + typedef float float_type; + + GLM_CONSTEXPR float_t(float_type Num = 0.0f) : f(Num) {} + + GLM_CONSTEXPR float_t& operator=(float_t const& x) + { + f = x.f; + return *this; + } + + // Portable extraction of components. + GLM_CONSTEXPR bool negative() const { return i < 0; } + GLM_CONSTEXPR int_type mantissa() const { return i & ((1 << 23) - 1); } + GLM_CONSTEXPR int_type exponent() const { return (i >> 23) & ((1 << 8) - 1); } + + int_type i; + float_type f; + }; + + template <> + union float_t + { + typedef detail::int64 int_type; + typedef double float_type; + + GLM_CONSTEXPR float_t(float_type Num = static_cast(0)) : f(Num) {} + + GLM_CONSTEXPR float_t& operator=(float_t const& x) + { + f = x.f; + return *this; + } + + // Portable extraction of components. + GLM_CONSTEXPR bool negative() const { return i < 0; } + GLM_CONSTEXPR int_type mantissa() const { return i & ((int_type(1) << 52) - 1); } + GLM_CONSTEXPR int_type exponent() const { return (i >> 52) & ((int_type(1) << 11) - 1); } + + int_type i; + float_type f; + }; +}//namespace detail +}//namespace glm + +#if GLM_COMPILER == GLM_COMPILER_VC12 +# pragma warning(pop) +#endif diff --git a/Vulkan/ext/include/glm/detail/type_half.hpp b/Vulkan/ext/include/glm/detail/type_half.hpp new file mode 100644 index 0000000..40b8bec --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_half.hpp @@ -0,0 +1,16 @@ +#pragma once + +#include "setup.hpp" + +namespace glm{ +namespace detail +{ + typedef short hdata; + + GLM_FUNC_DECL float toFloat32(hdata value); + GLM_FUNC_DECL hdata toFloat16(float const& value); + +}//namespace detail +}//namespace glm + +#include "type_half.inl" diff --git a/Vulkan/ext/include/glm/detail/type_half.inl b/Vulkan/ext/include/glm/detail/type_half.inl new file mode 100644 index 0000000..b0723e3 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_half.inl @@ -0,0 +1,241 @@ +namespace glm{ +namespace detail +{ + GLM_FUNC_QUALIFIER float overflow() + { + volatile float f = 1e10; + + for(int i = 0; i < 10; ++i) + f *= f; // this will overflow before the for loop terminates + return f; + } + + union uif32 + { + GLM_FUNC_QUALIFIER uif32() : + i(0) + {} + + GLM_FUNC_QUALIFIER uif32(float f_) : + f(f_) + {} + + GLM_FUNC_QUALIFIER uif32(unsigned int i_) : + i(i_) + {} + + float f; + unsigned int i; + }; + + GLM_FUNC_QUALIFIER float toFloat32(hdata value) + { + int s = (value >> 15) & 0x00000001; + int e = (value >> 10) & 0x0000001f; + int m = value & 0x000003ff; + + if(e == 0) + { + if(m == 0) + { + // + // Plus or minus zero + // + + detail::uif32 result; + result.i = static_cast(s << 31); + return result.f; + } + else + { + // + // Denormalized number -- renormalize it + // + + while(!(m & 0x00000400)) + { + m <<= 1; + e -= 1; + } + + e += 1; + m &= ~0x00000400; + } + } + else if(e == 31) + { + if(m == 0) + { + // + // Positive or negative infinity + // + + uif32 result; + result.i = static_cast((s << 31) | 0x7f800000); + return result.f; + } + else + { + // + // Nan -- preserve sign and significand bits + // + + uif32 result; + result.i = static_cast((s << 31) | 0x7f800000 | (m << 13)); + return result.f; + } + } + + // + // Normalized number + // + + e = e + (127 - 15); + m = m << 13; + + // + // Assemble s, e and m. + // + + uif32 Result; + Result.i = static_cast((s << 31) | (e << 23) | m); + return Result.f; + } + + GLM_FUNC_QUALIFIER hdata toFloat16(float const& f) + { + uif32 Entry; + Entry.f = f; + int i = static_cast(Entry.i); + + // + // Our floating point number, f, is represented by the bit + // pattern in integer i. Disassemble that bit pattern into + // the sign, s, the exponent, e, and the significand, m. + // Shift s into the position where it will go in the + // resulting half number. + // Adjust e, accounting for the different exponent bias + // of float and half (127 versus 15). + // + + int s = (i >> 16) & 0x00008000; + int e = ((i >> 23) & 0x000000ff) - (127 - 15); + int m = i & 0x007fffff; + + // + // Now reassemble s, e and m into a half: + // + + if(e <= 0) + { + if(e < -10) + { + // + // E is less than -10. The absolute value of f is + // less than half_MIN (f may be a small normalized + // float, a denormalized float or a zero). + // + // We convert f to a half zero. + // + + return hdata(s); + } + + // + // E is between -10 and 0. F is a normalized float, + // whose magnitude is less than __half_NRM_MIN. + // + // We convert f to a denormalized half. + // + + m = (m | 0x00800000) >> (1 - e); + + // + // Round to nearest, round "0.5" up. + // + // Rounding may cause the significand to overflow and make + // our number normalized. Because of the way a half's bits + // are laid out, we don't have to treat this case separately; + // the code below will handle it correctly. + // + + if(m & 0x00001000) + m += 0x00002000; + + // + // Assemble the half from s, e (zero) and m. + // + + return hdata(s | (m >> 13)); + } + else if(e == 0xff - (127 - 15)) + { + if(m == 0) + { + // + // F is an infinity; convert f to a half + // infinity with the same sign as f. + // + + return hdata(s | 0x7c00); + } + else + { + // + // F is a NAN; we produce a half NAN that preserves + // the sign bit and the 10 leftmost bits of the + // significand of f, with one exception: If the 10 + // leftmost bits are all zero, the NAN would turn + // into an infinity, so we have to set at least one + // bit in the significand. + // + + m >>= 13; + + return hdata(s | 0x7c00 | m | (m == 0)); + } + } + else + { + // + // E is greater than zero. F is a normalized float. + // We try to convert f to a normalized half. + // + + // + // Round to nearest, round "0.5" up + // + + if(m & 0x00001000) + { + m += 0x00002000; + + if(m & 0x00800000) + { + m = 0; // overflow in significand, + e += 1; // adjust exponent + } + } + + // + // Handle exponent overflow + // + + if (e > 30) + { + overflow(); // Cause a hardware floating point overflow; + + return hdata(s | 0x7c00); + // if this returns, the half becomes an + } // infinity with the same sign as f. + + // + // Assemble the half from s, e and m. + // + + return hdata(s | (e << 10) | (m >> 13)); + } + } + +}//namespace detail +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat2x2.hpp b/Vulkan/ext/include/glm/detail/type_mat2x2.hpp new file mode 100644 index 0000000..033908f --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat2x2.hpp @@ -0,0 +1,177 @@ +/// @ref core +/// @file glm/detail/type_mat2x2.hpp + +#pragma once + +#include "type_vec2.hpp" +#include +#include + +namespace glm +{ + template + struct mat<2, 2, T, Q> + { + typedef vec<2, T, Q> col_type; + typedef vec<2, T, Q> row_type; + typedef mat<2, 2, T, Q> type; + typedef mat<2, 2, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[2]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 2; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<2, 2, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T const& x1, T const& y1, + T const& x2, T const& y2); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v1, + col_type const& v2); + + // -- Conversions -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + U const& x1, V const& y1, + M const& x2, N const& y2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<2, U, Q> const& v1, + vec<2, V, Q> const& v2); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator=(mat<2, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator+=(mat<2, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator-=(mat<2, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator*=(mat<2, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator/=(U s); + template + GLM_FUNC_DECL mat<2, 2, T, Q> & operator/=(mat<2, 2, U, Q> const& m); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<2, 2, T, Q> & operator++ (); + GLM_FUNC_DECL mat<2, 2, T, Q> & operator-- (); + GLM_FUNC_DECL mat<2, 2, T, Q> operator++(int); + GLM_FUNC_DECL mat<2, 2, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator+(mat<2, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator-(mat<2, 2, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator+(mat<2, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator+(T scalar, mat<2, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator+(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator-(mat<2, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator-(T scalar, mat<2, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator-(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator*(mat<2, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator*(T scalar, mat<2, 2, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<2, 2, T, Q>::col_type operator*(mat<2, 2, T, Q> const& m, typename mat<2, 2, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<2, 2, T, Q>::row_type operator*(typename mat<2, 2, T, Q>::col_type const& v, mat<2, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator*(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator*(mat<2, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator*(mat<2, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator/(mat<2, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator/(T scalar, mat<2, 2, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<2, 2, T, Q>::col_type operator/(mat<2, 2, T, Q> const& m, typename mat<2, 2, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<2, 2, T, Q>::row_type operator/(typename mat<2, 2, T, Q>::col_type const& v, mat<2, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator/(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2); +} //namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat2x2.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat2x2.inl b/Vulkan/ext/include/glm/detail/type_mat2x2.inl new file mode 100644 index 0000000..fe5d1aa --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat2x2.inl @@ -0,0 +1,536 @@ +#include "../matrix.hpp" + +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0), col_type(0, 1)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0); + this->value[1] = col_type(0, 1); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<2, 2, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{m[0], m[1]} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(T scalar) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(scalar, 0), col_type(0, scalar)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(scalar, 0); + this->value[1] = col_type(0, scalar); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat + ( + T const& x0, T const& y0, + T const& x1, T const& y1 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0), col_type(x1, y1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0); + this->value[1] = col_type(x1, y1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(col_type const& v0, col_type const& v1) +# if GLM_HAS_INITIALIZER_LISTS + : value{v0, v1} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = v0; + this->value[1] = v1; +# endif + } + + // -- Conversion constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat + ( + X1 const& x1, Y1 const& y1, + X2 const& x2, Y2 const& y2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(static_cast(x1), value_type(y1)), col_type(static_cast(x2), value_type(y2)) } +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(static_cast(x1), value_type(y1)); + this->value[1] = col_type(static_cast(x2), value_type(y2)); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(vec<2, V1, Q> const& v1, vec<2, V2, Q> const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v1); + this->value[1] = col_type(v2); +# endif + } + + // -- mat2x2 matrix conversions -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<2, 2, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 2, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<2, 2, T, Q>::col_type& mat<2, 2, T, Q>::operator[](typename mat<2, 2, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<2, 2, T, Q>::col_type const& mat<2, 2, T, Q>::operator[](typename mat<2, 2, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator=(mat<2, 2, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator+=(U scalar) + { + this->value[0] += scalar; + this->value[1] += scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator+=(mat<2, 2, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator-=(U scalar) + { + this->value[0] -= scalar; + this->value[1] -= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator-=(mat<2, 2, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator*=(U scalar) + { + this->value[0] *= scalar; + this->value[1] *= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator*=(mat<2, 2, U, Q> const& m) + { + return (*this = *this * m); + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator/=(U scalar) + { + this->value[0] /= scalar; + this->value[1] /= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator/=(mat<2, 2, U, Q> const& m) + { + return *this *= inverse(m); + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q>& mat<2, 2, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> mat<2, 2, T, Q>::operator++(int) + { + mat<2, 2, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> mat<2, 2, T, Q>::operator--(int) + { + mat<2, 2, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator+(mat<2, 2, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator-(mat<2, 2, T, Q> const& m) + { + return mat<2, 2, T, Q>( + -m[0], + -m[1]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator+(mat<2, 2, T, Q> const& m, T scalar) + { + return mat<2, 2, T, Q>( + m[0] + scalar, + m[1] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator+(T scalar, mat<2, 2, T, Q> const& m) + { + return mat<2, 2, T, Q>( + m[0] + scalar, + m[1] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator+(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + return mat<2, 2, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator-(mat<2, 2, T, Q> const& m, T scalar) + { + return mat<2, 2, T, Q>( + m[0] - scalar, + m[1] - scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator-(T scalar, mat<2, 2, T, Q> const& m) + { + return mat<2, 2, T, Q>( + scalar - m[0], + scalar - m[1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator-(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + return mat<2, 2, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator*(mat<2, 2, T, Q> const& m, T scalar) + { + return mat<2, 2, T, Q>( + m[0] * scalar, + m[1] * scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator*(T scalar, mat<2, 2, T, Q> const& m) + { + return mat<2, 2, T, Q>( + m[0] * scalar, + m[1] * scalar); + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 2, T, Q>::col_type operator* + ( + mat<2, 2, T, Q> const& m, + typename mat<2, 2, T, Q>::row_type const& v + ) + { + return vec<2, T, Q>( + m[0][0] * v.x + m[1][0] * v.y, + m[0][1] * v.x + m[1][1] * v.y); + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 2, T, Q>::row_type operator* + ( + typename mat<2, 2, T, Q>::col_type const& v, + mat<2, 2, T, Q> const& m + ) + { + return vec<2, T, Q>( + v.x * m[0][0] + v.y * m[0][1], + v.x * m[1][0] + v.y * m[1][1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator*(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + return mat<2, 2, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator*(mat<2, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2) + { + return mat<3, 2, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator*(mat<2, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2) + { + return mat<4, 2, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1], + m1[0][0] * m2[3][0] + m1[1][0] * m2[3][1], + m1[0][1] * m2[3][0] + m1[1][1] * m2[3][1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator/(mat<2, 2, T, Q> const& m, T scalar) + { + return mat<2, 2, T, Q>( + m[0] / scalar, + m[1] / scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator/(T scalar, mat<2, 2, T, Q> const& m) + { + return mat<2, 2, T, Q>( + scalar / m[0], + scalar / m[1]); + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 2, T, Q>::col_type operator/(mat<2, 2, T, Q> const& m, typename mat<2, 2, T, Q>::row_type const& v) + { + return inverse(m) * v; + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 2, T, Q>::row_type operator/(typename mat<2, 2, T, Q>::col_type const& v, mat<2, 2, T, Q> const& m) + { + return v * inverse(m); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator/(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + mat<2, 2, T, Q> m1_copy(m1); + return m1_copy /= m2; + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<2, 2, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat2x3.hpp b/Vulkan/ext/include/glm/detail/type_mat2x3.hpp new file mode 100644 index 0000000..d6596e4 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat2x3.hpp @@ -0,0 +1,159 @@ +/// @ref core +/// @file glm/detail/type_mat2x3.hpp + +#pragma once + +#include "type_vec2.hpp" +#include "type_vec3.hpp" +#include +#include + +namespace glm +{ + template + struct mat<2, 3, T, Q> + { + typedef vec<3, T, Q> col_type; + typedef vec<2, T, Q> row_type; + typedef mat<2, 3, T, Q> type; + typedef mat<3, 2, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[2]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 2; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<2, 3, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T x0, T y0, T z0, + T x1, T y1, T z1); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1); + + // -- Conversions -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X1 x1, Y1 y1, Z1 z1, + X2 x2, Y2 y2, Z2 z2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<3, U, Q> const& v1, + vec<3, V, Q> const& v2); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<2, 3, T, Q> & operator=(mat<2, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 3, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<2, 3, T, Q> & operator+=(mat<2, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 3, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<2, 3, T, Q> & operator-=(mat<2, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 3, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<2, 3, T, Q> & operator/=(U s); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<2, 3, T, Q> & operator++ (); + GLM_FUNC_DECL mat<2, 3, T, Q> & operator-- (); + GLM_FUNC_DECL mat<2, 3, T, Q> operator++(int); + GLM_FUNC_DECL mat<2, 3, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator+(mat<2, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator-(mat<2, 3, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator+(mat<2, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator+(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator-(mat<2, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator-(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator*(mat<2, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator*(T scalar, mat<2, 3, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<2, 3, T, Q>::col_type operator*(mat<2, 3, T, Q> const& m, typename mat<2, 3, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<2, 3, T, Q>::row_type operator*(typename mat<2, 3, T, Q>::col_type const& v, mat<2, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator*(mat<2, 3, T, Q> const& m1, mat<2, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator*(mat<2, 3, T, Q> const& m1, mat<3, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator*(mat<2, 3, T, Q> const& m1, mat<4, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator/(mat<2, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator/(T scalar, mat<2, 3, T, Q> const& m); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat2x3.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat2x3.inl b/Vulkan/ext/include/glm/detail/type_mat2x3.inl new file mode 100644 index 0000000..5fec17e --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat2x3.inl @@ -0,0 +1,510 @@ +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0, 0), col_type(0, 1, 0)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0, 0); + this->value[1] = col_type(0, 1, 0); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<2, 3, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{m.value[0], m.value[1]} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m.value[0]; + this->value[1] = m.value[1]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(T scalar) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(scalar, 0, 0), col_type(0, scalar, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(scalar, 0, 0); + this->value[1] = col_type(0, scalar, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat + ( + T x0, T y0, T z0, + T x1, T y1, T z1 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0, z0), col_type(x1, y1, z1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0); + this->value[1] = col_type(x1, y1, z1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(col_type const& v0, col_type const& v1) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v0); + this->value[1] = col_type(v1); +# endif + } + + // -- Conversion constructors -- + + template + template< + typename X1, typename Y1, typename Z1, + typename X2, typename Y2, typename Z2> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat + ( + X1 x1, Y1 y1, Z1 z1, + X2 x2, Y2 y2, Z2 z2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x1, y1, z1), col_type(x2, y2, z2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x1, y1, z1); + this->value[1] = col_type(x2, y2, z2); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(vec<3, V1, Q> const& v1, vec<3, V2, Q> const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v1); + this->value[1] = col_type(v2); +# endif + } + + // -- Matrix conversions -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<2, 3, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 3, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<2, 3, T, Q>::col_type & mat<2, 3, T, Q>::operator[](typename mat<2, 3, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<2, 3, T, Q>::col_type const& mat<2, 3, T, Q>::operator[](typename mat<2, 3, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q>& mat<2, 3, T, Q>::operator=(mat<2, 3, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> & mat<2, 3, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q>& mat<2, 3, T, Q>::operator+=(mat<2, 3, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q>& mat<2, 3, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q>& mat<2, 3, T, Q>::operator-=(mat<2, 3, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q>& mat<2, 3, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> & mat<2, 3, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> & mat<2, 3, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> & mat<2, 3, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> mat<2, 3, T, Q>::operator++(int) + { + mat<2, 3, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> mat<2, 3, T, Q>::operator--(int) + { + mat<2, 3, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator+(mat<2, 3, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator-(mat<2, 3, T, Q> const& m) + { + return mat<2, 3, T, Q>( + -m[0], + -m[1]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator+(mat<2, 3, T, Q> const& m, T scalar) + { + return mat<2, 3, T, Q>( + m[0] + scalar, + m[1] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator+(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2) + { + return mat<2, 3, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator-(mat<2, 3, T, Q> const& m, T scalar) + { + return mat<2, 3, T, Q>( + m[0] - scalar, + m[1] - scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator-(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2) + { + return mat<2, 3, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator*(mat<2, 3, T, Q> const& m, T scalar) + { + return mat<2, 3, T, Q>( + m[0] * scalar, + m[1] * scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator*(T scalar, mat<2, 3, T, Q> const& m) + { + return mat<2, 3, T, Q>( + m[0] * scalar, + m[1] * scalar); + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 3, T, Q>::col_type operator* + ( + mat<2, 3, T, Q> const& m, + typename mat<2, 3, T, Q>::row_type const& v) + { + return typename mat<2, 3, T, Q>::col_type( + m[0][0] * v.x + m[1][0] * v.y, + m[0][1] * v.x + m[1][1] * v.y, + m[0][2] * v.x + m[1][2] * v.y); + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 3, T, Q>::row_type operator* + ( + typename mat<2, 3, T, Q>::col_type const& v, + mat<2, 3, T, Q> const& m) + { + return typename mat<2, 3, T, Q>::row_type( + v.x * m[0][0] + v.y * m[0][1] + v.z * m[0][2], + v.x * m[1][0] + v.y * m[1][1] + v.z * m[1][2]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator*(mat<2, 3, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + return mat<2, 3, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator*(mat<2, 3, T, Q> const& m1, mat<3, 2, T, Q> const& m2) + { + T SrcA00 = m1[0][0]; + T SrcA01 = m1[0][1]; + T SrcA02 = m1[0][2]; + T SrcA10 = m1[1][0]; + T SrcA11 = m1[1][1]; + T SrcA12 = m1[1][2]; + + T SrcB00 = m2[0][0]; + T SrcB01 = m2[0][1]; + T SrcB10 = m2[1][0]; + T SrcB11 = m2[1][1]; + T SrcB20 = m2[2][0]; + T SrcB21 = m2[2][1]; + + mat<3, 3, T, Q> Result; + Result[0][0] = SrcA00 * SrcB00 + SrcA10 * SrcB01; + Result[0][1] = SrcA01 * SrcB00 + SrcA11 * SrcB01; + Result[0][2] = SrcA02 * SrcB00 + SrcA12 * SrcB01; + Result[1][0] = SrcA00 * SrcB10 + SrcA10 * SrcB11; + Result[1][1] = SrcA01 * SrcB10 + SrcA11 * SrcB11; + Result[1][2] = SrcA02 * SrcB10 + SrcA12 * SrcB11; + Result[2][0] = SrcA00 * SrcB20 + SrcA10 * SrcB21; + Result[2][1] = SrcA01 * SrcB20 + SrcA11 * SrcB21; + Result[2][2] = SrcA02 * SrcB20 + SrcA12 * SrcB21; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator*(mat<2, 3, T, Q> const& m1, mat<4, 2, T, Q> const& m2) + { + return mat<4, 3, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1], + m1[0][2] * m2[2][0] + m1[1][2] * m2[2][1], + m1[0][0] * m2[3][0] + m1[1][0] * m2[3][1], + m1[0][1] * m2[3][0] + m1[1][1] * m2[3][1], + m1[0][2] * m2[3][0] + m1[1][2] * m2[3][1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator/(mat<2, 3, T, Q> const& m, T scalar) + { + return mat<2, 3, T, Q>( + m[0] / scalar, + m[1] / scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator/(T scalar, mat<2, 3, T, Q> const& m) + { + return mat<2, 3, T, Q>( + scalar / m[0], + scalar / m[1]); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<2, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat2x4.hpp b/Vulkan/ext/include/glm/detail/type_mat2x4.hpp new file mode 100644 index 0000000..ff03e21 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat2x4.hpp @@ -0,0 +1,161 @@ +/// @ref core +/// @file glm/detail/type_mat2x4.hpp + +#pragma once + +#include "type_vec2.hpp" +#include "type_vec4.hpp" +#include +#include + +namespace glm +{ + template + struct mat<2, 4, T, Q> + { + typedef vec<4, T, Q> col_type; + typedef vec<2, T, Q> row_type; + typedef mat<2, 4, T, Q> type; + typedef mat<4, 2, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[2]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 2; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<2, 4, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T x0, T y0, T z0, T w0, + T x1, T y1, T z1, T w1); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1); + + // -- Conversions -- + + template< + typename X1, typename Y1, typename Z1, typename W1, + typename X2, typename Y2, typename Z2, typename W2> + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X1 x1, Y1 y1, Z1 z1, W1 w1, + X2 x2, Y2 y2, Z2 z2, W2 w2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<4, U, Q> const& v1, + vec<4, V, Q> const& v2); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<2, 4, T, Q> & operator=(mat<2, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 4, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<2, 4, T, Q> & operator+=(mat<2, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 4, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<2, 4, T, Q> & operator-=(mat<2, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<2, 4, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<2, 4, T, Q> & operator/=(U s); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<2, 4, T, Q> & operator++ (); + GLM_FUNC_DECL mat<2, 4, T, Q> & operator-- (); + GLM_FUNC_DECL mat<2, 4, T, Q> operator++(int); + GLM_FUNC_DECL mat<2, 4, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator+(mat<2, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator-(mat<2, 4, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator+(mat<2, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator+(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator-(mat<2, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator-(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator*(mat<2, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator*(T scalar, mat<2, 4, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<2, 4, T, Q>::col_type operator*(mat<2, 4, T, Q> const& m, typename mat<2, 4, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<2, 4, T, Q>::row_type operator*(typename mat<2, 4, T, Q>::col_type const& v, mat<2, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator*(mat<2, 4, T, Q> const& m1, mat<4, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator*(mat<2, 4, T, Q> const& m1, mat<2, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator*(mat<2, 4, T, Q> const& m1, mat<3, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator/(mat<2, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator/(T scalar, mat<2, 4, T, Q> const& m); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat2x4.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat2x4.inl b/Vulkan/ext/include/glm/detail/type_mat2x4.inl new file mode 100644 index 0000000..b6d2b9d --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat2x4.inl @@ -0,0 +1,520 @@ +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0, 0, 0), col_type(0, 1, 0, 0)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0, 0, 0); + this->value[1] = col_type(0, 1, 0, 0); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<2, 4, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{m[0], m[1]} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(T s) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(s, 0, 0, 0), col_type(0, s, 0, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(s, 0, 0, 0); + this->value[1] = col_type(0, s, 0, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat + ( + T x0, T y0, T z0, T w0, + T x1, T y1, T z1, T w1 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0, z0, w0), col_type(x1, y1, z1, w1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0, w0); + this->value[1] = col_type(x1, y1, z1, w1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(col_type const& v0, col_type const& v1) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = v0; + this->value[1] = v1; +# endif + } + + // -- Conversion constructors -- + + template + template< + typename X1, typename Y1, typename Z1, typename W1, + typename X2, typename Y2, typename Z2, typename W2> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat + ( + X1 x1, Y1 y1, Z1 z1, W1 w1, + X2 x2, Y2 y2, Z2 z2, W2 w2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{ + col_type(x1, y1, z1, w1), + col_type(x2, y2, z2, w2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x1, y1, z1, w1); + this->value[1] = col_type(x2, y2, z2, w2); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(vec<4, V1, Q> const& v1, vec<4, V2, Q> const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v1); + this->value[1] = col_type(v2); +# endif + } + + // -- Matrix conversions -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<2, 4, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<2, 4, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<2, 4, T, Q>::col_type & mat<2, 4, T, Q>::operator[](typename mat<2, 4, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<2, 4, T, Q>::col_type const& mat<2, 4, T, Q>::operator[](typename mat<2, 4, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator=(mat<2, 4, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator+=(mat<2, 4, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator-=(mat<2, 4, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> & mat<2, 4, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q>& mat<2, 4, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> mat<2, 4, T, Q>::operator++(int) + { + mat<2, 4, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> mat<2, 4, T, Q>::operator--(int) + { + mat<2, 4, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator+(mat<2, 4, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator-(mat<2, 4, T, Q> const& m) + { + return mat<2, 4, T, Q>( + -m[0], + -m[1]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator+(mat<2, 4, T, Q> const& m, T scalar) + { + return mat<2, 4, T, Q>( + m[0] + scalar, + m[1] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator+(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2) + { + return mat<2, 4, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator-(mat<2, 4, T, Q> const& m, T scalar) + { + return mat<2, 4, T, Q>( + m[0] - scalar, + m[1] - scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator-(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2) + { + return mat<2, 4, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator*(mat<2, 4, T, Q> const& m, T scalar) + { + return mat<2, 4, T, Q>( + m[0] * scalar, + m[1] * scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator*(T scalar, mat<2, 4, T, Q> const& m) + { + return mat<2, 4, T, Q>( + m[0] * scalar, + m[1] * scalar); + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 4, T, Q>::col_type operator*(mat<2, 4, T, Q> const& m, typename mat<2, 4, T, Q>::row_type const& v) + { + return typename mat<2, 4, T, Q>::col_type( + m[0][0] * v.x + m[1][0] * v.y, + m[0][1] * v.x + m[1][1] * v.y, + m[0][2] * v.x + m[1][2] * v.y, + m[0][3] * v.x + m[1][3] * v.y); + } + + template + GLM_FUNC_QUALIFIER typename mat<2, 4, T, Q>::row_type operator*(typename mat<2, 4, T, Q>::col_type const& v, mat<2, 4, T, Q> const& m) + { + return typename mat<2, 4, T, Q>::row_type( + v.x * m[0][0] + v.y * m[0][1] + v.z * m[0][2] + v.w * m[0][3], + v.x * m[1][0] + v.y * m[1][1] + v.z * m[1][2] + v.w * m[1][3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator*(mat<2, 4, T, Q> const& m1, mat<4, 2, T, Q> const& m2) + { + T SrcA00 = m1[0][0]; + T SrcA01 = m1[0][1]; + T SrcA02 = m1[0][2]; + T SrcA03 = m1[0][3]; + T SrcA10 = m1[1][0]; + T SrcA11 = m1[1][1]; + T SrcA12 = m1[1][2]; + T SrcA13 = m1[1][3]; + + T SrcB00 = m2[0][0]; + T SrcB01 = m2[0][1]; + T SrcB10 = m2[1][0]; + T SrcB11 = m2[1][1]; + T SrcB20 = m2[2][0]; + T SrcB21 = m2[2][1]; + T SrcB30 = m2[3][0]; + T SrcB31 = m2[3][1]; + + mat<4, 4, T, Q> Result; + Result[0][0] = SrcA00 * SrcB00 + SrcA10 * SrcB01; + Result[0][1] = SrcA01 * SrcB00 + SrcA11 * SrcB01; + Result[0][2] = SrcA02 * SrcB00 + SrcA12 * SrcB01; + Result[0][3] = SrcA03 * SrcB00 + SrcA13 * SrcB01; + Result[1][0] = SrcA00 * SrcB10 + SrcA10 * SrcB11; + Result[1][1] = SrcA01 * SrcB10 + SrcA11 * SrcB11; + Result[1][2] = SrcA02 * SrcB10 + SrcA12 * SrcB11; + Result[1][3] = SrcA03 * SrcB10 + SrcA13 * SrcB11; + Result[2][0] = SrcA00 * SrcB20 + SrcA10 * SrcB21; + Result[2][1] = SrcA01 * SrcB20 + SrcA11 * SrcB21; + Result[2][2] = SrcA02 * SrcB20 + SrcA12 * SrcB21; + Result[2][3] = SrcA03 * SrcB20 + SrcA13 * SrcB21; + Result[3][0] = SrcA00 * SrcB30 + SrcA10 * SrcB31; + Result[3][1] = SrcA01 * SrcB30 + SrcA11 * SrcB31; + Result[3][2] = SrcA02 * SrcB30 + SrcA12 * SrcB31; + Result[3][3] = SrcA03 * SrcB30 + SrcA13 * SrcB31; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator*(mat<2, 4, T, Q> const& m1, mat<2, 2, T, Q> const& m2) + { + return mat<2, 4, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1], + m1[0][3] * m2[0][0] + m1[1][3] * m2[0][1], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1], + m1[0][3] * m2[1][0] + m1[1][3] * m2[1][1]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator*(mat<2, 4, T, Q> const& m1, mat<3, 2, T, Q> const& m2) + { + return mat<3, 4, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1], + m1[0][3] * m2[0][0] + m1[1][3] * m2[0][1], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1], + m1[0][3] * m2[1][0] + m1[1][3] * m2[1][1], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1], + m1[0][2] * m2[2][0] + m1[1][2] * m2[2][1], + m1[0][3] * m2[2][0] + m1[1][3] * m2[2][1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator/(mat<2, 4, T, Q> const& m, T scalar) + { + return mat<2, 4, T, Q>( + m[0] / scalar, + m[1] / scalar); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator/(T scalar, mat<2, 4, T, Q> const& m) + { + return mat<2, 4, T, Q>( + scalar / m[0], + scalar / m[1]); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<2, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat3x2.hpp b/Vulkan/ext/include/glm/detail/type_mat3x2.hpp new file mode 100644 index 0000000..e166581 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat3x2.hpp @@ -0,0 +1,167 @@ +/// @ref core +/// @file glm/detail/type_mat3x2.hpp + +#pragma once + +#include "type_vec2.hpp" +#include "type_vec3.hpp" +#include +#include + +namespace glm +{ + template + struct mat<3, 2, T, Q> + { + typedef vec<2, T, Q> col_type; + typedef vec<3, T, Q> row_type; + typedef mat<3, 2, T, Q> type; + typedef mat<2, 3, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[3]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 3; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<3, 2, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T x0, T y0, + T x1, T y1, + T x2, T y2); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1, + col_type const& v2); + + // -- Conversions -- + + template< + typename X1, typename Y1, + typename X2, typename Y2, + typename X3, typename Y3> + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X1 x1, Y1 y1, + X2 x2, Y2 y2, + X3 x3, Y3 y3); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<2, V1, Q> const& v1, + vec<2, V2, Q> const& v2, + vec<2, V3, Q> const& v3); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<3, 2, T, Q> & operator=(mat<3, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 2, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<3, 2, T, Q> & operator+=(mat<3, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 2, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<3, 2, T, Q> & operator-=(mat<3, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 2, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<3, 2, T, Q> & operator/=(U s); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<3, 2, T, Q> & operator++ (); + GLM_FUNC_DECL mat<3, 2, T, Q> & operator-- (); + GLM_FUNC_DECL mat<3, 2, T, Q> operator++(int); + GLM_FUNC_DECL mat<3, 2, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator+(mat<3, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator-(mat<3, 2, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator+(mat<3, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator+(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator-(mat<3, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator-(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator*(mat<3, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator*(T scalar, mat<3, 2, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<3, 2, T, Q>::col_type operator*(mat<3, 2, T, Q> const& m, typename mat<3, 2, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<3, 2, T, Q>::row_type operator*(typename mat<3, 2, T, Q>::col_type const& v, mat<3, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator*(mat<3, 2, T, Q> const& m1, mat<2, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator*(mat<3, 2, T, Q> const& m1, mat<3, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator*(mat<3, 2, T, Q> const& m1, mat<4, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator/(mat<3, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator/(T scalar, mat<3, 2, T, Q> const& m); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2); + +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat3x2.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat3x2.inl b/Vulkan/ext/include/glm/detail/type_mat3x2.inl new file mode 100644 index 0000000..b4b948b --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat3x2.inl @@ -0,0 +1,532 @@ +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0), col_type(0, 1), col_type(0, 0)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0); + this->value[1] = col_type(0, 1); + this->value[2] = col_type(0, 0); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<3, 2, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(T s) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(s, 0), col_type(0, s), col_type(0, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(s, 0); + this->value[1] = col_type(0, s); + this->value[2] = col_type(0, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat + ( + T x0, T y0, + T x1, T y1, + T x2, T y2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0), col_type(x1, y1), col_type(x2, y2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0); + this->value[1] = col_type(x1, y1); + this->value[2] = col_type(x2, y2); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(col_type const& v0, col_type const& v1, col_type const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = v0; + this->value[1] = v1; + this->value[2] = v2; +# endif + } + + // -- Conversion constructors -- + + template + template< + typename X0, typename Y0, + typename X1, typename Y1, + typename X2, typename Y2> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat + ( + X0 x0, Y0 y0, + X1 x1, Y1 y1, + X2 x2, Y2 y2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0), col_type(x1, y1), col_type(x2, y2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0); + this->value[1] = col_type(x1, y1); + this->value[2] = col_type(x2, y2); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(vec<2, V0, Q> const& v0, vec<2, V1, Q> const& v1, vec<2, V2, Q> const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v0); + this->value[1] = col_type(v1); + this->value[2] = col_type(v2); +# endif + } + + // -- Matrix conversions -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<3, 2, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 2, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<3, 2, T, Q>::col_type & mat<3, 2, T, Q>::operator[](typename mat<3, 2, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<3, 2, T, Q>::col_type const& mat<3, 2, T, Q>::operator[](typename mat<3, 2, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator=(mat<3, 2, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + this->value[2] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator+=(mat<3, 2, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + this->value[2] += m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + this->value[2] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator-=(mat<3, 2, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + this->value[2] -= m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + this->value[2] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> & mat<3, 2, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + this->value[2] /= s; + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + ++this->value[2]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q>& mat<3, 2, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + --this->value[2]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> mat<3, 2, T, Q>::operator++(int) + { + mat<3, 2, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> mat<3, 2, T, Q>::operator--(int) + { + mat<3, 2, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator+(mat<3, 2, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator-(mat<3, 2, T, Q> const& m) + { + return mat<3, 2, T, Q>( + -m[0], + -m[1], + -m[2]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator+(mat<3, 2, T, Q> const& m, T scalar) + { + return mat<3, 2, T, Q>( + m[0] + scalar, + m[1] + scalar, + m[2] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator+(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2) + { + return mat<3, 2, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1], + m1[2] + m2[2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator-(mat<3, 2, T, Q> const& m, T scalar) + { + return mat<3, 2, T, Q>( + m[0] - scalar, + m[1] - scalar, + m[2] - scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator-(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2) + { + return mat<3, 2, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1], + m1[2] - m2[2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator*(mat<3, 2, T, Q> const& m, T scalar) + { + return mat<3, 2, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator*(T scalar, mat<3, 2, T, Q> const& m) + { + return mat<3, 2, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar); + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 2, T, Q>::col_type operator*(mat<3, 2, T, Q> const& m, typename mat<3, 2, T, Q>::row_type const& v) + { + return typename mat<3, 2, T, Q>::col_type( + m[0][0] * v.x + m[1][0] * v.y + m[2][0] * v.z, + m[0][1] * v.x + m[1][1] * v.y + m[2][1] * v.z); + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 2, T, Q>::row_type operator*(typename mat<3, 2, T, Q>::col_type const& v, mat<3, 2, T, Q> const& m) + { + return typename mat<3, 2, T, Q>::row_type( + v.x * m[0][0] + v.y * m[0][1], + v.x * m[1][0] + v.y * m[1][1], + v.x * m[2][0] + v.y * m[2][1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator*(mat<3, 2, T, Q> const& m1, mat<2, 3, T, Q> const& m2) + { + const T SrcA00 = m1[0][0]; + const T SrcA01 = m1[0][1]; + const T SrcA10 = m1[1][0]; + const T SrcA11 = m1[1][1]; + const T SrcA20 = m1[2][0]; + const T SrcA21 = m1[2][1]; + + const T SrcB00 = m2[0][0]; + const T SrcB01 = m2[0][1]; + const T SrcB02 = m2[0][2]; + const T SrcB10 = m2[1][0]; + const T SrcB11 = m2[1][1]; + const T SrcB12 = m2[1][2]; + + mat<2, 2, T, Q> Result; + Result[0][0] = SrcA00 * SrcB00 + SrcA10 * SrcB01 + SrcA20 * SrcB02; + Result[0][1] = SrcA01 * SrcB00 + SrcA11 * SrcB01 + SrcA21 * SrcB02; + Result[1][0] = SrcA00 * SrcB10 + SrcA10 * SrcB11 + SrcA20 * SrcB12; + Result[1][1] = SrcA01 * SrcB10 + SrcA11 * SrcB11 + SrcA21 * SrcB12; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator*(mat<3, 2, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + return mat<3, 2, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator*(mat<3, 2, T, Q> const& m1, mat<4, 3, T, Q> const& m2) + { + return mat<4, 2, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2], + m1[0][0] * m2[3][0] + m1[1][0] * m2[3][1] + m1[2][0] * m2[3][2], + m1[0][1] * m2[3][0] + m1[1][1] * m2[3][1] + m1[2][1] * m2[3][2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator/(mat<3, 2, T, Q> const& m, T scalar) + { + return mat<3, 2, T, Q>( + m[0] / scalar, + m[1] / scalar, + m[2] / scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator/(T scalar, mat<3, 2, T, Q> const& m) + { + return mat<3, 2, T, Q>( + scalar / m[0], + scalar / m[1], + scalar / m[2]); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]) && (m1[2] == m2[2]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<3, 2, T, Q> const& m1, mat<3, 2, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]) || (m1[2] != m2[2]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat3x3.hpp b/Vulkan/ext/include/glm/detail/type_mat3x3.hpp new file mode 100644 index 0000000..3174872 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat3x3.hpp @@ -0,0 +1,184 @@ +/// @ref core +/// @file glm/detail/type_mat3x3.hpp + +#pragma once + +#include "type_vec3.hpp" +#include +#include + +namespace glm +{ + template + struct mat<3, 3, T, Q> + { + typedef vec<3, T, Q> col_type; + typedef vec<3, T, Q> row_type; + typedef mat<3, 3, T, Q> type; + typedef mat<3, 3, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[3]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 3; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<3, 3, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T x0, T y0, T z0, + T x1, T y1, T z1, + T x2, T y2, T z2); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1, + col_type const& v2); + + // -- Conversions -- + + template< + typename X1, typename Y1, typename Z1, + typename X2, typename Y2, typename Z2, + typename X3, typename Y3, typename Z3> + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X1 x1, Y1 y1, Z1 z1, + X2 x2, Y2 y2, Z2 z2, + X3 x3, Y3 y3, Z3 z3); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<3, V1, Q> const& v1, + vec<3, V2, Q> const& v2, + vec<3, V3, Q> const& v3); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator=(mat<3, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator+=(mat<3, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator-=(mat<3, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator*=(mat<3, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator/=(U s); + template + GLM_FUNC_DECL mat<3, 3, T, Q> & operator/=(mat<3, 3, U, Q> const& m); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<3, 3, T, Q> & operator++(); + GLM_FUNC_DECL mat<3, 3, T, Q> & operator--(); + GLM_FUNC_DECL mat<3, 3, T, Q> operator++(int); + GLM_FUNC_DECL mat<3, 3, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator+(mat<3, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator-(mat<3, 3, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator+(mat<3, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator+(T scalar, mat<3, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator+(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator-(mat<3, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator-(T scalar, mat<3, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator-(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator*(mat<3, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator*(T scalar, mat<3, 3, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<3, 3, T, Q>::col_type operator*(mat<3, 3, T, Q> const& m, typename mat<3, 3, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<3, 3, T, Q>::row_type operator*(typename mat<3, 3, T, Q>::col_type const& v, mat<3, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator*(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator*(mat<3, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator*(mat<3, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator/(mat<3, 3, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator/(T scalar, mat<3, 3, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<3, 3, T, Q>::col_type operator/(mat<3, 3, T, Q> const& m, typename mat<3, 3, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<3, 3, T, Q>::row_type operator/(typename mat<3, 3, T, Q>::col_type const& v, mat<3, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator/(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator==(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat3x3.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat3x3.inl b/Vulkan/ext/include/glm/detail/type_mat3x3.inl new file mode 100644 index 0000000..1ddaf99 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat3x3.inl @@ -0,0 +1,601 @@ +#include "../matrix.hpp" + +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0, 0), col_type(0, 1, 0), col_type(0, 0, 1)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0, 0); + this->value[1] = col_type(0, 1, 0); + this->value[2] = col_type(0, 0, 1); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<3, 3, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(T s) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(s, 0, 0), col_type(0, s, 0), col_type(0, 0, s)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(s, 0, 0); + this->value[1] = col_type(0, s, 0); + this->value[2] = col_type(0, 0, s); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat + ( + T x0, T y0, T z0, + T x1, T y1, T z1, + T x2, T y2, T z2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0, z0), col_type(x1, y1, z1), col_type(x2, y2, z2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0); + this->value[1] = col_type(x1, y1, z1); + this->value[2] = col_type(x2, y2, z2); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(col_type const& v0, col_type const& v1, col_type const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v0); + this->value[1] = col_type(v1); + this->value[2] = col_type(v2); +# endif + } + + // -- Conversion constructors -- + + template + template< + typename X1, typename Y1, typename Z1, + typename X2, typename Y2, typename Z2, + typename X3, typename Y3, typename Z3> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat + ( + X1 x1, Y1 y1, Z1 z1, + X2 x2, Y2 y2, Z2 z2, + X3 x3, Y3 y3, Z3 z3 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x1, y1, z1), col_type(x2, y2, z2), col_type(x3, y3, z3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x1, y1, z1); + this->value[1] = col_type(x2, y2, z2); + this->value[2] = col_type(x3, y3, z3); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(vec<3, V1, Q> const& v1, vec<3, V2, Q> const& v2, vec<3, V3, Q> const& v3) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v1), col_type(v2), col_type(v3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v1); + this->value[1] = col_type(v2); + this->value[2] = col_type(v3); +# endif + } + + // -- Matrix conversions -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<3, 3, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 3, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<3, 3, T, Q>::col_type & mat<3, 3, T, Q>::operator[](typename mat<3, 3, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<3, 3, T, Q>::col_type const& mat<3, 3, T, Q>::operator[](typename mat<3, 3, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator=(mat<3, 3, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + this->value[2] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator+=(mat<3, 3, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + this->value[2] += m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + this->value[2] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator-=(mat<3, 3, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + this->value[2] -= m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + this->value[2] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator*=(mat<3, 3, U, Q> const& m) + { + return (*this = *this * m); + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + this->value[2] /= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator/=(mat<3, 3, U, Q> const& m) + { + return *this *= inverse(m); + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + ++this->value[2]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> & mat<3, 3, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + --this->value[2]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> mat<3, 3, T, Q>::operator++(int) + { + mat<3, 3, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> mat<3, 3, T, Q>::operator--(int) + { + mat<3, 3, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator+(mat<3, 3, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator-(mat<3, 3, T, Q> const& m) + { + return mat<3, 3, T, Q>( + -m[0], + -m[1], + -m[2]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator+(mat<3, 3, T, Q> const& m, T scalar) + { + return mat<3, 3, T, Q>( + m[0] + scalar, + m[1] + scalar, + m[2] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator+(T scalar, mat<3, 3, T, Q> const& m) + { + return mat<3, 3, T, Q>( + m[0] + scalar, + m[1] + scalar, + m[2] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator+(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + return mat<3, 3, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1], + m1[2] + m2[2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator-(mat<3, 3, T, Q> const& m, T scalar) + { + return mat<3, 3, T, Q>( + m[0] - scalar, + m[1] - scalar, + m[2] - scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator-(T scalar, mat<3, 3, T, Q> const& m) + { + return mat<3, 3, T, Q>( + scalar - m[0], + scalar - m[1], + scalar - m[2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator-(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + return mat<3, 3, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1], + m1[2] - m2[2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator*(mat<3, 3, T, Q> const& m, T scalar) + { + return mat<3, 3, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator*(T scalar, mat<3, 3, T, Q> const& m) + { + return mat<3, 3, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar); + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 3, T, Q>::col_type operator*(mat<3, 3, T, Q> const& m, typename mat<3, 3, T, Q>::row_type const& v) + { + return typename mat<3, 3, T, Q>::col_type( + m[0][0] * v.x + m[1][0] * v.y + m[2][0] * v.z, + m[0][1] * v.x + m[1][1] * v.y + m[2][1] * v.z, + m[0][2] * v.x + m[1][2] * v.y + m[2][2] * v.z); + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 3, T, Q>::row_type operator*(typename mat<3, 3, T, Q>::col_type const& v, mat<3, 3, T, Q> const& m) + { + return typename mat<3, 3, T, Q>::row_type( + m[0][0] * v.x + m[0][1] * v.y + m[0][2] * v.z, + m[1][0] * v.x + m[1][1] * v.y + m[1][2] * v.z, + m[2][0] * v.x + m[2][1] * v.y + m[2][2] * v.z); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator*(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + T const SrcA00 = m1[0][0]; + T const SrcA01 = m1[0][1]; + T const SrcA02 = m1[0][2]; + T const SrcA10 = m1[1][0]; + T const SrcA11 = m1[1][1]; + T const SrcA12 = m1[1][2]; + T const SrcA20 = m1[2][0]; + T const SrcA21 = m1[2][1]; + T const SrcA22 = m1[2][2]; + + T const SrcB00 = m2[0][0]; + T const SrcB01 = m2[0][1]; + T const SrcB02 = m2[0][2]; + T const SrcB10 = m2[1][0]; + T const SrcB11 = m2[1][1]; + T const SrcB12 = m2[1][2]; + T const SrcB20 = m2[2][0]; + T const SrcB21 = m2[2][1]; + T const SrcB22 = m2[2][2]; + + mat<3, 3, T, Q> Result; + Result[0][0] = SrcA00 * SrcB00 + SrcA10 * SrcB01 + SrcA20 * SrcB02; + Result[0][1] = SrcA01 * SrcB00 + SrcA11 * SrcB01 + SrcA21 * SrcB02; + Result[0][2] = SrcA02 * SrcB00 + SrcA12 * SrcB01 + SrcA22 * SrcB02; + Result[1][0] = SrcA00 * SrcB10 + SrcA10 * SrcB11 + SrcA20 * SrcB12; + Result[1][1] = SrcA01 * SrcB10 + SrcA11 * SrcB11 + SrcA21 * SrcB12; + Result[1][2] = SrcA02 * SrcB10 + SrcA12 * SrcB11 + SrcA22 * SrcB12; + Result[2][0] = SrcA00 * SrcB20 + SrcA10 * SrcB21 + SrcA20 * SrcB22; + Result[2][1] = SrcA01 * SrcB20 + SrcA11 * SrcB21 + SrcA21 * SrcB22; + Result[2][2] = SrcA02 * SrcB20 + SrcA12 * SrcB21 + SrcA22 * SrcB22; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator*(mat<3, 3, T, Q> const& m1, mat<2, 3, T, Q> const& m2) + { + return mat<2, 3, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator*(mat<3, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2) + { + return mat<4, 3, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2], + m1[0][2] * m2[2][0] + m1[1][2] * m2[2][1] + m1[2][2] * m2[2][2], + m1[0][0] * m2[3][0] + m1[1][0] * m2[3][1] + m1[2][0] * m2[3][2], + m1[0][1] * m2[3][0] + m1[1][1] * m2[3][1] + m1[2][1] * m2[3][2], + m1[0][2] * m2[3][0] + m1[1][2] * m2[3][1] + m1[2][2] * m2[3][2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator/(mat<3, 3, T, Q> const& m, T scalar) + { + return mat<3, 3, T, Q>( + m[0] / scalar, + m[1] / scalar, + m[2] / scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator/(T scalar, mat<3, 3, T, Q> const& m) + { + return mat<3, 3, T, Q>( + scalar / m[0], + scalar / m[1], + scalar / m[2]); + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 3, T, Q>::col_type operator/(mat<3, 3, T, Q> const& m, typename mat<3, 3, T, Q>::row_type const& v) + { + return inverse(m) * v; + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 3, T, Q>::row_type operator/(typename mat<3, 3, T, Q>::col_type const& v, mat<3, 3, T, Q> const& m) + { + return v * inverse(m); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator/(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + mat<3, 3, T, Q> m1_copy(m1); + return m1_copy /= m2; + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator==(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]) && (m1[2] == m2[2]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<3, 3, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]) || (m1[2] != m2[2]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat3x4.hpp b/Vulkan/ext/include/glm/detail/type_mat3x4.hpp new file mode 100644 index 0000000..6e40b90 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat3x4.hpp @@ -0,0 +1,166 @@ +/// @ref core +/// @file glm/detail/type_mat3x4.hpp + +#pragma once + +#include "type_vec3.hpp" +#include "type_vec4.hpp" +#include +#include + +namespace glm +{ + template + struct mat<3, 4, T, Q> + { + typedef vec<4, T, Q> col_type; + typedef vec<3, T, Q> row_type; + typedef mat<3, 4, T, Q> type; + typedef mat<4, 3, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[3]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 3; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<3, 4, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T x0, T y0, T z0, T w0, + T x1, T y1, T z1, T w1, + T x2, T y2, T z2, T w2); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1, + col_type const& v2); + + // -- Conversions -- + + template< + typename X1, typename Y1, typename Z1, typename W1, + typename X2, typename Y2, typename Z2, typename W2, + typename X3, typename Y3, typename Z3, typename W3> + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X1 x1, Y1 y1, Z1 z1, W1 w1, + X2 x2, Y2 y2, Z2 z2, W2 w2, + X3 x3, Y3 y3, Z3 z3, W3 w3); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<4, V1, Q> const& v1, + vec<4, V2, Q> const& v2, + vec<4, V3, Q> const& v3); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<3, 4, T, Q> & operator=(mat<3, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 4, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<3, 4, T, Q> & operator+=(mat<3, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 4, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<3, 4, T, Q> & operator-=(mat<3, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<3, 4, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<3, 4, T, Q> & operator/=(U s); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<3, 4, T, Q> & operator++(); + GLM_FUNC_DECL mat<3, 4, T, Q> & operator--(); + GLM_FUNC_DECL mat<3, 4, T, Q> operator++(int); + GLM_FUNC_DECL mat<3, 4, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator+(mat<3, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator-(mat<3, 4, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator+(mat<3, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator+(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator-(mat<3, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator-(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator*(mat<3, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator*(T scalar, mat<3, 4, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<3, 4, T, Q>::col_type operator*(mat<3, 4, T, Q> const& m, typename mat<3, 4, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<3, 4, T, Q>::row_type operator*(typename mat<3, 4, T, Q>::col_type const& v, mat<3, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator*(mat<3, 4, T, Q> const& m1, mat<4, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator*(mat<3, 4, T, Q> const& m1, mat<2, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator*(mat<3, 4, T, Q> const& m1, mat<3, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator/(mat<3, 4, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator/(T scalar, mat<3, 4, T, Q> const& m); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat3x4.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat3x4.inl b/Vulkan/ext/include/glm/detail/type_mat3x4.inl new file mode 100644 index 0000000..6ee416c --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat3x4.inl @@ -0,0 +1,578 @@ +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0, 0, 0), col_type(0, 1, 0, 0), col_type(0, 0, 1, 0)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0, 0, 0); + this->value[1] = col_type(0, 1, 0, 0); + this->value[2] = col_type(0, 0, 1, 0); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<3, 4, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(T s) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(s, 0, 0, 0), col_type(0, s, 0, 0), col_type(0, 0, s, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(s, 0, 0, 0); + this->value[1] = col_type(0, s, 0, 0); + this->value[2] = col_type(0, 0, s, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat + ( + T x0, T y0, T z0, T w0, + T x1, T y1, T z1, T w1, + T x2, T y2, T z2, T w2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{ + col_type(x0, y0, z0, w0), + col_type(x1, y1, z1, w1), + col_type(x2, y2, z2, w2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0, w0); + this->value[1] = col_type(x1, y1, z1, w1); + this->value[2] = col_type(x2, y2, z2, w2); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(col_type const& v0, col_type const& v1, col_type const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = v0; + this->value[1] = v1; + this->value[2] = v2; +# endif + } + + // -- Conversion constructors -- + + template + template< + typename X0, typename Y0, typename Z0, typename W0, + typename X1, typename Y1, typename Z1, typename W1, + typename X2, typename Y2, typename Z2, typename W2> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat + ( + X0 x0, Y0 y0, Z0 z0, W0 w0, + X1 x1, Y1 y1, Z1 z1, W1 w1, + X2 x2, Y2 y2, Z2 z2, W2 w2 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{ + col_type(x0, y0, z0, w0), + col_type(x1, y1, z1, w1), + col_type(x2, y2, z2, w2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0, w0); + this->value[1] = col_type(x1, y1, z1, w1); + this->value[2] = col_type(x2, y2, z2, w2); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(vec<4, V1, Q> const& v0, vec<4, V2, Q> const& v1, vec<4, V3, Q> const& v2) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v0); + this->value[1] = col_type(v1); + this->value[2] = col_type(v2); +# endif + } + + // -- Matrix conversions -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<3, 4, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0), col_type(0, 0, 1, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); + this->value[2] = col_type(0, 0, 1, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(0, 0, 1, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(0, 0, 1, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0), col_type(m[2], 1, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); + this->value[2] = col_type(m[2], 1, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0, 0, 1, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0, 0, 1, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0), col_type(m[2], 1, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); + this->value[2] = col_type(m[2], 1, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<3, 4, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 0); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<3, 4, T, Q>::col_type & mat<3, 4, T, Q>::operator[](typename mat<3, 4, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<3, 4, T, Q>::col_type const& mat<3, 4, T, Q>::operator[](typename mat<3, 4, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator=(mat<3, 4, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + this->value[2] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator+=(mat<3, 4, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + this->value[2] += m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + this->value[2] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator-=(mat<3, 4, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + this->value[2] -= m[2]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + this->value[2] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> & mat<3, 4, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + this->value[2] /= s; + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + ++this->value[2]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q>& mat<3, 4, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + --this->value[2]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> mat<3, 4, T, Q>::operator++(int) + { + mat<3, 4, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> mat<3, 4, T, Q>::operator--(int) + { + mat<3, 4, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator+(mat<3, 4, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator-(mat<3, 4, T, Q> const& m) + { + return mat<3, 4, T, Q>( + -m[0], + -m[1], + -m[2]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator+(mat<3, 4, T, Q> const& m, T scalar) + { + return mat<3, 4, T, Q>( + m[0] + scalar, + m[1] + scalar, + m[2] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator+(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2) + { + return mat<3, 4, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1], + m1[2] + m2[2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator-(mat<3, 4, T, Q> const& m, T scalar) + { + return mat<3, 4, T, Q>( + m[0] - scalar, + m[1] - scalar, + m[2] - scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator-(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2) + { + return mat<3, 4, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1], + m1[2] - m2[2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator*(mat<3, 4, T, Q> const& m, T scalar) + { + return mat<3, 4, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator*(T scalar, mat<3, 4, T, Q> const& m) + { + return mat<3, 4, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar); + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 4, T, Q>::col_type operator* + ( + mat<3, 4, T, Q> const& m, + typename mat<3, 4, T, Q>::row_type const& v + ) + { + return typename mat<3, 4, T, Q>::col_type( + m[0][0] * v.x + m[1][0] * v.y + m[2][0] * v.z, + m[0][1] * v.x + m[1][1] * v.y + m[2][1] * v.z, + m[0][2] * v.x + m[1][2] * v.y + m[2][2] * v.z, + m[0][3] * v.x + m[1][3] * v.y + m[2][3] * v.z); + } + + template + GLM_FUNC_QUALIFIER typename mat<3, 4, T, Q>::row_type operator* + ( + typename mat<3, 4, T, Q>::col_type const& v, + mat<3, 4, T, Q> const& m + ) + { + return typename mat<3, 4, T, Q>::row_type( + v.x * m[0][0] + v.y * m[0][1] + v.z * m[0][2] + v.w * m[0][3], + v.x * m[1][0] + v.y * m[1][1] + v.z * m[1][2] + v.w * m[1][3], + v.x * m[2][0] + v.y * m[2][1] + v.z * m[2][2] + v.w * m[2][3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator*(mat<3, 4, T, Q> const& m1, mat<4, 3, T, Q> const& m2) + { + const T SrcA00 = m1[0][0]; + const T SrcA01 = m1[0][1]; + const T SrcA02 = m1[0][2]; + const T SrcA03 = m1[0][3]; + const T SrcA10 = m1[1][0]; + const T SrcA11 = m1[1][1]; + const T SrcA12 = m1[1][2]; + const T SrcA13 = m1[1][3]; + const T SrcA20 = m1[2][0]; + const T SrcA21 = m1[2][1]; + const T SrcA22 = m1[2][2]; + const T SrcA23 = m1[2][3]; + + const T SrcB00 = m2[0][0]; + const T SrcB01 = m2[0][1]; + const T SrcB02 = m2[0][2]; + const T SrcB10 = m2[1][0]; + const T SrcB11 = m2[1][1]; + const T SrcB12 = m2[1][2]; + const T SrcB20 = m2[2][0]; + const T SrcB21 = m2[2][1]; + const T SrcB22 = m2[2][2]; + const T SrcB30 = m2[3][0]; + const T SrcB31 = m2[3][1]; + const T SrcB32 = m2[3][2]; + + mat<4, 4, T, Q> Result; + Result[0][0] = SrcA00 * SrcB00 + SrcA10 * SrcB01 + SrcA20 * SrcB02; + Result[0][1] = SrcA01 * SrcB00 + SrcA11 * SrcB01 + SrcA21 * SrcB02; + Result[0][2] = SrcA02 * SrcB00 + SrcA12 * SrcB01 + SrcA22 * SrcB02; + Result[0][3] = SrcA03 * SrcB00 + SrcA13 * SrcB01 + SrcA23 * SrcB02; + Result[1][0] = SrcA00 * SrcB10 + SrcA10 * SrcB11 + SrcA20 * SrcB12; + Result[1][1] = SrcA01 * SrcB10 + SrcA11 * SrcB11 + SrcA21 * SrcB12; + Result[1][2] = SrcA02 * SrcB10 + SrcA12 * SrcB11 + SrcA22 * SrcB12; + Result[1][3] = SrcA03 * SrcB10 + SrcA13 * SrcB11 + SrcA23 * SrcB12; + Result[2][0] = SrcA00 * SrcB20 + SrcA10 * SrcB21 + SrcA20 * SrcB22; + Result[2][1] = SrcA01 * SrcB20 + SrcA11 * SrcB21 + SrcA21 * SrcB22; + Result[2][2] = SrcA02 * SrcB20 + SrcA12 * SrcB21 + SrcA22 * SrcB22; + Result[2][3] = SrcA03 * SrcB20 + SrcA13 * SrcB21 + SrcA23 * SrcB22; + Result[3][0] = SrcA00 * SrcB30 + SrcA10 * SrcB31 + SrcA20 * SrcB32; + Result[3][1] = SrcA01 * SrcB30 + SrcA11 * SrcB31 + SrcA21 * SrcB32; + Result[3][2] = SrcA02 * SrcB30 + SrcA12 * SrcB31 + SrcA22 * SrcB32; + Result[3][3] = SrcA03 * SrcB30 + SrcA13 * SrcB31 + SrcA23 * SrcB32; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator*(mat<3, 4, T, Q> const& m1, mat<2, 3, T, Q> const& m2) + { + return mat<2, 4, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2], + m1[0][3] * m2[0][0] + m1[1][3] * m2[0][1] + m1[2][3] * m2[0][2], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2], + m1[0][3] * m2[1][0] + m1[1][3] * m2[1][1] + m1[2][3] * m2[1][2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator*(mat<3, 4, T, Q> const& m1, mat<3, 3, T, Q> const& m2) + { + return mat<3, 4, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2], + m1[0][3] * m2[0][0] + m1[1][3] * m2[0][1] + m1[2][3] * m2[0][2], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2], + m1[0][3] * m2[1][0] + m1[1][3] * m2[1][1] + m1[2][3] * m2[1][2], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2], + m1[0][2] * m2[2][0] + m1[1][2] * m2[2][1] + m1[2][2] * m2[2][2], + m1[0][3] * m2[2][0] + m1[1][3] * m2[2][1] + m1[2][3] * m2[2][2]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator/(mat<3, 4, T, Q> const& m, T scalar) + { + return mat<3, 4, T, Q>( + m[0] / scalar, + m[1] / scalar, + m[2] / scalar); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator/(T scalar, mat<3, 4, T, Q> const& m) + { + return mat<3, 4, T, Q>( + scalar / m[0], + scalar / m[1], + scalar / m[2]); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]) && (m1[2] == m2[2]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<3, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]) || (m1[2] != m2[2]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat4x2.hpp b/Vulkan/ext/include/glm/detail/type_mat4x2.hpp new file mode 100644 index 0000000..8d34352 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat4x2.hpp @@ -0,0 +1,171 @@ +/// @ref core +/// @file glm/detail/type_mat4x2.hpp + +#pragma once + +#include "type_vec2.hpp" +#include "type_vec4.hpp" +#include +#include + +namespace glm +{ + template + struct mat<4, 2, T, Q> + { + typedef vec<2, T, Q> col_type; + typedef vec<4, T, Q> row_type; + typedef mat<4, 2, T, Q> type; + typedef mat<2, 4, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[4]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 4; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<4, 2, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T x0, T y0, + T x1, T y1, + T x2, T y2, + T x3, T y3); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1, + col_type const& v2, + col_type const& v3); + + // -- Conversions -- + + template< + typename X0, typename Y0, + typename X1, typename Y1, + typename X2, typename Y2, + typename X3, typename Y3> + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X0 x0, Y0 y0, + X1 x1, Y1 y1, + X2 x2, Y2 y2, + X3 x3, Y3 y3); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<2, V1, Q> const& v1, + vec<2, V2, Q> const& v2, + vec<2, V3, Q> const& v3, + vec<2, V4, Q> const& v4); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<4, 2, T, Q> & operator=(mat<4, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 2, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<4, 2, T, Q> & operator+=(mat<4, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 2, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<4, 2, T, Q> & operator-=(mat<4, 2, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 2, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<4, 2, T, Q> & operator/=(U s); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<4, 2, T, Q> & operator++ (); + GLM_FUNC_DECL mat<4, 2, T, Q> & operator-- (); + GLM_FUNC_DECL mat<4, 2, T, Q> operator++(int); + GLM_FUNC_DECL mat<4, 2, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator+(mat<4, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator-(mat<4, 2, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator+(mat<4, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator+(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator-(mat<4, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator-(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator*(mat<4, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator*(T scalar, mat<4, 2, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<4, 2, T, Q>::col_type operator*(mat<4, 2, T, Q> const& m, typename mat<4, 2, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<4, 2, T, Q>::row_type operator*(typename mat<4, 2, T, Q>::col_type const& v, mat<4, 2, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 2, T, Q> operator*(mat<4, 2, T, Q> const& m1, mat<2, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 2, T, Q> operator*(mat<4, 2, T, Q> const& m1, mat<3, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator*(mat<4, 2, T, Q> const& m1, mat<4, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator/(mat<4, 2, T, Q> const& m, T scalar); + + template + GLM_FUNC_DECL mat<4, 2, T, Q> operator/(T scalar, mat<4, 2, T, Q> const& m); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat4x2.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat4x2.inl b/Vulkan/ext/include/glm/detail/type_mat4x2.inl new file mode 100644 index 0000000..419c80c --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat4x2.inl @@ -0,0 +1,574 @@ +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0), col_type(0, 1), col_type(0, 0), col_type(0, 0)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0); + this->value[1] = col_type(0, 1); + this->value[2] = col_type(0, 0); + this->value[3] = col_type(0, 0); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<4, 2, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + this->value[3] = m[3]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(T s) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(s, 0), col_type(0, s), col_type(0, 0), col_type(0, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(s, 0); + this->value[1] = col_type(0, s); + this->value[2] = col_type(0, 0); + this->value[3] = col_type(0, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat + ( + T x0, T y0, + T x1, T y1, + T x2, T y2, + T x3, T y3 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0), col_type(x1, y1), col_type(x2, y2), col_type(x3, y3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0); + this->value[1] = col_type(x1, y1); + this->value[2] = col_type(x2, y2); + this->value[3] = col_type(x3, y3); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(col_type const& v0, col_type const& v1, col_type const& v2, col_type const& v3) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2), col_type(v3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = v0; + this->value[1] = v1; + this->value[2] = v2; + this->value[3] = v3; +# endif + } + + // -- Conversion constructors -- + + template + template< + typename X0, typename Y0, + typename X1, typename Y1, + typename X2, typename Y2, + typename X3, typename Y3> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat + ( + X0 x0, Y0 y0, + X1 x1, Y1 y1, + X2 x2, Y2 y2, + X3 x3, Y3 y3 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0), col_type(x1, y1), col_type(x2, y2), col_type(x3, y3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0); + this->value[1] = col_type(x1, y1); + this->value[2] = col_type(x2, y2); + this->value[3] = col_type(x3, y3); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(vec<2, V0, Q> const& v0, vec<2, V1, Q> const& v1, vec<2, V2, Q> const& v2, vec<2, V3, Q> const& v3) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2), col_type(v3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v0); + this->value[1] = col_type(v1); + this->value[2] = col_type(v2); + this->value[3] = col_type(v3); +# endif + } + + // -- Conversion -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<4, 2, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(m[3]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(m[3]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(m[3]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 2, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(0); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<4, 2, T, Q>::col_type & mat<4, 2, T, Q>::operator[](typename mat<4, 2, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<4, 2, T, Q>::col_type const& mat<4, 2, T, Q>::operator[](typename mat<4, 2, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q>& mat<4, 2, T, Q>::operator=(mat<4, 2, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + this->value[3] = m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + this->value[2] += s; + this->value[3] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator+=(mat<4, 2, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + this->value[2] += m[2]; + this->value[3] += m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + this->value[2] -= s; + this->value[3] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator-=(mat<4, 2, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + this->value[2] -= m[2]; + this->value[3] -= m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + this->value[2] *= s; + this->value[3] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + this->value[2] /= s; + this->value[3] /= s; + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + ++this->value[2]; + ++this->value[3]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> & mat<4, 2, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + --this->value[2]; + --this->value[3]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> mat<4, 2, T, Q>::operator++(int) + { + mat<4, 2, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> mat<4, 2, T, Q>::operator--(int) + { + mat<4, 2, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator+(mat<4, 2, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator-(mat<4, 2, T, Q> const& m) + { + return mat<4, 2, T, Q>( + -m[0], + -m[1], + -m[2], + -m[3]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator+(mat<4, 2, T, Q> const& m, T scalar) + { + return mat<4, 2, T, Q>( + m[0] + scalar, + m[1] + scalar, + m[2] + scalar, + m[3] + scalar); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator+(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2) + { + return mat<4, 2, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1], + m1[2] + m2[2], + m1[3] + m2[3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator-(mat<4, 2, T, Q> const& m, T scalar) + { + return mat<4, 2, T, Q>( + m[0] - scalar, + m[1] - scalar, + m[2] - scalar, + m[3] - scalar); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator-(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2) + { + return mat<4, 2, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1], + m1[2] - m2[2], + m1[3] - m2[3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator*(mat<4, 2, T, Q> const& m, T scalar) + { + return mat<4, 2, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar, + m[3] * scalar); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator*(T scalar, mat<4, 2, T, Q> const& m) + { + return mat<4, 2, T, Q>( + m[0] * scalar, + m[1] * scalar, + m[2] * scalar, + m[3] * scalar); + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 2, T, Q>::col_type operator*(mat<4, 2, T, Q> const& m, typename mat<4, 2, T, Q>::row_type const& v) + { + return typename mat<4, 2, T, Q>::col_type( + m[0][0] * v.x + m[1][0] * v.y + m[2][0] * v.z + m[3][0] * v.w, + m[0][1] * v.x + m[1][1] * v.y + m[2][1] * v.z + m[3][1] * v.w); + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 2, T, Q>::row_type operator*(typename mat<4, 2, T, Q>::col_type const& v, mat<4, 2, T, Q> const& m) + { + return typename mat<4, 2, T, Q>::row_type( + v.x * m[0][0] + v.y * m[0][1], + v.x * m[1][0] + v.y * m[1][1], + v.x * m[2][0] + v.y * m[2][1], + v.x * m[3][0] + v.y * m[3][1]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> operator*(mat<4, 2, T, Q> const& m1, mat<2, 4, T, Q> const& m2) + { + T const SrcA00 = m1[0][0]; + T const SrcA01 = m1[0][1]; + T const SrcA10 = m1[1][0]; + T const SrcA11 = m1[1][1]; + T const SrcA20 = m1[2][0]; + T const SrcA21 = m1[2][1]; + T const SrcA30 = m1[3][0]; + T const SrcA31 = m1[3][1]; + + T const SrcB00 = m2[0][0]; + T const SrcB01 = m2[0][1]; + T const SrcB02 = m2[0][2]; + T const SrcB03 = m2[0][3]; + T const SrcB10 = m2[1][0]; + T const SrcB11 = m2[1][1]; + T const SrcB12 = m2[1][2]; + T const SrcB13 = m2[1][3]; + + mat<2, 2, T, Q> Result; + Result[0][0] = SrcA00 * SrcB00 + SrcA10 * SrcB01 + SrcA20 * SrcB02 + SrcA30 * SrcB03; + Result[0][1] = SrcA01 * SrcB00 + SrcA11 * SrcB01 + SrcA21 * SrcB02 + SrcA31 * SrcB03; + Result[1][0] = SrcA00 * SrcB10 + SrcA10 * SrcB11 + SrcA20 * SrcB12 + SrcA30 * SrcB13; + Result[1][1] = SrcA01 * SrcB10 + SrcA11 * SrcB11 + SrcA21 * SrcB12 + SrcA31 * SrcB13; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> operator*(mat<4, 2, T, Q> const& m1, mat<3, 4, T, Q> const& m2) + { + return mat<3, 2, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2] + m1[3][0] * m2[0][3], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2] + m1[3][1] * m2[0][3], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2] + m1[3][0] * m2[1][3], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2] + m1[3][1] * m2[1][3], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2] + m1[3][0] * m2[2][3], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2] + m1[3][1] * m2[2][3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator*(mat<4, 2, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + return mat<4, 2, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2] + m1[3][0] * m2[0][3], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2] + m1[3][1] * m2[0][3], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2] + m1[3][0] * m2[1][3], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2] + m1[3][1] * m2[1][3], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2] + m1[3][0] * m2[2][3], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2] + m1[3][1] * m2[2][3], + m1[0][0] * m2[3][0] + m1[1][0] * m2[3][1] + m1[2][0] * m2[3][2] + m1[3][0] * m2[3][3], + m1[0][1] * m2[3][0] + m1[1][1] * m2[3][1] + m1[2][1] * m2[3][2] + m1[3][1] * m2[3][3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator/(mat<4, 2, T, Q> const& m, T scalar) + { + return mat<4, 2, T, Q>( + m[0] / scalar, + m[1] / scalar, + m[2] / scalar, + m[3] / scalar); + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> operator/(T scalar, mat<4, 2, T, Q> const& m) + { + return mat<4, 2, T, Q>( + scalar / m[0], + scalar / m[1], + scalar / m[2], + scalar / m[3]); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]) && (m1[2] == m2[2]) && (m1[3] == m2[3]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<4, 2, T, Q> const& m1, mat<4, 2, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]) || (m1[2] != m2[2]) || (m1[3] != m2[3]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat4x3.hpp b/Vulkan/ext/include/glm/detail/type_mat4x3.hpp new file mode 100644 index 0000000..16e4270 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat4x3.hpp @@ -0,0 +1,171 @@ +/// @ref core +/// @file glm/detail/type_mat4x3.hpp + +#pragma once + +#include "type_vec3.hpp" +#include "type_vec4.hpp" +#include +#include + +namespace glm +{ + template + struct mat<4, 3, T, Q> + { + typedef vec<3, T, Q> col_type; + typedef vec<4, T, Q> row_type; + typedef mat<4, 3, T, Q> type; + typedef mat<3, 4, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[4]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length() { return 4; } + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<4, 3, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T const& x); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T const& x0, T const& y0, T const& z0, + T const& x1, T const& y1, T const& z1, + T const& x2, T const& y2, T const& z2, + T const& x3, T const& y3, T const& z3); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1, + col_type const& v2, + col_type const& v3); + + // -- Conversions -- + + template< + typename X1, typename Y1, typename Z1, + typename X2, typename Y2, typename Z2, + typename X3, typename Y3, typename Z3, + typename X4, typename Y4, typename Z4> + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X1 const& x1, Y1 const& y1, Z1 const& z1, + X2 const& x2, Y2 const& y2, Z2 const& z2, + X3 const& x3, Y3 const& y3, Z3 const& z3, + X4 const& x4, Y4 const& y4, Z4 const& z4); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<3, V1, Q> const& v1, + vec<3, V2, Q> const& v2, + vec<3, V3, Q> const& v3, + vec<3, V4, Q> const& v4); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<4, 3, T, Q> & operator=(mat<4, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 3, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<4, 3, T, Q> & operator+=(mat<4, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 3, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<4, 3, T, Q> & operator-=(mat<4, 3, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 3, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<4, 3, T, Q> & operator/=(U s); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<4, 3, T, Q>& operator++(); + GLM_FUNC_DECL mat<4, 3, T, Q>& operator--(); + GLM_FUNC_DECL mat<4, 3, T, Q> operator++(int); + GLM_FUNC_DECL mat<4, 3, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator+(mat<4, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator-(mat<4, 3, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator+(mat<4, 3, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator+(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator-(mat<4, 3, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator-(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator*(mat<4, 3, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator*(T const& s, mat<4, 3, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<4, 3, T, Q>::col_type operator*(mat<4, 3, T, Q> const& m, typename mat<4, 3, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<4, 3, T, Q>::row_type operator*(typename mat<4, 3, T, Q>::col_type const& v, mat<4, 3, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 3, T, Q> operator*(mat<4, 3, T, Q> const& m1, mat<2, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 3, T, Q> operator*(mat<4, 3, T, Q> const& m1, mat<3, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator*(mat<4, 3, T, Q> const& m1, mat<4, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator/(mat<4, 3, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 3, T, Q> operator/(T const& s, mat<4, 3, T, Q> const& m); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat4x3.inl" +#endif //GLM_EXTERNAL_TEMPLATE diff --git a/Vulkan/ext/include/glm/detail/type_mat4x3.inl b/Vulkan/ext/include/glm/detail/type_mat4x3.inl new file mode 100644 index 0000000..11b1ee3 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat4x3.inl @@ -0,0 +1,598 @@ +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0, 0), col_type(0, 1, 0), col_type(0, 0, 1), col_type(0, 0, 0)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0, 0); + this->value[1] = col_type(0, 1, 0); + this->value[2] = col_type(0, 0, 1); + this->value[3] = col_type(0, 0, 0); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<4, 3, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + this->value[3] = m[3]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(T const& s) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(s, 0, 0), col_type(0, s, 0), col_type(0, 0, s), col_type(0, 0, 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(s, 0, 0); + this->value[1] = col_type(0, s, 0); + this->value[2] = col_type(0, 0, s); + this->value[3] = col_type(0, 0, 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat + ( + T const& x0, T const& y0, T const& z0, + T const& x1, T const& y1, T const& z1, + T const& x2, T const& y2, T const& z2, + T const& x3, T const& y3, T const& z3 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0, z0), col_type(x1, y1, z1), col_type(x2, y2, z2), col_type(x3, y3, z3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0); + this->value[1] = col_type(x1, y1, z1); + this->value[2] = col_type(x2, y2, z2); + this->value[3] = col_type(x3, y3, z3); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(col_type const& v0, col_type const& v1, col_type const& v2, col_type const& v3) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2), col_type(v3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = v0; + this->value[1] = v1; + this->value[2] = v2; + this->value[3] = v3; +# endif + } + + // -- Conversion constructors -- + + template + template< + typename X0, typename Y0, typename Z0, + typename X1, typename Y1, typename Z1, + typename X2, typename Y2, typename Z2, + typename X3, typename Y3, typename Z3> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat + ( + X0 const& x0, Y0 const& y0, Z0 const& z0, + X1 const& x1, Y1 const& y1, Z1 const& z1, + X2 const& x2, Y2 const& y2, Z2 const& z2, + X3 const& x3, Y3 const& y3, Z3 const& z3 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x0, y0, z0), col_type(x1, y1, z1), col_type(x2, y2, z2), col_type(x3, y3, z3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0); + this->value[1] = col_type(x1, y1, z1); + this->value[2] = col_type(x2, y2, z2); + this->value[3] = col_type(x3, y3, z3); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(vec<3, V1, Q> const& v1, vec<3, V2, Q> const& v2, vec<3, V3, Q> const& v3, vec<3, V4, Q> const& v4) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v1), col_type(v2), col_type(v3), col_type(v4)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v1); + this->value[1] = col_type(v2); + this->value[2] = col_type(v3); + this->value[3] = col_type(v4); +# endif + } + + // -- Matrix conversions -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<4, 3, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(m[3]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(0, 0, 1), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(0, 0, 1); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<4, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(m[3]); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0, 0, 1), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0, 0, 1); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 1), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 1); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0, 0, 1), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(0, 0, 1); + this->value[3] = col_type(0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 1), col_type(m[3], 0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 1); + this->value[3] = col_type(m[3], 0); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 3, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(0)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(0); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<4, 3, T, Q>::col_type & mat<4, 3, T, Q>::operator[](typename mat<4, 3, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<4, 3, T, Q>::col_type const& mat<4, 3, T, Q>::operator[](typename mat<4, 3, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary updatable operators -- + + template + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q>& mat<4, 3, T, Q>::operator=(mat<4, 3, U, Q> const& m) + { + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + this->value[3] = m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + this->value[2] += s; + this->value[3] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator+=(mat<4, 3, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + this->value[2] += m[2]; + this->value[3] += m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + this->value[2] -= s; + this->value[3] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator-=(mat<4, 3, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + this->value[2] -= m[2]; + this->value[3] -= m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + this->value[2] *= s; + this->value[3] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + this->value[2] /= s; + this->value[3] /= s; + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + ++this->value[2]; + ++this->value[3]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> & mat<4, 3, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + --this->value[2]; + --this->value[3]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> mat<4, 3, T, Q>::operator++(int) + { + mat<4, 3, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> mat<4, 3, T, Q>::operator--(int) + { + mat<4, 3, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator+(mat<4, 3, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator-(mat<4, 3, T, Q> const& m) + { + return mat<4, 3, T, Q>( + -m[0], + -m[1], + -m[2], + -m[3]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator+(mat<4, 3, T, Q> const& m, T const& s) + { + return mat<4, 3, T, Q>( + m[0] + s, + m[1] + s, + m[2] + s, + m[3] + s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator+(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2) + { + return mat<4, 3, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1], + m1[2] + m2[2], + m1[3] + m2[3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator-(mat<4, 3, T, Q> const& m, T const& s) + { + return mat<4, 3, T, Q>( + m[0] - s, + m[1] - s, + m[2] - s, + m[3] - s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator-(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2) + { + return mat<4, 3, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1], + m1[2] - m2[2], + m1[3] - m2[3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator*(mat<4, 3, T, Q> const& m, T const& s) + { + return mat<4, 3, T, Q>( + m[0] * s, + m[1] * s, + m[2] * s, + m[3] * s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator*(T const& s, mat<4, 3, T, Q> const& m) + { + return mat<4, 3, T, Q>( + m[0] * s, + m[1] * s, + m[2] * s, + m[3] * s); + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 3, T, Q>::col_type operator* + ( + mat<4, 3, T, Q> const& m, + typename mat<4, 3, T, Q>::row_type const& v) + { + return typename mat<4, 3, T, Q>::col_type( + m[0][0] * v.x + m[1][0] * v.y + m[2][0] * v.z + m[3][0] * v.w, + m[0][1] * v.x + m[1][1] * v.y + m[2][1] * v.z + m[3][1] * v.w, + m[0][2] * v.x + m[1][2] * v.y + m[2][2] * v.z + m[3][2] * v.w); + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 3, T, Q>::row_type operator* + ( + typename mat<4, 3, T, Q>::col_type const& v, + mat<4, 3, T, Q> const& m) + { + return typename mat<4, 3, T, Q>::row_type( + v.x * m[0][0] + v.y * m[0][1] + v.z * m[0][2], + v.x * m[1][0] + v.y * m[1][1] + v.z * m[1][2], + v.x * m[2][0] + v.y * m[2][1] + v.z * m[2][2], + v.x * m[3][0] + v.y * m[3][1] + v.z * m[3][2]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> operator*(mat<4, 3, T, Q> const& m1, mat<2, 4, T, Q> const& m2) + { + return mat<2, 3, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2] + m1[3][0] * m2[0][3], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2] + m1[3][1] * m2[0][3], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2] + m1[3][2] * m2[0][3], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2] + m1[3][0] * m2[1][3], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2] + m1[3][1] * m2[1][3], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2] + m1[3][2] * m2[1][3]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> operator*(mat<4, 3, T, Q> const& m1, mat<3, 4, T, Q> const& m2) + { + T const SrcA00 = m1[0][0]; + T const SrcA01 = m1[0][1]; + T const SrcA02 = m1[0][2]; + T const SrcA10 = m1[1][0]; + T const SrcA11 = m1[1][1]; + T const SrcA12 = m1[1][2]; + T const SrcA20 = m1[2][0]; + T const SrcA21 = m1[2][1]; + T const SrcA22 = m1[2][2]; + T const SrcA30 = m1[3][0]; + T const SrcA31 = m1[3][1]; + T const SrcA32 = m1[3][2]; + + T const SrcB00 = m2[0][0]; + T const SrcB01 = m2[0][1]; + T const SrcB02 = m2[0][2]; + T const SrcB03 = m2[0][3]; + T const SrcB10 = m2[1][0]; + T const SrcB11 = m2[1][1]; + T const SrcB12 = m2[1][2]; + T const SrcB13 = m2[1][3]; + T const SrcB20 = m2[2][0]; + T const SrcB21 = m2[2][1]; + T const SrcB22 = m2[2][2]; + T const SrcB23 = m2[2][3]; + + mat<3, 3, T, Q> Result; + Result[0][0] = SrcA00 * SrcB00 + SrcA10 * SrcB01 + SrcA20 * SrcB02 + SrcA30 * SrcB03; + Result[0][1] = SrcA01 * SrcB00 + SrcA11 * SrcB01 + SrcA21 * SrcB02 + SrcA31 * SrcB03; + Result[0][2] = SrcA02 * SrcB00 + SrcA12 * SrcB01 + SrcA22 * SrcB02 + SrcA32 * SrcB03; + Result[1][0] = SrcA00 * SrcB10 + SrcA10 * SrcB11 + SrcA20 * SrcB12 + SrcA30 * SrcB13; + Result[1][1] = SrcA01 * SrcB10 + SrcA11 * SrcB11 + SrcA21 * SrcB12 + SrcA31 * SrcB13; + Result[1][2] = SrcA02 * SrcB10 + SrcA12 * SrcB11 + SrcA22 * SrcB12 + SrcA32 * SrcB13; + Result[2][0] = SrcA00 * SrcB20 + SrcA10 * SrcB21 + SrcA20 * SrcB22 + SrcA30 * SrcB23; + Result[2][1] = SrcA01 * SrcB20 + SrcA11 * SrcB21 + SrcA21 * SrcB22 + SrcA31 * SrcB23; + Result[2][2] = SrcA02 * SrcB20 + SrcA12 * SrcB21 + SrcA22 * SrcB22 + SrcA32 * SrcB23; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator*(mat<4, 3, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + return mat<4, 3, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2] + m1[3][0] * m2[0][3], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2] + m1[3][1] * m2[0][3], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2] + m1[3][2] * m2[0][3], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2] + m1[3][0] * m2[1][3], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2] + m1[3][1] * m2[1][3], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2] + m1[3][2] * m2[1][3], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2] + m1[3][0] * m2[2][3], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2] + m1[3][1] * m2[2][3], + m1[0][2] * m2[2][0] + m1[1][2] * m2[2][1] + m1[2][2] * m2[2][2] + m1[3][2] * m2[2][3], + m1[0][0] * m2[3][0] + m1[1][0] * m2[3][1] + m1[2][0] * m2[3][2] + m1[3][0] * m2[3][3], + m1[0][1] * m2[3][0] + m1[1][1] * m2[3][1] + m1[2][1] * m2[3][2] + m1[3][1] * m2[3][3], + m1[0][2] * m2[3][0] + m1[1][2] * m2[3][1] + m1[2][2] * m2[3][2] + m1[3][2] * m2[3][3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator/(mat<4, 3, T, Q> const& m, T const& s) + { + return mat<4, 3, T, Q>( + m[0] / s, + m[1] / s, + m[2] / s, + m[3] / s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> operator/(T const& s, mat<4, 3, T, Q> const& m) + { + return mat<4, 3, T, Q>( + s / m[0], + s / m[1], + s / m[2], + s / m[3]); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]) && (m1[2] == m2[2]) && (m1[3] == m2[3]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<4, 3, T, Q> const& m1, mat<4, 3, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]) || (m1[2] != m2[2]) || (m1[3] != m2[3]); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_mat4x4.hpp b/Vulkan/ext/include/glm/detail/type_mat4x4.hpp new file mode 100644 index 0000000..3517f9f --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat4x4.hpp @@ -0,0 +1,189 @@ +/// @ref core +/// @file glm/detail/type_mat4x4.hpp + +#pragma once + +#include "type_vec4.hpp" +#include +#include + +namespace glm +{ + template + struct mat<4, 4, T, Q> + { + typedef vec<4, T, Q> col_type; + typedef vec<4, T, Q> row_type; + typedef mat<4, 4, T, Q> type; + typedef mat<4, 4, T, Q> transpose_type; + typedef T value_type; + + private: + col_type value[4]; + + public: + // -- Accesses -- + + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length(){return 4;} + + GLM_FUNC_DECL col_type & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR col_type const& operator[](length_type i) const; + + // -- Constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR mat() GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR mat(mat<4, 4, T, P> const& m); + + GLM_FUNC_DECL explicit GLM_CONSTEXPR mat(T const& x); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + T const& x0, T const& y0, T const& z0, T const& w0, + T const& x1, T const& y1, T const& z1, T const& w1, + T const& x2, T const& y2, T const& z2, T const& w2, + T const& x3, T const& y3, T const& z3, T const& w3); + GLM_FUNC_DECL GLM_CONSTEXPR mat( + col_type const& v0, + col_type const& v1, + col_type const& v2, + col_type const& v3); + + // -- Conversions -- + + template< + typename X1, typename Y1, typename Z1, typename W1, + typename X2, typename Y2, typename Z2, typename W2, + typename X3, typename Y3, typename Z3, typename W3, + typename X4, typename Y4, typename Z4, typename W4> + GLM_FUNC_DECL GLM_CONSTEXPR mat( + X1 const& x1, Y1 const& y1, Z1 const& z1, W1 const& w1, + X2 const& x2, Y2 const& y2, Z2 const& z2, W2 const& w2, + X3 const& x3, Y3 const& y3, Z3 const& z3, W3 const& w3, + X4 const& x4, Y4 const& y4, Z4 const& z4, W4 const& w4); + + template + GLM_FUNC_DECL GLM_CONSTEXPR mat( + vec<4, V1, Q> const& v1, + vec<4, V2, Q> const& v2, + vec<4, V3, Q> const& v3, + vec<4, V4, Q> const& v4); + + // -- Matrix conversions -- + + template + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 4, U, P> const& m); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 3, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<2, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 2, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<3, 4, T, Q> const& x); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR mat(mat<4, 3, T, Q> const& x); + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator=(mat<4, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator+=(U s); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator+=(mat<4, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator-=(U s); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator-=(mat<4, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator*=(U s); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator*=(mat<4, 4, U, Q> const& m); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator/=(U s); + template + GLM_FUNC_DECL mat<4, 4, T, Q> & operator/=(mat<4, 4, U, Q> const& m); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL mat<4, 4, T, Q> & operator++(); + GLM_FUNC_DECL mat<4, 4, T, Q> & operator--(); + GLM_FUNC_DECL mat<4, 4, T, Q> operator++(int); + GLM_FUNC_DECL mat<4, 4, T, Q> operator--(int); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator+(mat<4, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator-(mat<4, 4, T, Q> const& m); + + // -- Binary operators -- + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator+(mat<4, 4, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator+(T const& s, mat<4, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator+(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator-(mat<4, 4, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator-(T const& s, mat<4, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator-(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator*(mat<4, 4, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator*(T const& s, mat<4, 4, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<4, 4, T, Q>::col_type operator*(mat<4, 4, T, Q> const& m, typename mat<4, 4, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<4, 4, T, Q>::row_type operator*(typename mat<4, 4, T, Q>::col_type const& v, mat<4, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<2, 4, T, Q> operator*(mat<4, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<3, 4, T, Q> operator*(mat<4, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator*(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator/(mat<4, 4, T, Q> const& m, T const& s); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator/(T const& s, mat<4, 4, T, Q> const& m); + + template + GLM_FUNC_DECL typename mat<4, 4, T, Q>::col_type operator/(mat<4, 4, T, Q> const& m, typename mat<4, 4, T, Q>::row_type const& v); + + template + GLM_FUNC_DECL typename mat<4, 4, T, Q>::row_type operator/(typename mat<4, 4, T, Q>::col_type const& v, mat<4, 4, T, Q> const& m); + + template + GLM_FUNC_DECL mat<4, 4, T, Q> operator/(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2); + + template + GLM_FUNC_DECL bool operator!=(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_mat4x4.inl" +#endif//GLM_EXTERNAL_TEMPLATE diff --git a/Vulkan/ext/include/glm/detail/type_mat4x4.inl b/Vulkan/ext/include/glm/detail/type_mat4x4.inl new file mode 100644 index 0000000..e38b87f --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat4x4.inl @@ -0,0 +1,706 @@ +#include "../matrix.hpp" + +namespace glm +{ + // -- Constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat() +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALIZER_LIST + : value{col_type(1, 0, 0, 0), col_type(0, 1, 0, 0), col_type(0, 0, 1, 0), col_type(0, 0, 0, 1)} +# endif + { +# if GLM_CONFIG_CTOR_INIT == GLM_CTOR_INITIALISATION + this->value[0] = col_type(1, 0, 0, 0); + this->value[1] = col_type(0, 1, 0, 0); + this->value[2] = col_type(0, 0, 1, 0); + this->value[3] = col_type(0, 0, 0, 1); +# endif + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<4, 4, T, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + this->value[3] = m[3]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(T const& s) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(s, 0, 0, 0), col_type(0, s, 0, 0), col_type(0, 0, s, 0), col_type(0, 0, 0, s)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(s, 0, 0, 0); + this->value[1] = col_type(0, s, 0, 0); + this->value[2] = col_type(0, 0, s, 0); + this->value[3] = col_type(0, 0, 0, s); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat + ( + T const& x0, T const& y0, T const& z0, T const& w0, + T const& x1, T const& y1, T const& z1, T const& w1, + T const& x2, T const& y2, T const& z2, T const& w2, + T const& x3, T const& y3, T const& z3, T const& w3 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{ + col_type(x0, y0, z0, w0), + col_type(x1, y1, z1, w1), + col_type(x2, y2, z2, w2), + col_type(x3, y3, z3, w3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x0, y0, z0, w0); + this->value[1] = col_type(x1, y1, z1, w1); + this->value[2] = col_type(x2, y2, z2, w2); + this->value[3] = col_type(x3, y3, z3, w3); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(col_type const& v0, col_type const& v1, col_type const& v2, col_type const& v3) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v0), col_type(v1), col_type(v2), col_type(v3)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = v0; + this->value[1] = v1; + this->value[2] = v2; + this->value[3] = v3; +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<4, 4, U, P> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(m[3])} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0]); + this->value[1] = col_type(m[1]); + this->value[2] = col_type(m[2]); + this->value[3] = col_type(m[3]); +# endif + } + + // -- Conversions -- + + template + template< + typename X1, typename Y1, typename Z1, typename W1, + typename X2, typename Y2, typename Z2, typename W2, + typename X3, typename Y3, typename Z3, typename W3, + typename X4, typename Y4, typename Z4, typename W4> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat + ( + X1 const& x1, Y1 const& y1, Z1 const& z1, W1 const& w1, + X2 const& x2, Y2 const& y2, Z2 const& z2, W2 const& w2, + X3 const& x3, Y3 const& y3, Z3 const& z3, W3 const& w3, + X4 const& x4, Y4 const& y4, Z4 const& z4, W4 const& w4 + ) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(x1, y1, z1, w1), col_type(x2, y2, z2, w2), col_type(x3, y3, z3, w3), col_type(x4, y4, z4, w4)} +# endif + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 1st parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 2nd parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 3rd parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 4th parameter type invalid."); + + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 5th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 6th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 7th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 8th parameter type invalid."); + + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 9th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 10th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 11th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 12th parameter type invalid."); + + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 13th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 14th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 15th parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 16th parameter type invalid."); + +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(x1, y1, z1, w1); + this->value[1] = col_type(x2, y2, z2, w2); + this->value[2] = col_type(x3, y3, z3, w3); + this->value[3] = col_type(x4, y4, z4, w4); +# endif + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(vec<4, V1, Q> const& v1, vec<4, V2, Q> const& v2, vec<4, V3, Q> const& v3, vec<4, V4, Q> const& v4) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(v1), col_type(v2), col_type(v3), col_type(v4)} +# endif + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 1st parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 2nd parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 3rd parameter type invalid."); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559 || std::numeric_limits::is_integer || GLM_CONFIG_UNRESTRICTED_GENTYPE, "*mat4x4 constructor only takes float and integer types, 4th parameter type invalid."); + +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(v1); + this->value[1] = col_type(v2); + this->value[2] = col_type(v3); + this->value[3] = col_type(v4); +# endif + } + + // -- Matrix conversions -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<2, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0), col_type(0, 0, 1, 0), col_type(0, 0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); + this->value[2] = col_type(0, 0, 1, 0); + this->value[3] = col_type(0, 0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<3, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 0), col_type(0, 0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 0); + this->value[3] = col_type(0, 0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<2, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(0, 0, 1, 0), col_type(0, 0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(0, 0, 1, 0); + this->value[3] = col_type(0, 0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<3, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0), col_type(m[2], 1, 0), col_type(0, 0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); + this->value[2] = col_type(m[2], 1, 0); + this->value[3] = col_type(0, 0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<2, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(0, 0, 1, 0), col_type(0, 0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = col_type(0, 0, 1, 0); + this->value[3] = col_type(0, 0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<4, 2, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0, 0), col_type(m[1], 0, 0), col_type(0, 0, 1, 0), col_type(0, 0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0, 0); + this->value[1] = col_type(m[1], 0, 0); + this->value[2] = col_type(0, 0, 1, 0); + this->value[3] = col_type(0, 0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<3, 4, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0]), col_type(m[1]), col_type(m[2]), col_type(0, 0, 0, 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + this->value[3] = col_type(0, 0, 0, 1); +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR mat<4, 4, T, Q>::mat(mat<4, 3, T, Q> const& m) +# if GLM_HAS_INITIALIZER_LISTS + : value{col_type(m[0], 0), col_type(m[1], 0), col_type(m[2], 0), col_type(m[3], 1)} +# endif + { +# if !GLM_HAS_INITIALIZER_LISTS + this->value[0] = col_type(m[0], 0); + this->value[1] = col_type(m[1], 0); + this->value[2] = col_type(m[2], 0); + this->value[3] = col_type(m[3], 1); +# endif + } + + // -- Accesses -- + + template + GLM_FUNC_QUALIFIER typename mat<4, 4, T, Q>::col_type & mat<4, 4, T, Q>::operator[](typename mat<4, 4, T, Q>::length_type i) + { + assert(i < this->length()); + return this->value[i]; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR typename mat<4, 4, T, Q>::col_type const& mat<4, 4, T, Q>::operator[](typename mat<4, 4, T, Q>::length_type i) const + { + assert(i < this->length()); + return this->value[i]; + } + + // -- Unary arithmetic operators -- + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q>& mat<4, 4, T, Q>::operator=(mat<4, 4, U, Q> const& m) + { + //memcpy could be faster + //memcpy(&this->value, &m.value, 16 * sizeof(valType)); + this->value[0] = m[0]; + this->value[1] = m[1]; + this->value[2] = m[2]; + this->value[3] = m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q>& mat<4, 4, T, Q>::operator+=(U s) + { + this->value[0] += s; + this->value[1] += s; + this->value[2] += s; + this->value[3] += s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q>& mat<4, 4, T, Q>::operator+=(mat<4, 4, U, Q> const& m) + { + this->value[0] += m[0]; + this->value[1] += m[1]; + this->value[2] += m[2]; + this->value[3] += m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator-=(U s) + { + this->value[0] -= s; + this->value[1] -= s; + this->value[2] -= s; + this->value[3] -= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator-=(mat<4, 4, U, Q> const& m) + { + this->value[0] -= m[0]; + this->value[1] -= m[1]; + this->value[2] -= m[2]; + this->value[3] -= m[3]; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator*=(U s) + { + this->value[0] *= s; + this->value[1] *= s; + this->value[2] *= s; + this->value[3] *= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator*=(mat<4, 4, U, Q> const& m) + { + return (*this = *this * m); + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator/=(U s) + { + this->value[0] /= s; + this->value[1] /= s; + this->value[2] /= s; + this->value[3] /= s; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator/=(mat<4, 4, U, Q> const& m) + { + return *this *= inverse(m); + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator++() + { + ++this->value[0]; + ++this->value[1]; + ++this->value[2]; + ++this->value[3]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> & mat<4, 4, T, Q>::operator--() + { + --this->value[0]; + --this->value[1]; + --this->value[2]; + --this->value[3]; + return *this; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> mat<4, 4, T, Q>::operator++(int) + { + mat<4, 4, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> mat<4, 4, T, Q>::operator--(int) + { + mat<4, 4, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary constant operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator+(mat<4, 4, T, Q> const& m) + { + return m; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator-(mat<4, 4, T, Q> const& m) + { + return mat<4, 4, T, Q>( + -m[0], + -m[1], + -m[2], + -m[3]); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator+(mat<4, 4, T, Q> const& m, T const& s) + { + return mat<4, 4, T, Q>( + m[0] + s, + m[1] + s, + m[2] + s, + m[3] + s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator+(T const& s, mat<4, 4, T, Q> const& m) + { + return mat<4, 4, T, Q>( + m[0] + s, + m[1] + s, + m[2] + s, + m[3] + s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator+(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + return mat<4, 4, T, Q>( + m1[0] + m2[0], + m1[1] + m2[1], + m1[2] + m2[2], + m1[3] + m2[3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator-(mat<4, 4, T, Q> const& m, T const& s) + { + return mat<4, 4, T, Q>( + m[0] - s, + m[1] - s, + m[2] - s, + m[3] - s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator-(T const& s, mat<4, 4, T, Q> const& m) + { + return mat<4, 4, T, Q>( + s - m[0], + s - m[1], + s - m[2], + s - m[3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator-(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + return mat<4, 4, T, Q>( + m1[0] - m2[0], + m1[1] - m2[1], + m1[2] - m2[2], + m1[3] - m2[3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator*(mat<4, 4, T, Q> const& m, T const & s) + { + return mat<4, 4, T, Q>( + m[0] * s, + m[1] * s, + m[2] * s, + m[3] * s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator*(T const& s, mat<4, 4, T, Q> const& m) + { + return mat<4, 4, T, Q>( + m[0] * s, + m[1] * s, + m[2] * s, + m[3] * s); + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 4, T, Q>::col_type operator* + ( + mat<4, 4, T, Q> const& m, + typename mat<4, 4, T, Q>::row_type const& v + ) + { +/* + __m128 v0 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 v1 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(1, 1, 1, 1)); + __m128 v2 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(2, 2, 2, 2)); + __m128 v3 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 m0 = _mm_mul_ps(m[0].data, v0); + __m128 m1 = _mm_mul_ps(m[1].data, v1); + __m128 a0 = _mm_add_ps(m0, m1); + + __m128 m2 = _mm_mul_ps(m[2].data, v2); + __m128 m3 = _mm_mul_ps(m[3].data, v3); + __m128 a1 = _mm_add_ps(m2, m3); + + __m128 a2 = _mm_add_ps(a0, a1); + + return typename mat<4, 4, T, Q>::col_type(a2); +*/ + + typename mat<4, 4, T, Q>::col_type const Mov0(v[0]); + typename mat<4, 4, T, Q>::col_type const Mov1(v[1]); + typename mat<4, 4, T, Q>::col_type const Mul0 = m[0] * Mov0; + typename mat<4, 4, T, Q>::col_type const Mul1 = m[1] * Mov1; + typename mat<4, 4, T, Q>::col_type const Add0 = Mul0 + Mul1; + typename mat<4, 4, T, Q>::col_type const Mov2(v[2]); + typename mat<4, 4, T, Q>::col_type const Mov3(v[3]); + typename mat<4, 4, T, Q>::col_type const Mul2 = m[2] * Mov2; + typename mat<4, 4, T, Q>::col_type const Mul3 = m[3] * Mov3; + typename mat<4, 4, T, Q>::col_type const Add1 = Mul2 + Mul3; + typename mat<4, 4, T, Q>::col_type const Add2 = Add0 + Add1; + return Add2; + +/* + return typename mat<4, 4, T, Q>::col_type( + m[0][0] * v[0] + m[1][0] * v[1] + m[2][0] * v[2] + m[3][0] * v[3], + m[0][1] * v[0] + m[1][1] * v[1] + m[2][1] * v[2] + m[3][1] * v[3], + m[0][2] * v[0] + m[1][2] * v[1] + m[2][2] * v[2] + m[3][2] * v[3], + m[0][3] * v[0] + m[1][3] * v[1] + m[2][3] * v[2] + m[3][3] * v[3]); +*/ + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 4, T, Q>::row_type operator* + ( + typename mat<4, 4, T, Q>::col_type const& v, + mat<4, 4, T, Q> const& m + ) + { + return typename mat<4, 4, T, Q>::row_type( + m[0][0] * v[0] + m[0][1] * v[1] + m[0][2] * v[2] + m[0][3] * v[3], + m[1][0] * v[0] + m[1][1] * v[1] + m[1][2] * v[2] + m[1][3] * v[3], + m[2][0] * v[0] + m[2][1] * v[1] + m[2][2] * v[2] + m[2][3] * v[3], + m[3][0] * v[0] + m[3][1] * v[1] + m[3][2] * v[2] + m[3][3] * v[3]); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> operator*(mat<4, 4, T, Q> const& m1, mat<2, 4, T, Q> const& m2) + { + return mat<2, 4, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2] + m1[3][0] * m2[0][3], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2] + m1[3][1] * m2[0][3], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2] + m1[3][2] * m2[0][3], + m1[0][3] * m2[0][0] + m1[1][3] * m2[0][1] + m1[2][3] * m2[0][2] + m1[3][3] * m2[0][3], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2] + m1[3][0] * m2[1][3], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2] + m1[3][1] * m2[1][3], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2] + m1[3][2] * m2[1][3], + m1[0][3] * m2[1][0] + m1[1][3] * m2[1][1] + m1[2][3] * m2[1][2] + m1[3][3] * m2[1][3]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> operator*(mat<4, 4, T, Q> const& m1, mat<3, 4, T, Q> const& m2) + { + return mat<3, 4, T, Q>( + m1[0][0] * m2[0][0] + m1[1][0] * m2[0][1] + m1[2][0] * m2[0][2] + m1[3][0] * m2[0][3], + m1[0][1] * m2[0][0] + m1[1][1] * m2[0][1] + m1[2][1] * m2[0][2] + m1[3][1] * m2[0][3], + m1[0][2] * m2[0][0] + m1[1][2] * m2[0][1] + m1[2][2] * m2[0][2] + m1[3][2] * m2[0][3], + m1[0][3] * m2[0][0] + m1[1][3] * m2[0][1] + m1[2][3] * m2[0][2] + m1[3][3] * m2[0][3], + m1[0][0] * m2[1][0] + m1[1][0] * m2[1][1] + m1[2][0] * m2[1][2] + m1[3][0] * m2[1][3], + m1[0][1] * m2[1][0] + m1[1][1] * m2[1][1] + m1[2][1] * m2[1][2] + m1[3][1] * m2[1][3], + m1[0][2] * m2[1][0] + m1[1][2] * m2[1][1] + m1[2][2] * m2[1][2] + m1[3][2] * m2[1][3], + m1[0][3] * m2[1][0] + m1[1][3] * m2[1][1] + m1[2][3] * m2[1][2] + m1[3][3] * m2[1][3], + m1[0][0] * m2[2][0] + m1[1][0] * m2[2][1] + m1[2][0] * m2[2][2] + m1[3][0] * m2[2][3], + m1[0][1] * m2[2][0] + m1[1][1] * m2[2][1] + m1[2][1] * m2[2][2] + m1[3][1] * m2[2][3], + m1[0][2] * m2[2][0] + m1[1][2] * m2[2][1] + m1[2][2] * m2[2][2] + m1[3][2] * m2[2][3], + m1[0][3] * m2[2][0] + m1[1][3] * m2[2][1] + m1[2][3] * m2[2][2] + m1[3][3] * m2[2][3]); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator*(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + typename mat<4, 4, T, Q>::col_type const SrcA0 = m1[0]; + typename mat<4, 4, T, Q>::col_type const SrcA1 = m1[1]; + typename mat<4, 4, T, Q>::col_type const SrcA2 = m1[2]; + typename mat<4, 4, T, Q>::col_type const SrcA3 = m1[3]; + + typename mat<4, 4, T, Q>::col_type const SrcB0 = m2[0]; + typename mat<4, 4, T, Q>::col_type const SrcB1 = m2[1]; + typename mat<4, 4, T, Q>::col_type const SrcB2 = m2[2]; + typename mat<4, 4, T, Q>::col_type const SrcB3 = m2[3]; + + mat<4, 4, T, Q> Result; + Result[0] = SrcA0 * SrcB0[0] + SrcA1 * SrcB0[1] + SrcA2 * SrcB0[2] + SrcA3 * SrcB0[3]; + Result[1] = SrcA0 * SrcB1[0] + SrcA1 * SrcB1[1] + SrcA2 * SrcB1[2] + SrcA3 * SrcB1[3]; + Result[2] = SrcA0 * SrcB2[0] + SrcA1 * SrcB2[1] + SrcA2 * SrcB2[2] + SrcA3 * SrcB2[3]; + Result[3] = SrcA0 * SrcB3[0] + SrcA1 * SrcB3[1] + SrcA2 * SrcB3[2] + SrcA3 * SrcB3[3]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator/(mat<4, 4, T, Q> const& m, T const& s) + { + return mat<4, 4, T, Q>( + m[0] / s, + m[1] / s, + m[2] / s, + m[3] / s); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator/(T const& s, mat<4, 4, T, Q> const& m) + { + return mat<4, 4, T, Q>( + s / m[0], + s / m[1], + s / m[2], + s / m[3]); + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 4, T, Q>::col_type operator/(mat<4, 4, T, Q> const& m, typename mat<4, 4, T, Q>::row_type const& v) + { + return inverse(m) * v; + } + + template + GLM_FUNC_QUALIFIER typename mat<4, 4, T, Q>::row_type operator/(typename mat<4, 4, T, Q>::col_type const& v, mat<4, 4, T, Q> const& m) + { + return v * inverse(m); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> operator/(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + mat<4, 4, T, Q> m1_copy(m1); + return m1_copy /= m2; + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + return (m1[0] == m2[0]) && (m1[1] == m2[1]) && (m1[2] == m2[2]) && (m1[3] == m2[3]); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2) + { + return (m1[0] != m2[0]) || (m1[1] != m2[1]) || (m1[2] != m2[2]) || (m1[3] != m2[3]); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "type_mat4x4_simd.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_mat4x4_simd.inl b/Vulkan/ext/include/glm/detail/type_mat4x4_simd.inl new file mode 100644 index 0000000..fb3a16f --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_mat4x4_simd.inl @@ -0,0 +1,6 @@ +/// @ref core + +namespace glm +{ + +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_quat.hpp b/Vulkan/ext/include/glm/detail/type_quat.hpp new file mode 100644 index 0000000..0e60bc3 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_quat.hpp @@ -0,0 +1,186 @@ +/// @ref core +/// @file glm/detail/type_quat.hpp + +#pragma once + +// Dependency: +#include "../detail/type_mat3x3.hpp" +#include "../detail/type_mat4x4.hpp" +#include "../detail/type_vec3.hpp" +#include "../detail/type_vec4.hpp" +#include "../ext/vector_relational.hpp" +#include "../ext/quaternion_relational.hpp" +#include "../gtc/constants.hpp" +#include "../gtc/matrix_transform.hpp" + +namespace glm +{ + template + struct qua + { + // -- Implementation detail -- + + typedef qua type; + typedef T value_type; + + // -- Data -- + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic push +# pragma GCC diagnostic ignored "-Wpedantic" +# elif GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic push +# pragma clang diagnostic ignored "-Wgnu-anonymous-struct" +# pragma clang diagnostic ignored "-Wnested-anon-types" +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(push) +# pragma warning(disable: 4201) // nonstandard extension used : nameless struct/union +# endif +# endif + +# if GLM_LANG & GLM_LANG_CXXMS_FLAG + union + { +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + struct { T w, x, y, z; }; +# else + struct { T x, y, z, w; }; +# endif + + typename detail::storage<4, T, detail::is_aligned::value>::type data; + }; +# else +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + T w, x, y, z; +# else + T x, y, z, w; +# endif +# endif + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(pop) +# endif +# endif + + // -- Component accesses -- + + typedef length_t length_type; + + /// Return the count of components of a quaternion + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length(){return 4;} + + GLM_FUNC_DECL GLM_CONSTEXPR T & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR T const& operator[](length_type i) const; + + // -- Implicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR qua() GLM_DEFAULT; + GLM_FUNC_DECL GLM_CONSTEXPR qua(qua const& q) GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR qua(qua const& q); + + // -- Explicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR qua(T s, vec<3, T, Q> const& v); + GLM_FUNC_DECL GLM_CONSTEXPR qua(T w, T x, T y, T z); + + // -- Conversion constructors -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT qua(qua const& q); + + /// Explicit conversion operators +# if GLM_HAS_EXPLICIT_CONVERSION_OPERATORS + GLM_FUNC_DECL explicit operator mat<3, 3, T, Q>() const; + GLM_FUNC_DECL explicit operator mat<4, 4, T, Q>() const; +# endif + + /// Create a quaternion from two normalized axis + /// + /// @param u A first normalized axis + /// @param v A second normalized axis + /// @see gtc_quaternion + /// @see http://lolengine.net/blog/2013/09/18/beautiful-maths-quaternion-from-vectors + GLM_FUNC_DECL qua(vec<3, T, Q> const& u, vec<3, T, Q> const& v); + + /// Build a quaternion from euler angles (pitch, yaw, roll), in radians. + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT qua(vec<3, T, Q> const& eulerAngles); + GLM_FUNC_DECL GLM_EXPLICIT qua(mat<3, 3, T, Q> const& q); + GLM_FUNC_DECL GLM_EXPLICIT qua(mat<4, 4, T, Q> const& q); + + // -- Unary arithmetic operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR qua& operator=(qua const& q) GLM_DEFAULT; + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua& operator=(qua const& q); + template + GLM_FUNC_DECL GLM_CONSTEXPR qua& operator+=(qua const& q); + template + GLM_FUNC_DECL GLM_CONSTEXPR qua& operator-=(qua const& q); + template + GLM_FUNC_DECL GLM_CONSTEXPR qua& operator*=(qua const& q); + template + GLM_FUNC_DECL GLM_CONSTEXPR qua& operator*=(U s); + template + GLM_FUNC_DECL GLM_CONSTEXPR qua& operator/=(U s); + }; + + // -- Unary bit operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator+(qua const& q); + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator-(qua const& q); + + // -- Binary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator+(qua const& q, qua const& p); + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator-(qua const& q, qua const& p); + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator*(qua const& q, qua const& p); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator*(qua const& q, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v, qua const& q); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator*(qua const& q, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v, qua const& q); + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator*(qua const& q, T const& s); + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator*(T const& s, qua const& q); + + template + GLM_FUNC_DECL GLM_CONSTEXPR qua operator/(qua const& q, T const& s); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator==(qua const& q1, qua const& q2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator!=(qua const& q1, qua const& q2); +} //namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_quat.inl" +#endif//GLM_EXTERNAL_TEMPLATE diff --git a/Vulkan/ext/include/glm/detail/type_quat.inl b/Vulkan/ext/include/glm/detail/type_quat.inl new file mode 100644 index 0000000..67b9310 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_quat.inl @@ -0,0 +1,408 @@ +#include "../trigonometric.hpp" +#include "../exponential.hpp" +#include "../ext/quaternion_geometric.hpp" +#include + +namespace glm{ +namespace detail +{ + template + struct genTypeTrait > + { + static const genTypeEnum GENTYPE = GENTYPE_QUAT; + }; + + template + struct compute_dot, T, Aligned> + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static T call(qua const& a, qua const& b) + { + vec<4, T, Q> tmp(a.w * b.w, a.x * b.x, a.y * b.y, a.z * b.z); + return (tmp.x + tmp.y) + (tmp.z + tmp.w); + } + }; + + template + struct compute_quat_add + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static qua call(qua const& q, qua const& p) + { + return qua(q.w + p.w, q.x + p.x, q.y + p.y, q.z + p.z); + } + }; + + template + struct compute_quat_sub + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static qua call(qua const& q, qua const& p) + { + return qua(q.w - p.w, q.x - p.x, q.y - p.y, q.z - p.z); + } + }; + + template + struct compute_quat_mul_scalar + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static qua call(qua const& q, T s) + { + return qua(q.w * s, q.x * s, q.y * s, q.z * s); + } + }; + + template + struct compute_quat_div_scalar + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static qua call(qua const& q, T s) + { + return qua(q.w / s, q.x / s, q.y / s, q.z / s); + } + }; + + template + struct compute_quat_mul_vec4 + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(qua const& q, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(q * vec<3, T, Q>(v), v.w); + } + }; +}//namespace detail + + // -- Component accesses -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T & qua::operator[](typename qua::length_type i) + { + assert(i >= 0 && i < this->length()); +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + return (&w)[i]; +# else + return (&x)[i]; +# endif + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T const& qua::operator[](typename qua::length_type i) const + { + assert(i >= 0 && i < this->length()); +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + return (&w)[i]; +# else + return (&x)[i]; +# endif + } + + // -- Implicit basic constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua::qua() +# if GLM_CONFIG_CTOR_INIT != GLM_CTOR_INIT_DISABLE +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + : w(1), x(0), y(0), z(0) +# else + : x(0), y(0), z(0), w(1) +# endif +# endif + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua::qua(qua const& q) +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + : w(q.w), x(q.x), y(q.y), z(q.z) +# else + : x(q.x), y(q.y), z(q.z), w(q.w) +# endif + {} +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua::qua(qua const& q) +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + : w(q.w), x(q.x), y(q.y), z(q.z) +# else + : x(q.x), y(q.y), z(q.z), w(q.w) +# endif + {} + + // -- Explicit basic constructors -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua::qua(T s, vec<3, T, Q> const& v) +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + : w(s), x(v.x), y(v.y), z(v.z) +# else + : x(v.x), y(v.y), z(v.z), w(s) +# endif + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua::qua(T _w, T _x, T _y, T _z) +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + : w(_w), x(_x), y(_y), z(_z) +# else + : x(_x), y(_y), z(_z), w(_w) +# endif + {} + + // -- Conversion constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua::qua(qua const& q) +# ifdef GLM_FORCE_QUAT_DATA_WXYZ + : w(static_cast(q.w)), x(static_cast(q.x)), y(static_cast(q.y)), z(static_cast(q.z)) +# else + : x(static_cast(q.x)), y(static_cast(q.y)), z(static_cast(q.z)), w(static_cast(q.w)) +# endif + {} + + //template + //GLM_FUNC_QUALIFIER qua::qua + //( + // valType const& pitch, + // valType const& yaw, + // valType const& roll + //) + //{ + // vec<3, valType> eulerAngle(pitch * valType(0.5), yaw * valType(0.5), roll * valType(0.5)); + // vec<3, valType> c = glm::cos(eulerAngle * valType(0.5)); + // vec<3, valType> s = glm::sin(eulerAngle * valType(0.5)); + // + // this->w = c.x * c.y * c.z + s.x * s.y * s.z; + // this->x = s.x * c.y * c.z - c.x * s.y * s.z; + // this->y = c.x * s.y * c.z + s.x * c.y * s.z; + // this->z = c.x * c.y * s.z - s.x * s.y * c.z; + //} + + template + GLM_FUNC_QUALIFIER qua::qua(vec<3, T, Q> const& u, vec<3, T, Q> const& v) + { + T norm_u_norm_v = sqrt(dot(u, u) * dot(v, v)); + T real_part = norm_u_norm_v + dot(u, v); + vec<3, T, Q> t; + + if(real_part < static_cast(1.e-6f) * norm_u_norm_v) + { + // If u and v are exactly opposite, rotate 180 degrees + // around an arbitrary orthogonal axis. Axis normalisation + // can happen later, when we normalise the quaternion. + real_part = static_cast(0); + t = abs(u.x) > abs(u.z) ? vec<3, T, Q>(-u.y, u.x, static_cast(0)) : vec<3, T, Q>(static_cast(0), -u.z, u.y); + } + else + { + // Otherwise, build quaternion the standard way. + t = cross(u, v); + } + + *this = normalize(qua(real_part, t.x, t.y, t.z)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua::qua(vec<3, T, Q> const& eulerAngle) + { + vec<3, T, Q> c = glm::cos(eulerAngle * T(0.5)); + vec<3, T, Q> s = glm::sin(eulerAngle * T(0.5)); + + this->w = c.x * c.y * c.z + s.x * s.y * s.z; + this->x = s.x * c.y * c.z - c.x * s.y * s.z; + this->y = c.x * s.y * c.z + s.x * c.y * s.z; + this->z = c.x * c.y * s.z - s.x * s.y * c.z; + } + + template + GLM_FUNC_QUALIFIER qua::qua(mat<3, 3, T, Q> const& m) + { + *this = quat_cast(m); + } + + template + GLM_FUNC_QUALIFIER qua::qua(mat<4, 4, T, Q> const& m) + { + *this = quat_cast(m); + } + +# if GLM_HAS_EXPLICIT_CONVERSION_OPERATORS + template + GLM_FUNC_QUALIFIER qua::operator mat<3, 3, T, Q>() const + { + return mat3_cast(*this); + } + + template + GLM_FUNC_QUALIFIER qua::operator mat<4, 4, T, Q>() const + { + return mat4_cast(*this); + } +# endif//GLM_HAS_EXPLICIT_CONVERSION_OPERATORS + + // -- Unary arithmetic operators -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua & qua::operator=(qua const& q) + { + this->w = q.w; + this->x = q.x; + this->y = q.y; + this->z = q.z; + return *this; + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua & qua::operator=(qua const& q) + { + this->w = static_cast(q.w); + this->x = static_cast(q.x); + this->y = static_cast(q.y); + this->z = static_cast(q.z); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua & qua::operator+=(qua const& q) + { + return (*this = detail::compute_quat_add::value>::call(*this, qua(q))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua & qua::operator-=(qua const& q) + { + return (*this = detail::compute_quat_sub::value>::call(*this, qua(q))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua & qua::operator*=(qua const& r) + { + qua const p(*this); + qua const q(r); + + this->w = p.w * q.w - p.x * q.x - p.y * q.y - p.z * q.z; + this->x = p.w * q.x + p.x * q.w + p.y * q.z - p.z * q.y; + this->y = p.w * q.y + p.y * q.w + p.z * q.x - p.x * q.z; + this->z = p.w * q.z + p.z * q.w + p.x * q.y - p.y * q.x; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua & qua::operator*=(U s) + { + return (*this = detail::compute_quat_mul_scalar::value>::call(*this, static_cast(s))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua & qua::operator/=(U s) + { + return (*this = detail::compute_quat_div_scalar::value>::call(*this, static_cast(s))); + } + + // -- Unary bit operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator+(qua const& q) + { + return q; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator-(qua const& q) + { + return qua(-q.w, -q.x, -q.y, -q.z); + } + + // -- Binary operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator+(qua const& q, qua const& p) + { + return qua(q) += p; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator-(qua const& q, qua const& p) + { + return qua(q) -= p; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator*(qua const& q, qua const& p) + { + return qua(q) *= p; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator*(qua const& q, vec<3, T, Q> const& v) + { + vec<3, T, Q> const QuatVector(q.x, q.y, q.z); + vec<3, T, Q> const uv(glm::cross(QuatVector, v)); + vec<3, T, Q> const uuv(glm::cross(QuatVector, uv)); + + return v + ((uv * q.w) + uuv) * static_cast(2); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v, qua const& q) + { + return glm::inverse(q) * v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator*(qua const& q, vec<4, T, Q> const& v) + { + return detail::compute_quat_mul_vec4::value>::call(q, v); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v, qua const& q) + { + return glm::inverse(q) * v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator*(qua const& q, T const& s) + { + return qua( + q.w * s, q.x * s, q.y * s, q.z * s); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator*(T const& s, qua const& q) + { + return q * s; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua operator/(qua const& q, T const& s) + { + return qua( + q.w / s, q.x / s, q.y / s, q.z / s); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator==(qua const& q1, qua const& q2) + { + return q1.x == q2.x && q1.y == q2.y && q1.z == q2.z && q1.w == q2.w; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator!=(qua const& q1, qua const& q2) + { + return q1.x != q2.x || q1.y != q2.y || q1.z != q2.z || q1.w != q2.w; + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "type_quat_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/detail/type_quat_simd.inl b/Vulkan/ext/include/glm/detail/type_quat_simd.inl new file mode 100644 index 0000000..3333e59 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_quat_simd.inl @@ -0,0 +1,188 @@ +/// @ref core + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +namespace glm{ +namespace detail +{ +/* + template + struct compute_quat_mul + { + static qua call(qua const& q1, qua const& q2) + { + // SSE2 STATS: 11 shuffle, 8 mul, 8 add + // SSE4 STATS: 3 shuffle, 4 mul, 4 dpps + + __m128 const mul0 = _mm_mul_ps(q1.Data, _mm_shuffle_ps(q2.Data, q2.Data, _MM_SHUFFLE(0, 1, 2, 3))); + __m128 const mul1 = _mm_mul_ps(q1.Data, _mm_shuffle_ps(q2.Data, q2.Data, _MM_SHUFFLE(1, 0, 3, 2))); + __m128 const mul2 = _mm_mul_ps(q1.Data, _mm_shuffle_ps(q2.Data, q2.Data, _MM_SHUFFLE(2, 3, 0, 1))); + __m128 const mul3 = _mm_mul_ps(q1.Data, q2.Data); + +# if GLM_ARCH & GLM_ARCH_SSE41_BIT + __m128 const add0 = _mm_dp_ps(mul0, _mm_set_ps(1.0f, -1.0f, 1.0f, 1.0f), 0xff); + __m128 const add1 = _mm_dp_ps(mul1, _mm_set_ps(1.0f, 1.0f, 1.0f, -1.0f), 0xff); + __m128 const add2 = _mm_dp_ps(mul2, _mm_set_ps(1.0f, 1.0f, -1.0f, 1.0f), 0xff); + __m128 const add3 = _mm_dp_ps(mul3, _mm_set_ps(1.0f, -1.0f, -1.0f, -1.0f), 0xff); +# else + __m128 const mul4 = _mm_mul_ps(mul0, _mm_set_ps(1.0f, -1.0f, 1.0f, 1.0f)); + __m128 const add0 = _mm_add_ps(mul0, _mm_movehl_ps(mul4, mul4)); + __m128 const add4 = _mm_add_ss(add0, _mm_shuffle_ps(add0, add0, 1)); + + __m128 const mul5 = _mm_mul_ps(mul1, _mm_set_ps(1.0f, 1.0f, 1.0f, -1.0f)); + __m128 const add1 = _mm_add_ps(mul1, _mm_movehl_ps(mul5, mul5)); + __m128 const add5 = _mm_add_ss(add1, _mm_shuffle_ps(add1, add1, 1)); + + __m128 const mul6 = _mm_mul_ps(mul2, _mm_set_ps(1.0f, 1.0f, -1.0f, 1.0f)); + __m128 const add2 = _mm_add_ps(mul6, _mm_movehl_ps(mul6, mul6)); + __m128 const add6 = _mm_add_ss(add2, _mm_shuffle_ps(add2, add2, 1)); + + __m128 const mul7 = _mm_mul_ps(mul3, _mm_set_ps(1.0f, -1.0f, -1.0f, -1.0f)); + __m128 const add3 = _mm_add_ps(mul3, _mm_movehl_ps(mul7, mul7)); + __m128 const add7 = _mm_add_ss(add3, _mm_shuffle_ps(add3, add3, 1)); + #endif + + // This SIMD code is a politically correct way of doing this, but in every test I've tried it has been slower than + // the final code below. I'll keep this here for reference - maybe somebody else can do something better... + // + //__m128 xxyy = _mm_shuffle_ps(add4, add5, _MM_SHUFFLE(0, 0, 0, 0)); + //__m128 zzww = _mm_shuffle_ps(add6, add7, _MM_SHUFFLE(0, 0, 0, 0)); + // + //return _mm_shuffle_ps(xxyy, zzww, _MM_SHUFFLE(2, 0, 2, 0)); + + qua Result; + _mm_store_ss(&Result.x, add4); + _mm_store_ss(&Result.y, add5); + _mm_store_ss(&Result.z, add6); + _mm_store_ss(&Result.w, add7); + return Result; + } + }; +*/ + + template + struct compute_quat_add + { + static qua call(qua const& q, qua const& p) + { + qua Result; + Result.data = _mm_add_ps(q.data, p.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_quat_add + { + static qua call(qua const& a, qua const& b) + { + qua Result; + Result.data = _mm256_add_pd(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_quat_sub + { + static qua call(qua const& q, qua const& p) + { + vec<4, float, Q> Result; + Result.data = _mm_sub_ps(q.data, p.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_quat_sub + { + static qua call(qua const& a, qua const& b) + { + qua Result; + Result.data = _mm256_sub_pd(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_quat_mul_scalar + { + static qua call(qua const& q, float s) + { + vec<4, float, Q> Result; + Result.data = _mm_mul_ps(q.data, _mm_set_ps1(s)); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_quat_mul_scalar + { + static qua call(qua const& q, double s) + { + qua Result; + Result.data = _mm256_mul_pd(q.data, _mm_set_ps1(s)); + return Result; + } + }; +# endif + + template + struct compute_quat_div_scalar + { + static qua call(qua const& q, float s) + { + vec<4, float, Q> Result; + Result.data = _mm_div_ps(q.data, _mm_set_ps1(s)); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_quat_div_scalar + { + static qua call(qua const& q, double s) + { + qua Result; + Result.data = _mm256_div_pd(q.data, _mm_set_ps1(s)); + return Result; + } + }; +# endif + + template + struct compute_quat_mul_vec4 + { + static vec<4, float, Q> call(qua const& q, vec<4, float, Q> const& v) + { + __m128 const q_wwww = _mm_shuffle_ps(q.data, q.data, _MM_SHUFFLE(3, 3, 3, 3)); + __m128 const q_swp0 = _mm_shuffle_ps(q.data, q.data, _MM_SHUFFLE(3, 0, 2, 1)); + __m128 const q_swp1 = _mm_shuffle_ps(q.data, q.data, _MM_SHUFFLE(3, 1, 0, 2)); + __m128 const v_swp0 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(3, 0, 2, 1)); + __m128 const v_swp1 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(3, 1, 0, 2)); + + __m128 uv = _mm_sub_ps(_mm_mul_ps(q_swp0, v_swp1), _mm_mul_ps(q_swp1, v_swp0)); + __m128 uv_swp0 = _mm_shuffle_ps(uv, uv, _MM_SHUFFLE(3, 0, 2, 1)); + __m128 uv_swp1 = _mm_shuffle_ps(uv, uv, _MM_SHUFFLE(3, 1, 0, 2)); + __m128 uuv = _mm_sub_ps(_mm_mul_ps(q_swp0, uv_swp1), _mm_mul_ps(q_swp1, uv_swp0)); + + __m128 const two = _mm_set1_ps(2.0f); + uv = _mm_mul_ps(uv, _mm_mul_ps(q_wwww, two)); + uuv = _mm_mul_ps(uuv, two); + + vec<4, float, Q> Result; + Result.data = _mm_add_ps(v.Data, _mm_add_ps(uv, uuv)); + return Result; + } + }; +}//namespace detail +}//namespace glm + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT + diff --git a/Vulkan/ext/include/glm/detail/type_vec1.hpp b/Vulkan/ext/include/glm/detail/type_vec1.hpp new file mode 100644 index 0000000..51163f1 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec1.hpp @@ -0,0 +1,308 @@ +/// @ref core +/// @file glm/detail/type_vec1.hpp + +#pragma once + +#include "qualifier.hpp" +#if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR +# include "_swizzle.hpp" +#elif GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION +# include "_swizzle_func.hpp" +#endif +#include + +namespace glm +{ + template + struct vec<1, T, Q> + { + // -- Implementation detail -- + + typedef T value_type; + typedef vec<1, T, Q> type; + typedef vec<1, bool, Q> bool_type; + + // -- Data -- + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic push +# pragma GCC diagnostic ignored "-Wpedantic" +# elif GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic push +# pragma clang diagnostic ignored "-Wgnu-anonymous-struct" +# pragma clang diagnostic ignored "-Wnested-anon-types" +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(push) +# pragma warning(disable: 4201) // nonstandard extension used : nameless struct/union +# endif +# endif + +# if GLM_CONFIG_XYZW_ONLY + T x; +# elif GLM_CONFIG_ANONYMOUS_STRUCT == GLM_ENABLE + union + { + T x; + T r; + T s; + + typename detail::storage<1, T, detail::is_aligned::value>::type data; +/* +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + _GLM_SWIZZLE1_2_MEMBERS(T, Q, x) + _GLM_SWIZZLE1_2_MEMBERS(T, Q, r) + _GLM_SWIZZLE1_2_MEMBERS(T, Q, s) + _GLM_SWIZZLE1_3_MEMBERS(T, Q, x) + _GLM_SWIZZLE1_3_MEMBERS(T, Q, r) + _GLM_SWIZZLE1_3_MEMBERS(T, Q, s) + _GLM_SWIZZLE1_4_MEMBERS(T, Q, x) + _GLM_SWIZZLE1_4_MEMBERS(T, Q, r) + _GLM_SWIZZLE1_4_MEMBERS(T, Q, s) +# endif +*/ + }; +# else + union {T x, r, s;}; +/* +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION + GLM_SWIZZLE_GEN_VEC_FROM_VEC1(T, Q) +# endif +*/ +# endif + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(pop) +# endif +# endif + + // -- Component accesses -- + + /// Return the count of components of the vector + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length(){return 1;} + + GLM_FUNC_DECL GLM_CONSTEXPR T & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR T const& operator[](length_type i) const; + + // -- Implicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec() GLM_DEFAULT; + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec const& v) GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, T, P> const& v); + + // -- Explicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR explicit vec(T scalar); + + // -- Conversion vector constructors -- + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<2, U, P> const& v); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<3, U, P> const& v); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<4, U, P> const& v); + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<1, U, P> const& v); + + // -- Swizzle constructors -- +/* +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<1, T, Q, E0, -1,-2,-3> const& that) + { + *this = that(); + } +# endif//GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR +*/ + // -- Unary arithmetic operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator=(vec const& v) GLM_DEFAULT; + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator+=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator+=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator-=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator-=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator*=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator*=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator/=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator/=(vec<1, U, Q> const& v); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator++(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator--(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator++(int); + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator--(int); + + // -- Unary bit operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator%=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator%=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator&=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator&=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator|=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator|=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator^=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator^=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator<<=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator<<=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator>>=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> & operator>>=(vec<1, U, Q> const& v); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator+(vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator-(vec<1, T, Q> const& v); + + // -- Binary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator+(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator+(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator+(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator-(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator-(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator-(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator*(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator*(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator*(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator/(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator/(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator/(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator%(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator%(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator%(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator&(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator&(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator&(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator|(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator|(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator|(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator^(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator^(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator^(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator<<(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator<<(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator<<(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator>>(vec<1, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator>>(T scalar, vec<1, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator>>(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, T, Q> operator~(vec<1, T, Q> const& v); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator==(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator!=(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, bool, Q> operator&&(vec<1, bool, Q> const& v1, vec<1, bool, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<1, bool, Q> operator||(vec<1, bool, Q> const& v1, vec<1, bool, Q> const& v2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_vec1.inl" +#endif//GLM_EXTERNAL_TEMPLATE diff --git a/Vulkan/ext/include/glm/detail/type_vec1.inl b/Vulkan/ext/include/glm/detail/type_vec1.inl new file mode 100644 index 0000000..c5883ce --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec1.inl @@ -0,0 +1,551 @@ +/// @ref core + +#include "./compute_vector_relational.hpp" + +namespace glm +{ + // -- Implicit basic constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec() +# if GLM_CONFIG_CTOR_INIT != GLM_CTOR_INIT_DISABLE + : x(0) +# endif + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec(vec<1, T, Q> const& v) + : x(v.x) + {} +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec(vec<1, T, P> const& v) + : x(v.x) + {} + + // -- Explicit basic constructors -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec(T scalar) + : x(scalar) + {} + + // -- Conversion vector constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec(vec<1, U, P> const& v) + : x(static_cast(v.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec(vec<2, U, P> const& v) + : x(static_cast(v.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec(vec<3, U, P> const& v) + : x(static_cast(v.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q>::vec(vec<4, U, P> const& v) + : x(static_cast(v.x)) + {} + + // -- Component accesses -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T & vec<1, T, Q>::operator[](typename vec<1, T, Q>::length_type) + { + return x; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T const& vec<1, T, Q>::operator[](typename vec<1, T, Q>::length_type) const + { + return x; + } + + // -- Unary arithmetic operators -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator=(vec<1, T, Q> const& v) + { + this->x = v.x; + return *this; + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator=(vec<1, U, Q> const& v) + { + this->x = static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator+=(U scalar) + { + this->x += static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator+=(vec<1, U, Q> const& v) + { + this->x += static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator-=(U scalar) + { + this->x -= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator-=(vec<1, U, Q> const& v) + { + this->x -= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator*=(U scalar) + { + this->x *= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator*=(vec<1, U, Q> const& v) + { + this->x *= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator/=(U scalar) + { + this->x /= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator/=(vec<1, U, Q> const& v) + { + this->x /= static_cast(v.x); + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator++() + { + ++this->x; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator--() + { + --this->x; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> vec<1, T, Q>::operator++(int) + { + vec<1, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> vec<1, T, Q>::operator--(int) + { + vec<1, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary bit operators -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator%=(U scalar) + { + this->x %= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator%=(vec<1, U, Q> const& v) + { + this->x %= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator&=(U scalar) + { + this->x &= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator&=(vec<1, U, Q> const& v) + { + this->x &= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator|=(U scalar) + { + this->x |= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator|=(vec<1, U, Q> const& v) + { + this->x |= U(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator^=(U scalar) + { + this->x ^= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator^=(vec<1, U, Q> const& v) + { + this->x ^= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator<<=(U scalar) + { + this->x <<= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator<<=(vec<1, U, Q> const& v) + { + this->x <<= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator>>=(U scalar) + { + this->x >>= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> & vec<1, T, Q>::operator>>=(vec<1, U, Q> const& v) + { + this->x >>= static_cast(v.x); + return *this; + } + + // -- Unary constant operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator+(vec<1, T, Q> const& v) + { + return v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator-(vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + -v.x); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator+(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x + scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator+(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar + v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator+(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x + v2.x); + } + + //operator- + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator-(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x - scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator-(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar - v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator-(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x - v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator*(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x * scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator*(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar * v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator*(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x * v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator/(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x / scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator/(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar / v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator/(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x / v2.x); + } + + // -- Binary bit operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator%(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x % scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator%(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar % v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator%(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x % v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator&(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x & scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator&(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar & v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator&(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x & v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator|(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x | scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator|(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar | v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator|(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x | v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator^(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + v.x ^ scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator^(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + scalar ^ v.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator^(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + v1.x ^ v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator<<(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + static_cast(v.x << scalar)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator<<(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + static_cast(scalar << v.x)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator<<(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + static_cast(v1.x << v2.x)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator>>(vec<1, T, Q> const& v, T scalar) + { + return vec<1, T, Q>( + static_cast(v.x >> scalar)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator>>(T scalar, vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + static_cast(scalar >> v.x)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator>>(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<1, T, Q>( + static_cast(v1.x >> v2.x)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, T, Q> operator~(vec<1, T, Q> const& v) + { + return vec<1, T, Q>( + ~v.x); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator==(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return detail::compute_equal::is_iec559>::call(v1.x, v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator!=(vec<1, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return !(v1 == v2); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, bool, Q> operator&&(vec<1, bool, Q> const& v1, vec<1, bool, Q> const& v2) + { + return vec<1, bool, Q>(v1.x && v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<1, bool, Q> operator||(vec<1, bool, Q> const& v1, vec<1, bool, Q> const& v2) + { + return vec<1, bool, Q>(v1.x || v2.x); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_vec2.hpp b/Vulkan/ext/include/glm/detail/type_vec2.hpp new file mode 100644 index 0000000..52ef408 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec2.hpp @@ -0,0 +1,399 @@ +/// @ref core +/// @file glm/detail/type_vec2.hpp + +#pragma once + +#include "qualifier.hpp" +#if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR +# include "_swizzle.hpp" +#elif GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION +# include "_swizzle_func.hpp" +#endif +#include + +namespace glm +{ + template + struct vec<2, T, Q> + { + // -- Implementation detail -- + + typedef T value_type; + typedef vec<2, T, Q> type; + typedef vec<2, bool, Q> bool_type; + + // -- Data -- + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic push +# pragma GCC diagnostic ignored "-Wpedantic" +# elif GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic push +# pragma clang diagnostic ignored "-Wgnu-anonymous-struct" +# pragma clang diagnostic ignored "-Wnested-anon-types" +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(push) +# pragma warning(disable: 4201) // nonstandard extension used : nameless struct/union +# endif +# endif + +# if GLM_CONFIG_XYZW_ONLY + T x, y; +# elif GLM_CONFIG_ANONYMOUS_STRUCT == GLM_ENABLE + union + { + struct{ T x, y; }; + struct{ T r, g; }; + struct{ T s, t; }; + + typename detail::storage<2, T, detail::is_aligned::value>::type data; + +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + GLM_SWIZZLE2_2_MEMBERS(T, Q, x, y) + GLM_SWIZZLE2_2_MEMBERS(T, Q, r, g) + GLM_SWIZZLE2_2_MEMBERS(T, Q, s, t) + GLM_SWIZZLE2_3_MEMBERS(T, Q, x, y) + GLM_SWIZZLE2_3_MEMBERS(T, Q, r, g) + GLM_SWIZZLE2_3_MEMBERS(T, Q, s, t) + GLM_SWIZZLE2_4_MEMBERS(T, Q, x, y) + GLM_SWIZZLE2_4_MEMBERS(T, Q, r, g) + GLM_SWIZZLE2_4_MEMBERS(T, Q, s, t) +# endif + }; +# else + union {T x, r, s;}; + union {T y, g, t;}; + +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION + GLM_SWIZZLE_GEN_VEC_FROM_VEC2(T, Q) +# endif//GLM_CONFIG_SWIZZLE +# endif + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(pop) +# endif +# endif + + // -- Component accesses -- + + /// Return the count of components of the vector + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length(){return 2;} + + GLM_FUNC_DECL GLM_CONSTEXPR T& operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR T const& operator[](length_type i) const; + + // -- Implicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec() GLM_DEFAULT; + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec const& v) GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, T, P> const& v); + + // -- Explicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR explicit vec(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR vec(T x, T y); + + // -- Conversion constructors -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR explicit vec(vec<1, U, P> const& v); + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A x, B y); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, Q> const& x, B y); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A x, vec<1, B, Q> const& y); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, Q> const& x, vec<1, B, Q> const& y); + + // -- Conversion vector constructors -- + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<3, U, P> const& v); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<4, U, P> const& v); + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<2, U, P> const& v); + + // -- Swizzle constructors -- +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<2, T, Q, E0, E1,-1,-2> const& that) + { + *this = that(); + } +# endif//GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + + // -- Unary arithmetic operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator=(vec const& v) GLM_DEFAULT; + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator+=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator+=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator+=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator-=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator-=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator-=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator*=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator*=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator*=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator/=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator/=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator/=(vec<2, U, Q> const& v); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator++(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator--(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator++(int); + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator--(int); + + // -- Unary bit operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator%=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator%=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator%=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator&=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator&=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator&=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator|=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator|=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator|=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator^=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator^=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator^=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator<<=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator<<=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator<<=(vec<2, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator>>=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator>>=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> & operator>>=(vec<2, U, Q> const& v); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v); + + // -- Binary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator+(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator+(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator-(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator-(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator*(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator*(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator*(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator*(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator*(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator/(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator/(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator/(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator/(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator/(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator%(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator%(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator%(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator%(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator%(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator&(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator&(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator&(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator&(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator&(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator|(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator|(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator|(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator|(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator|(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator^(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator^(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator^(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator^(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator^(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator<<(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<2, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator>>(T scalar, vec<2, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, T, Q> operator~(vec<2, T, Q> const& v); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator==(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator!=(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, bool, Q> operator&&(vec<2, bool, Q> const& v1, vec<2, bool, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<2, bool, Q> operator||(vec<2, bool, Q> const& v1, vec<2, bool, Q> const& v2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_vec2.inl" +#endif//GLM_EXTERNAL_TEMPLATE diff --git a/Vulkan/ext/include/glm/detail/type_vec2.inl b/Vulkan/ext/include/glm/detail/type_vec2.inl new file mode 100644 index 0000000..8e65d6b --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec2.inl @@ -0,0 +1,913 @@ +/// @ref core + +#include "./compute_vector_relational.hpp" + +namespace glm +{ + // -- Implicit basic constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec() +# if GLM_CONFIG_CTOR_INIT != GLM_CTOR_INIT_DISABLE + : x(0), y(0) +# endif + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<2, T, Q> const& v) + : x(v.x), y(v.y) + {} +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<2, T, P> const& v) + : x(v.x), y(v.y) + {} + + // -- Explicit basic constructors -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(T scalar) + : x(scalar), y(scalar) + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(T _x, T _y) + : x(_x), y(_y) + {} + + // -- Conversion scalar constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<1, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(A _x, B _y) + : x(static_cast(_x)) + , y(static_cast(_y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<1, A, Q> const& _x, B _y) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(A _x, vec<1, B, Q> const& _y) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<1, A, Q> const& _x, vec<1, B, Q> const& _y) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + {} + + // -- Conversion vector constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<2, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<3, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q>::vec(vec<4, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.y)) + {} + + // -- Component accesses -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T & vec<2, T, Q>::operator[](typename vec<2, T, Q>::length_type i) + { + assert(i >= 0 && i < this->length()); + switch(i) + { + default: + case 0: + return x; + case 1: + return y; + } + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T const& vec<2, T, Q>::operator[](typename vec<2, T, Q>::length_type i) const + { + assert(i >= 0 && i < this->length()); + switch(i) + { + default: + case 0: + return x; + case 1: + return y; + } + } + + // -- Unary arithmetic operators -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator=(vec<2, T, Q> const& v) + { + this->x = v.x; + this->y = v.y; + return *this; + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator=(vec<2, U, Q> const& v) + { + this->x = static_cast(v.x); + this->y = static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator+=(U scalar) + { + this->x += static_cast(scalar); + this->y += static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator+=(vec<1, U, Q> const& v) + { + this->x += static_cast(v.x); + this->y += static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator+=(vec<2, U, Q> const& v) + { + this->x += static_cast(v.x); + this->y += static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator-=(U scalar) + { + this->x -= static_cast(scalar); + this->y -= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator-=(vec<1, U, Q> const& v) + { + this->x -= static_cast(v.x); + this->y -= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator-=(vec<2, U, Q> const& v) + { + this->x -= static_cast(v.x); + this->y -= static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator*=(U scalar) + { + this->x *= static_cast(scalar); + this->y *= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator*=(vec<1, U, Q> const& v) + { + this->x *= static_cast(v.x); + this->y *= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator*=(vec<2, U, Q> const& v) + { + this->x *= static_cast(v.x); + this->y *= static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator/=(U scalar) + { + this->x /= static_cast(scalar); + this->y /= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator/=(vec<1, U, Q> const& v) + { + this->x /= static_cast(v.x); + this->y /= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator/=(vec<2, U, Q> const& v) + { + this->x /= static_cast(v.x); + this->y /= static_cast(v.y); + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator++() + { + ++this->x; + ++this->y; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator--() + { + --this->x; + --this->y; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> vec<2, T, Q>::operator++(int) + { + vec<2, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> vec<2, T, Q>::operator--(int) + { + vec<2, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary bit operators -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator%=(U scalar) + { + this->x %= static_cast(scalar); + this->y %= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator%=(vec<1, U, Q> const& v) + { + this->x %= static_cast(v.x); + this->y %= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator%=(vec<2, U, Q> const& v) + { + this->x %= static_cast(v.x); + this->y %= static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator&=(U scalar) + { + this->x &= static_cast(scalar); + this->y &= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator&=(vec<1, U, Q> const& v) + { + this->x &= static_cast(v.x); + this->y &= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator&=(vec<2, U, Q> const& v) + { + this->x &= static_cast(v.x); + this->y &= static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator|=(U scalar) + { + this->x |= static_cast(scalar); + this->y |= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator|=(vec<1, U, Q> const& v) + { + this->x |= static_cast(v.x); + this->y |= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator|=(vec<2, U, Q> const& v) + { + this->x |= static_cast(v.x); + this->y |= static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator^=(U scalar) + { + this->x ^= static_cast(scalar); + this->y ^= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator^=(vec<1, U, Q> const& v) + { + this->x ^= static_cast(v.x); + this->y ^= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator^=(vec<2, U, Q> const& v) + { + this->x ^= static_cast(v.x); + this->y ^= static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator<<=(U scalar) + { + this->x <<= static_cast(scalar); + this->y <<= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator<<=(vec<1, U, Q> const& v) + { + this->x <<= static_cast(v.x); + this->y <<= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator<<=(vec<2, U, Q> const& v) + { + this->x <<= static_cast(v.x); + this->y <<= static_cast(v.y); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator>>=(U scalar) + { + this->x >>= static_cast(scalar); + this->y >>= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator>>=(vec<1, U, Q> const& v) + { + this->x >>= static_cast(v.x); + this->y >>= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> & vec<2, T, Q>::operator>>=(vec<2, U, Q> const& v) + { + this->x >>= static_cast(v.x); + this->y >>= static_cast(v.y); + return *this; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v) + { + return v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + -v.x, + -v.y); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x + scalar, + v.y + scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x + v2.x, + v1.y + v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator+(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar + v.x, + scalar + v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator+(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x + v2.x, + v1.x + v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator+(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x + v2.x, + v1.y + v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x - scalar, + v.y - scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x - v2.x, + v1.y - v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator-(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar - v.x, + scalar - v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator-(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x - v2.x, + v1.x - v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator-(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x - v2.x, + v1.y - v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator*(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x * scalar, + v.y * scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator*(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x * v2.x, + v1.y * v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator*(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar * v.x, + scalar * v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator*(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x * v2.x, + v1.x * v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator*(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x * v2.x, + v1.y * v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator/(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x / scalar, + v.y / scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator/(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x / v2.x, + v1.y / v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator/(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar / v.x, + scalar / v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator/(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x / v2.x, + v1.x / v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator/(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x / v2.x, + v1.y / v2.y); + } + + // -- Binary bit operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator%(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x % scalar, + v.y % scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator%(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x % v2.x, + v1.y % v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator%(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar % v.x, + scalar % v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator%(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x % v2.x, + v1.x % v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator%(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x % v2.x, + v1.y % v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator&(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x & scalar, + v.y & scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator&(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x & v2.x, + v1.y & v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator&(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar & v.x, + scalar & v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator&(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x & v2.x, + v1.x & v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator&(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x & v2.x, + v1.y & v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator|(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x | scalar, + v.y | scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator|(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x | v2.x, + v1.y | v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator|(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar | v.x, + scalar | v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator|(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x | v2.x, + v1.x | v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator|(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x | v2.x, + v1.y | v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator^(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x ^ scalar, + v.y ^ scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator^(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x ^ v2.x, + v1.y ^ v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator^(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar ^ v.x, + scalar ^ v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator^(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x ^ v2.x, + v1.x ^ v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator^(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x ^ v2.x, + v1.y ^ v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x << scalar, + v.y << scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x << v2.x, + v1.y << v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator<<(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar << v.x, + scalar << v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x << v2.x, + v1.x << v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator<<(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x << v2.x, + v1.y << v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<2, T, Q> const& v, T scalar) + { + return vec<2, T, Q>( + v.x >> scalar, + v.y >> scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<2, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x >> v2.x, + v1.y >> v2.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator>>(T scalar, vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + scalar >> v.x, + scalar >> v.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<1, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x >> v2.x, + v1.x >> v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator>>(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return vec<2, T, Q>( + v1.x >> v2.x, + v1.y >> v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, T, Q> operator~(vec<2, T, Q> const& v) + { + return vec<2, T, Q>( + ~v.x, + ~v.y); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator==(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return + detail::compute_equal::is_iec559>::call(v1.x, v2.x) && + detail::compute_equal::is_iec559>::call(v1.y, v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator!=(vec<2, T, Q> const& v1, vec<2, T, Q> const& v2) + { + return !(v1 == v2); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, bool, Q> operator&&(vec<2, bool, Q> const& v1, vec<2, bool, Q> const& v2) + { + return vec<2, bool, Q>(v1.x && v2.x, v1.y && v2.y); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<2, bool, Q> operator||(vec<2, bool, Q> const& v1, vec<2, bool, Q> const& v2) + { + return vec<2, bool, Q>(v1.x || v2.x, v1.y || v2.y); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_vec3.hpp b/Vulkan/ext/include/glm/detail/type_vec3.hpp new file mode 100644 index 0000000..d83cde6 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec3.hpp @@ -0,0 +1,432 @@ +/// @ref core +/// @file glm/detail/type_vec3.hpp + +#pragma once + +#include "qualifier.hpp" +#if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR +# include "_swizzle.hpp" +#elif GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION +# include "_swizzle_func.hpp" +#endif +#include + +namespace glm +{ + template + struct vec<3, T, Q> + { + // -- Implementation detail -- + + typedef T value_type; + typedef vec<3, T, Q> type; + typedef vec<3, bool, Q> bool_type; + + // -- Data -- + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic push +# pragma GCC diagnostic ignored "-Wpedantic" +# elif GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic push +# pragma clang diagnostic ignored "-Wgnu-anonymous-struct" +# pragma clang diagnostic ignored "-Wnested-anon-types" +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(push) +# pragma warning(disable: 4201) // nonstandard extension used : nameless struct/union +# if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE +# pragma warning(disable: 4324) // structure was padded due to alignment specifier +# endif +# endif +# endif + +# if GLM_CONFIG_XYZW_ONLY + T x, y, z; +# elif GLM_CONFIG_ANONYMOUS_STRUCT == GLM_ENABLE + union + { + struct{ T x, y, z; }; + struct{ T r, g, b; }; + struct{ T s, t, p; }; + + typename detail::storage<3, T, detail::is_aligned::value>::type data; + +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + GLM_SWIZZLE3_2_MEMBERS(T, Q, x, y, z) + GLM_SWIZZLE3_2_MEMBERS(T, Q, r, g, b) + GLM_SWIZZLE3_2_MEMBERS(T, Q, s, t, p) + GLM_SWIZZLE3_3_MEMBERS(T, Q, x, y, z) + GLM_SWIZZLE3_3_MEMBERS(T, Q, r, g, b) + GLM_SWIZZLE3_3_MEMBERS(T, Q, s, t, p) + GLM_SWIZZLE3_4_MEMBERS(T, Q, x, y, z) + GLM_SWIZZLE3_4_MEMBERS(T, Q, r, g, b) + GLM_SWIZZLE3_4_MEMBERS(T, Q, s, t, p) +# endif + }; +# else + union { T x, r, s; }; + union { T y, g, t; }; + union { T z, b, p; }; + +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION + GLM_SWIZZLE_GEN_VEC_FROM_VEC3(T, Q) +# endif//GLM_CONFIG_SWIZZLE +# endif//GLM_LANG + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(pop) +# endif +# endif + + // -- Component accesses -- + + /// Return the count of components of the vector + typedef length_t length_type; + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length(){return 3;} + + GLM_FUNC_DECL GLM_CONSTEXPR T & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR T const& operator[](length_type i) const; + + // -- Implicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec() GLM_DEFAULT; + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec const& v) GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<3, T, P> const& v); + + // -- Explicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR explicit vec(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR vec(T a, T b, T c); + + // -- Conversion scalar constructors -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR explicit vec(vec<1, U, P> const& v); + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X x, Y y, Z z); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, Y _y, Z _z); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, vec<1, Y, Q> const& _y, Z _z); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, Z _z); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, Y _y, vec<1, Z, Q> const& _z); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, Y _y, vec<1, Z, Q> const& _z); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z); + + // -- Conversion vector constructors -- + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, A, P> const& _xy, B _z); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, A, P> const& _xy, vec<1, B, P> const& _z); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A _x, vec<2, B, P> const& _yz); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, P> const& _x, vec<2, B, P> const& _yz); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<4, U, P> const& v); + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<3, U, P> const& v); + + // -- Swizzle constructors -- +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<3, T, Q, E0, E1, E2, -1> const& that) + { + *this = that(); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<2, T, Q, E0, E1, -1, -2> const& v, T const& scalar) + { + *this = vec(v(), scalar); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(T const& scalar, detail::_swizzle<2, T, Q, E0, E1, -1, -2> const& v) + { + *this = vec(scalar, v()); + } +# endif//GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + + // -- Unary arithmetic operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q>& operator=(vec<3, T, Q> const& v) GLM_DEFAULT; + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator+=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator+=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator+=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator-=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator-=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator-=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator*=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator*=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator*=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator/=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator/=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator/=(vec<3, U, Q> const& v); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator++(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator--(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator++(int); + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator--(int); + + // -- Unary bit operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator%=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator%=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator%=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator&=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator&=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator&=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator|=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator|=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator|=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator^=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator^=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator^=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator<<=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator<<=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator<<=(vec<3, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator>>=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator>>=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> & operator>>=(vec<3, U, Q> const& v); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v); + + // -- Binary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator+(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator+(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator-(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator-(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator*(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator*(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator/(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator/(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator/(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator/(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator/(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator%(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator%(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator%(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator%(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator%(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator&(vec<3, T, Q> const& v1, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator&(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator&(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator&(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator&(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator|(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator|(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator|(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator|(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator|(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator^(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator^(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator^(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator^(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator^(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator<<(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<3, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<3, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator>>(T scalar, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<1, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, T, Q> operator~(vec<3, T, Q> const& v); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator==(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator!=(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, bool, Q> operator&&(vec<3, bool, Q> const& v1, vec<3, bool, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<3, bool, Q> operator||(vec<3, bool, Q> const& v1, vec<3, bool, Q> const& v2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_vec3.inl" +#endif//GLM_EXTERNAL_TEMPLATE diff --git a/Vulkan/ext/include/glm/detail/type_vec3.inl b/Vulkan/ext/include/glm/detail/type_vec3.inl new file mode 100644 index 0000000..6532c9e --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec3.inl @@ -0,0 +1,1068 @@ +/// @ref core + +#include "compute_vector_relational.hpp" + +namespace glm +{ + // -- Implicit basic constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec() +# if GLM_CONFIG_CTOR_INIT != GLM_CTOR_INIT_DISABLE + : x(0), y(0), z(0) +# endif + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<3, T, Q> const& v) + : x(v.x), y(v.y), z(v.z) + {} +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<3, T, P> const& v) + : x(v.x), y(v.y), z(v.z) + {} + + // -- Explicit basic constructors -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(T scalar) + : x(scalar), y(scalar), z(scalar) + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(T _x, T _y, T _z) + : x(_x), y(_y), z(_z) + {} + + // -- Conversion scalar constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<1, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.x)) + , z(static_cast(v.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(X _x, Y _y, Z _z) + : x(static_cast(_x)) + , y(static_cast(_y)) + , z(static_cast(_z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<1, X, Q> const& _x, Y _y, Z _z) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + , z(static_cast(_z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(X _x, vec<1, Y, Q> const& _y, Z _z) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + , z(static_cast(_z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, Z _z) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + , z(static_cast(_z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(X _x, Y _y, vec<1, Z, Q> const& _z) + : x(static_cast(_x)) + , y(static_cast(_y)) + , z(static_cast(_z.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<1, X, Q> const& _x, Y _y, vec<1, Z, Q> const& _z) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + , z(static_cast(_z.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(X _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + , z(static_cast(_z.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + , z(static_cast(_z.x)) + {} + + // -- Conversion vector constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<2, A, P> const& _xy, B _z) + : x(static_cast(_xy.x)) + , y(static_cast(_xy.y)) + , z(static_cast(_z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<2, A, P> const& _xy, vec<1, B, P> const& _z) + : x(static_cast(_xy.x)) + , y(static_cast(_xy.y)) + , z(static_cast(_z.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(A _x, vec<2, B, P> const& _yz) + : x(static_cast(_x)) + , y(static_cast(_yz.x)) + , z(static_cast(_yz.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<1, A, P> const& _x, vec<2, B, P> const& _yz) + : x(static_cast(_x.x)) + , y(static_cast(_yz.x)) + , z(static_cast(_yz.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<3, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.y)) + , z(static_cast(v.z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>::vec(vec<4, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.y)) + , z(static_cast(v.z)) + {} + + // -- Component accesses -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T & vec<3, T, Q>::operator[](typename vec<3, T, Q>::length_type i) + { + assert(i >= 0 && i < this->length()); + switch(i) + { + default: + case 0: + return x; + case 1: + return y; + case 2: + return z; + } + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T const& vec<3, T, Q>::operator[](typename vec<3, T, Q>::length_type i) const + { + assert(i >= 0 && i < this->length()); + switch(i) + { + default: + case 0: + return x; + case 1: + return y; + case 2: + return z; + } + } + + // -- Unary arithmetic operators -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>& vec<3, T, Q>::operator=(vec<3, T, Q> const& v) + { + this->x = v.x; + this->y = v.y; + this->z = v.z; + return *this; + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q>& vec<3, T, Q>::operator=(vec<3, U, Q> const& v) + { + this->x = static_cast(v.x); + this->y = static_cast(v.y); + this->z = static_cast(v.z); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator+=(U scalar) + { + this->x += static_cast(scalar); + this->y += static_cast(scalar); + this->z += static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator+=(vec<1, U, Q> const& v) + { + this->x += static_cast(v.x); + this->y += static_cast(v.x); + this->z += static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator+=(vec<3, U, Q> const& v) + { + this->x += static_cast(v.x); + this->y += static_cast(v.y); + this->z += static_cast(v.z); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator-=(U scalar) + { + this->x -= static_cast(scalar); + this->y -= static_cast(scalar); + this->z -= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator-=(vec<1, U, Q> const& v) + { + this->x -= static_cast(v.x); + this->y -= static_cast(v.x); + this->z -= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator-=(vec<3, U, Q> const& v) + { + this->x -= static_cast(v.x); + this->y -= static_cast(v.y); + this->z -= static_cast(v.z); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator*=(U scalar) + { + this->x *= static_cast(scalar); + this->y *= static_cast(scalar); + this->z *= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator*=(vec<1, U, Q> const& v) + { + this->x *= static_cast(v.x); + this->y *= static_cast(v.x); + this->z *= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator*=(vec<3, U, Q> const& v) + { + this->x *= static_cast(v.x); + this->y *= static_cast(v.y); + this->z *= static_cast(v.z); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator/=(U v) + { + this->x /= static_cast(v); + this->y /= static_cast(v); + this->z /= static_cast(v); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator/=(vec<1, U, Q> const& v) + { + this->x /= static_cast(v.x); + this->y /= static_cast(v.x); + this->z /= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator/=(vec<3, U, Q> const& v) + { + this->x /= static_cast(v.x); + this->y /= static_cast(v.y); + this->z /= static_cast(v.z); + return *this; + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator++() + { + ++this->x; + ++this->y; + ++this->z; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator--() + { + --this->x; + --this->y; + --this->z; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> vec<3, T, Q>::operator++(int) + { + vec<3, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> vec<3, T, Q>::operator--(int) + { + vec<3, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary bit operators -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator%=(U scalar) + { + this->x %= scalar; + this->y %= scalar; + this->z %= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator%=(vec<1, U, Q> const& v) + { + this->x %= v.x; + this->y %= v.x; + this->z %= v.x; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator%=(vec<3, U, Q> const& v) + { + this->x %= v.x; + this->y %= v.y; + this->z %= v.z; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator&=(U scalar) + { + this->x &= scalar; + this->y &= scalar; + this->z &= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator&=(vec<1, U, Q> const& v) + { + this->x &= v.x; + this->y &= v.x; + this->z &= v.x; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator&=(vec<3, U, Q> const& v) + { + this->x &= v.x; + this->y &= v.y; + this->z &= v.z; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator|=(U scalar) + { + this->x |= scalar; + this->y |= scalar; + this->z |= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator|=(vec<1, U, Q> const& v) + { + this->x |= v.x; + this->y |= v.x; + this->z |= v.x; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator|=(vec<3, U, Q> const& v) + { + this->x |= v.x; + this->y |= v.y; + this->z |= v.z; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator^=(U scalar) + { + this->x ^= scalar; + this->y ^= scalar; + this->z ^= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator^=(vec<1, U, Q> const& v) + { + this->x ^= v.x; + this->y ^= v.x; + this->z ^= v.x; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator^=(vec<3, U, Q> const& v) + { + this->x ^= v.x; + this->y ^= v.y; + this->z ^= v.z; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator<<=(U scalar) + { + this->x <<= scalar; + this->y <<= scalar; + this->z <<= scalar; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator<<=(vec<1, U, Q> const& v) + { + this->x <<= static_cast(v.x); + this->y <<= static_cast(v.x); + this->z <<= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator<<=(vec<3, U, Q> const& v) + { + this->x <<= static_cast(v.x); + this->y <<= static_cast(v.y); + this->z <<= static_cast(v.z); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator>>=(U scalar) + { + this->x >>= static_cast(scalar); + this->y >>= static_cast(scalar); + this->z >>= static_cast(scalar); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator>>=(vec<1, U, Q> const& v) + { + this->x >>= static_cast(v.x); + this->y >>= static_cast(v.x); + this->z >>= static_cast(v.x); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> & vec<3, T, Q>::operator>>=(vec<3, U, Q> const& v) + { + this->x >>= static_cast(v.x); + this->y >>= static_cast(v.y); + this->z >>= static_cast(v.z); + return *this; + } + + // -- Unary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v) + { + return v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + -v.x, + -v.y, + -v.z); + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x + scalar, + v.y + scalar, + v.z + scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x + scalar.x, + v.y + scalar.x, + v.z + scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator+(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar + v.x, + scalar + v.y, + scalar + v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator+(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x + v.x, + scalar.x + v.y, + scalar.x + v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator+(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x + v2.x, + v1.y + v2.y, + v1.z + v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x - scalar, + v.y - scalar, + v.z - scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x - scalar.x, + v.y - scalar.x, + v.z - scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator-(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar - v.x, + scalar - v.y, + scalar - v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator-(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x - v.x, + scalar.x - v.y, + scalar.x - v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator-(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x - v2.x, + v1.y - v2.y, + v1.z - v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x * scalar, + v.y * scalar, + v.z * scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x * scalar.x, + v.y * scalar.x, + v.z * scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator*(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar * v.x, + scalar * v.y, + scalar * v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator*(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x * v.x, + scalar.x * v.y, + scalar.x * v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator*(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x * v2.x, + v1.y * v2.y, + v1.z * v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator/(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x / scalar, + v.y / scalar, + v.z / scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator/(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x / scalar.x, + v.y / scalar.x, + v.z / scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator/(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar / v.x, + scalar / v.y, + scalar / v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator/(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x / v.x, + scalar.x / v.y, + scalar.x / v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator/(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x / v2.x, + v1.y / v2.y, + v1.z / v2.z); + } + + // -- Binary bit operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator%(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x % scalar, + v.y % scalar, + v.z % scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator%(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x % scalar.x, + v.y % scalar.x, + v.z % scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator%(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar % v.x, + scalar % v.y, + scalar % v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator%(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x % v.x, + scalar.x % v.y, + scalar.x % v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator%(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x % v2.x, + v1.y % v2.y, + v1.z % v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator&(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x & scalar, + v.y & scalar, + v.z & scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator&(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x & scalar.x, + v.y & scalar.x, + v.z & scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator&(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar & v.x, + scalar & v.y, + scalar & v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator&(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x & v.x, + scalar.x & v.y, + scalar.x & v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator&(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x & v2.x, + v1.y & v2.y, + v1.z & v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator|(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x | scalar, + v.y | scalar, + v.z | scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator|(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x | scalar.x, + v.y | scalar.x, + v.z | scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator|(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar | v.x, + scalar | v.y, + scalar | v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator|(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x | v.x, + scalar.x | v.y, + scalar.x | v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator|(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x | v2.x, + v1.y | v2.y, + v1.z | v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator^(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x ^ scalar, + v.y ^ scalar, + v.z ^ scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator^(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x ^ scalar.x, + v.y ^ scalar.x, + v.z ^ scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator^(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar ^ v.x, + scalar ^ v.y, + scalar ^ v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator^(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x ^ v.x, + scalar.x ^ v.y, + scalar.x ^ v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator^(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x ^ v2.x, + v1.y ^ v2.y, + v1.z ^ v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x << scalar, + v.y << scalar, + v.z << scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x << scalar.x, + v.y << scalar.x, + v.z << scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator<<(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar << v.x, + scalar << v.y, + scalar << v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x << v.x, + scalar.x << v.y, + scalar.x << v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator<<(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x << v2.x, + v1.y << v2.y, + v1.z << v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<3, T, Q> const& v, T scalar) + { + return vec<3, T, Q>( + v.x >> scalar, + v.y >> scalar, + v.z >> scalar); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<3, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<3, T, Q>( + v.x >> scalar.x, + v.y >> scalar.x, + v.z >> scalar.x); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator>>(T scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar >> v.x, + scalar >> v.y, + scalar >> v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<1, T, Q> const& scalar, vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + scalar.x >> v.x, + scalar.x >> v.y, + scalar.x >> v.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator>>(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return vec<3, T, Q>( + v1.x >> v2.x, + v1.y >> v2.y, + v1.z >> v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, T, Q> operator~(vec<3, T, Q> const& v) + { + return vec<3, T, Q>( + ~v.x, + ~v.y, + ~v.z); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator==(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return + detail::compute_equal::is_iec559>::call(v1.x, v2.x) && + detail::compute_equal::is_iec559>::call(v1.y, v2.y) && + detail::compute_equal::is_iec559>::call(v1.z, v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator!=(vec<3, T, Q> const& v1, vec<3, T, Q> const& v2) + { + return !(v1 == v2); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, bool, Q> operator&&(vec<3, bool, Q> const& v1, vec<3, bool, Q> const& v2) + { + return vec<3, bool, Q>(v1.x && v2.x, v1.y && v2.y, v1.z && v2.z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<3, bool, Q> operator||(vec<3, bool, Q> const& v1, vec<3, bool, Q> const& v2) + { + return vec<3, bool, Q>(v1.x || v2.x, v1.y || v2.y, v1.z || v2.z); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/detail/type_vec4.hpp b/Vulkan/ext/include/glm/detail/type_vec4.hpp new file mode 100644 index 0000000..4a36434 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec4.hpp @@ -0,0 +1,505 @@ +/// @ref core +/// @file glm/detail/type_vec4.hpp + +#pragma once + +#include "qualifier.hpp" +#if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR +# include "_swizzle.hpp" +#elif GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION +# include "_swizzle_func.hpp" +#endif +#include + +namespace glm +{ + template + struct vec<4, T, Q> + { + // -- Implementation detail -- + + typedef T value_type; + typedef vec<4, T, Q> type; + typedef vec<4, bool, Q> bool_type; + + // -- Data -- + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic push +# pragma GCC diagnostic ignored "-Wpedantic" +# elif GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic push +# pragma clang diagnostic ignored "-Wgnu-anonymous-struct" +# pragma clang diagnostic ignored "-Wnested-anon-types" +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(push) +# pragma warning(disable: 4201) // nonstandard extension used : nameless struct/union +# endif +# endif + +# if GLM_CONFIG_XYZW_ONLY + T x, y, z, w; +# elif GLM_CONFIG_ANONYMOUS_STRUCT == GLM_ENABLE + union + { + struct { T x, y, z, w; }; + struct { T r, g, b, a; }; + struct { T s, t, p, q; }; + + typename detail::storage<4, T, detail::is_aligned::value>::type data; + +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + GLM_SWIZZLE4_2_MEMBERS(T, Q, x, y, z, w) + GLM_SWIZZLE4_2_MEMBERS(T, Q, r, g, b, a) + GLM_SWIZZLE4_2_MEMBERS(T, Q, s, t, p, q) + GLM_SWIZZLE4_3_MEMBERS(T, Q, x, y, z, w) + GLM_SWIZZLE4_3_MEMBERS(T, Q, r, g, b, a) + GLM_SWIZZLE4_3_MEMBERS(T, Q, s, t, p, q) + GLM_SWIZZLE4_4_MEMBERS(T, Q, x, y, z, w) + GLM_SWIZZLE4_4_MEMBERS(T, Q, r, g, b, a) + GLM_SWIZZLE4_4_MEMBERS(T, Q, s, t, p, q) +# endif + }; +# else + union { T x, r, s; }; + union { T y, g, t; }; + union { T z, b, p; }; + union { T w, a, q; }; + +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_FUNCTION + GLM_SWIZZLE_GEN_VEC_FROM_VEC4(T, Q) +# endif +# endif + +# if GLM_SILENT_WARNINGS == GLM_ENABLE +# if GLM_COMPILER & GLM_COMPILER_CLANG +# pragma clang diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_GCC +# pragma GCC diagnostic pop +# elif GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(pop) +# endif +# endif + + // -- Component accesses -- + + typedef length_t length_type; + + /// Return the count of components of the vector + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length(){return 4;} + + GLM_FUNC_DECL GLM_CONSTEXPR T & operator[](length_type i); + GLM_FUNC_DECL GLM_CONSTEXPR T const& operator[](length_type i) const; + + // -- Implicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec() GLM_DEFAULT; + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<4, T, Q> const& v) GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<4, T, P> const& v); + + // -- Explicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR explicit vec(T scalar); + GLM_FUNC_DECL GLM_CONSTEXPR vec(T x, T y, T z, T w); + + // -- Conversion scalar constructors -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR explicit vec(vec<1, U, P> const& v); + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, Y _y, Z _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, Y _y, Z _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, vec<1, Y, Q> const& _y, Z _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, Z _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, Y _y, vec<1, Z, Q> const& _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, Y _y, vec<1, Z, Q> const& _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z, W _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, Y _y, Z _z, vec<1, W, Q> const& _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, vec<1, Y, Q> const& _y, Z _z, vec<1, W, Q> const& _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, Z _z, vec<1, W, Q> const& _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, Y _y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, Y _y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(X _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _Y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w); + + // -- Conversion vector constructors -- + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, A, P> const& _xy, B _z, C _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, A, P> const& _xy, vec<1, B, P> const& _z, C _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, A, P> const& _xy, B _z, vec<1, C, P> const& _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, A, P> const& _xy, vec<1, B, P> const& _z, vec<1, C, P> const& _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A _x, vec<2, B, P> const& _yz, C _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, P> const& _x, vec<2, B, P> const& _yz, C _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A _x, vec<2, B, P> const& _yz, vec<1, C, P> const& _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, P> const& _x, vec<2, B, P> const& _yz, vec<1, C, P> const& _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A _x, B _y, vec<2, C, P> const& _zw); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, P> const& _x, B _y, vec<2, C, P> const& _zw); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A _x, vec<1, B, P> const& _y, vec<2, C, P> const& _zw); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, P> const& _x, vec<1, B, P> const& _y, vec<2, C, P> const& _zw); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<3, A, P> const& _xyz, B _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<3, A, P> const& _xyz, vec<1, B, P> const& _w); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(A _x, vec<3, B, P> const& _yzw); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<1, A, P> const& _x, vec<3, B, P> const& _yzw); + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(vec<2, A, P> const& _xy, vec<2, B, P> const& _zw); + + /// Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification) + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT vec(vec<4, U, P> const& v); + + // -- Swizzle constructors -- +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<4, T, Q, E0, E1, E2, E3> const& that) + { + *this = that(); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<2, T, Q, E0, E1, -1, -2> const& v, detail::_swizzle<2, T, Q, F0, F1, -1, -2> const& u) + { + *this = vec<4, T, Q>(v(), u()); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(T const& x, T const& y, detail::_swizzle<2, T, Q, E0, E1, -1, -2> const& v) + { + *this = vec<4, T, Q>(x, y, v()); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(T const& x, detail::_swizzle<2, T, Q, E0, E1, -1, -2> const& v, T const& w) + { + *this = vec<4, T, Q>(x, v(), w); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<2, T, Q, E0, E1, -1, -2> const& v, T const& z, T const& w) + { + *this = vec<4, T, Q>(v(), z, w); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(detail::_swizzle<3, T, Q, E0, E1, E2, -1> const& v, T const& w) + { + *this = vec<4, T, Q>(v(), w); + } + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec(T const& x, detail::_swizzle<3, T, Q, E0, E1, E2, -1> const& v) + { + *this = vec<4, T, Q>(x, v()); + } +# endif//GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + + // -- Unary arithmetic operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator=(vec<4, T, Q> const& v) GLM_DEFAULT; + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator+=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator+=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator+=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator-=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator-=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator-=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator*=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator*=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator*=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator/=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator/=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q>& operator/=(vec<4, U, Q> const& v); + + // -- Increment and decrement operators -- + + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator++(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator--(); + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator++(int); + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator--(int); + + // -- Unary bit operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator%=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator%=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator%=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator&=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator&=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator&=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator|=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator|=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator|=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator^=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator^=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator^=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator<<=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator<<=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator<<=(vec<4, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator>>=(U scalar); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator>>=(vec<1, U, Q> const& v); + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> & operator>>=(vec<4, U, Q> const& v); + }; + + // -- Unary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v); + + // -- Binary operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v, T const & scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator+(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator+(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v, T const & scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator-(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator-(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v, T const & scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator*(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator*(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator/(vec<4, T, Q> const& v, T const & scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator/(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator/(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator/(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator/(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator%(vec<4, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator%(vec<4, T, Q> const& v, vec<1, T, Q> const& scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator%(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator%(vec<1, T, Q> const& scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator%(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator&(vec<4, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator&(vec<4, T, Q> const& v, vec<1, T, Q> const& scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator&(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator&(vec<1, T, Q> const& scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator&(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator|(vec<4, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator|(vec<4, T, Q> const& v, vec<1, T, Q> const& scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator|(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator|(vec<1, T, Q> const& scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator|(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator^(vec<4, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator^(vec<4, T, Q> const& v, vec<1, T, Q> const& scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator^(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator^(vec<1, T, Q> const& scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator^(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<4, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<4, T, Q> const& v, vec<1, T, Q> const& scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator<<(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<1, T, Q> const& scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<4, T, Q> const& v, T scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<4, T, Q> const& v, vec<1, T, Q> const& scalar); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator>>(T scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<1, T, Q> const& scalar, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, T, Q> operator~(vec<4, T, Q> const& v); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator==(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR bool operator!=(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, bool, Q> operator&&(vec<4, bool, Q> const& v1, vec<4, bool, Q> const& v2); + + template + GLM_FUNC_DECL GLM_CONSTEXPR vec<4, bool, Q> operator||(vec<4, bool, Q> const& v1, vec<4, bool, Q> const& v2); +}//namespace glm + +#ifndef GLM_EXTERNAL_TEMPLATE +#include "type_vec4.inl" +#endif//GLM_EXTERNAL_TEMPLATE diff --git a/Vulkan/ext/include/glm/detail/type_vec4.inl b/Vulkan/ext/include/glm/detail/type_vec4.inl new file mode 100644 index 0000000..3c212d9 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec4.inl @@ -0,0 +1,1140 @@ +/// @ref core + +#include "compute_vector_relational.hpp" + +namespace glm{ +namespace detail +{ + template + struct compute_vec4_add + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x + b.x, a.y + b.y, a.z + b.z, a.w + b.w); + } + }; + + template + struct compute_vec4_sub + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x - b.x, a.y - b.y, a.z - b.z, a.w - b.w); + } + }; + + template + struct compute_vec4_mul + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x * b.x, a.y * b.y, a.z * b.z, a.w * b.w); + } + }; + + template + struct compute_vec4_div + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x / b.x, a.y / b.y, a.z / b.z, a.w / b.w); + } + }; + + template + struct compute_vec4_mod + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x % b.x, a.y % b.y, a.z % b.z, a.w % b.w); + } + }; + + template + struct compute_vec4_and + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x & b.x, a.y & b.y, a.z & b.z, a.w & b.w); + } + }; + + template + struct compute_vec4_or + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x | b.x, a.y | b.y, a.z | b.z, a.w | b.w); + } + }; + + template + struct compute_vec4_xor + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x ^ b.x, a.y ^ b.y, a.z ^ b.z, a.w ^ b.w); + } + }; + + template + struct compute_vec4_shift_left + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x << b.x, a.y << b.y, a.z << b.z, a.w << b.w); + } + }; + + template + struct compute_vec4_shift_right + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + return vec<4, T, Q>(a.x >> b.x, a.y >> b.y, a.z >> b.z, a.w >> b.w); + } + }; + + template + struct compute_vec4_equal + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static bool call(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return + detail::compute_equal::is_iec559>::call(v1.x, v2.x) && + detail::compute_equal::is_iec559>::call(v1.y, v2.y) && + detail::compute_equal::is_iec559>::call(v1.z, v2.z) && + detail::compute_equal::is_iec559>::call(v1.w, v2.w); + } + }; + + template + struct compute_vec4_nequal + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static bool call(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return !compute_vec4_equal::value, sizeof(T) * 8, detail::is_aligned::value>::call(v1, v2); + } + }; + + template + struct compute_vec4_bitwise_not + { + GLM_FUNC_QUALIFIER GLM_CONSTEXPR static vec<4, T, Q> call(vec<4, T, Q> const& v) + { + return vec<4, T, Q>(~v.x, ~v.y, ~v.z, ~v.w); + } + }; +}//namespace detail + + // -- Implicit basic constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec() +# if GLM_CONFIG_CTOR_INIT != GLM_CTOR_INIT_DISABLE + : x(0), y(0), z(0), w(0) +# endif + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<4, T, Q> const& v) + : x(v.x), y(v.y), z(v.z), w(v.w) + {} +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<4, T, P> const& v) + : x(v.x), y(v.y), z(v.z), w(v.w) + {} + + // -- Explicit basic constructors -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(T scalar) + : x(scalar), y(scalar), z(scalar), w(scalar) + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(T _x, T _y, T _z, T _w) + : x(_x), y(_y), z(_z), w(_w) + {} + + // -- Conversion scalar constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.x)) + , z(static_cast(v.x)) + , w(static_cast(v.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(X _x, Y _y, Z _z, W _w) + : x(static_cast(_x)) + , y(static_cast(_y)) + , z(static_cast(_z)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, Y _y, Z _z, W _w) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + , z(static_cast(_z)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(X _x, vec<1, Y, Q> const& _y, Z _z, W _w) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + , z(static_cast(_z)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, Z _z, W _w) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + , z(static_cast(_z)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(X _x, Y _y, vec<1, Z, Q> const& _z, W _w) + : x(static_cast(_x)) + , y(static_cast(_y)) + , z(static_cast(_z.x)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, Y _y, vec<1, Z, Q> const& _z, W _w) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + , z(static_cast(_z.x)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(X _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z, W _w) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + , z(static_cast(_z.x)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z, W _w) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + , z(static_cast(_z.x)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, Y _y, Z _z, vec<1, W, Q> const& _w) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + , z(static_cast(_z)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(X _x, vec<1, Y, Q> const& _y, Z _z, vec<1, W, Q> const& _w) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + , z(static_cast(_z)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, Z _z, vec<1, W, Q> const& _w) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + , z(static_cast(_z)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(X _x, Y _y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w) + : x(static_cast(_x)) + , y(static_cast(_y)) + , z(static_cast(_z.x)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, Y _y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + , z(static_cast(_z.x)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(X _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + , z(static_cast(_z.x)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, X, Q> const& _x, vec<1, Y, Q> const& _y, vec<1, Z, Q> const& _z, vec<1, W, Q> const& _w) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + , z(static_cast(_z.x)) + , w(static_cast(_w.x)) + {} + + // -- Conversion vector constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<2, A, P> const& _xy, B _z, C _w) + : x(static_cast(_xy.x)) + , y(static_cast(_xy.y)) + , z(static_cast(_z)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<2, A, P> const& _xy, vec<1, B, P> const& _z, C _w) + : x(static_cast(_xy.x)) + , y(static_cast(_xy.y)) + , z(static_cast(_z.x)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<2, A, P> const& _xy, B _z, vec<1, C, P> const& _w) + : x(static_cast(_xy.x)) + , y(static_cast(_xy.y)) + , z(static_cast(_z)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<2, A, P> const& _xy, vec<1, B, P> const& _z, vec<1, C, P> const& _w) + : x(static_cast(_xy.x)) + , y(static_cast(_xy.y)) + , z(static_cast(_z.x)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(A _x, vec<2, B, P> const& _yz, C _w) + : x(static_cast(_x)) + , y(static_cast(_yz.x)) + , z(static_cast(_yz.y)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, A, P> const& _x, vec<2, B, P> const& _yz, C _w) + : x(static_cast(_x.x)) + , y(static_cast(_yz.x)) + , z(static_cast(_yz.y)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(A _x, vec<2, B, P> const& _yz, vec<1, C, P> const& _w) + : x(static_cast(_x)) + , y(static_cast(_yz.x)) + , z(static_cast(_yz.y)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, A, P> const& _x, vec<2, B, P> const& _yz, vec<1, C, P> const& _w) + : x(static_cast(_x.x)) + , y(static_cast(_yz.x)) + , z(static_cast(_yz.y)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(A _x, B _y, vec<2, C, P> const& _zw) + : x(static_cast(_x)) + , y(static_cast(_y)) + , z(static_cast(_zw.x)) + , w(static_cast(_zw.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, A, P> const& _x, B _y, vec<2, C, P> const& _zw) + : x(static_cast(_x.x)) + , y(static_cast(_y)) + , z(static_cast(_zw.x)) + , w(static_cast(_zw.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(A _x, vec<1, B, P> const& _y, vec<2, C, P> const& _zw) + : x(static_cast(_x)) + , y(static_cast(_y.x)) + , z(static_cast(_zw.x)) + , w(static_cast(_zw.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, A, P> const& _x, vec<1, B, P> const& _y, vec<2, C, P> const& _zw) + : x(static_cast(_x.x)) + , y(static_cast(_y.x)) + , z(static_cast(_zw.x)) + , w(static_cast(_zw.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<3, A, P> const& _xyz, B _w) + : x(static_cast(_xyz.x)) + , y(static_cast(_xyz.y)) + , z(static_cast(_xyz.z)) + , w(static_cast(_w)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<3, A, P> const& _xyz, vec<1, B, P> const& _w) + : x(static_cast(_xyz.x)) + , y(static_cast(_xyz.y)) + , z(static_cast(_xyz.z)) + , w(static_cast(_w.x)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(A _x, vec<3, B, P> const& _yzw) + : x(static_cast(_x)) + , y(static_cast(_yzw.x)) + , z(static_cast(_yzw.y)) + , w(static_cast(_yzw.z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<1, A, P> const& _x, vec<3, B, P> const& _yzw) + : x(static_cast(_x.x)) + , y(static_cast(_yzw.x)) + , z(static_cast(_yzw.y)) + , w(static_cast(_yzw.z)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<2, A, P> const& _xy, vec<2, B, P> const& _zw) + : x(static_cast(_xy.x)) + , y(static_cast(_xy.y)) + , z(static_cast(_zw.x)) + , w(static_cast(_zw.y)) + {} + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>::vec(vec<4, U, P> const& v) + : x(static_cast(v.x)) + , y(static_cast(v.y)) + , z(static_cast(v.z)) + , w(static_cast(v.w)) + {} + + // -- Component accesses -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T& vec<4, T, Q>::operator[](typename vec<4, T, Q>::length_type i) + { + assert(i >= 0 && i < this->length()); + switch(i) + { + default: + case 0: + return x; + case 1: + return y; + case 2: + return z; + case 3: + return w; + } + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T const& vec<4, T, Q>::operator[](typename vec<4, T, Q>::length_type i) const + { + assert(i >= 0 && i < this->length()); + switch(i) + { + default: + case 0: + return x; + case 1: + return y; + case 2: + return z; + case 3: + return w; + } + } + + // -- Unary arithmetic operators -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>& vec<4, T, Q>::operator=(vec<4, T, Q> const& v) + { + this->x = v.x; + this->y = v.y; + this->z = v.z; + this->w = v.w; + return *this; + } +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q>& vec<4, T, Q>::operator=(vec<4, U, Q> const& v) + { + this->x = static_cast(v.x); + this->y = static_cast(v.y); + this->z = static_cast(v.z); + this->w = static_cast(v.w); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator+=(U scalar) + { + return (*this = detail::compute_vec4_add::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator+=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_add::value>::call(*this, vec<4, T, Q>(v.x))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator+=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_add::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator-=(U scalar) + { + return (*this = detail::compute_vec4_sub::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator-=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_sub::value>::call(*this, vec<4, T, Q>(v.x))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator-=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_sub::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator*=(U scalar) + { + return (*this = detail::compute_vec4_mul::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator*=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_mul::value>::call(*this, vec<4, T, Q>(v.x))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator*=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_mul::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator/=(U scalar) + { + return (*this = detail::compute_vec4_div::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator/=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_div::value>::call(*this, vec<4, T, Q>(v.x))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator/=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_div::value>::call(*this, vec<4, T, Q>(v))); + } + + // -- Increment and decrement operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator++() + { + ++this->x; + ++this->y; + ++this->z; + ++this->w; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator--() + { + --this->x; + --this->y; + --this->z; + --this->w; + return *this; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> vec<4, T, Q>::operator++(int) + { + vec<4, T, Q> Result(*this); + ++*this; + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> vec<4, T, Q>::operator--(int) + { + vec<4, T, Q> Result(*this); + --*this; + return Result; + } + + // -- Unary bit operators -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator%=(U scalar) + { + return (*this = detail::compute_vec4_mod::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator%=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_mod::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator%=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_mod::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator&=(U scalar) + { + return (*this = detail::compute_vec4_and::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator&=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_and::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator&=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_and::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator|=(U scalar) + { + return (*this = detail::compute_vec4_or::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator|=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_or::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator|=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_or::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator^=(U scalar) + { + return (*this = detail::compute_vec4_xor::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator^=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_xor::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator^=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_xor::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator<<=(U scalar) + { + return (*this = detail::compute_vec4_shift_left::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator<<=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_shift_left::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator<<=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_shift_left::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator>>=(U scalar) + { + return (*this = detail::compute_vec4_shift_right::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(scalar))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator>>=(vec<1, U, Q> const& v) + { + return (*this = detail::compute_vec4_shift_right::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> & vec<4, T, Q>::operator>>=(vec<4, U, Q> const& v) + { + return (*this = detail::compute_vec4_shift_right::value, sizeof(T) * 8, detail::is_aligned::value>::call(*this, vec<4, T, Q>(v))); + } + + // -- Unary constant operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v) + { + return v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v) + { + return vec<4, T, Q>(0) -= v; + } + + // -- Binary arithmetic operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v, T const & scalar) + { + return vec<4, T, Q>(v) += scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) += v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator+(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(v) += scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator+(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v2) += v1; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator+(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) += v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v, T const & scalar) + { + return vec<4, T, Q>(v) -= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) -= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator-(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) -= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator-(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1.x) -= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator-(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) -= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v, T const & scalar) + { + return vec<4, T, Q>(v) *= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) *= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator*(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(v) *= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator*(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v2) *= v1; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator*(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) *= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator/(vec<4, T, Q> const& v, T const & scalar) + { + return vec<4, T, Q>(v) /= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator/(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) /= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator/(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) /= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator/(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1.x) /= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator/(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) /= v2; + } + + // -- Binary bit operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator%(vec<4, T, Q> const& v, T scalar) + { + return vec<4, T, Q>(v) %= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator%(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) %= v2.x; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator%(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) %= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator%(vec<1, T, Q> const& scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar.x) %= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator%(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) %= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator&(vec<4, T, Q> const& v, T scalar) + { + return vec<4, T, Q>(v) &= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator&(vec<4, T, Q> const& v, vec<1, T, Q> const& scalar) + { + return vec<4, T, Q>(v) &= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator&(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) &= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator&(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1.x) &= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator&(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) &= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator|(vec<4, T, Q> const& v, T scalar) + { + return vec<4, T, Q>(v) |= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator|(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) |= v2.x; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator|(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) |= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator|(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1.x) |= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator|(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) |= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator^(vec<4, T, Q> const& v, T scalar) + { + return vec<4, T, Q>(v) ^= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator^(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) ^= v2.x; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator^(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) ^= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator^(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1.x) ^= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator^(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) ^= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<4, T, Q> const& v, T scalar) + { + return vec<4, T, Q>(v) <<= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) <<= v2.x; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator<<(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) <<= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1.x) <<= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator<<(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) <<= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<4, T, Q> const& v, T scalar) + { + return vec<4, T, Q>(v) >>= scalar; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<4, T, Q> const& v1, vec<1, T, Q> const& v2) + { + return vec<4, T, Q>(v1) >>= v2.x; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator>>(T scalar, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(scalar) >>= v; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<1, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1.x) >>= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator>>(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return vec<4, T, Q>(v1) >>= v2; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, T, Q> operator~(vec<4, T, Q> const& v) + { + return detail::compute_vec4_bitwise_not::value, sizeof(T) * 8, detail::is_aligned::value>::call(v); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator==(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return detail::compute_vec4_equal::value, sizeof(T) * 8, detail::is_aligned::value>::call(v1, v2); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool operator!=(vec<4, T, Q> const& v1, vec<4, T, Q> const& v2) + { + return detail::compute_vec4_nequal::value, sizeof(T) * 8, detail::is_aligned::value>::call(v1, v2); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, bool, Q> operator&&(vec<4, bool, Q> const& v1, vec<4, bool, Q> const& v2) + { + return vec<4, bool, Q>(v1.x && v2.x, v1.y && v2.y, v1.z && v2.z, v1.w && v2.w); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, bool, Q> operator||(vec<4, bool, Q> const& v1, vec<4, bool, Q> const& v2) + { + return vec<4, bool, Q>(v1.x || v2.x, v1.y || v2.y, v1.z || v2.z, v1.w || v2.w); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "type_vec4_simd.inl" +#endif diff --git a/Vulkan/ext/include/glm/detail/type_vec4_simd.inl b/Vulkan/ext/include/glm/detail/type_vec4_simd.inl new file mode 100644 index 0000000..29559b5 --- /dev/null +++ b/Vulkan/ext/include/glm/detail/type_vec4_simd.inl @@ -0,0 +1,775 @@ +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +namespace glm{ +namespace detail +{ +# if GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + template + struct _swizzle_base1<4, float, Q, E0,E1,E2,E3, true> : public _swizzle_base0 + { + GLM_FUNC_QUALIFIER vec<4, float, Q> operator ()() const + { + __m128 data = *reinterpret_cast<__m128 const*>(&this->_buffer); + + vec<4, float, Q> Result; +# if GLM_ARCH & GLM_ARCH_AVX_BIT + Result.data = _mm_permute_ps(data, _MM_SHUFFLE(E3, E2, E1, E0)); +# else + Result.data = _mm_shuffle_ps(data, data, _MM_SHUFFLE(E3, E2, E1, E0)); +# endif + return Result; + } + }; + + template + struct _swizzle_base1<4, int, Q, E0,E1,E2,E3, true> : public _swizzle_base0 + { + GLM_FUNC_QUALIFIER vec<4, int, Q> operator ()() const + { + __m128i data = *reinterpret_cast<__m128i const*>(&this->_buffer); + + vec<4, int, Q> Result; + Result.data = _mm_shuffle_epi32(data, _MM_SHUFFLE(E3, E2, E1, E0)); + return Result; + } + }; + + template + struct _swizzle_base1<4, uint, Q, E0,E1,E2,E3, true> : public _swizzle_base0 + { + GLM_FUNC_QUALIFIER vec<4, uint, Q> operator ()() const + { + __m128i data = *reinterpret_cast<__m128i const*>(&this->_buffer); + + vec<4, uint, Q> Result; + Result.data = _mm_shuffle_epi32(data, _MM_SHUFFLE(E3, E2, E1, E0)); + return Result; + } + }; +# endif// GLM_CONFIG_SWIZZLE == GLM_SWIZZLE_OPERATOR + + template + struct compute_vec4_add + { + static vec<4, float, Q> call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = _mm_add_ps(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_vec4_add + { + static vec<4, double, Q> call(vec<4, double, Q> const& a, vec<4, double, Q> const& b) + { + vec<4, double, Q> Result; + Result.data = _mm256_add_pd(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_sub + { + static vec<4, float, Q> call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = _mm_sub_ps(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_vec4_sub + { + static vec<4, double, Q> call(vec<4, double, Q> const& a, vec<4, double, Q> const& b) + { + vec<4, double, Q> Result; + Result.data = _mm256_sub_pd(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_mul + { + static vec<4, float, Q> call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = _mm_mul_ps(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_vec4_mul + { + static vec<4, double, Q> call(vec<4, double, Q> const& a, vec<4, double, Q> const& b) + { + vec<4, double, Q> Result; + Result.data = _mm256_mul_pd(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_div + { + static vec<4, float, Q> call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = _mm_div_ps(a.data, b.data); + return Result; + } + }; + + # if GLM_ARCH & GLM_ARCH_AVX_BIT + template + struct compute_vec4_div + { + static vec<4, double, Q> call(vec<4, double, Q> const& a, vec<4, double, Q> const& b) + { + vec<4, double, Q> Result; + Result.data = _mm256_div_pd(a.data, b.data); + return Result; + } + }; +# endif + + template<> + struct compute_vec4_div + { + static vec<4, float, aligned_lowp> call(vec<4, float, aligned_lowp> const& a, vec<4, float, aligned_lowp> const& b) + { + vec<4, float, aligned_lowp> Result; + Result.data = _mm_mul_ps(a.data, _mm_rcp_ps(b.data)); + return Result; + } + }; + + template + struct compute_vec4_and + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm_and_si128(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + template + struct compute_vec4_and + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm256_and_si256(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_or + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm_or_si128(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + template + struct compute_vec4_or + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm256_or_si256(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_xor + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm_xor_si128(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + template + struct compute_vec4_xor + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm256_xor_si256(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_shift_left + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm_sll_epi32(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + template + struct compute_vec4_shift_left + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm256_sll_epi64(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_shift_right + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm_srl_epi32(a.data, b.data); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + template + struct compute_vec4_shift_right + { + static vec<4, T, Q> call(vec<4, T, Q> const& a, vec<4, T, Q> const& b) + { + vec<4, T, Q> Result; + Result.data = _mm256_srl_epi64(a.data, b.data); + return Result; + } + }; +# endif + + template + struct compute_vec4_bitwise_not + { + static vec<4, T, Q> call(vec<4, T, Q> const& v) + { + vec<4, T, Q> Result; + Result.data = _mm_xor_si128(v.data, _mm_set1_epi32(-1)); + return Result; + } + }; + +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + template + struct compute_vec4_bitwise_not + { + static vec<4, T, Q> call(vec<4, T, Q> const& v) + { + vec<4, T, Q> Result; + Result.data = _mm256_xor_si256(v.data, _mm_set1_epi32(-1)); + return Result; + } + }; +# endif + + template + struct compute_vec4_equal + { + static bool call(vec<4, float, Q> const& v1, vec<4, float, Q> const& v2) + { + return _mm_movemask_ps(_mm_cmpeq_ps(v1.data, v2.data)) != 0; + } + }; + +# if GLM_ARCH & GLM_ARCH_SSE41_BIT + template + struct compute_vec4_equal + { + static bool call(vec<4, int, Q> const& v1, vec<4, int, Q> const& v2) + { + //return _mm_movemask_epi8(_mm_cmpeq_epi32(v1.data, v2.data)) != 0; + __m128i neq = _mm_xor_si128(v1.data, v2.data); + return _mm_test_all_zeros(neq, neq) == 0; + } + }; +# endif + + template + struct compute_vec4_nequal + { + static bool call(vec<4, float, Q> const& v1, vec<4, float, Q> const& v2) + { + return _mm_movemask_ps(_mm_cmpneq_ps(v1.data, v2.data)) != 0; + } + }; + +# if GLM_ARCH & GLM_ARCH_SSE41_BIT + template + struct compute_vec4_nequal + { + static bool call(vec<4, int, Q> const& v1, vec<4, int, Q> const& v2) + { + //return _mm_movemask_epi8(_mm_cmpneq_epi32(v1.data, v2.data)) != 0; + __m128i neq = _mm_xor_si128(v1.data, v2.data); + return _mm_test_all_zeros(neq, neq) != 0; + } + }; +# endif +}//namespace detail + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_lowp>::vec(float _s) : + data(_mm_set1_ps(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_mediump>::vec(float _s) : + data(_mm_set1_ps(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(float _s) : + data(_mm_set1_ps(_s)) + {} + +# if GLM_ARCH & GLM_ARCH_AVX_BIT + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, double, aligned_lowp>::vec(double _s) : + data(_mm256_set1_pd(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, double, aligned_mediump>::vec(double _s) : + data(_mm256_set1_pd(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, double, aligned_highp>::vec(double _s) : + data(_mm256_set1_pd(_s)) + {} +# endif + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_lowp>::vec(int _s) : + data(_mm_set1_epi32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_mediump>::vec(int _s) : + data(_mm_set1_epi32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_highp>::vec(int _s) : + data(_mm_set1_epi32(_s)) + {} + +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, detail::int64, aligned_lowp>::vec(detail::int64 _s) : + data(_mm256_set1_epi64x(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, detail::int64, aligned_mediump>::vec(detail::int64 _s) : + data(_mm256_set1_epi64x(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, detail::int64, aligned_highp>::vec(detail::int64 _s) : + data(_mm256_set1_epi64x(_s)) + {} +# endif + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_lowp>::vec(float _x, float _y, float _z, float _w) : + data(_mm_set_ps(_w, _z, _y, _x)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_mediump>::vec(float _x, float _y, float _z, float _w) : + data(_mm_set_ps(_w, _z, _y, _x)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(float _x, float _y, float _z, float _w) : + data(_mm_set_ps(_w, _z, _y, _x)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_lowp>::vec(int _x, int _y, int _z, int _w) : + data(_mm_set_epi32(_w, _z, _y, _x)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_mediump>::vec(int _x, int _y, int _z, int _w) : + data(_mm_set_epi32(_w, _z, _y, _x)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_highp>::vec(int _x, int _y, int _z, int _w) : + data(_mm_set_epi32(_w, _z, _y, _x)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_lowp>::vec(int _x, int _y, int _z, int _w) : + data(_mm_cvtepi32_ps(_mm_set_epi32(_w, _z, _y, _x))) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_mediump>::vec(int _x, int _y, int _z, int _w) : + data(_mm_cvtepi32_ps(_mm_set_epi32(_w, _z, _y, _x))) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(int _x, int _y, int _z, int _w) : + data(_mm_cvtepi32_ps(_mm_set_epi32(_w, _z, _y, _x))) + {} +}//namespace glm + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT + +#if GLM_ARCH & GLM_ARCH_NEON_BIT +namespace glm { +namespace detail { + + template + struct compute_vec4_add + { + static + vec<4, float, Q> + call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = vaddq_f32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_add + { + static + vec<4, uint, Q> + call(vec<4, uint, Q> const& a, vec<4, uint, Q> const& b) + { + vec<4, uint, Q> Result; + Result.data = vaddq_u32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_add + { + static + vec<4, int, Q> + call(vec<4, int, Q> const& a, vec<4, int, Q> const& b) + { + vec<4, uint, Q> Result; + Result.data = vaddq_s32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_sub + { + static vec<4, float, Q> call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = vsubq_f32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_sub + { + static vec<4, uint, Q> call(vec<4, uint, Q> const& a, vec<4, uint, Q> const& b) + { + vec<4, uint, Q> Result; + Result.data = vsubq_u32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_sub + { + static vec<4, int, Q> call(vec<4, int, Q> const& a, vec<4, int, Q> const& b) + { + vec<4, int, Q> Result; + Result.data = vsubq_s32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_mul + { + static vec<4, float, Q> call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = vmulq_f32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_mul + { + static vec<4, uint, Q> call(vec<4, uint, Q> const& a, vec<4, uint, Q> const& b) + { + vec<4, uint, Q> Result; + Result.data = vmulq_u32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_mul + { + static vec<4, int, Q> call(vec<4, int, Q> const& a, vec<4, int, Q> const& b) + { + vec<4, int, Q> Result; + Result.data = vmulq_s32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_div + { + static vec<4, float, Q> call(vec<4, float, Q> const& a, vec<4, float, Q> const& b) + { + vec<4, float, Q> Result; + Result.data = vdivq_f32(a.data, b.data); + return Result; + } + }; + + template + struct compute_vec4_equal + { + static bool call(vec<4, float, Q> const& v1, vec<4, float, Q> const& v2) + { + uint32x4_t cmp = vceqq_f32(v1.data, v2.data); +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + cmp = vpminq_u32(cmp, cmp); + cmp = vpminq_u32(cmp, cmp); + uint32_t r = cmp[0]; +#else + uint32x2_t cmpx2 = vpmin_u32(vget_low_f32(cmp), vget_high_f32(cmp)); + cmpx2 = vpmin_u32(cmpx2, cmpx2); + uint32_t r = cmpx2[0]; +#endif + return r == ~0u; + } + }; + + template + struct compute_vec4_equal + { + static bool call(vec<4, uint, Q> const& v1, vec<4, uint, Q> const& v2) + { + uint32x4_t cmp = vceqq_u32(v1.data, v2.data); +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + cmp = vpminq_u32(cmp, cmp); + cmp = vpminq_u32(cmp, cmp); + uint32_t r = cmp[0]; +#else + uint32x2_t cmpx2 = vpmin_u32(vget_low_f32(cmp), vget_high_f32(cmp)); + cmpx2 = vpmin_u32(cmpx2, cmpx2); + uint32_t r = cmpx2[0]; +#endif + return r == ~0u; + } + }; + + template + struct compute_vec4_equal + { + static bool call(vec<4, int, Q> const& v1, vec<4, int, Q> const& v2) + { + uint32x4_t cmp = vceqq_s32(v1.data, v2.data); +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + cmp = vpminq_u32(cmp, cmp); + cmp = vpminq_u32(cmp, cmp); + uint32_t r = cmp[0]; +#else + uint32x2_t cmpx2 = vpmin_u32(vget_low_f32(cmp), vget_high_f32(cmp)); + cmpx2 = vpmin_u32(cmpx2, cmpx2); + uint32_t r = cmpx2[0]; +#endif + return r == ~0u; + } + }; + + template + struct compute_vec4_nequal + { + static bool call(vec<4, float, Q> const& v1, vec<4, float, Q> const& v2) + { + return !compute_vec4_equal::call(v1, v2); + } + }; + + template + struct compute_vec4_nequal + { + static bool call(vec<4, uint, Q> const& v1, vec<4, uint, Q> const& v2) + { + return !compute_vec4_equal::call(v1, v2); + } + }; + + template + struct compute_vec4_nequal + { + static bool call(vec<4, int, Q> const& v1, vec<4, int, Q> const& v2) + { + return !compute_vec4_equal::call(v1, v2); + } + }; + +}//namespace detail + +#if !GLM_CONFIG_XYZW_ONLY + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_lowp>::vec(float _s) : + data(vdupq_n_f32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_mediump>::vec(float _s) : + data(vdupq_n_f32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(float _s) : + data(vdupq_n_f32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_lowp>::vec(int _s) : + data(vdupq_n_s32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_mediump>::vec(int _s) : + data(vdupq_n_s32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, int, aligned_highp>::vec(int _s) : + data(vdupq_n_s32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, uint, aligned_lowp>::vec(uint _s) : + data(vdupq_n_u32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, uint, aligned_mediump>::vec(uint _s) : + data(vdupq_n_u32(_s)) + {} + + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, uint, aligned_highp>::vec(uint _s) : + data(vdupq_n_u32(_s)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(const vec<4, float, aligned_highp>& rhs) : + data(rhs.data) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(const vec<4, int, aligned_highp>& rhs) : + data(vcvtq_f32_s32(rhs.data)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(const vec<4, uint, aligned_highp>& rhs) : + data(vcvtq_f32_u32(rhs.data)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_lowp>::vec(int _x, int _y, int _z, int _w) : + data(vcvtq_f32_s32(vec<4, int, aligned_lowp>(_x, _y, _z, _w).data)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_mediump>::vec(int _x, int _y, int _z, int _w) : + data(vcvtq_f32_s32(vec<4, int, aligned_mediump>(_x, _y, _z, _w).data)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(int _x, int _y, int _z, int _w) : + data(vcvtq_f32_s32(vec<4, int, aligned_highp>(_x, _y, _z, _w).data)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_lowp>::vec(uint _x, uint _y, uint _z, uint _w) : + data(vcvtq_f32_u32(vec<4, uint, aligned_lowp>(_x, _y, _z, _w).data)) + {} + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_mediump>::vec(uint _x, uint _y, uint _z, uint _w) : + data(vcvtq_f32_u32(vec<4, uint, aligned_mediump>(_x, _y, _z, _w).data)) + {} + + + template<> + template<> + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec<4, float, aligned_highp>::vec(uint _x, uint _y, uint _z, uint _w) : + data(vcvtq_f32_u32(vec<4, uint, aligned_highp>(_x, _y, _z, _w).data)) + {} + +#endif +}//namespace glm + +#endif diff --git a/Vulkan/ext/include/glm/exponential.hpp b/Vulkan/ext/include/glm/exponential.hpp new file mode 100644 index 0000000..f8fb886 --- /dev/null +++ b/Vulkan/ext/include/glm/exponential.hpp @@ -0,0 +1,110 @@ +/// @ref core +/// @file glm/exponential.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions +/// +/// @defgroup core_func_exponential Exponential functions +/// @ingroup core +/// +/// Provides GLSL exponential functions +/// +/// These all operate component-wise. The description is per component. +/// +/// Include to use these core features. + +#pragma once + +#include "detail/type_vec1.hpp" +#include "detail/type_vec2.hpp" +#include "detail/type_vec3.hpp" +#include "detail/type_vec4.hpp" +#include + +namespace glm +{ + /// @addtogroup core_func_exponential + /// @{ + + /// Returns 'base' raised to the power 'exponent'. + /// + /// @param base Floating point value. pow function is defined for input values of 'base' defined in the range (inf-, inf+) in the limit of the type qualifier. + /// @param exponent Floating point value representing the 'exponent'. + /// + /// @see GLSL pow man page + /// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions + template + GLM_FUNC_DECL vec pow(vec const& base, vec const& exponent); + + /// Returns the natural exponentiation of x, i.e., e^x. + /// + /// @param v exp function is defined for input values of v defined in the range (inf-, inf+) in the limit of the type qualifier. + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL exp man page + /// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions + template + GLM_FUNC_DECL vec exp(vec const& v); + + /// Returns the natural logarithm of v, i.e., + /// returns the value y which satisfies the equation x = e^y. + /// Results are undefined if v <= 0. + /// + /// @param v log function is defined for input values of v defined in the range (0, inf+) in the limit of the type qualifier. + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL log man page + /// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions + template + GLM_FUNC_DECL vec log(vec const& v); + + /// Returns 2 raised to the v power. + /// + /// @param v exp2 function is defined for input values of v defined in the range (inf-, inf+) in the limit of the type qualifier. + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL exp2 man page + /// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions + template + GLM_FUNC_DECL vec exp2(vec const& v); + + /// Returns the base 2 log of x, i.e., returns the value y, + /// which satisfies the equation x = 2 ^ y. + /// + /// @param v log2 function is defined for input values of v defined in the range (0, inf+) in the limit of the type qualifier. + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL log2 man page + /// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions + template + GLM_FUNC_DECL vec log2(vec const& v); + + /// Returns the positive square root of v. + /// + /// @param v sqrt function is defined for input values of v defined in the range [0, inf+) in the limit of the type qualifier. + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL sqrt man page + /// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions + template + GLM_FUNC_DECL vec sqrt(vec const& v); + + /// Returns the reciprocal of the positive square root of v. + /// + /// @param v inversesqrt function is defined for input values of v defined in the range [0, inf+) in the limit of the type qualifier. + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL inversesqrt man page + /// @see GLSL 4.20.8 specification, section 8.2 Exponential Functions + template + GLM_FUNC_DECL vec inversesqrt(vec const& v); + + /// @} +}//namespace glm + +#include "detail/func_exponential.inl" diff --git a/Vulkan/ext/include/glm/ext.hpp b/Vulkan/ext/include/glm/ext.hpp new file mode 100644 index 0000000..3249fb9 --- /dev/null +++ b/Vulkan/ext/include/glm/ext.hpp @@ -0,0 +1,253 @@ +/// @file glm/ext.hpp +/// +/// @ref core (Dependence) + +#include "detail/setup.hpp" + +#pragma once + +#include "glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_MESSAGE_EXT_INCLUDED_DISPLAYED) +# define GLM_MESSAGE_EXT_INCLUDED_DISPLAYED +# pragma message("GLM: All extensions included (not recommended)") +#endif//GLM_MESSAGES + +#include "./ext/matrix_clip_space.hpp" +#include "./ext/matrix_common.hpp" + +#include "./ext/matrix_double2x2.hpp" +#include "./ext/matrix_double2x2_precision.hpp" +#include "./ext/matrix_double2x3.hpp" +#include "./ext/matrix_double2x3_precision.hpp" +#include "./ext/matrix_double2x4.hpp" +#include "./ext/matrix_double2x4_precision.hpp" +#include "./ext/matrix_double3x2.hpp" +#include "./ext/matrix_double3x2_precision.hpp" +#include "./ext/matrix_double3x3.hpp" +#include "./ext/matrix_double3x3_precision.hpp" +#include "./ext/matrix_double3x4.hpp" +#include "./ext/matrix_double3x4_precision.hpp" +#include "./ext/matrix_double4x2.hpp" +#include "./ext/matrix_double4x2_precision.hpp" +#include "./ext/matrix_double4x3.hpp" +#include "./ext/matrix_double4x3_precision.hpp" +#include "./ext/matrix_double4x4.hpp" +#include "./ext/matrix_double4x4_precision.hpp" + +#include "./ext/matrix_float2x2.hpp" +#include "./ext/matrix_float2x2_precision.hpp" +#include "./ext/matrix_float2x3.hpp" +#include "./ext/matrix_float2x3_precision.hpp" +#include "./ext/matrix_float2x4.hpp" +#include "./ext/matrix_float2x4_precision.hpp" +#include "./ext/matrix_float3x2.hpp" +#include "./ext/matrix_float3x2_precision.hpp" +#include "./ext/matrix_float3x3.hpp" +#include "./ext/matrix_float3x3_precision.hpp" +#include "./ext/matrix_float3x4.hpp" +#include "./ext/matrix_float3x4_precision.hpp" +#include "./ext/matrix_float4x2.hpp" +#include "./ext/matrix_float4x2_precision.hpp" +#include "./ext/matrix_float4x3.hpp" +#include "./ext/matrix_float4x3_precision.hpp" +#include "./ext/matrix_float4x4.hpp" +#include "./ext/matrix_float4x4_precision.hpp" + +#include "./ext/matrix_int2x2.hpp" +#include "./ext/matrix_int2x2_sized.hpp" +#include "./ext/matrix_int2x3.hpp" +#include "./ext/matrix_int2x3_sized.hpp" +#include "./ext/matrix_int2x4.hpp" +#include "./ext/matrix_int2x4_sized.hpp" +#include "./ext/matrix_int3x2.hpp" +#include "./ext/matrix_int3x2_sized.hpp" +#include "./ext/matrix_int3x3.hpp" +#include "./ext/matrix_int3x3_sized.hpp" +#include "./ext/matrix_int3x4.hpp" +#include "./ext/matrix_int3x4_sized.hpp" +#include "./ext/matrix_int4x2.hpp" +#include "./ext/matrix_int4x2_sized.hpp" +#include "./ext/matrix_int4x3.hpp" +#include "./ext/matrix_int4x3_sized.hpp" +#include "./ext/matrix_int4x4.hpp" +#include "./ext/matrix_int4x4_sized.hpp" + +#include "./ext/matrix_uint2x2.hpp" +#include "./ext/matrix_uint2x2_sized.hpp" +#include "./ext/matrix_uint2x3.hpp" +#include "./ext/matrix_uint2x3_sized.hpp" +#include "./ext/matrix_uint2x4.hpp" +#include "./ext/matrix_uint2x4_sized.hpp" +#include "./ext/matrix_uint3x2.hpp" +#include "./ext/matrix_uint3x2_sized.hpp" +#include "./ext/matrix_uint3x3.hpp" +#include "./ext/matrix_uint3x3_sized.hpp" +#include "./ext/matrix_uint3x4.hpp" +#include "./ext/matrix_uint3x4_sized.hpp" +#include "./ext/matrix_uint4x2.hpp" +#include "./ext/matrix_uint4x2_sized.hpp" +#include "./ext/matrix_uint4x3.hpp" +#include "./ext/matrix_uint4x3_sized.hpp" +#include "./ext/matrix_uint4x4.hpp" +#include "./ext/matrix_uint4x4_sized.hpp" + +#include "./ext/matrix_projection.hpp" +#include "./ext/matrix_relational.hpp" +#include "./ext/matrix_transform.hpp" + +#include "./ext/quaternion_common.hpp" +#include "./ext/quaternion_double.hpp" +#include "./ext/quaternion_double_precision.hpp" +#include "./ext/quaternion_float.hpp" +#include "./ext/quaternion_float_precision.hpp" +#include "./ext/quaternion_exponential.hpp" +#include "./ext/quaternion_geometric.hpp" +#include "./ext/quaternion_relational.hpp" +#include "./ext/quaternion_transform.hpp" +#include "./ext/quaternion_trigonometric.hpp" + +#include "./ext/scalar_common.hpp" +#include "./ext/scalar_constants.hpp" +#include "./ext/scalar_integer.hpp" +#include "./ext/scalar_packing.hpp" +#include "./ext/scalar_relational.hpp" +#include "./ext/scalar_ulp.hpp" + +#include "./ext/scalar_int_sized.hpp" +#include "./ext/scalar_uint_sized.hpp" + +#include "./ext/vector_common.hpp" +#include "./ext/vector_integer.hpp" +#include "./ext/vector_packing.hpp" +#include "./ext/vector_relational.hpp" +#include "./ext/vector_ulp.hpp" + +#include "./ext/vector_bool1.hpp" +#include "./ext/vector_bool1_precision.hpp" +#include "./ext/vector_bool2.hpp" +#include "./ext/vector_bool2_precision.hpp" +#include "./ext/vector_bool3.hpp" +#include "./ext/vector_bool3_precision.hpp" +#include "./ext/vector_bool4.hpp" +#include "./ext/vector_bool4_precision.hpp" + +#include "./ext/vector_double1.hpp" +#include "./ext/vector_double1_precision.hpp" +#include "./ext/vector_double2.hpp" +#include "./ext/vector_double2_precision.hpp" +#include "./ext/vector_double3.hpp" +#include "./ext/vector_double3_precision.hpp" +#include "./ext/vector_double4.hpp" +#include "./ext/vector_double4_precision.hpp" + +#include "./ext/vector_float1.hpp" +#include "./ext/vector_float1_precision.hpp" +#include "./ext/vector_float2.hpp" +#include "./ext/vector_float2_precision.hpp" +#include "./ext/vector_float3.hpp" +#include "./ext/vector_float3_precision.hpp" +#include "./ext/vector_float4.hpp" +#include "./ext/vector_float4_precision.hpp" + +#include "./ext/vector_int1.hpp" +#include "./ext/vector_int1_sized.hpp" +#include "./ext/vector_int2.hpp" +#include "./ext/vector_int2_sized.hpp" +#include "./ext/vector_int3.hpp" +#include "./ext/vector_int3_sized.hpp" +#include "./ext/vector_int4.hpp" +#include "./ext/vector_int4_sized.hpp" + +#include "./ext/vector_uint1.hpp" +#include "./ext/vector_uint1_sized.hpp" +#include "./ext/vector_uint2.hpp" +#include "./ext/vector_uint2_sized.hpp" +#include "./ext/vector_uint3.hpp" +#include "./ext/vector_uint3_sized.hpp" +#include "./ext/vector_uint4.hpp" +#include "./ext/vector_uint4_sized.hpp" + +#include "./gtc/bitfield.hpp" +#include "./gtc/color_space.hpp" +#include "./gtc/constants.hpp" +#include "./gtc/epsilon.hpp" +#include "./gtc/integer.hpp" +#include "./gtc/matrix_access.hpp" +#include "./gtc/matrix_integer.hpp" +#include "./gtc/matrix_inverse.hpp" +#include "./gtc/matrix_transform.hpp" +#include "./gtc/noise.hpp" +#include "./gtc/packing.hpp" +#include "./gtc/quaternion.hpp" +#include "./gtc/random.hpp" +#include "./gtc/reciprocal.hpp" +#include "./gtc/round.hpp" +#include "./gtc/type_precision.hpp" +#include "./gtc/type_ptr.hpp" +#include "./gtc/ulp.hpp" +#include "./gtc/vec1.hpp" +#if GLM_CONFIG_ALIGNED_GENTYPES == GLM_ENABLE +# include "./gtc/type_aligned.hpp" +#endif + +#ifdef GLM_ENABLE_EXPERIMENTAL +#include "./gtx/associated_min_max.hpp" +#include "./gtx/bit.hpp" +#include "./gtx/closest_point.hpp" +#include "./gtx/color_encoding.hpp" +#include "./gtx/color_space.hpp" +#include "./gtx/color_space_YCoCg.hpp" +#include "./gtx/compatibility.hpp" +#include "./gtx/component_wise.hpp" +#include "./gtx/dual_quaternion.hpp" +#include "./gtx/euler_angles.hpp" +#include "./gtx/extend.hpp" +#include "./gtx/extended_min_max.hpp" +#include "./gtx/fast_exponential.hpp" +#include "./gtx/fast_square_root.hpp" +#include "./gtx/fast_trigonometry.hpp" +#include "./gtx/functions.hpp" +#include "./gtx/gradient_paint.hpp" +#include "./gtx/handed_coordinate_space.hpp" +#include "./gtx/integer.hpp" +#include "./gtx/intersect.hpp" +#include "./gtx/log_base.hpp" +#include "./gtx/matrix_cross_product.hpp" +#include "./gtx/matrix_interpolation.hpp" +#include "./gtx/matrix_major_storage.hpp" +#include "./gtx/matrix_operation.hpp" +#include "./gtx/matrix_query.hpp" +#include "./gtx/mixed_product.hpp" +#include "./gtx/norm.hpp" +#include "./gtx/normal.hpp" +#include "./gtx/normalize_dot.hpp" +#include "./gtx/number_precision.hpp" +#include "./gtx/optimum_pow.hpp" +#include "./gtx/orthonormalize.hpp" +#include "./gtx/perpendicular.hpp" +#include "./gtx/polar_coordinates.hpp" +#include "./gtx/projection.hpp" +#include "./gtx/quaternion.hpp" +#include "./gtx/raw_data.hpp" +#include "./gtx/rotate_vector.hpp" +#include "./gtx/spline.hpp" +#include "./gtx/std_based_type.hpp" +#if !(GLM_COMPILER & GLM_COMPILER_CUDA) +# include "./gtx/string_cast.hpp" +#endif +#include "./gtx/transform.hpp" +#include "./gtx/transform2.hpp" +#include "./gtx/vec_swizzle.hpp" +#include "./gtx/vector_angle.hpp" +#include "./gtx/vector_query.hpp" +#include "./gtx/wrap.hpp" + +#if GLM_HAS_TEMPLATE_ALIASES +# include "./gtx/scalar_multiplication.hpp" +#endif + +#if GLM_HAS_RANGE_FOR +# include "./gtx/range.hpp" +#endif +#endif//GLM_ENABLE_EXPERIMENTAL diff --git a/Vulkan/ext/include/glm/ext/matrix_clip_space.hpp b/Vulkan/ext/include/glm/ext/matrix_clip_space.hpp new file mode 100644 index 0000000..c3874f2 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_clip_space.hpp @@ -0,0 +1,522 @@ +/// @ref ext_matrix_clip_space +/// @file glm/ext/matrix_clip_space.hpp +/// +/// @defgroup ext_matrix_clip_space GLM_EXT_matrix_clip_space +/// @ingroup ext +/// +/// Defines functions that generate clip space transformation matrices. +/// +/// The matrices generated by this extension use standard OpenGL fixed-function +/// conventions. For example, the lookAt function generates a transform from world +/// space into the specific eye space that the projective matrix functions +/// (perspective, ortho, etc) are designed to expect. The OpenGL compatibility +/// specifications defines the particular layout of this eye space. +/// +/// Include to use the features of this extension. +/// +/// @see ext_matrix_transform +/// @see ext_matrix_projection + +#pragma once + +// Dependencies +#include "../ext/scalar_constants.hpp" +#include "../geometric.hpp" +#include "../trigonometric.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_clip_space extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_clip_space + /// @{ + + /// Creates a matrix for projecting two-dimensional coordinates onto the screen. + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top, T const& zNear, T const& zFar) + /// @see gluOrtho2D man page + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> ortho( + T left, T right, T bottom, T top); + + /// Creates a matrix for an orthographic parallel viewing volume, using left-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoLH_ZO( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume using right-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoLH_NO( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume, using left-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoRH_ZO( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume, using right-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoRH_NO( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume, using left-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoZO( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume, using left-handed coordinates if GLM_FORCE_LEFT_HANDED if defined or right-handed coordinates otherwise. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoNO( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume, using left-handed coordinates. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoLH( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume, using right-handed coordinates. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> orthoRH( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a matrix for an orthographic parallel viewing volume, using the default handedness and default near and far clip planes definition. + /// To change default handedness use GLM_FORCE_LEFT_HANDED. To change default near and far clip planes definition use GLM_FORCE_DEPTH_ZERO_TO_ONE. + /// + /// @tparam T A floating-point scalar type + /// + /// @see - glm::ortho(T const& left, T const& right, T const& bottom, T const& top) + /// @see glOrtho man page + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> ortho( + T left, T right, T bottom, T top, T zNear, T zFar); + + /// Creates a left handed frustum matrix. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumLH_ZO( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a left handed frustum matrix. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumLH_NO( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a right handed frustum matrix. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumRH_ZO( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a right handed frustum matrix. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumRH_NO( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a frustum matrix using left-handed coordinates if GLM_FORCE_LEFT_HANDED if defined or right-handed coordinates otherwise. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumZO( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a frustum matrix using left-handed coordinates if GLM_FORCE_LEFT_HANDED if defined or right-handed coordinates otherwise. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumNO( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a left handed frustum matrix. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumLH( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a right handed frustum matrix. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustumRH( + T left, T right, T bottom, T top, T near, T far); + + /// Creates a frustum matrix with default handedness, using the default handedness and default near and far clip planes definition. + /// To change default handedness use GLM_FORCE_LEFT_HANDED. To change default near and far clip planes definition use GLM_FORCE_DEPTH_ZERO_TO_ONE. + /// + /// @tparam T A floating-point scalar type + /// @see glFrustum man page + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> frustum( + T left, T right, T bottom, T top, T near, T far); + + + /// Creates a matrix for a right handed, symetric perspective-view frustum. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveRH_ZO( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a right handed, symetric perspective-view frustum. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveRH_NO( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a left handed, symetric perspective-view frustum. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveLH_ZO( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a left handed, symetric perspective-view frustum. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveLH_NO( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a symetric perspective-view frustum using left-handed coordinates if GLM_FORCE_LEFT_HANDED if defined or right-handed coordinates otherwise. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveZO( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a symetric perspective-view frustum using left-handed coordinates if GLM_FORCE_LEFT_HANDED if defined or right-handed coordinates otherwise. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveNO( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a right handed, symetric perspective-view frustum. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveRH( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a left handed, symetric perspective-view frustum. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveLH( + T fovy, T aspect, T near, T far); + + /// Creates a matrix for a symetric perspective-view frustum based on the default handedness and default near and far clip planes definition. + /// To change default handedness use GLM_FORCE_LEFT_HANDED. To change default near and far clip planes definition use GLM_FORCE_DEPTH_ZERO_TO_ONE. + /// + /// @param fovy Specifies the field of view angle in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + /// @see gluPerspective man page + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspective( + T fovy, T aspect, T near, T far); + + /// Builds a perspective projection matrix based on a field of view using right-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovRH_ZO( + T fov, T width, T height, T near, T far); + + /// Builds a perspective projection matrix based on a field of view using right-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovRH_NO( + T fov, T width, T height, T near, T far); + + /// Builds a perspective projection matrix based on a field of view using left-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovLH_ZO( + T fov, T width, T height, T near, T far); + + /// Builds a perspective projection matrix based on a field of view using left-handed coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovLH_NO( + T fov, T width, T height, T near, T far); + + /// Builds a perspective projection matrix based on a field of view using left-handed coordinates if GLM_FORCE_LEFT_HANDED if defined or right-handed coordinates otherwise. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovZO( + T fov, T width, T height, T near, T far); + + /// Builds a perspective projection matrix based on a field of view using left-handed coordinates if GLM_FORCE_LEFT_HANDED if defined or right-handed coordinates otherwise. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovNO( + T fov, T width, T height, T near, T far); + + /// Builds a right handed perspective projection matrix based on a field of view. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovRH( + T fov, T width, T height, T near, T far); + + /// Builds a left handed perspective projection matrix based on a field of view. + /// If GLM_FORCE_DEPTH_ZERO_TO_ONE is defined, the near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// Otherwise, the near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFovLH( + T fov, T width, T height, T near, T far); + + /// Builds a perspective projection matrix based on a field of view and the default handedness and default near and far clip planes definition. + /// To change default handedness use GLM_FORCE_LEFT_HANDED. To change default near and far clip planes definition use GLM_FORCE_DEPTH_ZERO_TO_ONE. + /// + /// @param fov Expressed in radians. + /// @param width Width of the viewport + /// @param height Height of the viewport + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param far Specifies the distance from the viewer to the far clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> perspectiveFov( + T fov, T width, T height, T near, T far); + + /// Creates a matrix for a left handed, symmetric perspective-view frustum with far plane at infinite. + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> infinitePerspectiveLH( + T fovy, T aspect, T near); + + /// Creates a matrix for a right handed, symmetric perspective-view frustum with far plane at infinite. + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> infinitePerspectiveRH( + T fovy, T aspect, T near); + + /// Creates a matrix for a symmetric perspective-view frustum with far plane at infinite with default handedness. + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> infinitePerspective( + T fovy, T aspect, T near); + + /// Creates a matrix for a symmetric perspective-view frustum with far plane at infinite for graphics hardware that doesn't support depth clamping. + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> tweakedInfinitePerspective( + T fovy, T aspect, T near); + + /// Creates a matrix for a symmetric perspective-view frustum with far plane at infinite for graphics hardware that doesn't support depth clamping. + /// + /// @param fovy Specifies the field of view angle, in degrees, in the y direction. Expressed in radians. + /// @param aspect Specifies the aspect ratio that determines the field of view in the x direction. The aspect ratio is the ratio of x (width) to y (height). + /// @param near Specifies the distance from the viewer to the near clipping plane (always positive). + /// @param ep Epsilon + /// + /// @tparam T A floating-point scalar type + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> tweakedInfinitePerspective( + T fovy, T aspect, T near, T ep); + + /// @} +}//namespace glm + +#include "matrix_clip_space.inl" diff --git a/Vulkan/ext/include/glm/ext/matrix_clip_space.inl b/Vulkan/ext/include/glm/ext/matrix_clip_space.inl new file mode 100644 index 0000000..7e4df33 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_clip_space.inl @@ -0,0 +1,555 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> ortho(T left, T right, T bottom, T top) + { + mat<4, 4, T, defaultp> Result(static_cast(1)); + Result[0][0] = static_cast(2) / (right - left); + Result[1][1] = static_cast(2) / (top - bottom); + Result[2][2] = - static_cast(1); + Result[3][0] = - (right + left) / (right - left); + Result[3][1] = - (top + bottom) / (top - bottom); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoLH_ZO(T left, T right, T bottom, T top, T zNear, T zFar) + { + mat<4, 4, T, defaultp> Result(1); + Result[0][0] = static_cast(2) / (right - left); + Result[1][1] = static_cast(2) / (top - bottom); + Result[2][2] = static_cast(1) / (zFar - zNear); + Result[3][0] = - (right + left) / (right - left); + Result[3][1] = - (top + bottom) / (top - bottom); + Result[3][2] = - zNear / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoLH_NO(T left, T right, T bottom, T top, T zNear, T zFar) + { + mat<4, 4, T, defaultp> Result(1); + Result[0][0] = static_cast(2) / (right - left); + Result[1][1] = static_cast(2) / (top - bottom); + Result[2][2] = static_cast(2) / (zFar - zNear); + Result[3][0] = - (right + left) / (right - left); + Result[3][1] = - (top + bottom) / (top - bottom); + Result[3][2] = - (zFar + zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoRH_ZO(T left, T right, T bottom, T top, T zNear, T zFar) + { + mat<4, 4, T, defaultp> Result(1); + Result[0][0] = static_cast(2) / (right - left); + Result[1][1] = static_cast(2) / (top - bottom); + Result[2][2] = - static_cast(1) / (zFar - zNear); + Result[3][0] = - (right + left) / (right - left); + Result[3][1] = - (top + bottom) / (top - bottom); + Result[3][2] = - zNear / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoRH_NO(T left, T right, T bottom, T top, T zNear, T zFar) + { + mat<4, 4, T, defaultp> Result(1); + Result[0][0] = static_cast(2) / (right - left); + Result[1][1] = static_cast(2) / (top - bottom); + Result[2][2] = - static_cast(2) / (zFar - zNear); + Result[3][0] = - (right + left) / (right - left); + Result[3][1] = - (top + bottom) / (top - bottom); + Result[3][2] = - (zFar + zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoZO(T left, T right, T bottom, T top, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return orthoLH_ZO(left, right, bottom, top, zNear, zFar); +# else + return orthoRH_ZO(left, right, bottom, top, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoNO(T left, T right, T bottom, T top, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return orthoLH_NO(left, right, bottom, top, zNear, zFar); +# else + return orthoRH_NO(left, right, bottom, top, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoLH(T left, T right, T bottom, T top, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return orthoLH_ZO(left, right, bottom, top, zNear, zFar); +# else + return orthoLH_NO(left, right, bottom, top, zNear, zFar); +# endif + + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> orthoRH(T left, T right, T bottom, T top, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return orthoRH_ZO(left, right, bottom, top, zNear, zFar); +# else + return orthoRH_NO(left, right, bottom, top, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> ortho(T left, T right, T bottom, T top, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_ZO + return orthoLH_ZO(left, right, bottom, top, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_NO + return orthoLH_NO(left, right, bottom, top, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_ZO + return orthoRH_ZO(left, right, bottom, top, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_NO + return orthoRH_NO(left, right, bottom, top, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumLH_ZO(T left, T right, T bottom, T top, T nearVal, T farVal) + { + mat<4, 4, T, defaultp> Result(0); + Result[0][0] = (static_cast(2) * nearVal) / (right - left); + Result[1][1] = (static_cast(2) * nearVal) / (top - bottom); + Result[2][0] = (right + left) / (right - left); + Result[2][1] = (top + bottom) / (top - bottom); + Result[2][2] = farVal / (farVal - nearVal); + Result[2][3] = static_cast(1); + Result[3][2] = -(farVal * nearVal) / (farVal - nearVal); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumLH_NO(T left, T right, T bottom, T top, T nearVal, T farVal) + { + mat<4, 4, T, defaultp> Result(0); + Result[0][0] = (static_cast(2) * nearVal) / (right - left); + Result[1][1] = (static_cast(2) * nearVal) / (top - bottom); + Result[2][0] = (right + left) / (right - left); + Result[2][1] = (top + bottom) / (top - bottom); + Result[2][2] = (farVal + nearVal) / (farVal - nearVal); + Result[2][3] = static_cast(1); + Result[3][2] = - (static_cast(2) * farVal * nearVal) / (farVal - nearVal); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumRH_ZO(T left, T right, T bottom, T top, T nearVal, T farVal) + { + mat<4, 4, T, defaultp> Result(0); + Result[0][0] = (static_cast(2) * nearVal) / (right - left); + Result[1][1] = (static_cast(2) * nearVal) / (top - bottom); + Result[2][0] = (right + left) / (right - left); + Result[2][1] = (top + bottom) / (top - bottom); + Result[2][2] = farVal / (nearVal - farVal); + Result[2][3] = static_cast(-1); + Result[3][2] = -(farVal * nearVal) / (farVal - nearVal); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumRH_NO(T left, T right, T bottom, T top, T nearVal, T farVal) + { + mat<4, 4, T, defaultp> Result(0); + Result[0][0] = (static_cast(2) * nearVal) / (right - left); + Result[1][1] = (static_cast(2) * nearVal) / (top - bottom); + Result[2][0] = (right + left) / (right - left); + Result[2][1] = (top + bottom) / (top - bottom); + Result[2][2] = - (farVal + nearVal) / (farVal - nearVal); + Result[2][3] = static_cast(-1); + Result[3][2] = - (static_cast(2) * farVal * nearVal) / (farVal - nearVal); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumZO(T left, T right, T bottom, T top, T nearVal, T farVal) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return frustumLH_ZO(left, right, bottom, top, nearVal, farVal); +# else + return frustumRH_ZO(left, right, bottom, top, nearVal, farVal); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumNO(T left, T right, T bottom, T top, T nearVal, T farVal) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return frustumLH_NO(left, right, bottom, top, nearVal, farVal); +# else + return frustumRH_NO(left, right, bottom, top, nearVal, farVal); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumLH(T left, T right, T bottom, T top, T nearVal, T farVal) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return frustumLH_ZO(left, right, bottom, top, nearVal, farVal); +# else + return frustumLH_NO(left, right, bottom, top, nearVal, farVal); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustumRH(T left, T right, T bottom, T top, T nearVal, T farVal) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return frustumRH_ZO(left, right, bottom, top, nearVal, farVal); +# else + return frustumRH_NO(left, right, bottom, top, nearVal, farVal); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> frustum(T left, T right, T bottom, T top, T nearVal, T farVal) + { +# if GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_ZO + return frustumLH_ZO(left, right, bottom, top, nearVal, farVal); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_NO + return frustumLH_NO(left, right, bottom, top, nearVal, farVal); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_ZO + return frustumRH_ZO(left, right, bottom, top, nearVal, farVal); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_NO + return frustumRH_NO(left, right, bottom, top, nearVal, farVal); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveRH_ZO(T fovy, T aspect, T zNear, T zFar) + { + assert(abs(aspect - std::numeric_limits::epsilon()) > static_cast(0)); + + T const tanHalfFovy = tan(fovy / static_cast(2)); + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = static_cast(1) / (aspect * tanHalfFovy); + Result[1][1] = static_cast(1) / (tanHalfFovy); + Result[2][2] = zFar / (zNear - zFar); + Result[2][3] = - static_cast(1); + Result[3][2] = -(zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveRH_NO(T fovy, T aspect, T zNear, T zFar) + { + assert(abs(aspect - std::numeric_limits::epsilon()) > static_cast(0)); + + T const tanHalfFovy = tan(fovy / static_cast(2)); + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = static_cast(1) / (aspect * tanHalfFovy); + Result[1][1] = static_cast(1) / (tanHalfFovy); + Result[2][2] = - (zFar + zNear) / (zFar - zNear); + Result[2][3] = - static_cast(1); + Result[3][2] = - (static_cast(2) * zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveLH_ZO(T fovy, T aspect, T zNear, T zFar) + { + assert(abs(aspect - std::numeric_limits::epsilon()) > static_cast(0)); + + T const tanHalfFovy = tan(fovy / static_cast(2)); + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = static_cast(1) / (aspect * tanHalfFovy); + Result[1][1] = static_cast(1) / (tanHalfFovy); + Result[2][2] = zFar / (zFar - zNear); + Result[2][3] = static_cast(1); + Result[3][2] = -(zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveLH_NO(T fovy, T aspect, T zNear, T zFar) + { + assert(abs(aspect - std::numeric_limits::epsilon()) > static_cast(0)); + + T const tanHalfFovy = tan(fovy / static_cast(2)); + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = static_cast(1) / (aspect * tanHalfFovy); + Result[1][1] = static_cast(1) / (tanHalfFovy); + Result[2][2] = (zFar + zNear) / (zFar - zNear); + Result[2][3] = static_cast(1); + Result[3][2] = - (static_cast(2) * zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveZO(T fovy, T aspect, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return perspectiveLH_ZO(fovy, aspect, zNear, zFar); +# else + return perspectiveRH_ZO(fovy, aspect, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveNO(T fovy, T aspect, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return perspectiveLH_NO(fovy, aspect, zNear, zFar); +# else + return perspectiveRH_NO(fovy, aspect, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveLH(T fovy, T aspect, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return perspectiveLH_ZO(fovy, aspect, zNear, zFar); +# else + return perspectiveLH_NO(fovy, aspect, zNear, zFar); +# endif + + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveRH(T fovy, T aspect, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return perspectiveRH_ZO(fovy, aspect, zNear, zFar); +# else + return perspectiveRH_NO(fovy, aspect, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspective(T fovy, T aspect, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_ZO + return perspectiveLH_ZO(fovy, aspect, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_NO + return perspectiveLH_NO(fovy, aspect, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_ZO + return perspectiveRH_ZO(fovy, aspect, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_NO + return perspectiveRH_NO(fovy, aspect, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovRH_ZO(T fov, T width, T height, T zNear, T zFar) + { + assert(width > static_cast(0)); + assert(height > static_cast(0)); + assert(fov > static_cast(0)); + + T const rad = fov; + T const h = glm::cos(static_cast(0.5) * rad) / glm::sin(static_cast(0.5) * rad); + T const w = h * height / width; ///todo max(width , Height) / min(width , Height)? + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = w; + Result[1][1] = h; + Result[2][2] = zFar / (zNear - zFar); + Result[2][3] = - static_cast(1); + Result[3][2] = -(zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovRH_NO(T fov, T width, T height, T zNear, T zFar) + { + assert(width > static_cast(0)); + assert(height > static_cast(0)); + assert(fov > static_cast(0)); + + T const rad = fov; + T const h = glm::cos(static_cast(0.5) * rad) / glm::sin(static_cast(0.5) * rad); + T const w = h * height / width; ///todo max(width , Height) / min(width , Height)? + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = w; + Result[1][1] = h; + Result[2][2] = - (zFar + zNear) / (zFar - zNear); + Result[2][3] = - static_cast(1); + Result[3][2] = - (static_cast(2) * zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovLH_ZO(T fov, T width, T height, T zNear, T zFar) + { + assert(width > static_cast(0)); + assert(height > static_cast(0)); + assert(fov > static_cast(0)); + + T const rad = fov; + T const h = glm::cos(static_cast(0.5) * rad) / glm::sin(static_cast(0.5) * rad); + T const w = h * height / width; ///todo max(width , Height) / min(width , Height)? + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = w; + Result[1][1] = h; + Result[2][2] = zFar / (zFar - zNear); + Result[2][3] = static_cast(1); + Result[3][2] = -(zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovLH_NO(T fov, T width, T height, T zNear, T zFar) + { + assert(width > static_cast(0)); + assert(height > static_cast(0)); + assert(fov > static_cast(0)); + + T const rad = fov; + T const h = glm::cos(static_cast(0.5) * rad) / glm::sin(static_cast(0.5) * rad); + T const w = h * height / width; ///todo max(width , Height) / min(width , Height)? + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = w; + Result[1][1] = h; + Result[2][2] = (zFar + zNear) / (zFar - zNear); + Result[2][3] = static_cast(1); + Result[3][2] = - (static_cast(2) * zFar * zNear) / (zFar - zNear); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovZO(T fov, T width, T height, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return perspectiveFovLH_ZO(fov, width, height, zNear, zFar); +# else + return perspectiveFovRH_ZO(fov, width, height, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovNO(T fov, T width, T height, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return perspectiveFovLH_NO(fov, width, height, zNear, zFar); +# else + return perspectiveFovRH_NO(fov, width, height, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovLH(T fov, T width, T height, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return perspectiveFovLH_ZO(fov, width, height, zNear, zFar); +# else + return perspectiveFovLH_NO(fov, width, height, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFovRH(T fov, T width, T height, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return perspectiveFovRH_ZO(fov, width, height, zNear, zFar); +# else + return perspectiveFovRH_NO(fov, width, height, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> perspectiveFov(T fov, T width, T height, T zNear, T zFar) + { +# if GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_ZO + return perspectiveFovLH_ZO(fov, width, height, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_LH_NO + return perspectiveFovLH_NO(fov, width, height, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_ZO + return perspectiveFovRH_ZO(fov, width, height, zNear, zFar); +# elif GLM_CONFIG_CLIP_CONTROL == GLM_CLIP_CONTROL_RH_NO + return perspectiveFovRH_NO(fov, width, height, zNear, zFar); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> infinitePerspectiveRH(T fovy, T aspect, T zNear) + { + T const range = tan(fovy / static_cast(2)) * zNear; + T const left = -range * aspect; + T const right = range * aspect; + T const bottom = -range; + T const top = range; + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = (static_cast(2) * zNear) / (right - left); + Result[1][1] = (static_cast(2) * zNear) / (top - bottom); + Result[2][2] = - static_cast(1); + Result[2][3] = - static_cast(1); + Result[3][2] = - static_cast(2) * zNear; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> infinitePerspectiveLH(T fovy, T aspect, T zNear) + { + T const range = tan(fovy / static_cast(2)) * zNear; + T const left = -range * aspect; + T const right = range * aspect; + T const bottom = -range; + T const top = range; + + mat<4, 4, T, defaultp> Result(T(0)); + Result[0][0] = (static_cast(2) * zNear) / (right - left); + Result[1][1] = (static_cast(2) * zNear) / (top - bottom); + Result[2][2] = static_cast(1); + Result[2][3] = static_cast(1); + Result[3][2] = - static_cast(2) * zNear; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> infinitePerspective(T fovy, T aspect, T zNear) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return infinitePerspectiveLH(fovy, aspect, zNear); +# else + return infinitePerspectiveRH(fovy, aspect, zNear); +# endif + } + + // Infinite projection matrix: http://www.terathon.com/gdc07_lengyel.pdf + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> tweakedInfinitePerspective(T fovy, T aspect, T zNear, T ep) + { + T const range = tan(fovy / static_cast(2)) * zNear; + T const left = -range * aspect; + T const right = range * aspect; + T const bottom = -range; + T const top = range; + + mat<4, 4, T, defaultp> Result(static_cast(0)); + Result[0][0] = (static_cast(2) * zNear) / (right - left); + Result[1][1] = (static_cast(2) * zNear) / (top - bottom); + Result[2][2] = ep - static_cast(1); + Result[2][3] = static_cast(-1); + Result[3][2] = (ep - static_cast(2)) * zNear; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> tweakedInfinitePerspective(T fovy, T aspect, T zNear) + { + return tweakedInfinitePerspective(fovy, aspect, zNear, epsilon()); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_common.hpp b/Vulkan/ext/include/glm/ext/matrix_common.hpp new file mode 100644 index 0000000..05c3799 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_common.hpp @@ -0,0 +1,36 @@ +/// @ref ext_matrix_common +/// @file glm/ext/matrix_common.hpp +/// +/// @defgroup ext_matrix_common GLM_EXT_matrix_common +/// @ingroup ext +/// +/// Defines functions for common matrix operations. +/// +/// Include to use the features of this extension. +/// +/// @see ext_matrix_common + +#pragma once + +#include "../detail/qualifier.hpp" +#include "../detail/_fixes.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_transform extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_common + /// @{ + + template + GLM_FUNC_DECL mat mix(mat const& x, mat const& y, mat const& a); + + template + GLM_FUNC_DECL mat mix(mat const& x, mat const& y, U a); + + /// @} +}//namespace glm + +#include "matrix_common.inl" diff --git a/Vulkan/ext/include/glm/ext/matrix_common.inl b/Vulkan/ext/include/glm/ext/matrix_common.inl new file mode 100644 index 0000000..9d50848 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_common.inl @@ -0,0 +1,16 @@ +#include "../matrix.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat mix(mat const& x, mat const& y, U a) + { + return mat(x) * (static_cast(1) - a) + mat(y) * a; + } + + template + GLM_FUNC_QUALIFIER mat mix(mat const& x, mat const& y, mat const& a) + { + return matrixCompMult(mat(x), static_cast(1) - a) + matrixCompMult(mat(y), a); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double2x2.hpp b/Vulkan/ext/include/glm/ext/matrix_double2x2.hpp new file mode 100644 index 0000000..94dca54 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double2x2.hpp @@ -0,0 +1,23 @@ +/// @ref core +/// @file glm/ext/matrix_double2x2.hpp + +#pragma once +#include "../detail/type_mat2x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 2 columns of 2 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 2, double, defaultp> dmat2x2; + + /// 2 columns of 2 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 2, double, defaultp> dmat2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double2x2_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double2x2_precision.hpp new file mode 100644 index 0000000..9e2c174 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double2x2_precision.hpp @@ -0,0 +1,49 @@ +/// @ref core +/// @file glm/ext/matrix_double2x2_precision.hpp + +#pragma once +#include "../detail/type_mat2x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 2 columns of 2 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, double, lowp> lowp_dmat2; + + /// 2 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, double, mediump> mediump_dmat2; + + /// 2 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, double, highp> highp_dmat2; + + /// 2 columns of 2 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, double, lowp> lowp_dmat2x2; + + /// 2 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, double, mediump> mediump_dmat2x2; + + /// 2 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, double, highp> highp_dmat2x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double2x3.hpp b/Vulkan/ext/include/glm/ext/matrix_double2x3.hpp new file mode 100644 index 0000000..bfef87a --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double2x3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_double2x3.hpp + +#pragma once +#include "../detail/type_mat2x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 2 columns of 3 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 3, double, defaultp> dmat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double2x3_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double2x3_precision.hpp new file mode 100644 index 0000000..098fb60 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double2x3_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_double2x3_precision.hpp + +#pragma once +#include "../detail/type_mat2x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 2 columns of 3 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 3, double, lowp> lowp_dmat2x3; + + /// 2 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 3, double, mediump> mediump_dmat2x3; + + /// 2 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 3, double, highp> highp_dmat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double2x4.hpp b/Vulkan/ext/include/glm/ext/matrix_double2x4.hpp new file mode 100644 index 0000000..499284b --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double2x4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_double2x4.hpp + +#pragma once +#include "../detail/type_mat2x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 2 columns of 4 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 4, double, defaultp> dmat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double2x4_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double2x4_precision.hpp new file mode 100644 index 0000000..9b61ebc --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double2x4_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_double2x4_precision.hpp + +#pragma once +#include "../detail/type_mat2x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 2 columns of 4 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 4, double, lowp> lowp_dmat2x4; + + /// 2 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 4, double, mediump> mediump_dmat2x4; + + /// 2 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 4, double, highp> highp_dmat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double3x2.hpp b/Vulkan/ext/include/glm/ext/matrix_double3x2.hpp new file mode 100644 index 0000000..dd23f36 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double3x2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_double3x2.hpp + +#pragma once +#include "../detail/type_mat3x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 3 columns of 2 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 2, double, defaultp> dmat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double3x2_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double3x2_precision.hpp new file mode 100644 index 0000000..068d9e9 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double3x2_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_double3x2_precision.hpp + +#pragma once +#include "../detail/type_mat3x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 3 columns of 2 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 2, double, lowp> lowp_dmat3x2; + + /// 3 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 2, double, mediump> mediump_dmat3x2; + + /// 3 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 2, double, highp> highp_dmat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double3x3.hpp b/Vulkan/ext/include/glm/ext/matrix_double3x3.hpp new file mode 100644 index 0000000..53572b7 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double3x3.hpp @@ -0,0 +1,23 @@ +/// @ref core +/// @file glm/ext/matrix_double3x3.hpp + +#pragma once +#include "../detail/type_mat3x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 3 columns of 3 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 3, double, defaultp> dmat3x3; + + /// 3 columns of 3 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 3, double, defaultp> dmat3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double3x3_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double3x3_precision.hpp new file mode 100644 index 0000000..8691e78 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double3x3_precision.hpp @@ -0,0 +1,49 @@ +/// @ref core +/// @file glm/ext/matrix_double3x3_precision.hpp + +#pragma once +#include "../detail/type_mat3x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 3 columns of 3 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, double, lowp> lowp_dmat3; + + /// 3 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, double, mediump> mediump_dmat3; + + /// 3 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, double, highp> highp_dmat3; + + /// 3 columns of 3 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, double, lowp> lowp_dmat3x3; + + /// 3 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, double, mediump> mediump_dmat3x3; + + /// 3 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, double, highp> highp_dmat3x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double3x4.hpp b/Vulkan/ext/include/glm/ext/matrix_double3x4.hpp new file mode 100644 index 0000000..c572d63 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double3x4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_double3x4.hpp + +#pragma once +#include "../detail/type_mat3x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 3 columns of 4 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 4, double, defaultp> dmat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double3x4_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double3x4_precision.hpp new file mode 100644 index 0000000..f040217 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double3x4_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_double3x4_precision.hpp + +#pragma once +#include "../detail/type_mat3x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 3 columns of 4 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 4, double, lowp> lowp_dmat3x4; + + /// 3 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 4, double, mediump> mediump_dmat3x4; + + /// 3 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 4, double, highp> highp_dmat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double4x2.hpp b/Vulkan/ext/include/glm/ext/matrix_double4x2.hpp new file mode 100644 index 0000000..9b229f4 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double4x2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_double4x2.hpp + +#pragma once +#include "../detail/type_mat4x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 4 columns of 2 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 2, double, defaultp> dmat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double4x2_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double4x2_precision.hpp new file mode 100644 index 0000000..6ad18ba --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double4x2_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_double4x2_precision.hpp + +#pragma once +#include "../detail/type_mat4x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 4 columns of 2 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 2, double, lowp> lowp_dmat4x2; + + /// 4 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 2, double, mediump> mediump_dmat4x2; + + /// 4 columns of 2 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 2, double, highp> highp_dmat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double4x3.hpp b/Vulkan/ext/include/glm/ext/matrix_double4x3.hpp new file mode 100644 index 0000000..dca4cf9 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double4x3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_double4x3.hpp + +#pragma once +#include "../detail/type_mat4x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 4 columns of 3 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 3, double, defaultp> dmat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double4x3_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double4x3_precision.hpp new file mode 100644 index 0000000..f7371de --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double4x3_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_double4x3_precision.hpp + +#pragma once +#include "../detail/type_mat4x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 4 columns of 3 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 3, double, lowp> lowp_dmat4x3; + + /// 4 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 3, double, mediump> mediump_dmat4x3; + + /// 4 columns of 3 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 3, double, highp> highp_dmat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double4x4.hpp b/Vulkan/ext/include/glm/ext/matrix_double4x4.hpp new file mode 100644 index 0000000..81e1bf6 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double4x4.hpp @@ -0,0 +1,23 @@ +/// @ref core +/// @file glm/ext/matrix_double4x4.hpp + +#pragma once +#include "../detail/type_mat4x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 4 columns of 4 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 4, double, defaultp> dmat4x4; + + /// 4 columns of 4 components matrix of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 4, double, defaultp> dmat4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_double4x4_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_double4x4_precision.hpp new file mode 100644 index 0000000..4c36a84 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_double4x4_precision.hpp @@ -0,0 +1,49 @@ +/// @ref core +/// @file glm/ext/matrix_double4x4_precision.hpp + +#pragma once +#include "../detail/type_mat4x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 4 columns of 4 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, double, lowp> lowp_dmat4; + + /// 4 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, double, mediump> mediump_dmat4; + + /// 4 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, double, highp> highp_dmat4; + + /// 4 columns of 4 components matrix of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, double, lowp> lowp_dmat4x4; + + /// 4 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, double, mediump> mediump_dmat4x4; + + /// 4 columns of 4 components matrix of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, double, highp> highp_dmat4x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float2x2.hpp b/Vulkan/ext/include/glm/ext/matrix_float2x2.hpp new file mode 100644 index 0000000..53df921 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float2x2.hpp @@ -0,0 +1,23 @@ +/// @ref core +/// @file glm/ext/matrix_float2x2.hpp + +#pragma once +#include "../detail/type_mat2x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 2 columns of 2 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 2, float, defaultp> mat2x2; + + /// 2 columns of 2 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 2, float, defaultp> mat2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float2x2_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float2x2_precision.hpp new file mode 100644 index 0000000..898b6db --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float2x2_precision.hpp @@ -0,0 +1,49 @@ +/// @ref core +/// @file glm/ext/matrix_float2x2_precision.hpp + +#pragma once +#include "../detail/type_mat2x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 2 columns of 2 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, float, lowp> lowp_mat2; + + /// 2 columns of 2 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, float, mediump> mediump_mat2; + + /// 2 columns of 2 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, float, highp> highp_mat2; + + /// 2 columns of 2 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, float, lowp> lowp_mat2x2; + + /// 2 columns of 2 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, float, mediump> mediump_mat2x2; + + /// 2 columns of 2 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 2, float, highp> highp_mat2x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float2x3.hpp b/Vulkan/ext/include/glm/ext/matrix_float2x3.hpp new file mode 100644 index 0000000..6f68822 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float2x3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_float2x3.hpp + +#pragma once +#include "../detail/type_mat2x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 2 columns of 3 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 3, float, defaultp> mat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float2x3_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float2x3_precision.hpp new file mode 100644 index 0000000..50c1032 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float2x3_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_float2x3_precision.hpp + +#pragma once +#include "../detail/type_mat2x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 2 columns of 3 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 3, float, lowp> lowp_mat2x3; + + /// 2 columns of 3 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 3, float, mediump> mediump_mat2x3; + + /// 2 columns of 3 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 3, float, highp> highp_mat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float2x4.hpp b/Vulkan/ext/include/glm/ext/matrix_float2x4.hpp new file mode 100644 index 0000000..30f30de --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float2x4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_float2x4.hpp + +#pragma once +#include "../detail/type_mat2x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 2 columns of 4 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<2, 4, float, defaultp> mat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float2x4_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float2x4_precision.hpp new file mode 100644 index 0000000..079d638 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float2x4_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_float2x4_precision.hpp + +#pragma once +#include "../detail/type_mat2x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 2 columns of 4 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 4, float, lowp> lowp_mat2x4; + + /// 2 columns of 4 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 4, float, mediump> mediump_mat2x4; + + /// 2 columns of 4 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<2, 4, float, highp> highp_mat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float3x2.hpp b/Vulkan/ext/include/glm/ext/matrix_float3x2.hpp new file mode 100644 index 0000000..d39dd2f --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float3x2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_float3x2.hpp + +#pragma once +#include "../detail/type_mat3x2.hpp" + +namespace glm +{ + /// @addtogroup core + /// @{ + + /// 3 columns of 2 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 2, float, defaultp> mat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float3x2_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float3x2_precision.hpp new file mode 100644 index 0000000..8572c2a --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float3x2_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_float3x2_precision.hpp + +#pragma once +#include "../detail/type_mat3x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 3 columns of 2 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 2, float, lowp> lowp_mat3x2; + + /// 3 columns of 2 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 2, float, mediump> mediump_mat3x2; + + /// 3 columns of 2 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 2, float, highp> highp_mat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float3x3.hpp b/Vulkan/ext/include/glm/ext/matrix_float3x3.hpp new file mode 100644 index 0000000..177d809 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float3x3.hpp @@ -0,0 +1,23 @@ +/// @ref core +/// @file glm/ext/matrix_float3x3.hpp + +#pragma once +#include "../detail/type_mat3x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 3 columns of 3 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 3, float, defaultp> mat3x3; + + /// 3 columns of 3 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 3, float, defaultp> mat3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float3x3_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float3x3_precision.hpp new file mode 100644 index 0000000..8a900c1 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float3x3_precision.hpp @@ -0,0 +1,49 @@ +/// @ref core +/// @file glm/ext/matrix_float3x3_precision.hpp + +#pragma once +#include "../detail/type_mat3x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 3 columns of 3 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, float, lowp> lowp_mat3; + + /// 3 columns of 3 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, float, mediump> mediump_mat3; + + /// 3 columns of 3 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, float, highp> highp_mat3; + + /// 3 columns of 3 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, float, lowp> lowp_mat3x3; + + /// 3 columns of 3 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, float, mediump> mediump_mat3x3; + + /// 3 columns of 3 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 3, float, highp> highp_mat3x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float3x4.hpp b/Vulkan/ext/include/glm/ext/matrix_float3x4.hpp new file mode 100644 index 0000000..64b8459 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float3x4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_float3x4.hpp + +#pragma once +#include "../detail/type_mat3x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 3 columns of 4 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<3, 4, float, defaultp> mat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float3x4_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float3x4_precision.hpp new file mode 100644 index 0000000..bc36bf1 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float3x4_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_float3x4_precision.hpp + +#pragma once +#include "../detail/type_mat3x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 3 columns of 4 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 4, float, lowp> lowp_mat3x4; + + /// 3 columns of 4 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 4, float, mediump> mediump_mat3x4; + + /// 3 columns of 4 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<3, 4, float, highp> highp_mat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float4x2.hpp b/Vulkan/ext/include/glm/ext/matrix_float4x2.hpp new file mode 100644 index 0000000..1ed5227 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float4x2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_float4x2.hpp + +#pragma once +#include "../detail/type_mat4x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 4 columns of 2 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 2, float, defaultp> mat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float4x2_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float4x2_precision.hpp new file mode 100644 index 0000000..88fd069 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float4x2_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_float2x2_precision.hpp + +#pragma once +#include "../detail/type_mat2x2.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 4 columns of 2 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 2, float, lowp> lowp_mat4x2; + + /// 4 columns of 2 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 2, float, mediump> mediump_mat4x2; + + /// 4 columns of 2 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 2, float, highp> highp_mat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float4x3.hpp b/Vulkan/ext/include/glm/ext/matrix_float4x3.hpp new file mode 100644 index 0000000..5dbe765 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float4x3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/matrix_float4x3.hpp + +#pragma once +#include "../detail/type_mat4x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix + /// @{ + + /// 4 columns of 3 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 3, float, defaultp> mat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float4x3_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float4x3_precision.hpp new file mode 100644 index 0000000..846ed4f --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float4x3_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/matrix_float4x3_precision.hpp + +#pragma once +#include "../detail/type_mat4x3.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 4 columns of 3 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 3, float, lowp> lowp_mat4x3; + + /// 4 columns of 3 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 3, float, mediump> mediump_mat4x3; + + /// 4 columns of 3 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 3, float, highp> highp_mat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float4x4.hpp b/Vulkan/ext/include/glm/ext/matrix_float4x4.hpp new file mode 100644 index 0000000..5ba111d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float4x4.hpp @@ -0,0 +1,23 @@ +/// @ref core +/// @file glm/ext/matrix_float4x4.hpp + +#pragma once +#include "../detail/type_mat4x4.hpp" + +namespace glm +{ + /// @ingroup core_matrix + /// @{ + + /// 4 columns of 4 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 4, float, defaultp> mat4x4; + + /// 4 columns of 4 components matrix of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + typedef mat<4, 4, float, defaultp> mat4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_float4x4_precision.hpp b/Vulkan/ext/include/glm/ext/matrix_float4x4_precision.hpp new file mode 100644 index 0000000..597149b --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_float4x4_precision.hpp @@ -0,0 +1,49 @@ +/// @ref core +/// @file glm/ext/matrix_float4x4_precision.hpp + +#pragma once +#include "../detail/type_mat4x4.hpp" + +namespace glm +{ + /// @addtogroup core_matrix_precision + /// @{ + + /// 4 columns of 4 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, float, lowp> lowp_mat4; + + /// 4 columns of 4 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, float, mediump> mediump_mat4; + + /// 4 columns of 4 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, float, highp> highp_mat4; + + /// 4 columns of 4 components matrix of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, float, lowp> lowp_mat4x4; + + /// 4 columns of 4 components matrix of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, float, mediump> mediump_mat4x4; + + /// 4 columns of 4 components matrix of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see GLSL 4.20.8 specification, section 4.1.6 Matrices + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef mat<4, 4, float, highp> highp_mat4x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int2x2.hpp b/Vulkan/ext/include/glm/ext/matrix_int2x2.hpp new file mode 100644 index 0000000..c6aa068 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int2x2.hpp @@ -0,0 +1,38 @@ +/// @ref ext_matrix_int2x2 +/// @file glm/ext/matrix_int2x2.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int2x2 GLM_EXT_matrix_int2x2 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int2x2 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int2x2 + /// @{ + + /// Signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2 + typedef mat<2, 2, int, defaultp> imat2x2; + + /// Signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2 + typedef mat<2, 2, int, defaultp> imat2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int2x2_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int2x2_sized.hpp new file mode 100644 index 0000000..70c0c21 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int2x2_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_matrix_int2x2_sized +/// @file glm/ext/matrix_int2x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int2x2_sized GLM_EXT_matrix_int2x2_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x2.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int2x2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int2x2_sized + /// @{ + + /// 8 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int8, defaultp> i8mat2x2; + + /// 16 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int16, defaultp> i16mat2x2; + + /// 32 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int32, defaultp> i32mat2x2; + + /// 64 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int64, defaultp> i64mat2x2; + + + /// 8 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int8, defaultp> i8mat2; + + /// 16 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int16, defaultp> i16mat2; + + /// 32 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int32, defaultp> i32mat2; + + /// 64 bit signed integer 2x2 matrix. + /// + /// @see ext_matrix_int2x2_sized + typedef mat<2, 2, int64, defaultp> i64mat2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int2x3.hpp b/Vulkan/ext/include/glm/ext/matrix_int2x3.hpp new file mode 100644 index 0000000..aee415c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int2x3.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_int2x3 +/// @file glm/ext/matrix_int2x3.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int2x3 GLM_EXT_matrix_int2x3 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x3.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int2x3 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int2x3 + /// @{ + + /// Signed integer 2x3 matrix. + /// + /// @see ext_matrix_int2x3 + typedef mat<2, 3, int, defaultp> imat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int2x3_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int2x3_sized.hpp new file mode 100644 index 0000000..b5526fe --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int2x3_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_int2x3_sized +/// @file glm/ext/matrix_int2x3_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int2x3_sized GLM_EXT_matrix_int2x3_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x3.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int2x3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int2x3_sized + /// @{ + + /// 8 bit signed integer 2x3 matrix. + /// + /// @see ext_matrix_int2x3_sized + typedef mat<2, 3, int8, defaultp> i8mat2x3; + + /// 16 bit signed integer 2x3 matrix. + /// + /// @see ext_matrix_int2x3_sized + typedef mat<2, 3, int16, defaultp> i16mat2x3; + + /// 32 bit signed integer 2x3 matrix. + /// + /// @see ext_matrix_int2x3_sized + typedef mat<2, 3, int32, defaultp> i32mat2x3; + + /// 64 bit signed integer 2x3 matrix. + /// + /// @see ext_matrix_int2x3_sized + typedef mat<2, 3, int64, defaultp> i64mat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int2x4.hpp b/Vulkan/ext/include/glm/ext/matrix_int2x4.hpp new file mode 100644 index 0000000..4f36331 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int2x4.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_int2x4 +/// @file glm/ext/matrix_int2x4.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int2x4 GLM_EXT_matrix_int2x4 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int2x4 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int2x4 + /// @{ + + /// Signed integer 2x4 matrix. + /// + /// @see ext_matrix_int2x4 + typedef mat<2, 4, int, defaultp> imat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int2x4_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int2x4_sized.hpp new file mode 100644 index 0000000..a66a5e7 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int2x4_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_int2x4_sized +/// @file glm/ext/matrix_int2x4_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int2x4_sized GLM_EXT_matrix_int2x4_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x4.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int2x4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int2x4_sized + /// @{ + + /// 8 bit signed integer 2x4 matrix. + /// + /// @see ext_matrix_int2x4_sized + typedef mat<2, 4, int8, defaultp> i8mat2x4; + + /// 16 bit signed integer 2x4 matrix. + /// + /// @see ext_matrix_int2x4_sized + typedef mat<2, 4, int16, defaultp> i16mat2x4; + + /// 32 bit signed integer 2x4 matrix. + /// + /// @see ext_matrix_int2x4_sized + typedef mat<2, 4, int32, defaultp> i32mat2x4; + + /// 64 bit signed integer 2x4 matrix. + /// + /// @see ext_matrix_int2x4_sized + typedef mat<2, 4, int64, defaultp> i64mat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int3x2.hpp b/Vulkan/ext/include/glm/ext/matrix_int3x2.hpp new file mode 100644 index 0000000..3bd563b --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int3x2.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_int3x2 +/// @file glm/ext/matrix_int3x2.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int3x2 GLM_EXT_matrix_int3x2 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int3x2 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int3x2 + /// @{ + + /// Signed integer 3x2 matrix. + /// + /// @see ext_matrix_int3x2 + typedef mat<3, 2, int, defaultp> imat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int3x2_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int3x2_sized.hpp new file mode 100644 index 0000000..7e34c52 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int3x2_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_int3x2_sized +/// @file glm/ext/matrix_int3x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int3x2_sized GLM_EXT_matrix_int3x2_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x2.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int3x2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int3x2_sized + /// @{ + + /// 8 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_int3x2_sized + typedef mat<3, 2, int8, defaultp> i8mat3x2; + + /// 16 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_int3x2_sized + typedef mat<3, 2, int16, defaultp> i16mat3x2; + + /// 32 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_int3x2_sized + typedef mat<3, 2, int32, defaultp> i32mat3x2; + + /// 64 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_int3x2_sized + typedef mat<3, 2, int64, defaultp> i64mat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int3x3.hpp b/Vulkan/ext/include/glm/ext/matrix_int3x3.hpp new file mode 100644 index 0000000..287488d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int3x3.hpp @@ -0,0 +1,38 @@ +/// @ref ext_matrix_int3x3 +/// @file glm/ext/matrix_int3x3.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int3x3 GLM_EXT_matrix_int3x3 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x3.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int3x3 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int3x3 + /// @{ + + /// Signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3 + typedef mat<3, 3, int, defaultp> imat3x3; + + /// Signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3 + typedef mat<3, 3, int, defaultp> imat3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int3x3_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int3x3_sized.hpp new file mode 100644 index 0000000..577e305 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int3x3_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_matrix_int3x3_sized +/// @file glm/ext/matrix_int3x3_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int3x3_sized GLM_EXT_matrix_int3x3_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x3.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int3x3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int3x3_sized + /// @{ + + /// 8 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int8, defaultp> i8mat3x3; + + /// 16 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int16, defaultp> i16mat3x3; + + /// 32 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int32, defaultp> i32mat3x3; + + /// 64 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int64, defaultp> i64mat3x3; + + + /// 8 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int8, defaultp> i8mat3; + + /// 16 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int16, defaultp> i16mat3; + + /// 32 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int32, defaultp> i32mat3; + + /// 64 bit signed integer 3x3 matrix. + /// + /// @see ext_matrix_int3x3_sized + typedef mat<3, 3, int64, defaultp> i64mat3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int3x4.hpp b/Vulkan/ext/include/glm/ext/matrix_int3x4.hpp new file mode 100644 index 0000000..08e534d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int3x4.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_int3x4 +/// @file glm/ext/matrix_int3x4.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int3x4 GLM_EXT_matrix_int3x4 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int3x4 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int3x4 + /// @{ + + /// Signed integer 3x4 matrix. + /// + /// @see ext_matrix_int3x4 + typedef mat<3, 4, int, defaultp> imat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int3x4_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int3x4_sized.hpp new file mode 100644 index 0000000..692c48c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int3x4_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_int3x4_sized +/// @file glm/ext/matrix_int3x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int3x4_sized GLM_EXT_matrix_int3x4_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x4.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int3x4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int3x4_sized + /// @{ + + /// 8 bit signed integer 3x4 matrix. + /// + /// @see ext_matrix_int3x4_sized + typedef mat<3, 4, int8, defaultp> i8mat3x4; + + /// 16 bit signed integer 3x4 matrix. + /// + /// @see ext_matrix_int3x4_sized + typedef mat<3, 4, int16, defaultp> i16mat3x4; + + /// 32 bit signed integer 3x4 matrix. + /// + /// @see ext_matrix_int3x4_sized + typedef mat<3, 4, int32, defaultp> i32mat3x4; + + /// 64 bit signed integer 3x4 matrix. + /// + /// @see ext_matrix_int3x4_sized + typedef mat<3, 4, int64, defaultp> i64mat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int4x2.hpp b/Vulkan/ext/include/glm/ext/matrix_int4x2.hpp new file mode 100644 index 0000000..f756ef2 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int4x2.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_int4x2 +/// @file glm/ext/matrix_int4x2.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int4x2 GLM_EXT_matrix_int4x2 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int4x2 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int4x2 + /// @{ + + /// Signed integer 4x2 matrix. + /// + /// @see ext_matrix_int4x2 + typedef mat<4, 2, int, defaultp> imat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int4x2_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int4x2_sized.hpp new file mode 100644 index 0000000..63a99d6 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int4x2_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_int4x2_sized +/// @file glm/ext/matrix_int4x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int4x2_sized GLM_EXT_matrix_int4x2_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x2.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int4x2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int4x2_sized + /// @{ + + /// 8 bit signed integer 4x2 matrix. + /// + /// @see ext_matrix_int4x2_sized + typedef mat<4, 2, int8, defaultp> i8mat4x2; + + /// 16 bit signed integer 4x2 matrix. + /// + /// @see ext_matrix_int4x2_sized + typedef mat<4, 2, int16, defaultp> i16mat4x2; + + /// 32 bit signed integer 4x2 matrix. + /// + /// @see ext_matrix_int4x2_sized + typedef mat<4, 2, int32, defaultp> i32mat4x2; + + /// 64 bit signed integer 4x2 matrix. + /// + /// @see ext_matrix_int4x2_sized + typedef mat<4, 2, int64, defaultp> i64mat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int4x3.hpp b/Vulkan/ext/include/glm/ext/matrix_int4x3.hpp new file mode 100644 index 0000000..d5d97a7 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int4x3.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_int4x3 +/// @file glm/ext/matrix_int4x3.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int4x3 GLM_EXT_matrix_int4x3 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x3.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int4x3 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int4x3 + /// @{ + + /// Signed integer 4x3 matrix. + /// + /// @see ext_matrix_int4x3 + typedef mat<4, 3, int, defaultp> imat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int4x3_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int4x3_sized.hpp new file mode 100644 index 0000000..55078fa --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int4x3_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_int4x3_sized +/// @file glm/ext/matrix_int4x3_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int4x3_sized GLM_EXT_matrix_int4x3_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x3.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int4x3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int4x3_sized + /// @{ + + /// 8 bit signed integer 4x3 matrix. + /// + /// @see ext_matrix_int4x3_sized + typedef mat<4, 3, int8, defaultp> i8mat4x3; + + /// 16 bit signed integer 4x3 matrix. + /// + /// @see ext_matrix_int4x3_sized + typedef mat<4, 3, int16, defaultp> i16mat4x3; + + /// 32 bit signed integer 4x3 matrix. + /// + /// @see ext_matrix_int4x3_sized + typedef mat<4, 3, int32, defaultp> i32mat4x3; + + /// 64 bit signed integer 4x3 matrix. + /// + /// @see ext_matrix_int4x3_sized + typedef mat<4, 3, int64, defaultp> i64mat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int4x4.hpp b/Vulkan/ext/include/glm/ext/matrix_int4x4.hpp new file mode 100644 index 0000000..e17cff1 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int4x4.hpp @@ -0,0 +1,38 @@ +/// @ref ext_matrix_int4x4 +/// @file glm/ext/matrix_int4x4.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int4x4 GLM_EXT_matrix_int4x4 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int4x4 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int4x4 + /// @{ + + /// Signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4 + typedef mat<4, 4, int, defaultp> imat4x4; + + /// Signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4 + typedef mat<4, 4, int, defaultp> imat4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_int4x4_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_int4x4_sized.hpp new file mode 100644 index 0000000..4a11203 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_int4x4_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_matrix_int4x4_sized +/// @file glm/ext/matrix_int4x4_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int4x4_sized GLM_EXT_matrix_int4x4_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x4.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_int4x4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_int4x4_sized + /// @{ + + /// 8 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int8, defaultp> i8mat4x4; + + /// 16 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int16, defaultp> i16mat4x4; + + /// 32 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int32, defaultp> i32mat4x4; + + /// 64 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int64, defaultp> i64mat4x4; + + + /// 8 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int8, defaultp> i8mat4; + + /// 16 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int16, defaultp> i16mat4; + + /// 32 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int32, defaultp> i32mat4; + + /// 64 bit signed integer 4x4 matrix. + /// + /// @see ext_matrix_int4x4_sized + typedef mat<4, 4, int64, defaultp> i64mat4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_projection.hpp b/Vulkan/ext/include/glm/ext/matrix_projection.hpp new file mode 100644 index 0000000..51fd01b --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_projection.hpp @@ -0,0 +1,149 @@ +/// @ref ext_matrix_projection +/// @file glm/ext/matrix_projection.hpp +/// +/// @defgroup ext_matrix_projection GLM_EXT_matrix_projection +/// @ingroup ext +/// +/// Functions that generate common projection transformation matrices. +/// +/// The matrices generated by this extension use standard OpenGL fixed-function +/// conventions. For example, the lookAt function generates a transform from world +/// space into the specific eye space that the projective matrix functions +/// (perspective, ortho, etc) are designed to expect. The OpenGL compatibility +/// specifications defines the particular layout of this eye space. +/// +/// Include to use the features of this extension. +/// +/// @see ext_matrix_transform +/// @see ext_matrix_clip_space + +#pragma once + +// Dependencies +#include "../gtc/constants.hpp" +#include "../geometric.hpp" +#include "../trigonometric.hpp" +#include "../matrix.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_projection extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_projection + /// @{ + + /// Map the specified object coordinates (obj.x, obj.y, obj.z) into window coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param obj Specify the object coordinates. + /// @param model Specifies the current modelview matrix + /// @param proj Specifies the current projection matrix + /// @param viewport Specifies the current viewport + /// @return Return the computed window coordinates. + /// @tparam T Native type used for the computation. Currently supported: half (not recommended), float or double. + /// @tparam U Currently supported: Floating-point types and integer types. + /// + /// @see gluProject man page + template + GLM_FUNC_DECL vec<3, T, Q> projectZO( + vec<3, T, Q> const& obj, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport); + + /// Map the specified object coordinates (obj.x, obj.y, obj.z) into window coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param obj Specify the object coordinates. + /// @param model Specifies the current modelview matrix + /// @param proj Specifies the current projection matrix + /// @param viewport Specifies the current viewport + /// @return Return the computed window coordinates. + /// @tparam T Native type used for the computation. Currently supported: half (not recommended), float or double. + /// @tparam U Currently supported: Floating-point types and integer types. + /// + /// @see gluProject man page + template + GLM_FUNC_DECL vec<3, T, Q> projectNO( + vec<3, T, Q> const& obj, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport); + + /// Map the specified object coordinates (obj.x, obj.y, obj.z) into window coordinates using default near and far clip planes definition. + /// To change default near and far clip planes definition use GLM_FORCE_DEPTH_ZERO_TO_ONE. + /// + /// @param obj Specify the object coordinates. + /// @param model Specifies the current modelview matrix + /// @param proj Specifies the current projection matrix + /// @param viewport Specifies the current viewport + /// @return Return the computed window coordinates. + /// @tparam T Native type used for the computation. Currently supported: half (not recommended), float or double. + /// @tparam U Currently supported: Floating-point types and integer types. + /// + /// @see gluProject man page + template + GLM_FUNC_DECL vec<3, T, Q> project( + vec<3, T, Q> const& obj, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport); + + /// Map the specified window coordinates (win.x, win.y, win.z) into object coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of 0 and +1 respectively. (Direct3D clip volume definition) + /// + /// @param win Specify the window coordinates to be mapped. + /// @param model Specifies the modelview matrix + /// @param proj Specifies the projection matrix + /// @param viewport Specifies the viewport + /// @return Returns the computed object coordinates. + /// @tparam T Native type used for the computation. Currently supported: half (not recommended), float or double. + /// @tparam U Currently supported: Floating-point types and integer types. + /// + /// @see gluUnProject man page + template + GLM_FUNC_DECL vec<3, T, Q> unProjectZO( + vec<3, T, Q> const& win, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport); + + /// Map the specified window coordinates (win.x, win.y, win.z) into object coordinates. + /// The near and far clip planes correspond to z normalized device coordinates of -1 and +1 respectively. (OpenGL clip volume definition) + /// + /// @param win Specify the window coordinates to be mapped. + /// @param model Specifies the modelview matrix + /// @param proj Specifies the projection matrix + /// @param viewport Specifies the viewport + /// @return Returns the computed object coordinates. + /// @tparam T Native type used for the computation. Currently supported: half (not recommended), float or double. + /// @tparam U Currently supported: Floating-point types and integer types. + /// + /// @see gluUnProject man page + template + GLM_FUNC_DECL vec<3, T, Q> unProjectNO( + vec<3, T, Q> const& win, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport); + + /// Map the specified window coordinates (win.x, win.y, win.z) into object coordinates using default near and far clip planes definition. + /// To change default near and far clip planes definition use GLM_FORCE_DEPTH_ZERO_TO_ONE. + /// + /// @param win Specify the window coordinates to be mapped. + /// @param model Specifies the modelview matrix + /// @param proj Specifies the projection matrix + /// @param viewport Specifies the viewport + /// @return Returns the computed object coordinates. + /// @tparam T Native type used for the computation. Currently supported: half (not recommended), float or double. + /// @tparam U Currently supported: Floating-point types and integer types. + /// + /// @see gluUnProject man page + template + GLM_FUNC_DECL vec<3, T, Q> unProject( + vec<3, T, Q> const& win, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport); + + /// Define a picking region + /// + /// @param center Specify the center of a picking region in window coordinates. + /// @param delta Specify the width and height, respectively, of the picking region in window coordinates. + /// @param viewport Rendering viewport + /// @tparam T Native type used for the computation. Currently supported: half (not recommended), float or double. + /// @tparam U Currently supported: Floating-point types and integer types. + /// + /// @see gluPickMatrix man page + template + GLM_FUNC_DECL mat<4, 4, T, Q> pickMatrix( + vec<2, T, Q> const& center, vec<2, T, Q> const& delta, vec<4, U, Q> const& viewport); + + /// @} +}//namespace glm + +#include "matrix_projection.inl" diff --git a/Vulkan/ext/include/glm/ext/matrix_projection.inl b/Vulkan/ext/include/glm/ext/matrix_projection.inl new file mode 100644 index 0000000..2f2c196 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_projection.inl @@ -0,0 +1,106 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> projectZO(vec<3, T, Q> const& obj, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport) + { + vec<4, T, Q> tmp = vec<4, T, Q>(obj, static_cast(1)); + tmp = model * tmp; + tmp = proj * tmp; + + tmp /= tmp.w; + tmp.x = tmp.x * static_cast(0.5) + static_cast(0.5); + tmp.y = tmp.y * static_cast(0.5) + static_cast(0.5); + + tmp[0] = tmp[0] * T(viewport[2]) + T(viewport[0]); + tmp[1] = tmp[1] * T(viewport[3]) + T(viewport[1]); + + return vec<3, T, Q>(tmp); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> projectNO(vec<3, T, Q> const& obj, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport) + { + vec<4, T, Q> tmp = vec<4, T, Q>(obj, static_cast(1)); + tmp = model * tmp; + tmp = proj * tmp; + + tmp /= tmp.w; + tmp = tmp * static_cast(0.5) + static_cast(0.5); + tmp[0] = tmp[0] * T(viewport[2]) + T(viewport[0]); + tmp[1] = tmp[1] * T(viewport[3]) + T(viewport[1]); + + return vec<3, T, Q>(tmp); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> project(vec<3, T, Q> const& obj, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return projectZO(obj, model, proj, viewport); +# else + return projectNO(obj, model, proj, viewport); +# endif + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> unProjectZO(vec<3, T, Q> const& win, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport) + { + mat<4, 4, T, Q> Inverse = inverse(proj * model); + + vec<4, T, Q> tmp = vec<4, T, Q>(win, T(1)); + tmp.x = (tmp.x - T(viewport[0])) / T(viewport[2]); + tmp.y = (tmp.y - T(viewport[1])) / T(viewport[3]); + tmp.x = tmp.x * static_cast(2) - static_cast(1); + tmp.y = tmp.y * static_cast(2) - static_cast(1); + + vec<4, T, Q> obj = Inverse * tmp; + obj /= obj.w; + + return vec<3, T, Q>(obj); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> unProjectNO(vec<3, T, Q> const& win, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport) + { + mat<4, 4, T, Q> Inverse = inverse(proj * model); + + vec<4, T, Q> tmp = vec<4, T, Q>(win, T(1)); + tmp.x = (tmp.x - T(viewport[0])) / T(viewport[2]); + tmp.y = (tmp.y - T(viewport[1])) / T(viewport[3]); + tmp = tmp * static_cast(2) - static_cast(1); + + vec<4, T, Q> obj = Inverse * tmp; + obj /= obj.w; + + return vec<3, T, Q>(obj); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> unProject(vec<3, T, Q> const& win, mat<4, 4, T, Q> const& model, mat<4, 4, T, Q> const& proj, vec<4, U, Q> const& viewport) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_ZO_BIT + return unProjectZO(win, model, proj, viewport); +# else + return unProjectNO(win, model, proj, viewport); +# endif + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> pickMatrix(vec<2, T, Q> const& center, vec<2, T, Q> const& delta, vec<4, U, Q> const& viewport) + { + assert(delta.x > static_cast(0) && delta.y > static_cast(0)); + mat<4, 4, T, Q> Result(static_cast(1)); + + if(!(delta.x > static_cast(0) && delta.y > static_cast(0))) + return Result; // Error + + vec<3, T, Q> Temp( + (static_cast(viewport[2]) - static_cast(2) * (center.x - static_cast(viewport[0]))) / delta.x, + (static_cast(viewport[3]) - static_cast(2) * (center.y - static_cast(viewport[1]))) / delta.y, + static_cast(0)); + + // Translate and scale the picked region to the entire window + Result = translate(Result, Temp); + return scale(Result, vec<3, T, Q>(static_cast(viewport[2]) / delta.x, static_cast(viewport[3]) / delta.y, static_cast(1))); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_relational.hpp b/Vulkan/ext/include/glm/ext/matrix_relational.hpp new file mode 100644 index 0000000..20023ad --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_relational.hpp @@ -0,0 +1,132 @@ +/// @ref ext_matrix_relational +/// @file glm/ext/matrix_relational.hpp +/// +/// @defgroup ext_matrix_relational GLM_EXT_matrix_relational +/// @ingroup ext +/// +/// Exposes comparison functions for matrix types that take a user defined epsilon values. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_relational +/// @see ext_scalar_relational +/// @see ext_quaternion_relational + +#pragma once + +// Dependencies +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_relational extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_relational + /// @{ + + /// Perform a component-wise equal-to comparison of two matrices. + /// Return a boolean vector which components value is True if this expression is satisfied per column of the matrices. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(mat const& x, mat const& y); + + /// Perform a component-wise not-equal-to comparison of two matrices. + /// Return a boolean vector which components value is True if this expression is satisfied per column of the matrices. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y); + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(mat const& x, mat const& y, T epsilon); + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(mat const& x, mat const& y, vec const& epsilon); + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is not satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y, T epsilon); + + /// Returns the component-wise comparison of |x - y| >= epsilon. + /// True if this expression is not satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y, vec const& epsilon); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(mat const& x, mat const& y, int ULPs); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(mat const& x, mat const& y, vec const& ULPs); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is not satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y, int ULPs); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is not satisfied. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number of columns of the matrix + /// @tparam R Integer between 1 and 4 included that qualify the number of rows of the matrix + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y, vec const& ULPs); + + /// @} +}//namespace glm + +#include "matrix_relational.inl" diff --git a/Vulkan/ext/include/glm/ext/matrix_relational.inl b/Vulkan/ext/include/glm/ext/matrix_relational.inl new file mode 100644 index 0000000..b2b8753 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_relational.inl @@ -0,0 +1,82 @@ +/// @ref ext_vector_relational +/// @file glm/ext/vector_relational.inl + +// Dependency: +#include "../ext/vector_relational.hpp" +#include "../common.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(mat const& a, mat const& b) + { + return equal(a, b, static_cast(0)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(mat const& a, mat const& b, T Epsilon) + { + return equal(a, b, vec(Epsilon)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(mat const& a, mat const& b, vec const& Epsilon) + { + vec Result(true); + for(length_t i = 0; i < C; ++i) + Result[i] = all(equal(a[i], b[i], Epsilon[i])); + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y) + { + return notEqual(x, y, static_cast(0)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y, T Epsilon) + { + return notEqual(x, y, vec(Epsilon)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(mat const& a, mat const& b, vec const& Epsilon) + { + vec Result(true); + for(length_t i = 0; i < C; ++i) + Result[i] = any(notEqual(a[i], b[i], Epsilon[i])); + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(mat const& a, mat const& b, int MaxULPs) + { + return equal(a, b, vec(MaxULPs)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(mat const& a, mat const& b, vec const& MaxULPs) + { + vec Result(true); + for(length_t i = 0; i < C; ++i) + Result[i] = all(equal(a[i], b[i], MaxULPs[i])); + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(mat const& x, mat const& y, int MaxULPs) + { + return notEqual(x, y, vec(MaxULPs)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(mat const& a, mat const& b, vec const& MaxULPs) + { + vec Result(true); + for(length_t i = 0; i < C; ++i) + Result[i] = any(notEqual(a[i], b[i], MaxULPs[i])); + return Result; + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_transform.hpp b/Vulkan/ext/include/glm/ext/matrix_transform.hpp new file mode 100644 index 0000000..cbd187e --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_transform.hpp @@ -0,0 +1,144 @@ +/// @ref ext_matrix_transform +/// @file glm/ext/matrix_transform.hpp +/// +/// @defgroup ext_matrix_transform GLM_EXT_matrix_transform +/// @ingroup ext +/// +/// Defines functions that generate common transformation matrices. +/// +/// The matrices generated by this extension use standard OpenGL fixed-function +/// conventions. For example, the lookAt function generates a transform from world +/// space into the specific eye space that the projective matrix functions +/// (perspective, ortho, etc) are designed to expect. The OpenGL compatibility +/// specifications defines the particular layout of this eye space. +/// +/// Include to use the features of this extension. +/// +/// @see ext_matrix_projection +/// @see ext_matrix_clip_space + +#pragma once + +// Dependencies +#include "../gtc/constants.hpp" +#include "../geometric.hpp" +#include "../trigonometric.hpp" +#include "../matrix.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_transform extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_transform + /// @{ + + /// Builds an identity matrix. + template + GLM_FUNC_DECL GLM_CONSTEXPR genType identity(); + + /// Builds a translation 4 * 4 matrix created from a vector of 3 components. + /// + /// @param m Input matrix multiplied by this translation matrix. + /// @param v Coordinates of a translation vector. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + /// + /// @code + /// #include + /// #include + /// ... + /// glm::mat4 m = glm::translate(glm::mat4(1.0f), glm::vec3(1.0f)); + /// // m[0][0] == 1.0f, m[0][1] == 0.0f, m[0][2] == 0.0f, m[0][3] == 0.0f + /// // m[1][0] == 0.0f, m[1][1] == 1.0f, m[1][2] == 0.0f, m[1][3] == 0.0f + /// // m[2][0] == 0.0f, m[2][1] == 0.0f, m[2][2] == 1.0f, m[2][3] == 0.0f + /// // m[3][0] == 1.0f, m[3][1] == 1.0f, m[3][2] == 1.0f, m[3][3] == 1.0f + /// @endcode + /// + /// @see - translate(mat<4, 4, T, Q> const& m, T x, T y, T z) + /// @see - translate(vec<3, T, Q> const& v) + /// @see glTranslate man page + template + GLM_FUNC_DECL mat<4, 4, T, Q> translate( + mat<4, 4, T, Q> const& m, vec<3, T, Q> const& v); + + /// Builds a rotation 4 * 4 matrix created from an axis vector and an angle. + /// + /// @param m Input matrix multiplied by this rotation matrix. + /// @param angle Rotation angle expressed in radians. + /// @param axis Rotation axis, recommended to be normalized. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + /// + /// @see - rotate(mat<4, 4, T, Q> const& m, T angle, T x, T y, T z) + /// @see - rotate(T angle, vec<3, T, Q> const& v) + /// @see glRotate man page + template + GLM_FUNC_DECL mat<4, 4, T, Q> rotate( + mat<4, 4, T, Q> const& m, T angle, vec<3, T, Q> const& axis); + + /// Builds a scale 4 * 4 matrix created from 3 scalars. + /// + /// @param m Input matrix multiplied by this scale matrix. + /// @param v Ratio of scaling for each axis. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + /// + /// @see - scale(mat<4, 4, T, Q> const& m, T x, T y, T z) + /// @see - scale(vec<3, T, Q> const& v) + /// @see glScale man page + template + GLM_FUNC_DECL mat<4, 4, T, Q> scale( + mat<4, 4, T, Q> const& m, vec<3, T, Q> const& v); + + /// Build a right handed look at view matrix. + /// + /// @param eye Position of the camera + /// @param center Position where the camera is looking at + /// @param up Normalized up vector, how the camera is oriented. Typically (0, 0, 1) + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + /// + /// @see - frustum(T const& left, T const& right, T const& bottom, T const& top, T const& nearVal, T const& farVal) frustum(T const& left, T const& right, T const& bottom, T const& top, T const& nearVal, T const& farVal) + template + GLM_FUNC_DECL mat<4, 4, T, Q> lookAtRH( + vec<3, T, Q> const& eye, vec<3, T, Q> const& center, vec<3, T, Q> const& up); + + /// Build a left handed look at view matrix. + /// + /// @param eye Position of the camera + /// @param center Position where the camera is looking at + /// @param up Normalized up vector, how the camera is oriented. Typically (0, 0, 1) + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + /// + /// @see - frustum(T const& left, T const& right, T const& bottom, T const& top, T const& nearVal, T const& farVal) frustum(T const& left, T const& right, T const& bottom, T const& top, T const& nearVal, T const& farVal) + template + GLM_FUNC_DECL mat<4, 4, T, Q> lookAtLH( + vec<3, T, Q> const& eye, vec<3, T, Q> const& center, vec<3, T, Q> const& up); + + /// Build a look at view matrix based on the default handedness. + /// + /// @param eye Position of the camera + /// @param center Position where the camera is looking at + /// @param up Normalized up vector, how the camera is oriented. Typically (0, 0, 1) + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + /// + /// @see - frustum(T const& left, T const& right, T const& bottom, T const& top, T const& nearVal, T const& farVal) frustum(T const& left, T const& right, T const& bottom, T const& top, T const& nearVal, T const& farVal) + /// @see gluLookAt man page + template + GLM_FUNC_DECL mat<4, 4, T, Q> lookAt( + vec<3, T, Q> const& eye, vec<3, T, Q> const& center, vec<3, T, Q> const& up); + + /// @} +}//namespace glm + +#include "matrix_transform.inl" diff --git a/Vulkan/ext/include/glm/ext/matrix_transform.inl b/Vulkan/ext/include/glm/ext/matrix_transform.inl new file mode 100644 index 0000000..a415157 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_transform.inl @@ -0,0 +1,152 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType identity() + { + return detail::init_gentype::GENTYPE>::identity(); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> translate(mat<4, 4, T, Q> const& m, vec<3, T, Q> const& v) + { + mat<4, 4, T, Q> Result(m); + Result[3] = m[0] * v[0] + m[1] * v[1] + m[2] * v[2] + m[3]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> rotate(mat<4, 4, T, Q> const& m, T angle, vec<3, T, Q> const& v) + { + T const a = angle; + T const c = cos(a); + T const s = sin(a); + + vec<3, T, Q> axis(normalize(v)); + vec<3, T, Q> temp((T(1) - c) * axis); + + mat<4, 4, T, Q> Rotate; + Rotate[0][0] = c + temp[0] * axis[0]; + Rotate[0][1] = temp[0] * axis[1] + s * axis[2]; + Rotate[0][2] = temp[0] * axis[2] - s * axis[1]; + + Rotate[1][0] = temp[1] * axis[0] - s * axis[2]; + Rotate[1][1] = c + temp[1] * axis[1]; + Rotate[1][2] = temp[1] * axis[2] + s * axis[0]; + + Rotate[2][0] = temp[2] * axis[0] + s * axis[1]; + Rotate[2][1] = temp[2] * axis[1] - s * axis[0]; + Rotate[2][2] = c + temp[2] * axis[2]; + + mat<4, 4, T, Q> Result; + Result[0] = m[0] * Rotate[0][0] + m[1] * Rotate[0][1] + m[2] * Rotate[0][2]; + Result[1] = m[0] * Rotate[1][0] + m[1] * Rotate[1][1] + m[2] * Rotate[1][2]; + Result[2] = m[0] * Rotate[2][0] + m[1] * Rotate[2][1] + m[2] * Rotate[2][2]; + Result[3] = m[3]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> rotate_slow(mat<4, 4, T, Q> const& m, T angle, vec<3, T, Q> const& v) + { + T const a = angle; + T const c = cos(a); + T const s = sin(a); + mat<4, 4, T, Q> Result; + + vec<3, T, Q> axis = normalize(v); + + Result[0][0] = c + (static_cast(1) - c) * axis.x * axis.x; + Result[0][1] = (static_cast(1) - c) * axis.x * axis.y + s * axis.z; + Result[0][2] = (static_cast(1) - c) * axis.x * axis.z - s * axis.y; + Result[0][3] = static_cast(0); + + Result[1][0] = (static_cast(1) - c) * axis.y * axis.x - s * axis.z; + Result[1][1] = c + (static_cast(1) - c) * axis.y * axis.y; + Result[1][2] = (static_cast(1) - c) * axis.y * axis.z + s * axis.x; + Result[1][3] = static_cast(0); + + Result[2][0] = (static_cast(1) - c) * axis.z * axis.x + s * axis.y; + Result[2][1] = (static_cast(1) - c) * axis.z * axis.y - s * axis.x; + Result[2][2] = c + (static_cast(1) - c) * axis.z * axis.z; + Result[2][3] = static_cast(0); + + Result[3] = vec<4, T, Q>(0, 0, 0, 1); + return m * Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> scale(mat<4, 4, T, Q> const& m, vec<3, T, Q> const& v) + { + mat<4, 4, T, Q> Result; + Result[0] = m[0] * v[0]; + Result[1] = m[1] * v[1]; + Result[2] = m[2] * v[2]; + Result[3] = m[3]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> scale_slow(mat<4, 4, T, Q> const& m, vec<3, T, Q> const& v) + { + mat<4, 4, T, Q> Result(T(1)); + Result[0][0] = v.x; + Result[1][1] = v.y; + Result[2][2] = v.z; + return m * Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> lookAtRH(vec<3, T, Q> const& eye, vec<3, T, Q> const& center, vec<3, T, Q> const& up) + { + vec<3, T, Q> const f(normalize(center - eye)); + vec<3, T, Q> const s(normalize(cross(f, up))); + vec<3, T, Q> const u(cross(s, f)); + + mat<4, 4, T, Q> Result(1); + Result[0][0] = s.x; + Result[1][0] = s.y; + Result[2][0] = s.z; + Result[0][1] = u.x; + Result[1][1] = u.y; + Result[2][1] = u.z; + Result[0][2] =-f.x; + Result[1][2] =-f.y; + Result[2][2] =-f.z; + Result[3][0] =-dot(s, eye); + Result[3][1] =-dot(u, eye); + Result[3][2] = dot(f, eye); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> lookAtLH(vec<3, T, Q> const& eye, vec<3, T, Q> const& center, vec<3, T, Q> const& up) + { + vec<3, T, Q> const f(normalize(center - eye)); + vec<3, T, Q> const s(normalize(cross(up, f))); + vec<3, T, Q> const u(cross(f, s)); + + mat<4, 4, T, Q> Result(1); + Result[0][0] = s.x; + Result[1][0] = s.y; + Result[2][0] = s.z; + Result[0][1] = u.x; + Result[1][1] = u.y; + Result[2][1] = u.z; + Result[0][2] = f.x; + Result[1][2] = f.y; + Result[2][2] = f.z; + Result[3][0] = -dot(s, eye); + Result[3][1] = -dot(u, eye); + Result[3][2] = -dot(f, eye); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> lookAt(vec<3, T, Q> const& eye, vec<3, T, Q> const& center, vec<3, T, Q> const& up) + { + GLM_IF_CONSTEXPR(GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT) + return lookAtLH(eye, center, up); + else + return lookAtRH(eye, center, up); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint2x2.hpp b/Vulkan/ext/include/glm/ext/matrix_uint2x2.hpp new file mode 100644 index 0000000..034771a --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint2x2.hpp @@ -0,0 +1,38 @@ +/// @ref ext_matrix_uint2x2 +/// @file glm/ext/matrix_uint2x2.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint2x2 GLM_EXT_matrix_uint2x2 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint2x2 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint2x2 + /// @{ + + /// Unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2 + typedef mat<2, 2, uint, defaultp> umat2x2; + + /// Unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2 + typedef mat<2, 2, uint, defaultp> umat2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint2x2_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint2x2_sized.hpp new file mode 100644 index 0000000..4555324 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint2x2_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_matrix_uint2x2_sized +/// @file glm/ext/matrix_uint2x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint2x2_sized GLM_EXT_matrix_uint2x2_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x2.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint2x2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint2x2_sized + /// @{ + + /// 8 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint8, defaultp> u8mat2x2; + + /// 16 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint16, defaultp> u16mat2x2; + + /// 32 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint32, defaultp> u32mat2x2; + + /// 64 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint64, defaultp> u64mat2x2; + + + /// 8 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint8, defaultp> u8mat2; + + /// 16 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint16, defaultp> u16mat2; + + /// 32 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint32, defaultp> u32mat2; + + /// 64 bit unsigned integer 2x2 matrix. + /// + /// @see ext_matrix_uint2x2_sized + typedef mat<2, 2, uint64, defaultp> u64mat2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint2x3.hpp b/Vulkan/ext/include/glm/ext/matrix_uint2x3.hpp new file mode 100644 index 0000000..7de62f6 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint2x3.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_uint2x3 +/// @file glm/ext/matrix_uint2x3.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int2x3 GLM_EXT_matrix_uint2x3 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x3.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint2x3 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint2x3 + /// @{ + + /// Unsigned integer 2x3 matrix. + /// + /// @see ext_matrix_uint2x3 + typedef mat<2, 3, uint, defaultp> umat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint2x3_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint2x3_sized.hpp new file mode 100644 index 0000000..db7939c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint2x3_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_uint2x3_sized +/// @file glm/ext/matrix_uint2x3_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint2x3_sized GLM_EXT_matrix_uint2x3_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x3.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint2x3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint2x3_sized + /// @{ + + /// 8 bit unsigned integer 2x3 matrix. + /// + /// @see ext_matrix_uint2x3_sized + typedef mat<2, 3, uint8, defaultp> u8mat2x3; + + /// 16 bit unsigned integer 2x3 matrix. + /// + /// @see ext_matrix_uint2x3_sized + typedef mat<2, 3, uint16, defaultp> u16mat2x3; + + /// 32 bit unsigned integer 2x3 matrix. + /// + /// @see ext_matrix_uint2x3_sized + typedef mat<2, 3, uint32, defaultp> u32mat2x3; + + /// 64 bit unsigned integer 2x3 matrix. + /// + /// @see ext_matrix_uint2x3_sized + typedef mat<2, 3, uint64, defaultp> u64mat2x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint2x4.hpp b/Vulkan/ext/include/glm/ext/matrix_uint2x4.hpp new file mode 100644 index 0000000..0f99350 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint2x4.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_uint2x4 +/// @file glm/ext/matrix_uint2x4.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint2x4 GLM_EXT_matrix_int2x4 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint2x4 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint2x4 + /// @{ + + /// Unsigned integer 2x4 matrix. + /// + /// @see ext_matrix_uint2x4 + typedef mat<2, 4, uint, defaultp> umat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint2x4_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint2x4_sized.hpp new file mode 100644 index 0000000..5cb8e54 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint2x4_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_uint2x4_sized +/// @file glm/ext/matrixu_uint2x4_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint2x4_sized GLM_EXT_matrix_uint2x4_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x4.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint2x4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint2x4_sized + /// @{ + + /// 8 bit unsigned integer 2x4 matrix. + /// + /// @see ext_matrix_uint2x4_sized + typedef mat<2, 4, uint8, defaultp> u8mat2x4; + + /// 16 bit unsigned integer 2x4 matrix. + /// + /// @see ext_matrix_uint2x4_sized + typedef mat<2, 4, uint16, defaultp> u16mat2x4; + + /// 32 bit unsigned integer 2x4 matrix. + /// + /// @see ext_matrix_uint2x4_sized + typedef mat<2, 4, uint32, defaultp> u32mat2x4; + + /// 64 bit unsigned integer 2x4 matrix. + /// + /// @see ext_matrix_uint2x4_sized + typedef mat<2, 4, uint64, defaultp> u64mat2x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint3x2.hpp b/Vulkan/ext/include/glm/ext/matrix_uint3x2.hpp new file mode 100644 index 0000000..47f4873 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint3x2.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_uint3x2 +/// @file glm/ext/matrix_uint3x2.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_int3x2 GLM_EXT_matrix_uint3x2 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint3x2 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint3x2 + /// @{ + + /// Unsigned integer 3x2 matrix. + /// + /// @see ext_matrix_uint3x2 + typedef mat<3, 2, uint, defaultp> umat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint3x2_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint3x2_sized.hpp new file mode 100644 index 0000000..c81af8f --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint3x2_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_uint3x2_sized +/// @file glm/ext/matrix_uint3x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint3x2_sized GLM_EXT_matrix_uint3x2_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x2.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint3x2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint3x2_sized + /// @{ + + /// 8 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_uint3x2_sized + typedef mat<3, 2, uint8, defaultp> u8mat3x2; + + /// 16 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_uint3x2_sized + typedef mat<3, 2, uint16, defaultp> u16mat3x2; + + /// 32 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_uint3x2_sized + typedef mat<3, 2, uint32, defaultp> u32mat3x2; + + /// 64 bit signed integer 3x2 matrix. + /// + /// @see ext_matrix_uint3x2_sized + typedef mat<3, 2, uint64, defaultp> u64mat3x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint3x3.hpp b/Vulkan/ext/include/glm/ext/matrix_uint3x3.hpp new file mode 100644 index 0000000..1004c0d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint3x3.hpp @@ -0,0 +1,38 @@ +/// @ref ext_matrix_uint3x3 +/// @file glm/ext/matrix_uint3x3.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint3x3 GLM_EXT_matrix_uint3x3 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x3.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint3x3 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint3x3 + /// @{ + + /// Unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3 + typedef mat<3, 3, uint, defaultp> umat3x3; + + /// Unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3 + typedef mat<3, 3, uint, defaultp> umat3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint3x3_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint3x3_sized.hpp new file mode 100644 index 0000000..41a8be7 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint3x3_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_matrix_uint3x3_sized +/// @file glm/ext/matrix_uint3x3_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint3x3_sized GLM_EXT_matrix_uint3x3_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x3.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint3x3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint3x3_sized + /// @{ + + /// 8 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint8, defaultp> u8mat3x3; + + /// 16 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint16, defaultp> u16mat3x3; + + /// 32 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint32, defaultp> u32mat3x3; + + /// 64 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint64, defaultp> u64mat3x3; + + + /// 8 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint8, defaultp> u8mat3; + + /// 16 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint16, defaultp> u16mat3; + + /// 32 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint32, defaultp> u32mat3; + + /// 64 bit unsigned integer 3x3 matrix. + /// + /// @see ext_matrix_uint3x3_sized + typedef mat<3, 3, uint64, defaultp> u64mat3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint3x4.hpp b/Vulkan/ext/include/glm/ext/matrix_uint3x4.hpp new file mode 100644 index 0000000..c6dd78c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint3x4.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_uint3x4 +/// @file glm/ext/matrix_uint3x4.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint3x4 GLM_EXT_matrix_uint3x4 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint3x4 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint3x4 + /// @{ + + /// Signed integer 3x4 matrix. + /// + /// @see ext_matrix_uint3x4 + typedef mat<3, 4, uint, defaultp> umat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint3x4_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint3x4_sized.hpp new file mode 100644 index 0000000..2ce28ad --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint3x4_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_uint3x4_sized +/// @file glm/ext/matrix_uint3x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint3x4_sized GLM_EXT_matrix_uint3x4_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat3x4.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint3x4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint3x4_sized + /// @{ + + /// 8 bit unsigned integer 3x4 matrix. + /// + /// @see ext_matrix_uint3x4_sized + typedef mat<3, 4, uint8, defaultp> u8mat3x4; + + /// 16 bit unsigned integer 3x4 matrix. + /// + /// @see ext_matrix_uint3x4_sized + typedef mat<3, 4, uint16, defaultp> u16mat3x4; + + /// 32 bit unsigned integer 3x4 matrix. + /// + /// @see ext_matrix_uint3x4_sized + typedef mat<3, 4, uint32, defaultp> u32mat3x4; + + /// 64 bit unsigned integer 3x4 matrix. + /// + /// @see ext_matrix_uint3x4_sized + typedef mat<3, 4, uint64, defaultp> u64mat3x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint4x2.hpp b/Vulkan/ext/include/glm/ext/matrix_uint4x2.hpp new file mode 100644 index 0000000..0446f57 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint4x2.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_uint4x2 +/// @file glm/ext/matrix_uint4x2.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint4x2 GLM_EXT_matrix_uint4x2 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint4x2 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint4x2 + /// @{ + + /// Unsigned integer 4x2 matrix. + /// + /// @see ext_matrix_uint4x2 + typedef mat<4, 2, uint, defaultp> umat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint4x2_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint4x2_sized.hpp new file mode 100644 index 0000000..57a66bf --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint4x2_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_uint4x2_sized +/// @file glm/ext/matrix_uint4x2_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint4x2_sized GLM_EXT_matrix_uint4x2_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x2.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint4x2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint4x2_sized + /// @{ + + /// 8 bit unsigned integer 4x2 matrix. + /// + /// @see ext_matrix_uint4x2_sized + typedef mat<4, 2, uint8, defaultp> u8mat4x2; + + /// 16 bit unsigned integer 4x2 matrix. + /// + /// @see ext_matrix_uint4x2_sized + typedef mat<4, 2, uint16, defaultp> u16mat4x2; + + /// 32 bit unsigned integer 4x2 matrix. + /// + /// @see ext_matrix_uint4x2_sized + typedef mat<4, 2, uint32, defaultp> u32mat4x2; + + /// 64 bit unsigned integer 4x2 matrix. + /// + /// @see ext_matrix_uint4x2_sized + typedef mat<4, 2, uint64, defaultp> u64mat4x2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint4x3.hpp b/Vulkan/ext/include/glm/ext/matrix_uint4x3.hpp new file mode 100644 index 0000000..54c24e4 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint4x3.hpp @@ -0,0 +1,33 @@ +/// @ref ext_matrix_uint4x3 +/// @file glm/ext/matrix_uint4x3.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint4x3 GLM_EXT_matrix_uint4x3 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x3.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint4x3 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint4x3 + /// @{ + + /// Unsigned integer 4x3 matrix. + /// + /// @see ext_matrix_uint4x3 + typedef mat<4, 3, uint, defaultp> umat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint4x3_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint4x3_sized.hpp new file mode 100644 index 0000000..2e61124 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint4x3_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_matrix_uint4x3_sized +/// @file glm/ext/matrix_uint4x3_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint4x3_sized GLM_EXT_matrix_uint4x3_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x3.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint4x3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint4x3_sized + /// @{ + + /// 8 bit unsigned integer 4x3 matrix. + /// + /// @see ext_matrix_uint4x3_sized + typedef mat<4, 3, uint8, defaultp> u8mat4x3; + + /// 16 bit unsigned integer 4x3 matrix. + /// + /// @see ext_matrix_uint4x3_sized + typedef mat<4, 3, uint16, defaultp> u16mat4x3; + + /// 32 bit unsigned integer 4x3 matrix. + /// + /// @see ext_matrix_uint4x3_sized + typedef mat<4, 3, uint32, defaultp> u32mat4x3; + + /// 64 bit unsigned integer 4x3 matrix. + /// + /// @see ext_matrix_uint4x3_sized + typedef mat<4, 3, uint64, defaultp> u64mat4x3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint4x4.hpp b/Vulkan/ext/include/glm/ext/matrix_uint4x4.hpp new file mode 100644 index 0000000..5cc8455 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint4x4.hpp @@ -0,0 +1,38 @@ +/// @ref ext_matrix_uint4x4 +/// @file glm/ext/matrix_uint4x4.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint4x4 GLM_EXT_matrix_uint4x4 +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint4x4 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint4x4 + /// @{ + + /// Unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4 + typedef mat<4, 4, uint, defaultp> umat4x4; + + /// Unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4 + typedef mat<4, 4, uint, defaultp> umat4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/matrix_uint4x4_sized.hpp b/Vulkan/ext/include/glm/ext/matrix_uint4x4_sized.hpp new file mode 100644 index 0000000..bb10bd2 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/matrix_uint4x4_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_matrix_uint4x4_sized +/// @file glm/ext/matrix_uint4x4_sized.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_matrix_uint4x4_sized GLM_EXT_matrix_uint4x4_sized +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat4x4.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_matrix_uint4x4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_matrix_uint4x4_sized + /// @{ + + /// 8 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint8, defaultp> u8mat4x4; + + /// 16 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint16, defaultp> u16mat4x4; + + /// 32 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint32, defaultp> u32mat4x4; + + /// 64 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint64, defaultp> u64mat4x4; + + + /// 8 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint8, defaultp> u8mat4; + + /// 16 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint16, defaultp> u16mat4; + + /// 32 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint32, defaultp> u32mat4; + + /// 64 bit unsigned integer 4x4 matrix. + /// + /// @see ext_matrix_uint4x4_sized + typedef mat<4, 4, uint64, defaultp> u64mat4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/quaternion_common.hpp b/Vulkan/ext/include/glm/ext/quaternion_common.hpp new file mode 100644 index 0000000..f519d55 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_common.hpp @@ -0,0 +1,135 @@ +/// @ref ext_quaternion_common +/// @file glm/ext/quaternion_common.hpp +/// +/// @defgroup ext_quaternion_common GLM_EXT_quaternion_common +/// @ingroup ext +/// +/// Provides common functions for quaternion types +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_common +/// @see ext_vector_common +/// @see ext_quaternion_float +/// @see ext_quaternion_double +/// @see ext_quaternion_exponential +/// @see ext_quaternion_geometric +/// @see ext_quaternion_relational +/// @see ext_quaternion_trigonometric +/// @see ext_quaternion_transform + +#pragma once + +// Dependency: +#include "../ext/scalar_constants.hpp" +#include "../ext/quaternion_geometric.hpp" +#include "../common.hpp" +#include "../trigonometric.hpp" +#include "../exponential.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_common extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_common + /// @{ + + /// Spherical linear interpolation of two quaternions. + /// The interpolation is oriented and the rotation is performed at constant speed. + /// For short path spherical linear interpolation, use the slerp function. + /// + /// @param x A quaternion + /// @param y A quaternion + /// @param a Interpolation factor. The interpolation is defined beyond the range [0, 1]. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + /// + /// @see - slerp(qua const& x, qua const& y, T const& a) + template + GLM_FUNC_DECL qua mix(qua const& x, qua const& y, T a); + + /// Linear interpolation of two quaternions. + /// The interpolation is oriented. + /// + /// @param x A quaternion + /// @param y A quaternion + /// @param a Interpolation factor. The interpolation is defined in the range [0, 1]. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua lerp(qua const& x, qua const& y, T a); + + /// Spherical linear interpolation of two quaternions. + /// The interpolation always take the short path and the rotation is performed at constant speed. + /// + /// @param x A quaternion + /// @param y A quaternion + /// @param a Interpolation factor. The interpolation is defined beyond the range [0, 1]. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua slerp(qua const& x, qua const& y, T a); + + /// Spherical linear interpolation of two quaternions with multiple spins over rotation axis. + /// The interpolation always take the short path when the spin count is positive and long path + /// when count is negative. Rotation is performed at constant speed. + /// + /// @param x A quaternion + /// @param y A quaternion + /// @param a Interpolation factor. The interpolation is defined beyond the range [0, 1]. + /// @param k Additional spin count. If Value is negative interpolation will be on "long" path. + /// + /// @tparam T A floating-point scalar type + /// @tparam S An integer scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua slerp(qua const& x, qua const& y, T a, S k); + + /// Returns the q conjugate. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua conjugate(qua const& q); + + /// Returns the q inverse. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua inverse(qua const& q); + + /// Returns true if x holds a NaN (not a number) + /// representation in the underlying implementation's set of + /// floating point representations. Returns false otherwise, + /// including for implementations with no NaN + /// representations. + /// + /// /!\ When using compiler fast math, this function may fail. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL vec<4, bool, Q> isnan(qua const& x); + + /// Returns true if x holds a positive infinity or negative + /// infinity representation in the underlying implementation's + /// set of floating point representations. Returns false + /// otherwise, including for implementations with no infinity + /// representations. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL vec<4, bool, Q> isinf(qua const& x); + + /// @} +} //namespace glm + +#include "quaternion_common.inl" diff --git a/Vulkan/ext/include/glm/ext/quaternion_common.inl b/Vulkan/ext/include/glm/ext/quaternion_common.inl new file mode 100644 index 0000000..0e4a3bb --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_common.inl @@ -0,0 +1,144 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER qua mix(qua const& x, qua const& y, T a) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'mix' only accept floating-point inputs"); + + T const cosTheta = dot(x, y); + + // Perform a linear interpolation when cosTheta is close to 1 to avoid side effect of sin(angle) becoming a zero denominator + if(cosTheta > static_cast(1) - epsilon()) + { + // Linear interpolation + return qua( + mix(x.w, y.w, a), + mix(x.x, y.x, a), + mix(x.y, y.y, a), + mix(x.z, y.z, a)); + } + else + { + // Essential Mathematics, page 467 + T angle = acos(cosTheta); + return (sin((static_cast(1) - a) * angle) * x + sin(a * angle) * y) / sin(angle); + } + } + + template + GLM_FUNC_QUALIFIER qua lerp(qua const& x, qua const& y, T a) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'lerp' only accept floating-point inputs"); + + // Lerp is only defined in [0, 1] + assert(a >= static_cast(0)); + assert(a <= static_cast(1)); + + return x * (static_cast(1) - a) + (y * a); + } + + template + GLM_FUNC_QUALIFIER qua slerp(qua const& x, qua const& y, T a) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'slerp' only accept floating-point inputs"); + + qua z = y; + + T cosTheta = dot(x, y); + + // If cosTheta < 0, the interpolation will take the long way around the sphere. + // To fix this, one quat must be negated. + if(cosTheta < static_cast(0)) + { + z = -y; + cosTheta = -cosTheta; + } + + // Perform a linear interpolation when cosTheta is close to 1 to avoid side effect of sin(angle) becoming a zero denominator + if(cosTheta > static_cast(1) - epsilon()) + { + // Linear interpolation + return qua( + mix(x.w, z.w, a), + mix(x.x, z.x, a), + mix(x.y, z.y, a), + mix(x.z, z.z, a)); + } + else + { + // Essential Mathematics, page 467 + T angle = acos(cosTheta); + return (sin((static_cast(1) - a) * angle) * x + sin(a * angle) * z) / sin(angle); + } + } + + template + GLM_FUNC_QUALIFIER qua slerp(qua const& x, qua const& y, T a, S k) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'slerp' only accept floating-point inputs"); + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'slerp' only accept integer for spin count"); + + qua z = y; + + T cosTheta = dot(x, y); + + // If cosTheta < 0, the interpolation will take the long way around the sphere. + // To fix this, one quat must be negated. + if (cosTheta < static_cast(0)) + { + z = -y; + cosTheta = -cosTheta; + } + + // Perform a linear interpolation when cosTheta is close to 1 to avoid side effect of sin(angle) becoming a zero denominator + if (cosTheta > static_cast(1) - epsilon()) + { + // Linear interpolation + return qua( + mix(x.w, z.w, a), + mix(x.x, z.x, a), + mix(x.y, z.y, a), + mix(x.z, z.z, a)); + } + else + { + // Graphics Gems III, page 96 + T angle = acos(cosTheta); + T phi = angle + k * glm::pi(); + return (sin(angle - a * phi)* x + sin(a * phi) * z) / sin(angle); + } + } + + template + GLM_FUNC_QUALIFIER qua conjugate(qua const& q) + { + return qua(q.w, -q.x, -q.y, -q.z); + } + + template + GLM_FUNC_QUALIFIER qua inverse(qua const& q) + { + return conjugate(q) / dot(q, q); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> isnan(qua const& q) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isnan' only accept floating-point inputs"); + + return vec<4, bool, Q>(isnan(q.x), isnan(q.y), isnan(q.z), isnan(q.w)); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> isinf(qua const& q) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isinf' only accept floating-point inputs"); + + return vec<4, bool, Q>(isinf(q.x), isinf(q.y), isinf(q.z), isinf(q.w)); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "quaternion_common_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/ext/quaternion_common_simd.inl b/Vulkan/ext/include/glm/ext/quaternion_common_simd.inl new file mode 100644 index 0000000..ddfc8a4 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_common_simd.inl @@ -0,0 +1,18 @@ +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +namespace glm{ +namespace detail +{ + template + struct compute_dot, float, true> + { + static GLM_FUNC_QUALIFIER float call(qua const& x, qua const& y) + { + return _mm_cvtss_f32(glm_vec1_dot(x.data, y.data)); + } + }; +}//namespace detail +}//namespace glm + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT + diff --git a/Vulkan/ext/include/glm/ext/quaternion_double.hpp b/Vulkan/ext/include/glm/ext/quaternion_double.hpp new file mode 100644 index 0000000..63b24de --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_double.hpp @@ -0,0 +1,39 @@ +/// @ref ext_quaternion_double +/// @file glm/ext/quaternion_double.hpp +/// +/// @defgroup ext_quaternion_double GLM_EXT_quaternion_double +/// @ingroup ext +/// +/// Exposes double-precision floating point quaternion type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_quaternion_float +/// @see ext_quaternion_double_precision +/// @see ext_quaternion_common +/// @see ext_quaternion_exponential +/// @see ext_quaternion_geometric +/// @see ext_quaternion_relational +/// @see ext_quaternion_transform +/// @see ext_quaternion_trigonometric + +#pragma once + +// Dependency: +#include "../detail/type_quat.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_double extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_double + /// @{ + + /// Quaternion of double-precision floating-point numbers. + typedef qua dquat; + + /// @} +} //namespace glm + diff --git a/Vulkan/ext/include/glm/ext/quaternion_double_precision.hpp b/Vulkan/ext/include/glm/ext/quaternion_double_precision.hpp new file mode 100644 index 0000000..8aa24a1 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_double_precision.hpp @@ -0,0 +1,42 @@ +/// @ref ext_quaternion_double_precision +/// @file glm/ext/quaternion_double_precision.hpp +/// +/// @defgroup ext_quaternion_double_precision GLM_EXT_quaternion_double_precision +/// @ingroup ext +/// +/// Exposes double-precision floating point quaternion type with various precision in term of ULPs. +/// +/// Include to use the features of this extension. + +#pragma once + +// Dependency: +#include "../detail/type_quat.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_double_precision extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_double_precision + /// @{ + + /// Quaternion of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see ext_quaternion_double_precision + typedef qua lowp_dquat; + + /// Quaternion of medium double-qualifier floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see ext_quaternion_double_precision + typedef qua mediump_dquat; + + /// Quaternion of high double-qualifier floating-point numbers using high precision arithmetic in term of ULPs. + /// + /// @see ext_quaternion_double_precision + typedef qua highp_dquat; + + /// @} +} //namespace glm + diff --git a/Vulkan/ext/include/glm/ext/quaternion_exponential.hpp b/Vulkan/ext/include/glm/ext/quaternion_exponential.hpp new file mode 100644 index 0000000..affe297 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_exponential.hpp @@ -0,0 +1,63 @@ +/// @ref ext_quaternion_exponential +/// @file glm/ext/quaternion_exponential.hpp +/// +/// @defgroup ext_quaternion_exponential GLM_EXT_quaternion_exponential +/// @ingroup ext +/// +/// Provides exponential functions for quaternion types +/// +/// Include to use the features of this extension. +/// +/// @see core_exponential +/// @see ext_quaternion_float +/// @see ext_quaternion_double + +#pragma once + +// Dependency: +#include "../common.hpp" +#include "../trigonometric.hpp" +#include "../geometric.hpp" +#include "../ext/scalar_constants.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_exponential extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_transform + /// @{ + + /// Returns a exponential of a quaternion. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua exp(qua const& q); + + /// Returns a logarithm of a quaternion + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua log(qua const& q); + + /// Returns a quaternion raised to a power. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua pow(qua const& q, T y); + + /// Returns the square root of a quaternion + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua sqrt(qua const& q); + + /// @} +} //namespace glm + +#include "quaternion_exponential.inl" diff --git a/Vulkan/ext/include/glm/ext/quaternion_exponential.inl b/Vulkan/ext/include/glm/ext/quaternion_exponential.inl new file mode 100644 index 0000000..8456c00 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_exponential.inl @@ -0,0 +1,85 @@ +#include "scalar_constants.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER qua exp(qua const& q) + { + vec<3, T, Q> u(q.x, q.y, q.z); + T const Angle = glm::length(u); + if (Angle < epsilon()) + return qua(); + + vec<3, T, Q> const v(u / Angle); + return qua(cos(Angle), sin(Angle) * v); + } + + template + GLM_FUNC_QUALIFIER qua log(qua const& q) + { + vec<3, T, Q> u(q.x, q.y, q.z); + T Vec3Len = length(u); + + if (Vec3Len < epsilon()) + { + if(q.w > static_cast(0)) + return qua(log(q.w), static_cast(0), static_cast(0), static_cast(0)); + else if(q.w < static_cast(0)) + return qua(log(-q.w), pi(), static_cast(0), static_cast(0)); + else + return qua(std::numeric_limits::infinity(), std::numeric_limits::infinity(), std::numeric_limits::infinity(), std::numeric_limits::infinity()); + } + else + { + T t = atan(Vec3Len, T(q.w)) / Vec3Len; + T QuatLen2 = Vec3Len * Vec3Len + q.w * q.w; + return qua(static_cast(0.5) * log(QuatLen2), t * q.x, t * q.y, t * q.z); + } + } + + template + GLM_FUNC_QUALIFIER qua pow(qua const& x, T y) + { + //Raising to the power of 0 should yield 1 + //Needed to prevent a division by 0 error later on + if(y > -epsilon() && y < epsilon()) + return qua(1,0,0,0); + + //To deal with non-unit quaternions + T magnitude = sqrt(x.x * x.x + x.y * x.y + x.z * x.z + x.w *x.w); + + T Angle; + if(abs(x.w / magnitude) > cos_one_over_two()) + { + //Scalar component is close to 1; using it to recover angle would lose precision + //Instead, we use the non-scalar components since sin() is accurate around 0 + + //Prevent a division by 0 error later on + T VectorMagnitude = x.x * x.x + x.y * x.y + x.z * x.z; + if (glm::abs(VectorMagnitude - static_cast(0)) < glm::epsilon()) { + //Equivalent to raising a real number to a power + return qua(pow(x.w, y), 0, 0, 0); + } + + Angle = asin(sqrt(VectorMagnitude) / magnitude); + } + else + { + //Scalar component is small, shouldn't cause loss of precision + Angle = acos(x.w / magnitude); + } + + T NewAngle = Angle * y; + T Div = sin(NewAngle) / sin(Angle); + T Mag = pow(magnitude, y - static_cast(1)); + return qua(cos(NewAngle) * magnitude * Mag, x.x * Div * Mag, x.y * Div * Mag, x.z * Div * Mag); + } + + template + GLM_FUNC_QUALIFIER qua sqrt(qua const& x) + { + return pow(x, static_cast(0.5)); + } +}//namespace glm + + diff --git a/Vulkan/ext/include/glm/ext/quaternion_float.hpp b/Vulkan/ext/include/glm/ext/quaternion_float.hpp new file mode 100644 index 0000000..ca42a60 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_float.hpp @@ -0,0 +1,39 @@ +/// @ref ext_quaternion_float +/// @file glm/ext/quaternion_float.hpp +/// +/// @defgroup ext_quaternion_float GLM_EXT_quaternion_float +/// @ingroup ext +/// +/// Exposes single-precision floating point quaternion type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_quaternion_double +/// @see ext_quaternion_float_precision +/// @see ext_quaternion_common +/// @see ext_quaternion_exponential +/// @see ext_quaternion_geometric +/// @see ext_quaternion_relational +/// @see ext_quaternion_transform +/// @see ext_quaternion_trigonometric + +#pragma once + +// Dependency: +#include "../detail/type_quat.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_float extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_float + /// @{ + + /// Quaternion of single-precision floating-point numbers. + typedef qua quat; + + /// @} +} //namespace glm + diff --git a/Vulkan/ext/include/glm/ext/quaternion_float_precision.hpp b/Vulkan/ext/include/glm/ext/quaternion_float_precision.hpp new file mode 100644 index 0000000..f9e4f5c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_float_precision.hpp @@ -0,0 +1,36 @@ +/// @ref ext_quaternion_float_precision +/// @file glm/ext/quaternion_float_precision.hpp +/// +/// @defgroup ext_quaternion_float_precision GLM_EXT_quaternion_float_precision +/// @ingroup ext +/// +/// Exposes single-precision floating point quaternion type with various precision in term of ULPs. +/// +/// Include to use the features of this extension. + +#pragma once + +// Dependency: +#include "../detail/type_quat.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_float_precision extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_float_precision + /// @{ + + /// Quaternion of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef qua lowp_quat; + + /// Quaternion of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef qua mediump_quat; + + /// Quaternion of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef qua highp_quat; + + /// @} +} //namespace glm + diff --git a/Vulkan/ext/include/glm/ext/quaternion_geometric.hpp b/Vulkan/ext/include/glm/ext/quaternion_geometric.hpp new file mode 100644 index 0000000..6d98bbe --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_geometric.hpp @@ -0,0 +1,70 @@ +/// @ref ext_quaternion_geometric +/// @file glm/ext/quaternion_geometric.hpp +/// +/// @defgroup ext_quaternion_geometric GLM_EXT_quaternion_geometric +/// @ingroup ext +/// +/// Provides geometric functions for quaternion types +/// +/// Include to use the features of this extension. +/// +/// @see core_geometric +/// @see ext_quaternion_float +/// @see ext_quaternion_double + +#pragma once + +// Dependency: +#include "../geometric.hpp" +#include "../exponential.hpp" +#include "../ext/vector_relational.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_geometric extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_geometric + /// @{ + + /// Returns the norm of a quaternions + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_geometric + template + GLM_FUNC_DECL T length(qua const& q); + + /// Returns the normalized quaternion. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_geometric + template + GLM_FUNC_DECL qua normalize(qua const& q); + + /// Returns dot product of q1 and q2, i.e., q1[0] * q2[0] + q1[1] * q2[1] + ... + /// + /// @tparam T Floating-point scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_geometric + template + GLM_FUNC_DECL T dot(qua const& x, qua const& y); + + /// Compute a cross product. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_geometric + template + GLM_FUNC_QUALIFIER qua cross(qua const& q1, qua const& q2); + + /// @} +} //namespace glm + +#include "quaternion_geometric.inl" diff --git a/Vulkan/ext/include/glm/ext/quaternion_geometric.inl b/Vulkan/ext/include/glm/ext/quaternion_geometric.inl new file mode 100644 index 0000000..e155ac5 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_geometric.inl @@ -0,0 +1,36 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER T dot(qua const& x, qua const& y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'dot' accepts only floating-point inputs"); + return detail::compute_dot, T, detail::is_aligned::value>::call(x, y); + } + + template + GLM_FUNC_QUALIFIER T length(qua const& q) + { + return glm::sqrt(dot(q, q)); + } + + template + GLM_FUNC_QUALIFIER qua normalize(qua const& q) + { + T len = length(q); + if(len <= static_cast(0)) // Problem + return qua(static_cast(1), static_cast(0), static_cast(0), static_cast(0)); + T oneOverLen = static_cast(1) / len; + return qua(q.w * oneOverLen, q.x * oneOverLen, q.y * oneOverLen, q.z * oneOverLen); + } + + template + GLM_FUNC_QUALIFIER qua cross(qua const& q1, qua const& q2) + { + return qua( + q1.w * q2.w - q1.x * q2.x - q1.y * q2.y - q1.z * q2.z, + q1.w * q2.x + q1.x * q2.w + q1.y * q2.z - q1.z * q2.y, + q1.w * q2.y + q1.y * q2.w + q1.z * q2.x - q1.x * q2.z, + q1.w * q2.z + q1.z * q2.w + q1.x * q2.y - q1.y * q2.x); + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/ext/quaternion_relational.hpp b/Vulkan/ext/include/glm/ext/quaternion_relational.hpp new file mode 100644 index 0000000..7aa121d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_relational.hpp @@ -0,0 +1,62 @@ +/// @ref ext_quaternion_relational +/// @file glm/ext/quaternion_relational.hpp +/// +/// @defgroup ext_quaternion_relational GLM_EXT_quaternion_relational +/// @ingroup ext +/// +/// Exposes comparison functions for quaternion types that take a user defined epsilon values. +/// +/// Include to use the features of this extension. +/// +/// @see core_vector_relational +/// @see ext_vector_relational +/// @see ext_matrix_relational +/// @see ext_quaternion_float +/// @see ext_quaternion_double + +#pragma once + +// Dependency: +#include "../vector_relational.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_relational extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_relational + /// @{ + + /// Returns the component-wise comparison of result x == y. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL vec<4, bool, Q> equal(qua const& x, qua const& y); + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL vec<4, bool, Q> equal(qua const& x, qua const& y, T epsilon); + + /// Returns the component-wise comparison of result x != y. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL vec<4, bool, Q> notEqual(qua const& x, qua const& y); + + /// Returns the component-wise comparison of |x - y| >= epsilon. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL vec<4, bool, Q> notEqual(qua const& x, qua const& y, T epsilon); + + /// @} +} //namespace glm + +#include "quaternion_relational.inl" diff --git a/Vulkan/ext/include/glm/ext/quaternion_relational.inl b/Vulkan/ext/include/glm/ext/quaternion_relational.inl new file mode 100644 index 0000000..b1713e9 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_relational.inl @@ -0,0 +1,35 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> equal(qua const& x, qua const& y) + { + vec<4, bool, Q> Result; + for(length_t i = 0; i < x.length(); ++i) + Result[i] = x[i] == y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> equal(qua const& x, qua const& y, T epsilon) + { + vec<4, T, Q> v(x.x - y.x, x.y - y.y, x.z - y.z, x.w - y.w); + return lessThan(abs(v), vec<4, T, Q>(epsilon)); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> notEqual(qua const& x, qua const& y) + { + vec<4, bool, Q> Result; + for(length_t i = 0; i < x.length(); ++i) + Result[i] = x[i] != y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> notEqual(qua const& x, qua const& y, T epsilon) + { + vec<4, T, Q> v(x.x - y.x, x.y - y.y, x.z - y.z, x.w - y.w); + return greaterThanEqual(abs(v), vec<4, T, Q>(epsilon)); + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/ext/quaternion_transform.hpp b/Vulkan/ext/include/glm/ext/quaternion_transform.hpp new file mode 100644 index 0000000..a9cc5c2 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_transform.hpp @@ -0,0 +1,47 @@ +/// @ref ext_quaternion_transform +/// @file glm/ext/quaternion_transform.hpp +/// +/// @defgroup ext_quaternion_transform GLM_EXT_quaternion_transform +/// @ingroup ext +/// +/// Provides transformation functions for quaternion types +/// +/// Include to use the features of this extension. +/// +/// @see ext_quaternion_float +/// @see ext_quaternion_double +/// @see ext_quaternion_exponential +/// @see ext_quaternion_geometric +/// @see ext_quaternion_relational +/// @see ext_quaternion_trigonometric + +#pragma once + +// Dependency: +#include "../common.hpp" +#include "../trigonometric.hpp" +#include "../geometric.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_transform extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_transform + /// @{ + + /// Rotates a quaternion from a vector of 3 components axis and an angle. + /// + /// @param q Source orientation + /// @param angle Angle expressed in radians. + /// @param axis Axis of the rotation + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL qua rotate(qua const& q, T const& angle, vec<3, T, Q> const& axis); + /// @} +} //namespace glm + +#include "quaternion_transform.inl" diff --git a/Vulkan/ext/include/glm/ext/quaternion_transform.inl b/Vulkan/ext/include/glm/ext/quaternion_transform.inl new file mode 100644 index 0000000..b87ecb6 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_transform.inl @@ -0,0 +1,24 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER qua rotate(qua const& q, T const& angle, vec<3, T, Q> const& v) + { + vec<3, T, Q> Tmp = v; + + // Axis of rotation must be normalised + T len = glm::length(Tmp); + if(abs(len - static_cast(1)) > static_cast(0.001)) + { + T oneOverLen = static_cast(1) / len; + Tmp.x *= oneOverLen; + Tmp.y *= oneOverLen; + Tmp.z *= oneOverLen; + } + + T const AngleRad(angle); + T const Sin = sin(AngleRad * static_cast(0.5)); + + return q * qua(cos(AngleRad * static_cast(0.5)), Tmp.x * Sin, Tmp.y * Sin, Tmp.z * Sin); + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/ext/quaternion_trigonometric.hpp b/Vulkan/ext/include/glm/ext/quaternion_trigonometric.hpp new file mode 100644 index 0000000..76cea27 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_trigonometric.hpp @@ -0,0 +1,63 @@ +/// @ref ext_quaternion_trigonometric +/// @file glm/ext/quaternion_trigonometric.hpp +/// +/// @defgroup ext_quaternion_trigonometric GLM_EXT_quaternion_trigonometric +/// @ingroup ext +/// +/// Provides trigonometric functions for quaternion types +/// +/// Include to use the features of this extension. +/// +/// @see ext_quaternion_float +/// @see ext_quaternion_double +/// @see ext_quaternion_exponential +/// @see ext_quaternion_geometric +/// @see ext_quaternion_relational +/// @see ext_quaternion_transform + +#pragma once + +// Dependency: +#include "../trigonometric.hpp" +#include "../exponential.hpp" +#include "scalar_constants.hpp" +#include "vector_relational.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_quaternion_trigonometric extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_quaternion_trigonometric + /// @{ + + /// Returns the quaternion rotation angle. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL T angle(qua const& x); + + /// Returns the q rotation axis. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL vec<3, T, Q> axis(qua const& x); + + /// Build a quaternion from an angle and a normalized axis. + /// + /// @param angle Angle expressed in radians. + /// @param axis Axis of the quaternion, must be normalized. + /// + /// @tparam T A floating-point scalar type + /// @tparam Q A value from qualifier enum + template + GLM_FUNC_DECL qua angleAxis(T const& angle, vec<3, T, Q> const& axis); + + /// @} +} //namespace glm + +#include "quaternion_trigonometric.inl" diff --git a/Vulkan/ext/include/glm/ext/quaternion_trigonometric.inl b/Vulkan/ext/include/glm/ext/quaternion_trigonometric.inl new file mode 100644 index 0000000..06b7c4c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/quaternion_trigonometric.inl @@ -0,0 +1,34 @@ +#include "scalar_constants.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER T angle(qua const& x) + { + if (abs(x.w) > cos_one_over_two()) + { + return asin(sqrt(x.x * x.x + x.y * x.y + x.z * x.z)) * static_cast(2); + } + + return acos(x.w) * static_cast(2); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> axis(qua const& x) + { + T const tmp1 = static_cast(1) - x.w * x.w; + if(tmp1 <= static_cast(0)) + return vec<3, T, Q>(0, 0, 1); + T const tmp2 = static_cast(1) / sqrt(tmp1); + return vec<3, T, Q>(x.x * tmp2, x.y * tmp2, x.z * tmp2); + } + + template + GLM_FUNC_QUALIFIER qua angleAxis(T const& angle, vec<3, T, Q> const& v) + { + T const a(angle); + T const s = glm::sin(a * static_cast(0.5)); + + return qua(glm::cos(a * static_cast(0.5)), v * s); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/scalar_common.hpp b/Vulkan/ext/include/glm/ext/scalar_common.hpp new file mode 100644 index 0000000..aa5a180 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_common.hpp @@ -0,0 +1,157 @@ +/// @ref ext_scalar_common +/// @file glm/ext/scalar_common.hpp +/// +/// @defgroup ext_scalar_common GLM_EXT_scalar_common +/// @ingroup ext +/// +/// Exposes min and max functions for 3 to 4 scalar parameters. +/// +/// Include to use the features of this extension. +/// +/// @see core_func_common +/// @see ext_vector_common + +#pragma once + +// Dependency: +#include "../common.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_common extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_scalar_common + /// @{ + + /// Returns the minimum component-wise values of 3 inputs + /// + /// @tparam T A floating-point scalar type. + /// + /// @see ext_scalar_common + template + GLM_FUNC_DECL T min(T a, T b, T c); + + /// Returns the minimum component-wise values of 4 inputs + /// + /// @tparam T A floating-point scalar type. + /// + /// @see ext_scalar_common + template + GLM_FUNC_DECL T min(T a, T b, T c, T d); + + /// Returns the maximum component-wise values of 3 inputs + /// + /// @tparam T A floating-point scalar type. + /// + /// @see ext_scalar_common + template + GLM_FUNC_DECL T max(T a, T b, T c); + + /// Returns the maximum component-wise values of 4 inputs + /// + /// @tparam T A floating-point scalar type. + /// + /// @see ext_scalar_common + template + GLM_FUNC_DECL T max(T a, T b, T c, T d); + + /// Returns the minimum component-wise values of 2 inputs. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam T A floating-point scalar type. + /// + /// @see std::fmin documentation + /// @see ext_scalar_common + template + GLM_FUNC_DECL T fmin(T a, T b); + + /// Returns the minimum component-wise values of 3 inputs. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam T A floating-point scalar type. + /// + /// @see std::fmin documentation + /// @see ext_scalar_common + template + GLM_FUNC_DECL T fmin(T a, T b, T c); + + /// Returns the minimum component-wise values of 4 inputs. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam T A floating-point scalar type. + /// + /// @see std::fmin documentation + /// @see ext_scalar_common + template + GLM_FUNC_DECL T fmin(T a, T b, T c, T d); + + /// Returns the maximum component-wise values of 2 inputs. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam T A floating-point scalar type. + /// + /// @see std::fmax documentation + /// @see ext_scalar_common + template + GLM_FUNC_DECL T fmax(T a, T b); + + /// Returns the maximum component-wise values of 3 inputs. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam T A floating-point scalar type. + /// + /// @see std::fmax documentation + /// @see ext_scalar_common + template + GLM_FUNC_DECL T fmax(T a, T b, T C); + + /// Returns the maximum component-wise values of 4 inputs. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam T A floating-point scalar type. + /// + /// @see std::fmax documentation + /// @see ext_scalar_common + template + GLM_FUNC_DECL T fmax(T a, T b, T C, T D); + + /// Returns min(max(x, minVal), maxVal) for each component in x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam genType Floating-point scalar types. + /// + /// @see ext_scalar_common + template + GLM_FUNC_DECL genType fclamp(genType x, genType minVal, genType maxVal); + + /// Simulate GL_CLAMP OpenGL wrap mode + /// + /// @tparam genType Floating-point scalar types. + /// + /// @see ext_scalar_common extension. + template + GLM_FUNC_DECL genType clamp(genType const& Texcoord); + + /// Simulate GL_REPEAT OpenGL wrap mode + /// + /// @tparam genType Floating-point scalar types. + /// + /// @see ext_scalar_common extension. + template + GLM_FUNC_DECL genType repeat(genType const& Texcoord); + + /// Simulate GL_MIRRORED_REPEAT OpenGL wrap mode + /// + /// @tparam genType Floating-point scalar types. + /// + /// @see ext_scalar_common extension. + template + GLM_FUNC_DECL genType mirrorClamp(genType const& Texcoord); + + /// Simulate GL_MIRROR_REPEAT OpenGL wrap mode + /// + /// @tparam genType Floating-point scalar types. + /// + /// @see ext_scalar_common extension. + template + GLM_FUNC_DECL genType mirrorRepeat(genType const& Texcoord); + + /// @} +}//namespace glm + +#include "scalar_common.inl" diff --git a/Vulkan/ext/include/glm/ext/scalar_common.inl b/Vulkan/ext/include/glm/ext/scalar_common.inl new file mode 100644 index 0000000..7d9207a --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_common.inl @@ -0,0 +1,152 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER T min(T a, T b, T c) + { + return glm::min(glm::min(a, b), c); + } + + template + GLM_FUNC_QUALIFIER T min(T a, T b, T c, T d) + { + return glm::min(glm::min(a, b), glm::min(c, d)); + } + + template + GLM_FUNC_QUALIFIER T max(T a, T b, T c) + { + return glm::max(glm::max(a, b), c); + } + + template + GLM_FUNC_QUALIFIER T max(T a, T b, T c, T d) + { + return glm::max(glm::max(a, b), glm::max(c, d)); + } + +# if GLM_HAS_CXX11_STL + using std::fmin; +# else + template + GLM_FUNC_QUALIFIER T fmin(T a, T b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmin' only accept floating-point input"); + + if (isnan(a)) + return b; + return min(a, b); + } +# endif + + template + GLM_FUNC_QUALIFIER T fmin(T a, T b, T c) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmin' only accept floating-point input"); + + if (isnan(a)) + return fmin(b, c); + if (isnan(b)) + return fmin(a, c); + if (isnan(c)) + return min(a, b); + return min(a, b, c); + } + + template + GLM_FUNC_QUALIFIER T fmin(T a, T b, T c, T d) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmin' only accept floating-point input"); + + if (isnan(a)) + return fmin(b, c, d); + if (isnan(b)) + return min(a, fmin(c, d)); + if (isnan(c)) + return fmin(min(a, b), d); + if (isnan(d)) + return min(a, b, c); + return min(a, b, c, d); + } + + +# if GLM_HAS_CXX11_STL + using std::fmax; +# else + template + GLM_FUNC_QUALIFIER T fmax(T a, T b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmax' only accept floating-point input"); + + if (isnan(a)) + return b; + return max(a, b); + } +# endif + + template + GLM_FUNC_QUALIFIER T fmax(T a, T b, T c) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmax' only accept floating-point input"); + + if (isnan(a)) + return fmax(b, c); + if (isnan(b)) + return fmax(a, c); + if (isnan(c)) + return max(a, b); + return max(a, b, c); + } + + template + GLM_FUNC_QUALIFIER T fmax(T a, T b, T c, T d) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmax' only accept floating-point input"); + + if (isnan(a)) + return fmax(b, c, d); + if (isnan(b)) + return max(a, fmax(c, d)); + if (isnan(c)) + return fmax(max(a, b), d); + if (isnan(d)) + return max(a, b, c); + return max(a, b, c, d); + } + + // fclamp + template + GLM_FUNC_QUALIFIER genType fclamp(genType x, genType minVal, genType maxVal) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fclamp' only accept floating-point or integer inputs"); + return fmin(fmax(x, minVal), maxVal); + } + + template + GLM_FUNC_QUALIFIER genType clamp(genType const& Texcoord) + { + return glm::clamp(Texcoord, static_cast(0), static_cast(1)); + } + + template + GLM_FUNC_QUALIFIER genType repeat(genType const& Texcoord) + { + return glm::fract(Texcoord); + } + + template + GLM_FUNC_QUALIFIER genType mirrorClamp(genType const& Texcoord) + { + return glm::fract(glm::abs(Texcoord)); + } + + template + GLM_FUNC_QUALIFIER genType mirrorRepeat(genType const& Texcoord) + { + genType const Abs = glm::abs(Texcoord); + genType const Clamp = glm::mod(glm::floor(Abs), static_cast(2)); + genType const Floor = glm::floor(Abs); + genType const Rest = Abs - Floor; + genType const Mirror = Clamp + Rest; + return mix(Rest, static_cast(1) - Rest, Mirror >= static_cast(1)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/scalar_constants.hpp b/Vulkan/ext/include/glm/ext/scalar_constants.hpp new file mode 100644 index 0000000..74e210d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_constants.hpp @@ -0,0 +1,40 @@ +/// @ref ext_scalar_constants +/// @file glm/ext/scalar_constants.hpp +/// +/// @defgroup ext_scalar_constants GLM_EXT_scalar_constants +/// @ingroup ext +/// +/// Provides a list of constants and precomputed useful values. +/// +/// Include to use the features of this extension. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_constants extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_scalar_constants + /// @{ + + /// Return the epsilon constant for floating point types. + template + GLM_FUNC_DECL GLM_CONSTEXPR genType epsilon(); + + /// Return the pi constant for floating point types. + template + GLM_FUNC_DECL GLM_CONSTEXPR genType pi(); + + /// Return the value of cos(1 / 2) for floating point types. + template + GLM_FUNC_DECL GLM_CONSTEXPR genType cos_one_over_two(); + + /// @} +} //namespace glm + +#include "scalar_constants.inl" diff --git a/Vulkan/ext/include/glm/ext/scalar_constants.inl b/Vulkan/ext/include/glm/ext/scalar_constants.inl new file mode 100644 index 0000000..b475adf --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_constants.inl @@ -0,0 +1,24 @@ +#include + +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType epsilon() + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'epsilon' only accepts floating-point inputs"); + return std::numeric_limits::epsilon(); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType pi() + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'pi' only accepts floating-point inputs"); + return static_cast(3.14159265358979323846264338327950288); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType cos_one_over_two() + { + return genType(0.877582561890372716130286068203503191); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/ext/scalar_int_sized.hpp b/Vulkan/ext/include/glm/ext/scalar_int_sized.hpp new file mode 100644 index 0000000..8e9c511 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_int_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_scalar_int_sized +/// @file glm/ext/scalar_int_sized.hpp +/// +/// @defgroup ext_scalar_int_sized GLM_EXT_scalar_int_sized +/// @ingroup ext +/// +/// Exposes sized signed integer scalar types. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_uint_sized + +#pragma once + +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_int_sized extension included") +#endif + +namespace glm{ +namespace detail +{ +# if GLM_HAS_EXTENDED_INTEGER_TYPE + typedef std::int8_t int8; + typedef std::int16_t int16; + typedef std::int32_t int32; +# else + typedef signed char int8; + typedef signed short int16; + typedef signed int int32; +#endif// + + template<> + struct is_int + { + enum test {value = ~0}; + }; + + template<> + struct is_int + { + enum test {value = ~0}; + }; + + template<> + struct is_int + { + enum test {value = ~0}; + }; +}//namespace detail + + + /// @addtogroup ext_scalar_int_sized + /// @{ + + /// 8 bit signed integer type. + typedef detail::int8 int8; + + /// 16 bit signed integer type. + typedef detail::int16 int16; + + /// 32 bit signed integer type. + typedef detail::int32 int32; + + /// 64 bit signed integer type. + typedef detail::int64 int64; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/scalar_integer.hpp b/Vulkan/ext/include/glm/ext/scalar_integer.hpp new file mode 100644 index 0000000..a2ca8a2 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_integer.hpp @@ -0,0 +1,92 @@ +/// @ref ext_scalar_integer +/// @file glm/ext/scalar_integer.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_scalar_integer GLM_EXT_scalar_integer +/// @ingroup ext +/// +/// Include to use the features of this extension. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/_vectorize.hpp" +#include "../detail/type_float.hpp" +#include "../vector_relational.hpp" +#include "../common.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_integer extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_scalar_integer + /// @{ + + /// Return true if the value is a power of two number. + /// + /// @see ext_scalar_integer + template + GLM_FUNC_DECL bool isPowerOfTwo(genIUType v); + + /// Return the power of two number which value is just higher the input value, + /// round up to a power of two. + /// + /// @see ext_scalar_integer + template + GLM_FUNC_DECL genIUType nextPowerOfTwo(genIUType v); + + /// Return the power of two number which value is just lower the input value, + /// round down to a power of two. + /// + /// @see ext_scalar_integer + template + GLM_FUNC_DECL genIUType prevPowerOfTwo(genIUType v); + + /// Return true if the 'Value' is a multiple of 'Multiple'. + /// + /// @see ext_scalar_integer + template + GLM_FUNC_DECL bool isMultiple(genIUType v, genIUType Multiple); + + /// Higher multiple number of Source. + /// + /// @tparam genIUType Integer scalar or vector types. + /// + /// @param v Source value to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see ext_scalar_integer + template + GLM_FUNC_DECL genIUType nextMultiple(genIUType v, genIUType Multiple); + + /// Lower multiple number of Source. + /// + /// @tparam genIUType Integer scalar or vector types. + /// + /// @param v Source value to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see ext_scalar_integer + template + GLM_FUNC_DECL genIUType prevMultiple(genIUType v, genIUType Multiple); + + /// Returns the bit number of the Nth significant bit set to + /// 1 in the binary representation of value. + /// If value bitcount is less than the Nth significant bit, -1 will be returned. + /// + /// @tparam genIUType Signed or unsigned integer scalar types. + /// + /// @see ext_scalar_integer + template + GLM_FUNC_DECL int findNSB(genIUType x, int significantBitCount); + + /// @} +} //namespace glm + +#include "scalar_integer.inl" diff --git a/Vulkan/ext/include/glm/ext/scalar_integer.inl b/Vulkan/ext/include/glm/ext/scalar_integer.inl new file mode 100644 index 0000000..efba960 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_integer.inl @@ -0,0 +1,243 @@ +#include "../integer.hpp" + +namespace glm{ +namespace detail +{ + template + struct compute_ceilShift + { + GLM_FUNC_QUALIFIER static vec call(vec const& v, T) + { + return v; + } + }; + + template + struct compute_ceilShift + { + GLM_FUNC_QUALIFIER static vec call(vec const& v, T Shift) + { + return v | (v >> Shift); + } + }; + + template + struct compute_ceilPowerOfTwo + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + GLM_STATIC_ASSERT(!std::numeric_limits::is_iec559, "'ceilPowerOfTwo' only accept integer scalar or vector inputs"); + + vec const Sign(sign(x)); + + vec v(abs(x)); + + v = v - static_cast(1); + v = v | (v >> static_cast(1)); + v = v | (v >> static_cast(2)); + v = v | (v >> static_cast(4)); + v = compute_ceilShift= 2>::call(v, 8); + v = compute_ceilShift= 4>::call(v, 16); + v = compute_ceilShift= 8>::call(v, 32); + return (v + static_cast(1)) * Sign; + } + }; + + template + struct compute_ceilPowerOfTwo + { + GLM_FUNC_QUALIFIER static vec call(vec const& x) + { + GLM_STATIC_ASSERT(!std::numeric_limits::is_iec559, "'ceilPowerOfTwo' only accept integer scalar or vector inputs"); + + vec v(x); + + v = v - static_cast(1); + v = v | (v >> static_cast(1)); + v = v | (v >> static_cast(2)); + v = v | (v >> static_cast(4)); + v = compute_ceilShift= 2>::call(v, 8); + v = compute_ceilShift= 4>::call(v, 16); + v = compute_ceilShift= 8>::call(v, 32); + return v + static_cast(1); + } + }; + + template + struct compute_ceilMultiple{}; + + template<> + struct compute_ceilMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + if(Source > genType(0)) + return Source + (Multiple - std::fmod(Source, Multiple)); + else + return Source + std::fmod(-Source, Multiple); + } + }; + + template<> + struct compute_ceilMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + genType Tmp = Source - genType(1); + return Tmp + (Multiple - (Tmp % Multiple)); + } + }; + + template<> + struct compute_ceilMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + assert(Multiple > genType(0)); + if(Source > genType(0)) + { + genType Tmp = Source - genType(1); + return Tmp + (Multiple - (Tmp % Multiple)); + } + else + return Source + (-Source % Multiple); + } + }; + + template + struct compute_floorMultiple{}; + + template<> + struct compute_floorMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + if(Source >= genType(0)) + return Source - std::fmod(Source, Multiple); + else + return Source - std::fmod(Source, Multiple) - Multiple; + } + }; + + template<> + struct compute_floorMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + if(Source >= genType(0)) + return Source - Source % Multiple; + else + { + genType Tmp = Source + genType(1); + return Tmp - Tmp % Multiple - Multiple; + } + } + }; + + template<> + struct compute_floorMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + if(Source >= genType(0)) + return Source - Source % Multiple; + else + { + genType Tmp = Source + genType(1); + return Tmp - Tmp % Multiple - Multiple; + } + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER bool isPowerOfTwo(genIUType Value) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'isPowerOfTwo' only accept integer inputs"); + + genIUType const Result = glm::abs(Value); + return !(Result & (Result - 1)); + } + + template + GLM_FUNC_QUALIFIER genIUType nextPowerOfTwo(genIUType value) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'nextPowerOfTwo' only accept integer inputs"); + + return detail::compute_ceilPowerOfTwo<1, genIUType, defaultp, std::numeric_limits::is_signed>::call(vec<1, genIUType, defaultp>(value)).x; + } + + template + GLM_FUNC_QUALIFIER genIUType prevPowerOfTwo(genIUType value) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'prevPowerOfTwo' only accept integer inputs"); + + return isPowerOfTwo(value) ? value : static_cast(static_cast(1) << static_cast(findMSB(value))); + } + + template + GLM_FUNC_QUALIFIER bool isMultiple(genIUType Value, genIUType Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'isMultiple' only accept integer inputs"); + + return isMultiple(vec<1, genIUType>(Value), vec<1, genIUType>(Multiple)).x; + } + + template + GLM_FUNC_QUALIFIER genIUType nextMultiple(genIUType Source, genIUType Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'nextMultiple' only accept integer inputs"); + + return detail::compute_ceilMultiple::is_iec559, std::numeric_limits::is_signed>::call(Source, Multiple); + } + + template + GLM_FUNC_QUALIFIER genIUType prevMultiple(genIUType Source, genIUType Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'prevMultiple' only accept integer inputs"); + + return detail::compute_floorMultiple::is_iec559, std::numeric_limits::is_signed>::call(Source, Multiple); + } + + template + GLM_FUNC_QUALIFIER int findNSB(genIUType x, int significantBitCount) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'findNSB' only accept integer inputs"); + + if(bitCount(x) < significantBitCount) + return -1; + + genIUType const One = static_cast(1); + int bitPos = 0; + + genIUType key = x; + int nBitCount = significantBitCount; + int Step = sizeof(x) * 8 / 2; + while (key > One) + { + genIUType Mask = static_cast((One << Step) - One); + genIUType currentKey = key & Mask; + int currentBitCount = bitCount(currentKey); + if (nBitCount > currentBitCount) + { + nBitCount -= currentBitCount; + bitPos += Step; + key >>= static_cast(Step); + } + else + { + key = key & Mask; + } + + Step >>= 1; + } + + return static_cast(bitPos); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/scalar_packing.hpp b/Vulkan/ext/include/glm/ext/scalar_packing.hpp new file mode 100644 index 0000000..18b85b7 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_packing.hpp @@ -0,0 +1,32 @@ +/// @ref ext_scalar_packing +/// @file glm/ext/scalar_packing.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_scalar_packing GLM_EXT_scalar_packing +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// This extension provides a set of function to convert scalar values to packed +/// formats. + +#pragma once + +// Dependency: +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_packing extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_scalar_packing + /// @{ + + + /// @} +}// namespace glm + +#include "scalar_packing.inl" diff --git a/Vulkan/ext/include/glm/ext/scalar_packing.inl b/Vulkan/ext/include/glm/ext/scalar_packing.inl new file mode 100644 index 0000000..e69de29 diff --git a/Vulkan/ext/include/glm/ext/scalar_relational.hpp b/Vulkan/ext/include/glm/ext/scalar_relational.hpp new file mode 100644 index 0000000..3076a5e --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_relational.hpp @@ -0,0 +1,65 @@ +/// @ref ext_scalar_relational +/// @file glm/ext/scalar_relational.hpp +/// +/// @defgroup ext_scalar_relational GLM_EXT_scalar_relational +/// @ingroup ext +/// +/// Exposes comparison functions for scalar types that take a user defined epsilon values. +/// +/// Include to use the features of this extension. +/// +/// @see core_vector_relational +/// @see ext_vector_relational +/// @see ext_matrix_relational + +#pragma once + +// Dependencies +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_relational extension included") +#endif + +namespace glm +{ + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is satisfied. + /// + /// @tparam genType Floating-point or integer scalar types + template + GLM_FUNC_DECL GLM_CONSTEXPR bool equal(genType const& x, genType const& y, genType const& epsilon); + + /// Returns the component-wise comparison of |x - y| >= epsilon. + /// True if this expression is not satisfied. + /// + /// @tparam genType Floating-point or integer scalar types + template + GLM_FUNC_DECL GLM_CONSTEXPR bool notEqual(genType const& x, genType const& y, genType const& epsilon); + + /// Returns the component-wise comparison between two scalars in term of ULPs. + /// True if this expression is satisfied. + /// + /// @param x First operand. + /// @param y Second operand. + /// @param ULPs Maximum difference in ULPs between the two operators to consider them equal. + /// + /// @tparam genType Floating-point or integer scalar types + template + GLM_FUNC_DECL GLM_CONSTEXPR bool equal(genType const& x, genType const& y, int ULPs); + + /// Returns the component-wise comparison between two scalars in term of ULPs. + /// True if this expression is not satisfied. + /// + /// @param x First operand. + /// @param y Second operand. + /// @param ULPs Maximum difference in ULPs between the two operators to consider them not equal. + /// + /// @tparam genType Floating-point or integer scalar types + template + GLM_FUNC_DECL GLM_CONSTEXPR bool notEqual(genType const& x, genType const& y, int ULPs); + + /// @} +}//namespace glm + +#include "scalar_relational.inl" diff --git a/Vulkan/ext/include/glm/ext/scalar_relational.inl b/Vulkan/ext/include/glm/ext/scalar_relational.inl new file mode 100644 index 0000000..c85583e --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_relational.inl @@ -0,0 +1,40 @@ +#include "../common.hpp" +#include "../ext/scalar_int_sized.hpp" +#include "../ext/scalar_uint_sized.hpp" +#include "../detail/type_float.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool equal(genType const& x, genType const& y, genType const& epsilon) + { + return abs(x - y) <= epsilon; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool notEqual(genType const& x, genType const& y, genType const& epsilon) + { + return abs(x - y) > epsilon; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool equal(genType const& x, genType const& y, int MaxULPs) + { + detail::float_t const a(x); + detail::float_t const b(y); + + // Different signs means they do not match. + if(a.negative() != b.negative()) + return false; + + // Find the difference in ULPs. + typename detail::float_t::int_type const DiffULPs = abs(a.i - b.i); + return DiffULPs <= MaxULPs; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR bool notEqual(genType const& x, genType const& y, int ULPs) + { + return !equal(x, y, ULPs); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/scalar_uint_sized.hpp b/Vulkan/ext/include/glm/ext/scalar_uint_sized.hpp new file mode 100644 index 0000000..fd5267f --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_uint_sized.hpp @@ -0,0 +1,70 @@ +/// @ref ext_scalar_uint_sized +/// @file glm/ext/scalar_uint_sized.hpp +/// +/// @defgroup ext_scalar_uint_sized GLM_EXT_scalar_uint_sized +/// @ingroup ext +/// +/// Exposes sized unsigned integer scalar types. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_int_sized + +#pragma once + +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_uint_sized extension included") +#endif + +namespace glm{ +namespace detail +{ +# if GLM_HAS_EXTENDED_INTEGER_TYPE + typedef std::uint8_t uint8; + typedef std::uint16_t uint16; + typedef std::uint32_t uint32; +# else + typedef unsigned char uint8; + typedef unsigned short uint16; + typedef unsigned int uint32; +#endif + + template<> + struct is_int + { + enum test {value = ~0}; + }; + + template<> + struct is_int + { + enum test {value = ~0}; + }; + + template<> + struct is_int + { + enum test {value = ~0}; + }; +}//namespace detail + + + /// @addtogroup ext_scalar_uint_sized + /// @{ + + /// 8 bit unsigned integer type. + typedef detail::uint8 uint8; + + /// 16 bit unsigned integer type. + typedef detail::uint16 uint16; + + /// 32 bit unsigned integer type. + typedef detail::uint32 uint32; + + /// 64 bit unsigned integer type. + typedef detail::uint64 uint64; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/scalar_ulp.hpp b/Vulkan/ext/include/glm/ext/scalar_ulp.hpp new file mode 100644 index 0000000..941ada3 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_ulp.hpp @@ -0,0 +1,74 @@ +/// @ref ext_scalar_ulp +/// @file glm/ext/scalar_ulp.hpp +/// +/// @defgroup ext_scalar_ulp GLM_EXT_scalar_ulp +/// @ingroup ext +/// +/// Allow the measurement of the accuracy of a function against a reference +/// implementation. This extension works on floating-point data and provide results +/// in ULP. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_ulp +/// @see ext_scalar_relational + +#pragma once + +// Dependencies +#include "../ext/scalar_int_sized.hpp" +#include "../common.hpp" +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_scalar_ulp extension included") +#endif + +namespace glm +{ + /// Return the next ULP value(s) after the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL genType nextFloat(genType x); + + /// Return the previous ULP value(s) before the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL genType prevFloat(genType x); + + /// Return the value(s) ULP distance after the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL genType nextFloat(genType x, int ULPs); + + /// Return the value(s) ULP distance before the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL genType prevFloat(genType x, int ULPs); + + /// Return the distance in the number of ULP between 2 single-precision floating-point scalars. + /// + /// @see ext_scalar_ulp + GLM_FUNC_DECL int floatDistance(float x, float y); + + /// Return the distance in the number of ULP between 2 double-precision floating-point scalars. + /// + /// @see ext_scalar_ulp + GLM_FUNC_DECL int64 floatDistance(double x, double y); + + /// @} +}//namespace glm + +#include "scalar_ulp.inl" diff --git a/Vulkan/ext/include/glm/ext/scalar_ulp.inl b/Vulkan/ext/include/glm/ext/scalar_ulp.inl new file mode 100644 index 0000000..308df15 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/scalar_ulp.inl @@ -0,0 +1,284 @@ +/// Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved. +/// +/// Developed at SunPro, a Sun Microsystems, Inc. business. +/// Permission to use, copy, modify, and distribute this +/// software is freely granted, provided that this notice +/// is preserved. + +#include "../detail/type_float.hpp" +#include "../ext/scalar_constants.hpp" +#include +#include + +#if(GLM_COMPILER & GLM_COMPILER_VC) +# pragma warning(push) +# pragma warning(disable : 4127) +#endif + +typedef union +{ + float value; + /* FIXME: Assumes 32 bit int. */ + unsigned int word; +} ieee_float_shape_type; + +typedef union +{ + double value; + struct + { + int lsw; + int msw; + } parts; +} ieee_double_shape_type; + +#define GLM_EXTRACT_WORDS(ix0,ix1,d) \ + do { \ + ieee_double_shape_type ew_u; \ + ew_u.value = (d); \ + (ix0) = ew_u.parts.msw; \ + (ix1) = ew_u.parts.lsw; \ + } while (0) + +#define GLM_GET_FLOAT_WORD(i,d) \ + do { \ + ieee_float_shape_type gf_u; \ + gf_u.value = (d); \ + (i) = gf_u.word; \ + } while (0) + +#define GLM_SET_FLOAT_WORD(d,i) \ + do { \ + ieee_float_shape_type sf_u; \ + sf_u.word = (i); \ + (d) = sf_u.value; \ + } while (0) + +#define GLM_INSERT_WORDS(d,ix0,ix1) \ + do { \ + ieee_double_shape_type iw_u; \ + iw_u.parts.msw = (ix0); \ + iw_u.parts.lsw = (ix1); \ + (d) = iw_u.value; \ + } while (0) + +namespace glm{ +namespace detail +{ + GLM_FUNC_QUALIFIER float nextafterf(float x, float y) + { + volatile float t; + int hx, hy, ix, iy; + + GLM_GET_FLOAT_WORD(hx, x); + GLM_GET_FLOAT_WORD(hy, y); + ix = hx & 0x7fffffff; // |x| + iy = hy & 0x7fffffff; // |y| + + if((ix > 0x7f800000) || // x is nan + (iy > 0x7f800000)) // y is nan + return x + y; + if(abs(y - x) <= epsilon()) + return y; // x=y, return y + if(ix == 0) + { // x == 0 + GLM_SET_FLOAT_WORD(x, (hy & 0x80000000) | 1);// return +-minsubnormal + t = x * x; + if(abs(t - x) <= epsilon()) + return t; + else + return x; // raise underflow flag + } + if(hx >= 0) + { // x > 0 + if(hx > hy) // x > y, x -= ulp + hx -= 1; + else // x < y, x += ulp + hx += 1; + } + else + { // x < 0 + if(hy >= 0 || hx > hy) // x < y, x -= ulp + hx -= 1; + else // x > y, x += ulp + hx += 1; + } + hy = hx & 0x7f800000; + if(hy >= 0x7f800000) + return x + x; // overflow + if(hy < 0x00800000) // underflow + { + t = x * x; + if(abs(t - x) > epsilon()) + { // raise underflow flag + GLM_SET_FLOAT_WORD(y, hx); + return y; + } + } + GLM_SET_FLOAT_WORD(x, hx); + return x; + } + + GLM_FUNC_QUALIFIER double nextafter(double x, double y) + { + volatile double t; + int hx, hy, ix, iy; + unsigned int lx, ly; + + GLM_EXTRACT_WORDS(hx, lx, x); + GLM_EXTRACT_WORDS(hy, ly, y); + ix = hx & 0x7fffffff; // |x| + iy = hy & 0x7fffffff; // |y| + + if(((ix >= 0x7ff00000) && ((ix - 0x7ff00000) | lx) != 0) || // x is nan + ((iy >= 0x7ff00000) && ((iy - 0x7ff00000) | ly) != 0)) // y is nan + return x + y; + if(abs(y - x) <= epsilon()) + return y; // x=y, return y + if((ix | lx) == 0) + { // x == 0 + GLM_INSERT_WORDS(x, hy & 0x80000000, 1); // return +-minsubnormal + t = x * x; + if(abs(t - x) <= epsilon()) + return t; + else + return x; // raise underflow flag + } + if(hx >= 0) { // x > 0 + if(hx > hy || ((hx == hy) && (lx > ly))) { // x > y, x -= ulp + if(lx == 0) hx -= 1; + lx -= 1; + } + else { // x < y, x += ulp + lx += 1; + if(lx == 0) hx += 1; + } + } + else { // x < 0 + if(hy >= 0 || hx > hy || ((hx == hy) && (lx > ly))){// x < y, x -= ulp + if(lx == 0) hx -= 1; + lx -= 1; + } + else { // x > y, x += ulp + lx += 1; + if(lx == 0) hx += 1; + } + } + hy = hx & 0x7ff00000; + if(hy >= 0x7ff00000) + return x + x; // overflow + if(hy < 0x00100000) + { // underflow + t = x * x; + if(abs(t - x) > epsilon()) + { // raise underflow flag + GLM_INSERT_WORDS(y, hx, lx); + return y; + } + } + GLM_INSERT_WORDS(x, hx, lx); + return x; + } +}//namespace detail +}//namespace glm + +#if(GLM_COMPILER & GLM_COMPILER_VC) +# pragma warning(pop) +#endif + +namespace glm +{ + template<> + GLM_FUNC_QUALIFIER float nextFloat(float x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::max()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return detail::nextafterf(x, FLT_MAX); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafterf(x, FLT_MAX); +# else + return nextafterf(x, FLT_MAX); +# endif + } + + template<> + GLM_FUNC_QUALIFIER double nextFloat(double x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::max()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return detail::nextafter(x, std::numeric_limits::max()); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafter(x, DBL_MAX); +# else + return nextafter(x, DBL_MAX); +# endif + } + + template + GLM_FUNC_QUALIFIER T nextFloat(T x, int ULPs) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'next_float' only accept floating-point input"); + assert(ULPs >= 0); + + T temp = x; + for(int i = 0; i < ULPs; ++i) + temp = nextFloat(temp); + return temp; + } + + GLM_FUNC_QUALIFIER float prevFloat(float x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::min()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return detail::nextafterf(x, FLT_MIN); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafterf(x, FLT_MIN); +# else + return nextafterf(x, FLT_MIN); +# endif + } + + GLM_FUNC_QUALIFIER double prevFloat(double x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::min()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return _nextafter(x, DBL_MIN); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafter(x, DBL_MIN); +# else + return nextafter(x, DBL_MIN); +# endif + } + + template + GLM_FUNC_QUALIFIER T prevFloat(T x, int ULPs) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'prev_float' only accept floating-point input"); + assert(ULPs >= 0); + + T temp = x; + for(int i = 0; i < ULPs; ++i) + temp = prevFloat(temp); + return temp; + } + + GLM_FUNC_QUALIFIER int floatDistance(float x, float y) + { + detail::float_t const a(x); + detail::float_t const b(y); + + return abs(a.i - b.i); + } + + GLM_FUNC_QUALIFIER int64 floatDistance(double x, double y) + { + detail::float_t const a(x); + detail::float_t const b(y); + + return abs(a.i - b.i); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool1.hpp b/Vulkan/ext/include/glm/ext/vector_bool1.hpp new file mode 100644 index 0000000..002c320 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool1.hpp @@ -0,0 +1,30 @@ +/// @ref ext_vector_bool1 +/// @file glm/ext/vector_bool1.hpp +/// +/// @defgroup ext_vector_bool1 GLM_EXT_vector_bool1 +/// @ingroup ext +/// +/// Exposes bvec1 vector type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_bool1_precision extension. + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_bool1 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_bool1 + /// @{ + + /// 1 components vector of boolean. + typedef vec<1, bool, defaultp> bvec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool1_precision.hpp b/Vulkan/ext/include/glm/ext/vector_bool1_precision.hpp new file mode 100644 index 0000000..e62d3cf --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool1_precision.hpp @@ -0,0 +1,34 @@ +/// @ref ext_vector_bool1_precision +/// @file glm/ext/vector_bool1_precision.hpp +/// +/// @defgroup ext_vector_bool1_precision GLM_EXT_vector_bool1_precision +/// @ingroup ext +/// +/// Exposes highp_bvec1, mediump_bvec1 and lowp_bvec1 types. +/// +/// Include to use the features of this extension. + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_bool1_precision extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_bool1_precision + /// @{ + + /// 1 component vector of bool values. + typedef vec<1, bool, highp> highp_bvec1; + + /// 1 component vector of bool values. + typedef vec<1, bool, mediump> mediump_bvec1; + + /// 1 component vector of bool values. + typedef vec<1, bool, lowp> lowp_bvec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool2.hpp b/Vulkan/ext/include/glm/ext/vector_bool2.hpp new file mode 100644 index 0000000..52288b7 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_bool2.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 2 components vector of boolean. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<2, bool, defaultp> bvec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool2_precision.hpp b/Vulkan/ext/include/glm/ext/vector_bool2_precision.hpp new file mode 100644 index 0000000..4370933 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool2_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/vector_bool2_precision.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 2 components vector of high qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, bool, highp> highp_bvec2; + + /// 2 components vector of medium qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, bool, mediump> mediump_bvec2; + + /// 2 components vector of low qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, bool, lowp> lowp_bvec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool3.hpp b/Vulkan/ext/include/glm/ext/vector_bool3.hpp new file mode 100644 index 0000000..90a0b7e --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_bool3.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 3 components vector of boolean. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<3, bool, defaultp> bvec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool3_precision.hpp b/Vulkan/ext/include/glm/ext/vector_bool3_precision.hpp new file mode 100644 index 0000000..89cd2d3 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool3_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/vector_bool3_precision.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 3 components vector of high qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, bool, highp> highp_bvec3; + + /// 3 components vector of medium qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, bool, mediump> mediump_bvec3; + + /// 3 components vector of low qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, bool, lowp> lowp_bvec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool4.hpp b/Vulkan/ext/include/glm/ext/vector_bool4.hpp new file mode 100644 index 0000000..18aa71b --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_bool4.hpp + +#pragma once +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 4 components vector of boolean. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<4, bool, defaultp> bvec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_bool4_precision.hpp b/Vulkan/ext/include/glm/ext/vector_bool4_precision.hpp new file mode 100644 index 0000000..79786e5 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_bool4_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/vector_bool4_precision.hpp + +#pragma once +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 4 components vector of high qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, bool, highp> highp_bvec4; + + /// 4 components vector of medium qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, bool, mediump> mediump_bvec4; + + /// 4 components vector of low qualifier bool numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, bool, lowp> lowp_bvec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_common.hpp b/Vulkan/ext/include/glm/ext/vector_common.hpp new file mode 100644 index 0000000..521ec01 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_common.hpp @@ -0,0 +1,204 @@ +/// @ref ext_vector_common +/// @file glm/ext/vector_common.hpp +/// +/// @defgroup ext_vector_common GLM_EXT_vector_common +/// @ingroup ext +/// +/// Exposes min and max functions for 3 to 4 vector parameters. +/// +/// Include to use the features of this extension. +/// +/// @see core_common +/// @see ext_scalar_common + +#pragma once + +// Dependency: +#include "../ext/scalar_common.hpp" +#include "../common.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_common extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_common + /// @{ + + /// Return the minimum component-wise values of 3 inputs + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec min(vec const& a, vec const& b, vec const& c); + + /// Return the minimum component-wise values of 4 inputs + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec min(vec const& a, vec const& b, vec const& c, vec const& d); + + /// Return the maximum component-wise values of 3 inputs + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec max(vec const& x, vec const& y, vec const& z); + + /// Return the maximum component-wise values of 4 inputs + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec max( vec const& x, vec const& y, vec const& z, vec const& w); + + /// Returns y if y < x; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmin documentation + template + GLM_FUNC_DECL vec fmin(vec const& x, T y); + + /// Returns y if y < x; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmin documentation + template + GLM_FUNC_DECL vec fmin(vec const& x, vec const& y); + + /// Returns y if y < x; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmin documentation + template + GLM_FUNC_DECL vec fmin(vec const& a, vec const& b, vec const& c); + + /// Returns y if y < x; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmin documentation + template + GLM_FUNC_DECL vec fmin(vec const& a, vec const& b, vec const& c, vec const& d); + + /// Returns y if x < y; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmax documentation + template + GLM_FUNC_DECL vec fmax(vec const& a, T b); + + /// Returns y if x < y; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmax documentation + template + GLM_FUNC_DECL vec fmax(vec const& a, vec const& b); + + /// Returns y if x < y; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmax documentation + template + GLM_FUNC_DECL vec fmax(vec const& a, vec const& b, vec const& c); + + /// Returns y if x < y; otherwise, it returns x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see std::fmax documentation + template + GLM_FUNC_DECL vec fmax(vec const& a, vec const& b, vec const& c, vec const& d); + + /// Returns min(max(x, minVal), maxVal) for each component in x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_common + template + GLM_FUNC_DECL vec fclamp(vec const& x, T minVal, T maxVal); + + /// Returns min(max(x, minVal), maxVal) for each component in x. If one of the two arguments is NaN, the value of the other argument is returned. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_common + template + GLM_FUNC_DECL vec fclamp(vec const& x, vec const& minVal, vec const& maxVal); + + /// Simulate GL_CLAMP OpenGL wrap mode + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_common extension. + template + GLM_FUNC_DECL vec clamp(vec const& Texcoord); + + /// Simulate GL_REPEAT OpenGL wrap mode + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_common extension. + template + GLM_FUNC_DECL vec repeat(vec const& Texcoord); + + /// Simulate GL_MIRRORED_REPEAT OpenGL wrap mode + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_common extension. + template + GLM_FUNC_DECL vec mirrorClamp(vec const& Texcoord); + + /// Simulate GL_MIRROR_REPEAT OpenGL wrap mode + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_common extension. + template + GLM_FUNC_DECL vec mirrorRepeat(vec const& Texcoord); + + /// @} +}//namespace glm + +#include "vector_common.inl" diff --git a/Vulkan/ext/include/glm/ext/vector_common.inl b/Vulkan/ext/include/glm/ext/vector_common.inl new file mode 100644 index 0000000..e2747be --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_common.inl @@ -0,0 +1,129 @@ +#include "../detail/_vectorize.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec min(vec const& x, vec const& y, vec const& z) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'min' only accept floating-point or integer inputs"); + return glm::min(glm::min(x, y), z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec min(vec const& x, vec const& y, vec const& z, vec const& w) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'min' only accept floating-point or integer inputs"); + return glm::min(glm::min(x, y), glm::min(z, w)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec max(vec const& x, vec const& y, vec const& z) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'max' only accept floating-point or integer inputs"); + return glm::max(glm::max(x, y), z); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec max(vec const& x, vec const& y, vec const& z, vec const& w) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'max' only accept floating-point or integer inputs"); + return glm::max(glm::max(x, y), glm::max(z, w)); + } + + template + GLM_FUNC_QUALIFIER vec fmin(vec const& a, T b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmin' only accept floating-point inputs"); + return detail::functor2::call(fmin, a, vec(b)); + } + + template + GLM_FUNC_QUALIFIER vec fmin(vec const& a, vec const& b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmin' only accept floating-point inputs"); + return detail::functor2::call(fmin, a, b); + } + + template + GLM_FUNC_QUALIFIER vec fmin(vec const& a, vec const& b, vec const& c) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmin' only accept floating-point inputs"); + return fmin(fmin(a, b), c); + } + + template + GLM_FUNC_QUALIFIER vec fmin(vec const& a, vec const& b, vec const& c, vec const& d) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmin' only accept floating-point inputs"); + return fmin(fmin(a, b), fmin(c, d)); + } + + template + GLM_FUNC_QUALIFIER vec fmax(vec const& a, T b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmax' only accept floating-point inputs"); + return detail::functor2::call(fmax, a, vec(b)); + } + + template + GLM_FUNC_QUALIFIER vec fmax(vec const& a, vec const& b) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmax' only accept floating-point inputs"); + return detail::functor2::call(fmax, a, b); + } + + template + GLM_FUNC_QUALIFIER vec fmax(vec const& a, vec const& b, vec const& c) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmax' only accept floating-point inputs"); + return fmax(fmax(a, b), c); + } + + template + GLM_FUNC_QUALIFIER vec fmax(vec const& a, vec const& b, vec const& c, vec const& d) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fmax' only accept floating-point inputs"); + return fmax(fmax(a, b), fmax(c, d)); + } + + template + GLM_FUNC_QUALIFIER vec fclamp(vec const& x, T minVal, T maxVal) + { + return fmin(fmax(x, vec(minVal)), vec(maxVal)); + } + + template + GLM_FUNC_QUALIFIER vec fclamp(vec const& x, vec const& minVal, vec const& maxVal) + { + return fmin(fmax(x, minVal), maxVal); + } + + template + GLM_FUNC_QUALIFIER vec clamp(vec const& Texcoord) + { + return glm::clamp(Texcoord, vec(0), vec(1)); + } + + template + GLM_FUNC_QUALIFIER vec repeat(vec const& Texcoord) + { + return glm::fract(Texcoord); + } + + template + GLM_FUNC_QUALIFIER vec mirrorClamp(vec const& Texcoord) + { + return glm::fract(glm::abs(Texcoord)); + } + + template + GLM_FUNC_QUALIFIER vec mirrorRepeat(vec const& Texcoord) + { + vec const Abs = glm::abs(Texcoord); + vec const Clamp = glm::mod(glm::floor(Abs), vec(2)); + vec const Floor = glm::floor(Abs); + vec const Rest = Abs - Floor; + vec const Mirror = Clamp + Rest; + return mix(Rest, vec(1) - Rest, glm::greaterThanEqual(Mirror, vec(1))); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double1.hpp b/Vulkan/ext/include/glm/ext/vector_double1.hpp new file mode 100644 index 0000000..3882667 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double1.hpp @@ -0,0 +1,31 @@ +/// @ref ext_vector_double1 +/// @file glm/ext/vector_double1.hpp +/// +/// @defgroup ext_vector_double1 GLM_EXT_vector_double1 +/// @ingroup ext +/// +/// Exposes double-precision floating point vector type with one component. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_double1_precision extension. +/// @see ext_vector_float1 extension. + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_double1 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_double1 + /// @{ + + /// 1 components vector of double-precision floating-point numbers. + typedef vec<1, double, defaultp> dvec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double1_precision.hpp b/Vulkan/ext/include/glm/ext/vector_double1_precision.hpp new file mode 100644 index 0000000..1d47195 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double1_precision.hpp @@ -0,0 +1,36 @@ +/// @ref ext_vector_double1_precision +/// @file glm/ext/vector_double1_precision.hpp +/// +/// @defgroup ext_vector_double1_precision GLM_EXT_vector_double1_precision +/// @ingroup ext +/// +/// Exposes highp_dvec1, mediump_dvec1 and lowp_dvec1 types. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_double1 + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_double1_precision extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_double1_precision + /// @{ + + /// 1 component vector of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<1, double, highp> highp_dvec1; + + /// 1 component vector of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<1, double, mediump> mediump_dvec1; + + /// 1 component vector of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<1, double, lowp> lowp_dvec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double2.hpp b/Vulkan/ext/include/glm/ext/vector_double2.hpp new file mode 100644 index 0000000..60e3577 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_double2.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 2 components vector of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<2, double, defaultp> dvec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double2_precision.hpp b/Vulkan/ext/include/glm/ext/vector_double2_precision.hpp new file mode 100644 index 0000000..fa53940 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double2_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/vector_double2_precision.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 2 components vector of high double-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, double, highp> highp_dvec2; + + /// 2 components vector of medium double-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, double, mediump> mediump_dvec2; + + /// 2 components vector of low double-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, double, lowp> lowp_dvec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double3.hpp b/Vulkan/ext/include/glm/ext/vector_double3.hpp new file mode 100644 index 0000000..6dfe4c6 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_double3.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 3 components vector of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<3, double, defaultp> dvec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double3_precision.hpp b/Vulkan/ext/include/glm/ext/vector_double3_precision.hpp new file mode 100644 index 0000000..a8cfa37 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double3_precision.hpp @@ -0,0 +1,34 @@ +/// @ref core +/// @file glm/ext/vector_double3_precision.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 3 components vector of high double-qualifier floating-point numbers. + /// There is no guarantee on the actual qualifier. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, double, highp> highp_dvec3; + + /// 3 components vector of medium double-qualifier floating-point numbers. + /// There is no guarantee on the actual qualifier. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, double, mediump> mediump_dvec3; + + /// 3 components vector of low double-qualifier floating-point numbers. + /// There is no guarantee on the actual qualifier. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, double, lowp> lowp_dvec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double4.hpp b/Vulkan/ext/include/glm/ext/vector_double4.hpp new file mode 100644 index 0000000..87f225f --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_double4.hpp + +#pragma once +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 4 components vector of double-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<4, double, defaultp> dvec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_double4_precision.hpp b/Vulkan/ext/include/glm/ext/vector_double4_precision.hpp new file mode 100644 index 0000000..09cafa1 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_double4_precision.hpp @@ -0,0 +1,35 @@ +/// @ref core +/// @file glm/ext/vector_double4_precision.hpp + +#pragma once +#include "../detail/setup.hpp" +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 4 components vector of high double-qualifier floating-point numbers. + /// There is no guarantee on the actual qualifier. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, double, highp> highp_dvec4; + + /// 4 components vector of medium double-qualifier floating-point numbers. + /// There is no guarantee on the actual qualifier. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, double, mediump> mediump_dvec4; + + /// 4 components vector of low double-qualifier floating-point numbers. + /// There is no guarantee on the actual qualifier. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, double, lowp> lowp_dvec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float1.hpp b/Vulkan/ext/include/glm/ext/vector_float1.hpp new file mode 100644 index 0000000..28acc2c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float1.hpp @@ -0,0 +1,31 @@ +/// @ref ext_vector_float1 +/// @file glm/ext/vector_float1.hpp +/// +/// @defgroup ext_vector_float1 GLM_EXT_vector_float1 +/// @ingroup ext +/// +/// Exposes single-precision floating point vector type with one component. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_float1_precision extension. +/// @see ext_vector_double1 extension. + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_float1 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_float1 + /// @{ + + /// 1 components vector of single-precision floating-point numbers. + typedef vec<1, float, defaultp> vec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float1_precision.hpp b/Vulkan/ext/include/glm/ext/vector_float1_precision.hpp new file mode 100644 index 0000000..6e8dad8 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float1_precision.hpp @@ -0,0 +1,36 @@ +/// @ref ext_vector_float1_precision +/// @file glm/ext/vector_float1_precision.hpp +/// +/// @defgroup ext_vector_float1_precision GLM_EXT_vector_float1_precision +/// @ingroup ext +/// +/// Exposes highp_vec1, mediump_vec1 and lowp_vec1 types. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_float1 extension. + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_float1_precision extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_float1_precision + /// @{ + + /// 1 component vector of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<1, float, highp> highp_vec1; + + /// 1 component vector of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<1, float, mediump> mediump_vec1; + + /// 1 component vector of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<1, float, lowp> lowp_vec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float2.hpp b/Vulkan/ext/include/glm/ext/vector_float2.hpp new file mode 100644 index 0000000..d31545d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_float2.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 2 components vector of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<2, float, defaultp> vec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float2_precision.hpp b/Vulkan/ext/include/glm/ext/vector_float2_precision.hpp new file mode 100644 index 0000000..23c0820 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float2_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/vector_float2_precision.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 2 components vector of high single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, float, highp> highp_vec2; + + /// 2 components vector of medium single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, float, mediump> mediump_vec2; + + /// 2 components vector of low single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<2, float, lowp> lowp_vec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float3.hpp b/Vulkan/ext/include/glm/ext/vector_float3.hpp new file mode 100644 index 0000000..cd79a62 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_float3.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 3 components vector of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<3, float, defaultp> vec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float3_precision.hpp b/Vulkan/ext/include/glm/ext/vector_float3_precision.hpp new file mode 100644 index 0000000..be640b5 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float3_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/vector_float3_precision.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 3 components vector of high single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, float, highp> highp_vec3; + + /// 3 components vector of medium single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, float, mediump> mediump_vec3; + + /// 3 components vector of low single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<3, float, lowp> lowp_vec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float4.hpp b/Vulkan/ext/include/glm/ext/vector_float4.hpp new file mode 100644 index 0000000..d84adcc --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_float4.hpp + +#pragma once +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 4 components vector of single-precision floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<4, float, defaultp> vec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_float4_precision.hpp b/Vulkan/ext/include/glm/ext/vector_float4_precision.hpp new file mode 100644 index 0000000..aede838 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_float4_precision.hpp @@ -0,0 +1,31 @@ +/// @ref core +/// @file glm/ext/vector_float4_precision.hpp + +#pragma once +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector_precision + /// @{ + + /// 4 components vector of high single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, float, highp> highp_vec4; + + /// 4 components vector of medium single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, float, mediump> mediump_vec4; + + /// 4 components vector of low single-qualifier floating-point numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + /// @see GLSL 4.20.8 specification, section 4.7.2 Precision Qualifier + typedef vec<4, float, lowp> lowp_vec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_int1.hpp b/Vulkan/ext/include/glm/ext/vector_int1.hpp new file mode 100644 index 0000000..dc86038 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int1.hpp @@ -0,0 +1,32 @@ +/// @ref ext_vector_int1 +/// @file glm/ext/vector_int1.hpp +/// +/// @defgroup ext_vector_int1 GLM_EXT_vector_int1 +/// @ingroup ext +/// +/// Exposes ivec1 vector type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_uint1 extension. +/// @see ext_vector_int1_precision extension. + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_int1 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_int1 + /// @{ + + /// 1 component vector of signed integer numbers. + typedef vec<1, int, defaultp> ivec1; + + /// @} +}//namespace glm + diff --git a/Vulkan/ext/include/glm/ext/vector_int1_sized.hpp b/Vulkan/ext/include/glm/ext/vector_int1_sized.hpp new file mode 100644 index 0000000..de0d4cf --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int1_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_int1_sized +/// @file glm/ext/vector_int1_sized.hpp +/// +/// @defgroup ext_vector_int1_sized GLM_EXT_vector_int1_sized +/// @ingroup ext +/// +/// Exposes sized signed integer vector types. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_int_sized +/// @see ext_vector_uint1_sized + +#pragma once + +#include "../ext/vector_int1.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_int1_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_int1_sized + /// @{ + + /// 8 bit signed integer vector of 1 component type. + /// + /// @see ext_vector_int1_sized + typedef vec<1, int8, defaultp> i8vec1; + + /// 16 bit signed integer vector of 1 component type. + /// + /// @see ext_vector_int1_sized + typedef vec<1, int16, defaultp> i16vec1; + + /// 32 bit signed integer vector of 1 component type. + /// + /// @see ext_vector_int1_sized + typedef vec<1, int32, defaultp> i32vec1; + + /// 64 bit signed integer vector of 1 component type. + /// + /// @see ext_vector_int1_sized + typedef vec<1, int64, defaultp> i64vec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_int2.hpp b/Vulkan/ext/include/glm/ext/vector_int2.hpp new file mode 100644 index 0000000..aef803e --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_int2.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 2 components vector of signed integer numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<2, int, defaultp> ivec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_int2_sized.hpp b/Vulkan/ext/include/glm/ext/vector_int2_sized.hpp new file mode 100644 index 0000000..1fd57ee --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int2_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_int2_sized +/// @file glm/ext/vector_int2_sized.hpp +/// +/// @defgroup ext_vector_int2_sized GLM_EXT_vector_int2_sized +/// @ingroup ext +/// +/// Exposes sized signed integer vector of 2 components type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_int_sized +/// @see ext_vector_uint2_sized + +#pragma once + +#include "../ext/vector_int2.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_int2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_int2_sized + /// @{ + + /// 8 bit signed integer vector of 2 components type. + /// + /// @see ext_vector_int2_sized + typedef vec<2, int8, defaultp> i8vec2; + + /// 16 bit signed integer vector of 2 components type. + /// + /// @see ext_vector_int2_sized + typedef vec<2, int16, defaultp> i16vec2; + + /// 32 bit signed integer vector of 2 components type. + /// + /// @see ext_vector_int2_sized + typedef vec<2, int32, defaultp> i32vec2; + + /// 64 bit signed integer vector of 2 components type. + /// + /// @see ext_vector_int2_sized + typedef vec<2, int64, defaultp> i64vec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_int3.hpp b/Vulkan/ext/include/glm/ext/vector_int3.hpp new file mode 100644 index 0000000..4767e61 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_int3.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 3 components vector of signed integer numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<3, int, defaultp> ivec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_int3_sized.hpp b/Vulkan/ext/include/glm/ext/vector_int3_sized.hpp new file mode 100644 index 0000000..085a3fe --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int3_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_int3_sized +/// @file glm/ext/vector_int3_sized.hpp +/// +/// @defgroup ext_vector_int3_sized GLM_EXT_vector_int3_sized +/// @ingroup ext +/// +/// Exposes sized signed integer vector of 3 components type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_int_sized +/// @see ext_vector_uint3_sized + +#pragma once + +#include "../ext/vector_int3.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_int3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_int3_sized + /// @{ + + /// 8 bit signed integer vector of 3 components type. + /// + /// @see ext_vector_int3_sized + typedef vec<3, int8, defaultp> i8vec3; + + /// 16 bit signed integer vector of 3 components type. + /// + /// @see ext_vector_int3_sized + typedef vec<3, int16, defaultp> i16vec3; + + /// 32 bit signed integer vector of 3 components type. + /// + /// @see ext_vector_int3_sized + typedef vec<3, int32, defaultp> i32vec3; + + /// 64 bit signed integer vector of 3 components type. + /// + /// @see ext_vector_int3_sized + typedef vec<3, int64, defaultp> i64vec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_int4.hpp b/Vulkan/ext/include/glm/ext/vector_int4.hpp new file mode 100644 index 0000000..bb23adf --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_int4.hpp + +#pragma once +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 4 components vector of signed integer numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<4, int, defaultp> ivec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_int4_sized.hpp b/Vulkan/ext/include/glm/ext/vector_int4_sized.hpp new file mode 100644 index 0000000..c63d465 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_int4_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_int4_sized +/// @file glm/ext/vector_int4_sized.hpp +/// +/// @defgroup ext_vector_int4_sized GLM_EXT_vector_int4_sized +/// @ingroup ext +/// +/// Exposes sized signed integer vector of 4 components type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_int_sized +/// @see ext_vector_uint4_sized + +#pragma once + +#include "../ext/vector_int4.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_int4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_int4_sized + /// @{ + + /// 8 bit signed integer vector of 4 components type. + /// + /// @see ext_vector_int4_sized + typedef vec<4, int8, defaultp> i8vec4; + + /// 16 bit signed integer vector of 4 components type. + /// + /// @see ext_vector_int4_sized + typedef vec<4, int16, defaultp> i16vec4; + + /// 32 bit signed integer vector of 4 components type. + /// + /// @see ext_vector_int4_sized + typedef vec<4, int32, defaultp> i32vec4; + + /// 64 bit signed integer vector of 4 components type. + /// + /// @see ext_vector_int4_sized + typedef vec<4, int64, defaultp> i64vec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_integer.hpp b/Vulkan/ext/include/glm/ext/vector_integer.hpp new file mode 100644 index 0000000..1304dd8 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_integer.hpp @@ -0,0 +1,149 @@ +/// @ref ext_vector_integer +/// @file glm/ext/vector_integer.hpp +/// +/// @see core (dependence) +/// @see ext_vector_integer (dependence) +/// +/// @defgroup ext_vector_integer GLM_EXT_vector_integer +/// @ingroup ext +/// +/// Include to use the features of this extension. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/_vectorize.hpp" +#include "../vector_relational.hpp" +#include "../common.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_integer extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_integer + /// @{ + + /// Return true if the value is a power of two number. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec isPowerOfTwo(vec const& v); + + /// Return the power of two number which value is just higher the input value, + /// round up to a power of two. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec nextPowerOfTwo(vec const& v); + + /// Return the power of two number which value is just lower the input value, + /// round down to a power of two. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec prevPowerOfTwo(vec const& v); + + /// Return true if the 'Value' is a multiple of 'Multiple'. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec isMultiple(vec const& v, T Multiple); + + /// Return true if the 'Value' is a multiple of 'Multiple'. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec isMultiple(vec const& v, vec const& Multiple); + + /// Higher multiple number of Source. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @param v Source values to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec nextMultiple(vec const& v, T Multiple); + + /// Higher multiple number of Source. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @param v Source values to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec nextMultiple(vec const& v, vec const& Multiple); + + /// Lower multiple number of Source. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @param v Source values to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec prevMultiple(vec const& v, T Multiple); + + /// Lower multiple number of Source. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed or unsigned integer scalar types. + /// @tparam Q Value from qualifier enum + /// + /// @param v Source values to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec prevMultiple(vec const& v, vec const& Multiple); + + /// Returns the bit number of the Nth significant bit set to + /// 1 in the binary representation of value. + /// If value bitcount is less than the Nth significant bit, -1 will be returned. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Signed or unsigned integer scalar types. + /// + /// @see ext_vector_integer + template + GLM_FUNC_DECL vec findNSB(vec const& Source, vec SignificantBitCount); + + /// @} +} //namespace glm + +#include "vector_integer.inl" diff --git a/Vulkan/ext/include/glm/ext/vector_integer.inl b/Vulkan/ext/include/glm/ext/vector_integer.inl new file mode 100644 index 0000000..939ff5e --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_integer.inl @@ -0,0 +1,85 @@ +#include "scalar_integer.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec isPowerOfTwo(vec const& Value) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'isPowerOfTwo' only accept integer inputs"); + + vec const Result(abs(Value)); + return equal(Result & (Result - vec(1)), vec(0)); + } + + template + GLM_FUNC_QUALIFIER vec nextPowerOfTwo(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'nextPowerOfTwo' only accept integer inputs"); + + return detail::compute_ceilPowerOfTwo::is_signed>::call(v); + } + + template + GLM_FUNC_QUALIFIER vec prevPowerOfTwo(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'prevPowerOfTwo' only accept integer inputs"); + + return detail::functor1::call(prevPowerOfTwo, v); + } + + template + GLM_FUNC_QUALIFIER vec isMultiple(vec const& Value, T Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'isMultiple' only accept integer inputs"); + + return (Value % Multiple) == vec(0); + } + + template + GLM_FUNC_QUALIFIER vec isMultiple(vec const& Value, vec const& Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'isMultiple' only accept integer inputs"); + + return (Value % Multiple) == vec(0); + } + + template + GLM_FUNC_QUALIFIER vec nextMultiple(vec const& Source, T Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'nextMultiple' only accept integer inputs"); + + return detail::functor2::call(nextMultiple, Source, vec(Multiple)); + } + + template + GLM_FUNC_QUALIFIER vec nextMultiple(vec const& Source, vec const& Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'nextMultiple' only accept integer inputs"); + + return detail::functor2::call(nextMultiple, Source, Multiple); + } + + template + GLM_FUNC_QUALIFIER vec prevMultiple(vec const& Source, T Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'prevMultiple' only accept integer inputs"); + + return detail::functor2::call(prevMultiple, Source, vec(Multiple)); + } + + template + GLM_FUNC_QUALIFIER vec prevMultiple(vec const& Source, vec const& Multiple) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'prevMultiple' only accept integer inputs"); + + return detail::functor2::call(prevMultiple, Source, Multiple); + } + + template + GLM_FUNC_QUALIFIER vec findNSB(vec const& Source, vec SignificantBitCount) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'findNSB' only accept integer inputs"); + + return detail::functor2_vec_int::call(findNSB, Source, SignificantBitCount); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_packing.hpp b/Vulkan/ext/include/glm/ext/vector_packing.hpp new file mode 100644 index 0000000..76e5d0c --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_packing.hpp @@ -0,0 +1,32 @@ +/// @ref ext_vector_packing +/// @file glm/ext/vector_packing.hpp +/// +/// @see core (dependence) +/// +/// @defgroup ext_vector_packing GLM_EXT_vector_packing +/// @ingroup ext +/// +/// Include to use the features of this extension. +/// +/// This extension provides a set of function to convert vectors to packed +/// formats. + +#pragma once + +// Dependency: +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_packing extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_packing + /// @{ + + + /// @} +}// namespace glm + +#include "vector_packing.inl" diff --git a/Vulkan/ext/include/glm/ext/vector_packing.inl b/Vulkan/ext/include/glm/ext/vector_packing.inl new file mode 100644 index 0000000..e69de29 diff --git a/Vulkan/ext/include/glm/ext/vector_relational.hpp b/Vulkan/ext/include/glm/ext/vector_relational.hpp new file mode 100644 index 0000000..1c2367d --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_relational.hpp @@ -0,0 +1,107 @@ +/// @ref ext_vector_relational +/// @file glm/ext/vector_relational.hpp +/// +/// @see core (dependence) +/// @see ext_scalar_integer (dependence) +/// +/// @defgroup ext_vector_relational GLM_EXT_vector_relational +/// @ingroup ext +/// +/// Exposes comparison functions for vector types that take a user defined epsilon values. +/// +/// Include to use the features of this extension. +/// +/// @see core_vector_relational +/// @see ext_scalar_relational +/// @see ext_matrix_relational + +#pragma once + +// Dependencies +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_relational extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_relational + /// @{ + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(vec const& x, vec const& y, T epsilon); + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(vec const& x, vec const& y, vec const& epsilon); + + /// Returns the component-wise comparison of |x - y| >= epsilon. + /// True if this expression is not satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, T epsilon); + + /// Returns the component-wise comparison of |x - y| >= epsilon. + /// True if this expression is not satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, vec const& epsilon); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(vec const& x, vec const& y, int ULPs); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(vec const& x, vec const& y, vec const& ULPs); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is not satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, int ULPs); + + /// Returns the component-wise comparison between two vectors in term of ULPs. + /// True if this expression is not satisfied. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, vec const& ULPs); + + /// @} +}//namespace glm + +#include "vector_relational.inl" diff --git a/Vulkan/ext/include/glm/ext/vector_relational.inl b/Vulkan/ext/include/glm/ext/vector_relational.inl new file mode 100644 index 0000000..7a39ab5 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_relational.inl @@ -0,0 +1,75 @@ +#include "../vector_relational.hpp" +#include "../common.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/type_float.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(vec const& x, vec const& y, T Epsilon) + { + return equal(x, y, vec(Epsilon)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(vec const& x, vec const& y, vec const& Epsilon) + { + return lessThanEqual(abs(x - y), Epsilon); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, T Epsilon) + { + return notEqual(x, y, vec(Epsilon)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, vec const& Epsilon) + { + return greaterThan(abs(x - y), Epsilon); + } + + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(vec const& x, vec const& y, int MaxULPs) + { + return equal(x, y, vec(MaxULPs)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec equal(vec const& x, vec const& y, vec const& MaxULPs) + { + vec Result(false); + for(length_t i = 0; i < L; ++i) + { + detail::float_t const a(x[i]); + detail::float_t const b(y[i]); + + // Different signs means they do not match. + if(a.negative() != b.negative()) + { + // Check for equality to make sure +0==-0 + Result[i] = a.mantissa() == b.mantissa() && a.exponent() == b.exponent(); + } + else + { + // Find the difference in ULPs. + typename detail::float_t::int_type const DiffULPs = abs(a.i - b.i); + Result[i] = DiffULPs <= MaxULPs[i]; + } + } + return Result; + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, int MaxULPs) + { + return notEqual(x, y, vec(MaxULPs)); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y, vec const& MaxULPs) + { + return not_(equal(x, y, MaxULPs)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_uint1.hpp b/Vulkan/ext/include/glm/ext/vector_uint1.hpp new file mode 100644 index 0000000..eb8a704 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint1.hpp @@ -0,0 +1,32 @@ +/// @ref ext_vector_uint1 +/// @file glm/ext/vector_uint1.hpp +/// +/// @defgroup ext_vector_uint1 GLM_EXT_vector_uint1 +/// @ingroup ext +/// +/// Exposes uvec1 vector type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_vector_int1 extension. +/// @see ext_vector_uint1_precision extension. + +#pragma once + +#include "../detail/type_vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_uint1 extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_uint1 + /// @{ + + /// 1 component vector of unsigned integer numbers. + typedef vec<1, unsigned int, defaultp> uvec1; + + /// @} +}//namespace glm + diff --git a/Vulkan/ext/include/glm/ext/vector_uint1_sized.hpp b/Vulkan/ext/include/glm/ext/vector_uint1_sized.hpp new file mode 100644 index 0000000..2a938bb --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint1_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_uint1_sized +/// @file glm/ext/vector_uint1_sized.hpp +/// +/// @defgroup ext_vector_uint1_sized GLM_EXT_vector_uint1_sized +/// @ingroup ext +/// +/// Exposes sized unsigned integer vector types. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_uint_sized +/// @see ext_vector_int1_sized + +#pragma once + +#include "../ext/vector_uint1.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_uint1_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_uint1_sized + /// @{ + + /// 8 bit unsigned integer vector of 1 component type. + /// + /// @see ext_vector_uint1_sized + typedef vec<1, uint8, defaultp> u8vec1; + + /// 16 bit unsigned integer vector of 1 component type. + /// + /// @see ext_vector_uint1_sized + typedef vec<1, uint16, defaultp> u16vec1; + + /// 32 bit unsigned integer vector of 1 component type. + /// + /// @see ext_vector_uint1_sized + typedef vec<1, uint32, defaultp> u32vec1; + + /// 64 bit unsigned integer vector of 1 component type. + /// + /// @see ext_vector_uint1_sized + typedef vec<1, uint64, defaultp> u64vec1; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_uint2.hpp b/Vulkan/ext/include/glm/ext/vector_uint2.hpp new file mode 100644 index 0000000..03c00f5 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint2.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_uint2.hpp + +#pragma once +#include "../detail/type_vec2.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 2 components vector of unsigned integer numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<2, unsigned int, defaultp> uvec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_uint2_sized.hpp b/Vulkan/ext/include/glm/ext/vector_uint2_sized.hpp new file mode 100644 index 0000000..620fdc6 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint2_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_uint2_sized +/// @file glm/ext/vector_uint2_sized.hpp +/// +/// @defgroup ext_vector_uint2_sized GLM_EXT_vector_uint2_sized +/// @ingroup ext +/// +/// Exposes sized unsigned integer vector of 2 components type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_uint_sized +/// @see ext_vector_int2_sized + +#pragma once + +#include "../ext/vector_uint2.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_uint2_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_uint2_sized + /// @{ + + /// 8 bit unsigned integer vector of 2 components type. + /// + /// @see ext_vector_uint2_sized + typedef vec<2, uint8, defaultp> u8vec2; + + /// 16 bit unsigned integer vector of 2 components type. + /// + /// @see ext_vector_uint2_sized + typedef vec<2, uint16, defaultp> u16vec2; + + /// 32 bit unsigned integer vector of 2 components type. + /// + /// @see ext_vector_uint2_sized + typedef vec<2, uint32, defaultp> u32vec2; + + /// 64 bit unsigned integer vector of 2 components type. + /// + /// @see ext_vector_uint2_sized + typedef vec<2, uint64, defaultp> u64vec2; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_uint3.hpp b/Vulkan/ext/include/glm/ext/vector_uint3.hpp new file mode 100644 index 0000000..f5b41c4 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint3.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_uint3.hpp + +#pragma once +#include "../detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 3 components vector of unsigned integer numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<3, unsigned int, defaultp> uvec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_uint3_sized.hpp b/Vulkan/ext/include/glm/ext/vector_uint3_sized.hpp new file mode 100644 index 0000000..6f96b98 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint3_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_uint3_sized +/// @file glm/ext/vector_uint3_sized.hpp +/// +/// @defgroup ext_vector_uint3_sized GLM_EXT_vector_uint3_sized +/// @ingroup ext +/// +/// Exposes sized unsigned integer vector of 3 components type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_uint_sized +/// @see ext_vector_int3_sized + +#pragma once + +#include "../ext/vector_uint3.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_uint3_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_uint3_sized + /// @{ + + /// 8 bit unsigned integer vector of 3 components type. + /// + /// @see ext_vector_uint3_sized + typedef vec<3, uint8, defaultp> u8vec3; + + /// 16 bit unsigned integer vector of 3 components type. + /// + /// @see ext_vector_uint3_sized + typedef vec<3, uint16, defaultp> u16vec3; + + /// 32 bit unsigned integer vector of 3 components type. + /// + /// @see ext_vector_uint3_sized + typedef vec<3, uint32, defaultp> u32vec3; + + /// 64 bit unsigned integer vector of 3 components type. + /// + /// @see ext_vector_uint3_sized + typedef vec<3, uint64, defaultp> u64vec3; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_uint4.hpp b/Vulkan/ext/include/glm/ext/vector_uint4.hpp new file mode 100644 index 0000000..32ced58 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint4.hpp @@ -0,0 +1,18 @@ +/// @ref core +/// @file glm/ext/vector_uint4.hpp + +#pragma once +#include "../detail/type_vec4.hpp" + +namespace glm +{ + /// @addtogroup core_vector + /// @{ + + /// 4 components vector of unsigned integer numbers. + /// + /// @see GLSL 4.20.8 specification, section 4.1.5 Vectors + typedef vec<4, unsigned int, defaultp> uvec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_uint4_sized.hpp b/Vulkan/ext/include/glm/ext/vector_uint4_sized.hpp new file mode 100644 index 0000000..da992ea --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_uint4_sized.hpp @@ -0,0 +1,49 @@ +/// @ref ext_vector_uint4_sized +/// @file glm/ext/vector_uint4_sized.hpp +/// +/// @defgroup ext_vector_uint4_sized GLM_EXT_vector_uint4_sized +/// @ingroup ext +/// +/// Exposes sized unsigned integer vector of 4 components type. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_uint_sized +/// @see ext_vector_int4_sized + +#pragma once + +#include "../ext/vector_uint4.hpp" +#include "../ext/scalar_uint_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_uint4_sized extension included") +#endif + +namespace glm +{ + /// @addtogroup ext_vector_uint4_sized + /// @{ + + /// 8 bit unsigned integer vector of 4 components type. + /// + /// @see ext_vector_uint4_sized + typedef vec<4, uint8, defaultp> u8vec4; + + /// 16 bit unsigned integer vector of 4 components type. + /// + /// @see ext_vector_uint4_sized + typedef vec<4, uint16, defaultp> u16vec4; + + /// 32 bit unsigned integer vector of 4 components type. + /// + /// @see ext_vector_uint4_sized + typedef vec<4, uint32, defaultp> u32vec4; + + /// 64 bit unsigned integer vector of 4 components type. + /// + /// @see ext_vector_uint4_sized + typedef vec<4, uint64, defaultp> u64vec4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/ext/vector_ulp.hpp b/Vulkan/ext/include/glm/ext/vector_ulp.hpp new file mode 100644 index 0000000..6210396 --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_ulp.hpp @@ -0,0 +1,109 @@ +/// @ref ext_vector_ulp +/// @file glm/ext/vector_ulp.hpp +/// +/// @defgroup ext_vector_ulp GLM_EXT_vector_ulp +/// @ingroup ext +/// +/// Allow the measurement of the accuracy of a function against a reference +/// implementation. This extension works on floating-point data and provide results +/// in ULP. +/// +/// Include to use the features of this extension. +/// +/// @see ext_scalar_ulp +/// @see ext_scalar_relational +/// @see ext_vector_relational + +#pragma once + +// Dependencies +#include "../ext/scalar_ulp.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_EXT_vector_ulp extension included") +#endif + +namespace glm +{ + /// Return the next ULP value(s) after the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec nextFloat(vec const& x); + + /// Return the value(s) ULP distance after the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec nextFloat(vec const& x, int ULPs); + + /// Return the value(s) ULP distance after the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec nextFloat(vec const& x, vec const& ULPs); + + /// Return the previous ULP value(s) before the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec prevFloat(vec const& x); + + /// Return the value(s) ULP distance before the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec prevFloat(vec const& x, int ULPs); + + /// Return the value(s) ULP distance before the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec prevFloat(vec const& x, vec const& ULPs); + + /// Return the distance in the number of ULP between 2 single-precision floating-point scalars. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec floatDistance(vec const& x, vec const& y); + + /// Return the distance in the number of ULP between 2 double-precision floating-point scalars. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see ext_scalar_ulp + template + GLM_FUNC_DECL vec floatDistance(vec const& x, vec const& y); + + /// @} +}//namespace glm + +#include "vector_ulp.inl" diff --git a/Vulkan/ext/include/glm/ext/vector_ulp.inl b/Vulkan/ext/include/glm/ext/vector_ulp.inl new file mode 100644 index 0000000..91565ce --- /dev/null +++ b/Vulkan/ext/include/glm/ext/vector_ulp.inl @@ -0,0 +1,74 @@ +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec nextFloat(vec const& x) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = nextFloat(x[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec nextFloat(vec const& x, int ULPs) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = nextFloat(x[i], ULPs); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec nextFloat(vec const& x, vec const& ULPs) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = nextFloat(x[i], ULPs[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec prevFloat(vec const& x) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = prevFloat(x[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec prevFloat(vec const& x, int ULPs) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = prevFloat(x[i], ULPs); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec prevFloat(vec const& x, vec const& ULPs) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = prevFloat(x[i], ULPs[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec floatDistance(vec const& x, vec const& y) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = floatDistance(x[i], y[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec floatDistance(vec const& x, vec const& y) + { + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = floatDistance(x[i], y[i]); + return Result; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/fwd.hpp b/Vulkan/ext/include/glm/fwd.hpp new file mode 100644 index 0000000..89177f4 --- /dev/null +++ b/Vulkan/ext/include/glm/fwd.hpp @@ -0,0 +1,1233 @@ +#pragma once + +#include "detail/qualifier.hpp" + +namespace glm +{ +#if GLM_HAS_EXTENDED_INTEGER_TYPE + typedef std::int8_t int8; + typedef std::int16_t int16; + typedef std::int32_t int32; + typedef std::int64_t int64; + + typedef std::uint8_t uint8; + typedef std::uint16_t uint16; + typedef std::uint32_t uint32; + typedef std::uint64_t uint64; +#else + typedef signed char int8; + typedef signed short int16; + typedef signed int int32; + typedef detail::int64 int64; + + typedef unsigned char uint8; + typedef unsigned short uint16; + typedef unsigned int uint32; + typedef detail::uint64 uint64; +#endif + + // Scalar int + + typedef int8 lowp_i8; + typedef int8 mediump_i8; + typedef int8 highp_i8; + typedef int8 i8; + + typedef int8 lowp_int8; + typedef int8 mediump_int8; + typedef int8 highp_int8; + + typedef int8 lowp_int8_t; + typedef int8 mediump_int8_t; + typedef int8 highp_int8_t; + typedef int8 int8_t; + + typedef int16 lowp_i16; + typedef int16 mediump_i16; + typedef int16 highp_i16; + typedef int16 i16; + + typedef int16 lowp_int16; + typedef int16 mediump_int16; + typedef int16 highp_int16; + + typedef int16 lowp_int16_t; + typedef int16 mediump_int16_t; + typedef int16 highp_int16_t; + typedef int16 int16_t; + + typedef int32 lowp_i32; + typedef int32 mediump_i32; + typedef int32 highp_i32; + typedef int32 i32; + + typedef int32 lowp_int32; + typedef int32 mediump_int32; + typedef int32 highp_int32; + + typedef int32 lowp_int32_t; + typedef int32 mediump_int32_t; + typedef int32 highp_int32_t; + typedef int32 int32_t; + + typedef int64 lowp_i64; + typedef int64 mediump_i64; + typedef int64 highp_i64; + typedef int64 i64; + + typedef int64 lowp_int64; + typedef int64 mediump_int64; + typedef int64 highp_int64; + + typedef int64 lowp_int64_t; + typedef int64 mediump_int64_t; + typedef int64 highp_int64_t; + typedef int64 int64_t; + + // Scalar uint + + typedef unsigned int uint; + + typedef uint8 lowp_u8; + typedef uint8 mediump_u8; + typedef uint8 highp_u8; + typedef uint8 u8; + + typedef uint8 lowp_uint8; + typedef uint8 mediump_uint8; + typedef uint8 highp_uint8; + + typedef uint8 lowp_uint8_t; + typedef uint8 mediump_uint8_t; + typedef uint8 highp_uint8_t; + typedef uint8 uint8_t; + + typedef uint16 lowp_u16; + typedef uint16 mediump_u16; + typedef uint16 highp_u16; + typedef uint16 u16; + + typedef uint16 lowp_uint16; + typedef uint16 mediump_uint16; + typedef uint16 highp_uint16; + + typedef uint16 lowp_uint16_t; + typedef uint16 mediump_uint16_t; + typedef uint16 highp_uint16_t; + typedef uint16 uint16_t; + + typedef uint32 lowp_u32; + typedef uint32 mediump_u32; + typedef uint32 highp_u32; + typedef uint32 u32; + + typedef uint32 lowp_uint32; + typedef uint32 mediump_uint32; + typedef uint32 highp_uint32; + + typedef uint32 lowp_uint32_t; + typedef uint32 mediump_uint32_t; + typedef uint32 highp_uint32_t; + typedef uint32 uint32_t; + + typedef uint64 lowp_u64; + typedef uint64 mediump_u64; + typedef uint64 highp_u64; + typedef uint64 u64; + + typedef uint64 lowp_uint64; + typedef uint64 mediump_uint64; + typedef uint64 highp_uint64; + + typedef uint64 lowp_uint64_t; + typedef uint64 mediump_uint64_t; + typedef uint64 highp_uint64_t; + typedef uint64 uint64_t; + + // Scalar float + + typedef float lowp_f32; + typedef float mediump_f32; + typedef float highp_f32; + typedef float f32; + + typedef float lowp_float32; + typedef float mediump_float32; + typedef float highp_float32; + typedef float float32; + + typedef float lowp_float32_t; + typedef float mediump_float32_t; + typedef float highp_float32_t; + typedef float float32_t; + + + typedef double lowp_f64; + typedef double mediump_f64; + typedef double highp_f64; + typedef double f64; + + typedef double lowp_float64; + typedef double mediump_float64; + typedef double highp_float64; + typedef double float64; + + typedef double lowp_float64_t; + typedef double mediump_float64_t; + typedef double highp_float64_t; + typedef double float64_t; + + // Vector bool + + typedef vec<1, bool, lowp> lowp_bvec1; + typedef vec<2, bool, lowp> lowp_bvec2; + typedef vec<3, bool, lowp> lowp_bvec3; + typedef vec<4, bool, lowp> lowp_bvec4; + + typedef vec<1, bool, mediump> mediump_bvec1; + typedef vec<2, bool, mediump> mediump_bvec2; + typedef vec<3, bool, mediump> mediump_bvec3; + typedef vec<4, bool, mediump> mediump_bvec4; + + typedef vec<1, bool, highp> highp_bvec1; + typedef vec<2, bool, highp> highp_bvec2; + typedef vec<3, bool, highp> highp_bvec3; + typedef vec<4, bool, highp> highp_bvec4; + + typedef vec<1, bool, defaultp> bvec1; + typedef vec<2, bool, defaultp> bvec2; + typedef vec<3, bool, defaultp> bvec3; + typedef vec<4, bool, defaultp> bvec4; + + // Vector int + + typedef vec<1, int, lowp> lowp_ivec1; + typedef vec<2, int, lowp> lowp_ivec2; + typedef vec<3, int, lowp> lowp_ivec3; + typedef vec<4, int, lowp> lowp_ivec4; + + typedef vec<1, int, mediump> mediump_ivec1; + typedef vec<2, int, mediump> mediump_ivec2; + typedef vec<3, int, mediump> mediump_ivec3; + typedef vec<4, int, mediump> mediump_ivec4; + + typedef vec<1, int, highp> highp_ivec1; + typedef vec<2, int, highp> highp_ivec2; + typedef vec<3, int, highp> highp_ivec3; + typedef vec<4, int, highp> highp_ivec4; + + typedef vec<1, int, defaultp> ivec1; + typedef vec<2, int, defaultp> ivec2; + typedef vec<3, int, defaultp> ivec3; + typedef vec<4, int, defaultp> ivec4; + + typedef vec<1, i8, lowp> lowp_i8vec1; + typedef vec<2, i8, lowp> lowp_i8vec2; + typedef vec<3, i8, lowp> lowp_i8vec3; + typedef vec<4, i8, lowp> lowp_i8vec4; + + typedef vec<1, i8, mediump> mediump_i8vec1; + typedef vec<2, i8, mediump> mediump_i8vec2; + typedef vec<3, i8, mediump> mediump_i8vec3; + typedef vec<4, i8, mediump> mediump_i8vec4; + + typedef vec<1, i8, highp> highp_i8vec1; + typedef vec<2, i8, highp> highp_i8vec2; + typedef vec<3, i8, highp> highp_i8vec3; + typedef vec<4, i8, highp> highp_i8vec4; + + typedef vec<1, i8, defaultp> i8vec1; + typedef vec<2, i8, defaultp> i8vec2; + typedef vec<3, i8, defaultp> i8vec3; + typedef vec<4, i8, defaultp> i8vec4; + + typedef vec<1, i16, lowp> lowp_i16vec1; + typedef vec<2, i16, lowp> lowp_i16vec2; + typedef vec<3, i16, lowp> lowp_i16vec3; + typedef vec<4, i16, lowp> lowp_i16vec4; + + typedef vec<1, i16, mediump> mediump_i16vec1; + typedef vec<2, i16, mediump> mediump_i16vec2; + typedef vec<3, i16, mediump> mediump_i16vec3; + typedef vec<4, i16, mediump> mediump_i16vec4; + + typedef vec<1, i16, highp> highp_i16vec1; + typedef vec<2, i16, highp> highp_i16vec2; + typedef vec<3, i16, highp> highp_i16vec3; + typedef vec<4, i16, highp> highp_i16vec4; + + typedef vec<1, i16, defaultp> i16vec1; + typedef vec<2, i16, defaultp> i16vec2; + typedef vec<3, i16, defaultp> i16vec3; + typedef vec<4, i16, defaultp> i16vec4; + + typedef vec<1, i32, lowp> lowp_i32vec1; + typedef vec<2, i32, lowp> lowp_i32vec2; + typedef vec<3, i32, lowp> lowp_i32vec3; + typedef vec<4, i32, lowp> lowp_i32vec4; + + typedef vec<1, i32, mediump> mediump_i32vec1; + typedef vec<2, i32, mediump> mediump_i32vec2; + typedef vec<3, i32, mediump> mediump_i32vec3; + typedef vec<4, i32, mediump> mediump_i32vec4; + + typedef vec<1, i32, highp> highp_i32vec1; + typedef vec<2, i32, highp> highp_i32vec2; + typedef vec<3, i32, highp> highp_i32vec3; + typedef vec<4, i32, highp> highp_i32vec4; + + typedef vec<1, i32, defaultp> i32vec1; + typedef vec<2, i32, defaultp> i32vec2; + typedef vec<3, i32, defaultp> i32vec3; + typedef vec<4, i32, defaultp> i32vec4; + + typedef vec<1, i64, lowp> lowp_i64vec1; + typedef vec<2, i64, lowp> lowp_i64vec2; + typedef vec<3, i64, lowp> lowp_i64vec3; + typedef vec<4, i64, lowp> lowp_i64vec4; + + typedef vec<1, i64, mediump> mediump_i64vec1; + typedef vec<2, i64, mediump> mediump_i64vec2; + typedef vec<3, i64, mediump> mediump_i64vec3; + typedef vec<4, i64, mediump> mediump_i64vec4; + + typedef vec<1, i64, highp> highp_i64vec1; + typedef vec<2, i64, highp> highp_i64vec2; + typedef vec<3, i64, highp> highp_i64vec3; + typedef vec<4, i64, highp> highp_i64vec4; + + typedef vec<1, i64, defaultp> i64vec1; + typedef vec<2, i64, defaultp> i64vec2; + typedef vec<3, i64, defaultp> i64vec3; + typedef vec<4, i64, defaultp> i64vec4; + + // Vector uint + + typedef vec<1, uint, lowp> lowp_uvec1; + typedef vec<2, uint, lowp> lowp_uvec2; + typedef vec<3, uint, lowp> lowp_uvec3; + typedef vec<4, uint, lowp> lowp_uvec4; + + typedef vec<1, uint, mediump> mediump_uvec1; + typedef vec<2, uint, mediump> mediump_uvec2; + typedef vec<3, uint, mediump> mediump_uvec3; + typedef vec<4, uint, mediump> mediump_uvec4; + + typedef vec<1, uint, highp> highp_uvec1; + typedef vec<2, uint, highp> highp_uvec2; + typedef vec<3, uint, highp> highp_uvec3; + typedef vec<4, uint, highp> highp_uvec4; + + typedef vec<1, uint, defaultp> uvec1; + typedef vec<2, uint, defaultp> uvec2; + typedef vec<3, uint, defaultp> uvec3; + typedef vec<4, uint, defaultp> uvec4; + + typedef vec<1, u8, lowp> lowp_u8vec1; + typedef vec<2, u8, lowp> lowp_u8vec2; + typedef vec<3, u8, lowp> lowp_u8vec3; + typedef vec<4, u8, lowp> lowp_u8vec4; + + typedef vec<1, u8, mediump> mediump_u8vec1; + typedef vec<2, u8, mediump> mediump_u8vec2; + typedef vec<3, u8, mediump> mediump_u8vec3; + typedef vec<4, u8, mediump> mediump_u8vec4; + + typedef vec<1, u8, highp> highp_u8vec1; + typedef vec<2, u8, highp> highp_u8vec2; + typedef vec<3, u8, highp> highp_u8vec3; + typedef vec<4, u8, highp> highp_u8vec4; + + typedef vec<1, u8, defaultp> u8vec1; + typedef vec<2, u8, defaultp> u8vec2; + typedef vec<3, u8, defaultp> u8vec3; + typedef vec<4, u8, defaultp> u8vec4; + + typedef vec<1, u16, lowp> lowp_u16vec1; + typedef vec<2, u16, lowp> lowp_u16vec2; + typedef vec<3, u16, lowp> lowp_u16vec3; + typedef vec<4, u16, lowp> lowp_u16vec4; + + typedef vec<1, u16, mediump> mediump_u16vec1; + typedef vec<2, u16, mediump> mediump_u16vec2; + typedef vec<3, u16, mediump> mediump_u16vec3; + typedef vec<4, u16, mediump> mediump_u16vec4; + + typedef vec<1, u16, highp> highp_u16vec1; + typedef vec<2, u16, highp> highp_u16vec2; + typedef vec<3, u16, highp> highp_u16vec3; + typedef vec<4, u16, highp> highp_u16vec4; + + typedef vec<1, u16, defaultp> u16vec1; + typedef vec<2, u16, defaultp> u16vec2; + typedef vec<3, u16, defaultp> u16vec3; + typedef vec<4, u16, defaultp> u16vec4; + + typedef vec<1, u32, lowp> lowp_u32vec1; + typedef vec<2, u32, lowp> lowp_u32vec2; + typedef vec<3, u32, lowp> lowp_u32vec3; + typedef vec<4, u32, lowp> lowp_u32vec4; + + typedef vec<1, u32, mediump> mediump_u32vec1; + typedef vec<2, u32, mediump> mediump_u32vec2; + typedef vec<3, u32, mediump> mediump_u32vec3; + typedef vec<4, u32, mediump> mediump_u32vec4; + + typedef vec<1, u32, highp> highp_u32vec1; + typedef vec<2, u32, highp> highp_u32vec2; + typedef vec<3, u32, highp> highp_u32vec3; + typedef vec<4, u32, highp> highp_u32vec4; + + typedef vec<1, u32, defaultp> u32vec1; + typedef vec<2, u32, defaultp> u32vec2; + typedef vec<3, u32, defaultp> u32vec3; + typedef vec<4, u32, defaultp> u32vec4; + + typedef vec<1, u64, lowp> lowp_u64vec1; + typedef vec<2, u64, lowp> lowp_u64vec2; + typedef vec<3, u64, lowp> lowp_u64vec3; + typedef vec<4, u64, lowp> lowp_u64vec4; + + typedef vec<1, u64, mediump> mediump_u64vec1; + typedef vec<2, u64, mediump> mediump_u64vec2; + typedef vec<3, u64, mediump> mediump_u64vec3; + typedef vec<4, u64, mediump> mediump_u64vec4; + + typedef vec<1, u64, highp> highp_u64vec1; + typedef vec<2, u64, highp> highp_u64vec2; + typedef vec<3, u64, highp> highp_u64vec3; + typedef vec<4, u64, highp> highp_u64vec4; + + typedef vec<1, u64, defaultp> u64vec1; + typedef vec<2, u64, defaultp> u64vec2; + typedef vec<3, u64, defaultp> u64vec3; + typedef vec<4, u64, defaultp> u64vec4; + + // Vector float + + typedef vec<1, float, lowp> lowp_vec1; + typedef vec<2, float, lowp> lowp_vec2; + typedef vec<3, float, lowp> lowp_vec3; + typedef vec<4, float, lowp> lowp_vec4; + + typedef vec<1, float, mediump> mediump_vec1; + typedef vec<2, float, mediump> mediump_vec2; + typedef vec<3, float, mediump> mediump_vec3; + typedef vec<4, float, mediump> mediump_vec4; + + typedef vec<1, float, highp> highp_vec1; + typedef vec<2, float, highp> highp_vec2; + typedef vec<3, float, highp> highp_vec3; + typedef vec<4, float, highp> highp_vec4; + + typedef vec<1, float, defaultp> vec1; + typedef vec<2, float, defaultp> vec2; + typedef vec<3, float, defaultp> vec3; + typedef vec<4, float, defaultp> vec4; + + typedef vec<1, float, lowp> lowp_fvec1; + typedef vec<2, float, lowp> lowp_fvec2; + typedef vec<3, float, lowp> lowp_fvec3; + typedef vec<4, float, lowp> lowp_fvec4; + + typedef vec<1, float, mediump> mediump_fvec1; + typedef vec<2, float, mediump> mediump_fvec2; + typedef vec<3, float, mediump> mediump_fvec3; + typedef vec<4, float, mediump> mediump_fvec4; + + typedef vec<1, float, highp> highp_fvec1; + typedef vec<2, float, highp> highp_fvec2; + typedef vec<3, float, highp> highp_fvec3; + typedef vec<4, float, highp> highp_fvec4; + + typedef vec<1, f32, defaultp> fvec1; + typedef vec<2, f32, defaultp> fvec2; + typedef vec<3, f32, defaultp> fvec3; + typedef vec<4, f32, defaultp> fvec4; + + typedef vec<1, f32, lowp> lowp_f32vec1; + typedef vec<2, f32, lowp> lowp_f32vec2; + typedef vec<3, f32, lowp> lowp_f32vec3; + typedef vec<4, f32, lowp> lowp_f32vec4; + + typedef vec<1, f32, mediump> mediump_f32vec1; + typedef vec<2, f32, mediump> mediump_f32vec2; + typedef vec<3, f32, mediump> mediump_f32vec3; + typedef vec<4, f32, mediump> mediump_f32vec4; + + typedef vec<1, f32, highp> highp_f32vec1; + typedef vec<2, f32, highp> highp_f32vec2; + typedef vec<3, f32, highp> highp_f32vec3; + typedef vec<4, f32, highp> highp_f32vec4; + + typedef vec<1, f32, defaultp> f32vec1; + typedef vec<2, f32, defaultp> f32vec2; + typedef vec<3, f32, defaultp> f32vec3; + typedef vec<4, f32, defaultp> f32vec4; + + typedef vec<1, f64, lowp> lowp_dvec1; + typedef vec<2, f64, lowp> lowp_dvec2; + typedef vec<3, f64, lowp> lowp_dvec3; + typedef vec<4, f64, lowp> lowp_dvec4; + + typedef vec<1, f64, mediump> mediump_dvec1; + typedef vec<2, f64, mediump> mediump_dvec2; + typedef vec<3, f64, mediump> mediump_dvec3; + typedef vec<4, f64, mediump> mediump_dvec4; + + typedef vec<1, f64, highp> highp_dvec1; + typedef vec<2, f64, highp> highp_dvec2; + typedef vec<3, f64, highp> highp_dvec3; + typedef vec<4, f64, highp> highp_dvec4; + + typedef vec<1, f64, defaultp> dvec1; + typedef vec<2, f64, defaultp> dvec2; + typedef vec<3, f64, defaultp> dvec3; + typedef vec<4, f64, defaultp> dvec4; + + typedef vec<1, f64, lowp> lowp_f64vec1; + typedef vec<2, f64, lowp> lowp_f64vec2; + typedef vec<3, f64, lowp> lowp_f64vec3; + typedef vec<4, f64, lowp> lowp_f64vec4; + + typedef vec<1, f64, mediump> mediump_f64vec1; + typedef vec<2, f64, mediump> mediump_f64vec2; + typedef vec<3, f64, mediump> mediump_f64vec3; + typedef vec<4, f64, mediump> mediump_f64vec4; + + typedef vec<1, f64, highp> highp_f64vec1; + typedef vec<2, f64, highp> highp_f64vec2; + typedef vec<3, f64, highp> highp_f64vec3; + typedef vec<4, f64, highp> highp_f64vec4; + + typedef vec<1, f64, defaultp> f64vec1; + typedef vec<2, f64, defaultp> f64vec2; + typedef vec<3, f64, defaultp> f64vec3; + typedef vec<4, f64, defaultp> f64vec4; + + // Matrix NxN + + typedef mat<2, 2, f32, lowp> lowp_mat2; + typedef mat<3, 3, f32, lowp> lowp_mat3; + typedef mat<4, 4, f32, lowp> lowp_mat4; + + typedef mat<2, 2, f32, mediump> mediump_mat2; + typedef mat<3, 3, f32, mediump> mediump_mat3; + typedef mat<4, 4, f32, mediump> mediump_mat4; + + typedef mat<2, 2, f32, highp> highp_mat2; + typedef mat<3, 3, f32, highp> highp_mat3; + typedef mat<4, 4, f32, highp> highp_mat4; + + typedef mat<2, 2, f32, defaultp> mat2; + typedef mat<3, 3, f32, defaultp> mat3; + typedef mat<4, 4, f32, defaultp> mat4; + + typedef mat<2, 2, f32, lowp> lowp_fmat2; + typedef mat<3, 3, f32, lowp> lowp_fmat3; + typedef mat<4, 4, f32, lowp> lowp_fmat4; + + typedef mat<2, 2, f32, mediump> mediump_fmat2; + typedef mat<3, 3, f32, mediump> mediump_fmat3; + typedef mat<4, 4, f32, mediump> mediump_fmat4; + + typedef mat<2, 2, f32, highp> highp_fmat2; + typedef mat<3, 3, f32, highp> highp_fmat3; + typedef mat<4, 4, f32, highp> highp_fmat4; + + typedef mat<2, 2, f32, defaultp> fmat2; + typedef mat<3, 3, f32, defaultp> fmat3; + typedef mat<4, 4, f32, defaultp> fmat4; + + typedef mat<2, 2, f32, lowp> lowp_f32mat2; + typedef mat<3, 3, f32, lowp> lowp_f32mat3; + typedef mat<4, 4, f32, lowp> lowp_f32mat4; + + typedef mat<2, 2, f32, mediump> mediump_f32mat2; + typedef mat<3, 3, f32, mediump> mediump_f32mat3; + typedef mat<4, 4, f32, mediump> mediump_f32mat4; + + typedef mat<2, 2, f32, highp> highp_f32mat2; + typedef mat<3, 3, f32, highp> highp_f32mat3; + typedef mat<4, 4, f32, highp> highp_f32mat4; + + typedef mat<2, 2, f32, defaultp> f32mat2; + typedef mat<3, 3, f32, defaultp> f32mat3; + typedef mat<4, 4, f32, defaultp> f32mat4; + + typedef mat<2, 2, f64, lowp> lowp_dmat2; + typedef mat<3, 3, f64, lowp> lowp_dmat3; + typedef mat<4, 4, f64, lowp> lowp_dmat4; + + typedef mat<2, 2, f64, mediump> mediump_dmat2; + typedef mat<3, 3, f64, mediump> mediump_dmat3; + typedef mat<4, 4, f64, mediump> mediump_dmat4; + + typedef mat<2, 2, f64, highp> highp_dmat2; + typedef mat<3, 3, f64, highp> highp_dmat3; + typedef mat<4, 4, f64, highp> highp_dmat4; + + typedef mat<2, 2, f64, defaultp> dmat2; + typedef mat<3, 3, f64, defaultp> dmat3; + typedef mat<4, 4, f64, defaultp> dmat4; + + typedef mat<2, 2, f64, lowp> lowp_f64mat2; + typedef mat<3, 3, f64, lowp> lowp_f64mat3; + typedef mat<4, 4, f64, lowp> lowp_f64mat4; + + typedef mat<2, 2, f64, mediump> mediump_f64mat2; + typedef mat<3, 3, f64, mediump> mediump_f64mat3; + typedef mat<4, 4, f64, mediump> mediump_f64mat4; + + typedef mat<2, 2, f64, highp> highp_f64mat2; + typedef mat<3, 3, f64, highp> highp_f64mat3; + typedef mat<4, 4, f64, highp> highp_f64mat4; + + typedef mat<2, 2, f64, defaultp> f64mat2; + typedef mat<3, 3, f64, defaultp> f64mat3; + typedef mat<4, 4, f64, defaultp> f64mat4; + + // Matrix MxN + + typedef mat<2, 2, f32, lowp> lowp_mat2x2; + typedef mat<2, 3, f32, lowp> lowp_mat2x3; + typedef mat<2, 4, f32, lowp> lowp_mat2x4; + typedef mat<3, 2, f32, lowp> lowp_mat3x2; + typedef mat<3, 3, f32, lowp> lowp_mat3x3; + typedef mat<3, 4, f32, lowp> lowp_mat3x4; + typedef mat<4, 2, f32, lowp> lowp_mat4x2; + typedef mat<4, 3, f32, lowp> lowp_mat4x3; + typedef mat<4, 4, f32, lowp> lowp_mat4x4; + + typedef mat<2, 2, f32, mediump> mediump_mat2x2; + typedef mat<2, 3, f32, mediump> mediump_mat2x3; + typedef mat<2, 4, f32, mediump> mediump_mat2x4; + typedef mat<3, 2, f32, mediump> mediump_mat3x2; + typedef mat<3, 3, f32, mediump> mediump_mat3x3; + typedef mat<3, 4, f32, mediump> mediump_mat3x4; + typedef mat<4, 2, f32, mediump> mediump_mat4x2; + typedef mat<4, 3, f32, mediump> mediump_mat4x3; + typedef mat<4, 4, f32, mediump> mediump_mat4x4; + + typedef mat<2, 2, f32, highp> highp_mat2x2; + typedef mat<2, 3, f32, highp> highp_mat2x3; + typedef mat<2, 4, f32, highp> highp_mat2x4; + typedef mat<3, 2, f32, highp> highp_mat3x2; + typedef mat<3, 3, f32, highp> highp_mat3x3; + typedef mat<3, 4, f32, highp> highp_mat3x4; + typedef mat<4, 2, f32, highp> highp_mat4x2; + typedef mat<4, 3, f32, highp> highp_mat4x3; + typedef mat<4, 4, f32, highp> highp_mat4x4; + + typedef mat<2, 2, f32, defaultp> mat2x2; + typedef mat<3, 2, f32, defaultp> mat3x2; + typedef mat<4, 2, f32, defaultp> mat4x2; + typedef mat<2, 3, f32, defaultp> mat2x3; + typedef mat<3, 3, f32, defaultp> mat3x3; + typedef mat<4, 3, f32, defaultp> mat4x3; + typedef mat<2, 4, f32, defaultp> mat2x4; + typedef mat<3, 4, f32, defaultp> mat3x4; + typedef mat<4, 4, f32, defaultp> mat4x4; + + typedef mat<2, 2, f32, lowp> lowp_fmat2x2; + typedef mat<2, 3, f32, lowp> lowp_fmat2x3; + typedef mat<2, 4, f32, lowp> lowp_fmat2x4; + typedef mat<3, 2, f32, lowp> lowp_fmat3x2; + typedef mat<3, 3, f32, lowp> lowp_fmat3x3; + typedef mat<3, 4, f32, lowp> lowp_fmat3x4; + typedef mat<4, 2, f32, lowp> lowp_fmat4x2; + typedef mat<4, 3, f32, lowp> lowp_fmat4x3; + typedef mat<4, 4, f32, lowp> lowp_fmat4x4; + + typedef mat<2, 2, f32, mediump> mediump_fmat2x2; + typedef mat<2, 3, f32, mediump> mediump_fmat2x3; + typedef mat<2, 4, f32, mediump> mediump_fmat2x4; + typedef mat<3, 2, f32, mediump> mediump_fmat3x2; + typedef mat<3, 3, f32, mediump> mediump_fmat3x3; + typedef mat<3, 4, f32, mediump> mediump_fmat3x4; + typedef mat<4, 2, f32, mediump> mediump_fmat4x2; + typedef mat<4, 3, f32, mediump> mediump_fmat4x3; + typedef mat<4, 4, f32, mediump> mediump_fmat4x4; + + typedef mat<2, 2, f32, highp> highp_fmat2x2; + typedef mat<2, 3, f32, highp> highp_fmat2x3; + typedef mat<2, 4, f32, highp> highp_fmat2x4; + typedef mat<3, 2, f32, highp> highp_fmat3x2; + typedef mat<3, 3, f32, highp> highp_fmat3x3; + typedef mat<3, 4, f32, highp> highp_fmat3x4; + typedef mat<4, 2, f32, highp> highp_fmat4x2; + typedef mat<4, 3, f32, highp> highp_fmat4x3; + typedef mat<4, 4, f32, highp> highp_fmat4x4; + + typedef mat<2, 2, f32, defaultp> fmat2x2; + typedef mat<3, 2, f32, defaultp> fmat3x2; + typedef mat<4, 2, f32, defaultp> fmat4x2; + typedef mat<2, 3, f32, defaultp> fmat2x3; + typedef mat<3, 3, f32, defaultp> fmat3x3; + typedef mat<4, 3, f32, defaultp> fmat4x3; + typedef mat<2, 4, f32, defaultp> fmat2x4; + typedef mat<3, 4, f32, defaultp> fmat3x4; + typedef mat<4, 4, f32, defaultp> fmat4x4; + + typedef mat<2, 2, f32, lowp> lowp_f32mat2x2; + typedef mat<2, 3, f32, lowp> lowp_f32mat2x3; + typedef mat<2, 4, f32, lowp> lowp_f32mat2x4; + typedef mat<3, 2, f32, lowp> lowp_f32mat3x2; + typedef mat<3, 3, f32, lowp> lowp_f32mat3x3; + typedef mat<3, 4, f32, lowp> lowp_f32mat3x4; + typedef mat<4, 2, f32, lowp> lowp_f32mat4x2; + typedef mat<4, 3, f32, lowp> lowp_f32mat4x3; + typedef mat<4, 4, f32, lowp> lowp_f32mat4x4; + + typedef mat<2, 2, f32, mediump> mediump_f32mat2x2; + typedef mat<2, 3, f32, mediump> mediump_f32mat2x3; + typedef mat<2, 4, f32, mediump> mediump_f32mat2x4; + typedef mat<3, 2, f32, mediump> mediump_f32mat3x2; + typedef mat<3, 3, f32, mediump> mediump_f32mat3x3; + typedef mat<3, 4, f32, mediump> mediump_f32mat3x4; + typedef mat<4, 2, f32, mediump> mediump_f32mat4x2; + typedef mat<4, 3, f32, mediump> mediump_f32mat4x3; + typedef mat<4, 4, f32, mediump> mediump_f32mat4x4; + + typedef mat<2, 2, f32, highp> highp_f32mat2x2; + typedef mat<2, 3, f32, highp> highp_f32mat2x3; + typedef mat<2, 4, f32, highp> highp_f32mat2x4; + typedef mat<3, 2, f32, highp> highp_f32mat3x2; + typedef mat<3, 3, f32, highp> highp_f32mat3x3; + typedef mat<3, 4, f32, highp> highp_f32mat3x4; + typedef mat<4, 2, f32, highp> highp_f32mat4x2; + typedef mat<4, 3, f32, highp> highp_f32mat4x3; + typedef mat<4, 4, f32, highp> highp_f32mat4x4; + + typedef mat<2, 2, f32, defaultp> f32mat2x2; + typedef mat<3, 2, f32, defaultp> f32mat3x2; + typedef mat<4, 2, f32, defaultp> f32mat4x2; + typedef mat<2, 3, f32, defaultp> f32mat2x3; + typedef mat<3, 3, f32, defaultp> f32mat3x3; + typedef mat<4, 3, f32, defaultp> f32mat4x3; + typedef mat<2, 4, f32, defaultp> f32mat2x4; + typedef mat<3, 4, f32, defaultp> f32mat3x4; + typedef mat<4, 4, f32, defaultp> f32mat4x4; + + typedef mat<2, 2, double, lowp> lowp_dmat2x2; + typedef mat<2, 3, double, lowp> lowp_dmat2x3; + typedef mat<2, 4, double, lowp> lowp_dmat2x4; + typedef mat<3, 2, double, lowp> lowp_dmat3x2; + typedef mat<3, 3, double, lowp> lowp_dmat3x3; + typedef mat<3, 4, double, lowp> lowp_dmat3x4; + typedef mat<4, 2, double, lowp> lowp_dmat4x2; + typedef mat<4, 3, double, lowp> lowp_dmat4x3; + typedef mat<4, 4, double, lowp> lowp_dmat4x4; + + typedef mat<2, 2, double, mediump> mediump_dmat2x2; + typedef mat<2, 3, double, mediump> mediump_dmat2x3; + typedef mat<2, 4, double, mediump> mediump_dmat2x4; + typedef mat<3, 2, double, mediump> mediump_dmat3x2; + typedef mat<3, 3, double, mediump> mediump_dmat3x3; + typedef mat<3, 4, double, mediump> mediump_dmat3x4; + typedef mat<4, 2, double, mediump> mediump_dmat4x2; + typedef mat<4, 3, double, mediump> mediump_dmat4x3; + typedef mat<4, 4, double, mediump> mediump_dmat4x4; + + typedef mat<2, 2, double, highp> highp_dmat2x2; + typedef mat<2, 3, double, highp> highp_dmat2x3; + typedef mat<2, 4, double, highp> highp_dmat2x4; + typedef mat<3, 2, double, highp> highp_dmat3x2; + typedef mat<3, 3, double, highp> highp_dmat3x3; + typedef mat<3, 4, double, highp> highp_dmat3x4; + typedef mat<4, 2, double, highp> highp_dmat4x2; + typedef mat<4, 3, double, highp> highp_dmat4x3; + typedef mat<4, 4, double, highp> highp_dmat4x4; + + typedef mat<2, 2, double, defaultp> dmat2x2; + typedef mat<3, 2, double, defaultp> dmat3x2; + typedef mat<4, 2, double, defaultp> dmat4x2; + typedef mat<2, 3, double, defaultp> dmat2x3; + typedef mat<3, 3, double, defaultp> dmat3x3; + typedef mat<4, 3, double, defaultp> dmat4x3; + typedef mat<2, 4, double, defaultp> dmat2x4; + typedef mat<3, 4, double, defaultp> dmat3x4; + typedef mat<4, 4, double, defaultp> dmat4x4; + + typedef mat<2, 2, f64, lowp> lowp_f64mat2x2; + typedef mat<2, 3, f64, lowp> lowp_f64mat2x3; + typedef mat<2, 4, f64, lowp> lowp_f64mat2x4; + typedef mat<3, 2, f64, lowp> lowp_f64mat3x2; + typedef mat<3, 3, f64, lowp> lowp_f64mat3x3; + typedef mat<3, 4, f64, lowp> lowp_f64mat3x4; + typedef mat<4, 2, f64, lowp> lowp_f64mat4x2; + typedef mat<4, 3, f64, lowp> lowp_f64mat4x3; + typedef mat<4, 4, f64, lowp> lowp_f64mat4x4; + + typedef mat<2, 2, f64, mediump> mediump_f64mat2x2; + typedef mat<2, 3, f64, mediump> mediump_f64mat2x3; + typedef mat<2, 4, f64, mediump> mediump_f64mat2x4; + typedef mat<3, 2, f64, mediump> mediump_f64mat3x2; + typedef mat<3, 3, f64, mediump> mediump_f64mat3x3; + typedef mat<3, 4, f64, mediump> mediump_f64mat3x4; + typedef mat<4, 2, f64, mediump> mediump_f64mat4x2; + typedef mat<4, 3, f64, mediump> mediump_f64mat4x3; + typedef mat<4, 4, f64, mediump> mediump_f64mat4x4; + + typedef mat<2, 2, f64, highp> highp_f64mat2x2; + typedef mat<2, 3, f64, highp> highp_f64mat2x3; + typedef mat<2, 4, f64, highp> highp_f64mat2x4; + typedef mat<3, 2, f64, highp> highp_f64mat3x2; + typedef mat<3, 3, f64, highp> highp_f64mat3x3; + typedef mat<3, 4, f64, highp> highp_f64mat3x4; + typedef mat<4, 2, f64, highp> highp_f64mat4x2; + typedef mat<4, 3, f64, highp> highp_f64mat4x3; + typedef mat<4, 4, f64, highp> highp_f64mat4x4; + + typedef mat<2, 2, f64, defaultp> f64mat2x2; + typedef mat<3, 2, f64, defaultp> f64mat3x2; + typedef mat<4, 2, f64, defaultp> f64mat4x2; + typedef mat<2, 3, f64, defaultp> f64mat2x3; + typedef mat<3, 3, f64, defaultp> f64mat3x3; + typedef mat<4, 3, f64, defaultp> f64mat4x3; + typedef mat<2, 4, f64, defaultp> f64mat2x4; + typedef mat<3, 4, f64, defaultp> f64mat3x4; + typedef mat<4, 4, f64, defaultp> f64mat4x4; + + // Signed integer matrix MxN + + typedef mat<2, 2, int, lowp> lowp_imat2x2; + typedef mat<2, 3, int, lowp> lowp_imat2x3; + typedef mat<2, 4, int, lowp> lowp_imat2x4; + typedef mat<3, 2, int, lowp> lowp_imat3x2; + typedef mat<3, 3, int, lowp> lowp_imat3x3; + typedef mat<3, 4, int, lowp> lowp_imat3x4; + typedef mat<4, 2, int, lowp> lowp_imat4x2; + typedef mat<4, 3, int, lowp> lowp_imat4x3; + typedef mat<4, 4, int, lowp> lowp_imat4x4; + + typedef mat<2, 2, int, mediump> mediump_imat2x2; + typedef mat<2, 3, int, mediump> mediump_imat2x3; + typedef mat<2, 4, int, mediump> mediump_imat2x4; + typedef mat<3, 2, int, mediump> mediump_imat3x2; + typedef mat<3, 3, int, mediump> mediump_imat3x3; + typedef mat<3, 4, int, mediump> mediump_imat3x4; + typedef mat<4, 2, int, mediump> mediump_imat4x2; + typedef mat<4, 3, int, mediump> mediump_imat4x3; + typedef mat<4, 4, int, mediump> mediump_imat4x4; + + typedef mat<2, 2, int, highp> highp_imat2x2; + typedef mat<2, 3, int, highp> highp_imat2x3; + typedef mat<2, 4, int, highp> highp_imat2x4; + typedef mat<3, 2, int, highp> highp_imat3x2; + typedef mat<3, 3, int, highp> highp_imat3x3; + typedef mat<3, 4, int, highp> highp_imat3x4; + typedef mat<4, 2, int, highp> highp_imat4x2; + typedef mat<4, 3, int, highp> highp_imat4x3; + typedef mat<4, 4, int, highp> highp_imat4x4; + + typedef mat<2, 2, int, defaultp> imat2x2; + typedef mat<3, 2, int, defaultp> imat3x2; + typedef mat<4, 2, int, defaultp> imat4x2; + typedef mat<2, 3, int, defaultp> imat2x3; + typedef mat<3, 3, int, defaultp> imat3x3; + typedef mat<4, 3, int, defaultp> imat4x3; + typedef mat<2, 4, int, defaultp> imat2x4; + typedef mat<3, 4, int, defaultp> imat3x4; + typedef mat<4, 4, int, defaultp> imat4x4; + + + typedef mat<2, 2, int8, lowp> lowp_i8mat2x2; + typedef mat<2, 3, int8, lowp> lowp_i8mat2x3; + typedef mat<2, 4, int8, lowp> lowp_i8mat2x4; + typedef mat<3, 2, int8, lowp> lowp_i8mat3x2; + typedef mat<3, 3, int8, lowp> lowp_i8mat3x3; + typedef mat<3, 4, int8, lowp> lowp_i8mat3x4; + typedef mat<4, 2, int8, lowp> lowp_i8mat4x2; + typedef mat<4, 3, int8, lowp> lowp_i8mat4x3; + typedef mat<4, 4, int8, lowp> lowp_i8mat4x4; + + typedef mat<2, 2, int8, mediump> mediump_i8mat2x2; + typedef mat<2, 3, int8, mediump> mediump_i8mat2x3; + typedef mat<2, 4, int8, mediump> mediump_i8mat2x4; + typedef mat<3, 2, int8, mediump> mediump_i8mat3x2; + typedef mat<3, 3, int8, mediump> mediump_i8mat3x3; + typedef mat<3, 4, int8, mediump> mediump_i8mat3x4; + typedef mat<4, 2, int8, mediump> mediump_i8mat4x2; + typedef mat<4, 3, int8, mediump> mediump_i8mat4x3; + typedef mat<4, 4, int8, mediump> mediump_i8mat4x4; + + typedef mat<2, 2, int8, highp> highp_i8mat2x2; + typedef mat<2, 3, int8, highp> highp_i8mat2x3; + typedef mat<2, 4, int8, highp> highp_i8mat2x4; + typedef mat<3, 2, int8, highp> highp_i8mat3x2; + typedef mat<3, 3, int8, highp> highp_i8mat3x3; + typedef mat<3, 4, int8, highp> highp_i8mat3x4; + typedef mat<4, 2, int8, highp> highp_i8mat4x2; + typedef mat<4, 3, int8, highp> highp_i8mat4x3; + typedef mat<4, 4, int8, highp> highp_i8mat4x4; + + typedef mat<2, 2, int8, defaultp> i8mat2x2; + typedef mat<3, 2, int8, defaultp> i8mat3x2; + typedef mat<4, 2, int8, defaultp> i8mat4x2; + typedef mat<2, 3, int8, defaultp> i8mat2x3; + typedef mat<3, 3, int8, defaultp> i8mat3x3; + typedef mat<4, 3, int8, defaultp> i8mat4x3; + typedef mat<2, 4, int8, defaultp> i8mat2x4; + typedef mat<3, 4, int8, defaultp> i8mat3x4; + typedef mat<4, 4, int8, defaultp> i8mat4x4; + + + typedef mat<2, 2, int16, lowp> lowp_i16mat2x2; + typedef mat<2, 3, int16, lowp> lowp_i16mat2x3; + typedef mat<2, 4, int16, lowp> lowp_i16mat2x4; + typedef mat<3, 2, int16, lowp> lowp_i16mat3x2; + typedef mat<3, 3, int16, lowp> lowp_i16mat3x3; + typedef mat<3, 4, int16, lowp> lowp_i16mat3x4; + typedef mat<4, 2, int16, lowp> lowp_i16mat4x2; + typedef mat<4, 3, int16, lowp> lowp_i16mat4x3; + typedef mat<4, 4, int16, lowp> lowp_i16mat4x4; + + typedef mat<2, 2, int16, mediump> mediump_i16mat2x2; + typedef mat<2, 3, int16, mediump> mediump_i16mat2x3; + typedef mat<2, 4, int16, mediump> mediump_i16mat2x4; + typedef mat<3, 2, int16, mediump> mediump_i16mat3x2; + typedef mat<3, 3, int16, mediump> mediump_i16mat3x3; + typedef mat<3, 4, int16, mediump> mediump_i16mat3x4; + typedef mat<4, 2, int16, mediump> mediump_i16mat4x2; + typedef mat<4, 3, int16, mediump> mediump_i16mat4x3; + typedef mat<4, 4, int16, mediump> mediump_i16mat4x4; + + typedef mat<2, 2, int16, highp> highp_i16mat2x2; + typedef mat<2, 3, int16, highp> highp_i16mat2x3; + typedef mat<2, 4, int16, highp> highp_i16mat2x4; + typedef mat<3, 2, int16, highp> highp_i16mat3x2; + typedef mat<3, 3, int16, highp> highp_i16mat3x3; + typedef mat<3, 4, int16, highp> highp_i16mat3x4; + typedef mat<4, 2, int16, highp> highp_i16mat4x2; + typedef mat<4, 3, int16, highp> highp_i16mat4x3; + typedef mat<4, 4, int16, highp> highp_i16mat4x4; + + typedef mat<2, 2, int16, defaultp> i16mat2x2; + typedef mat<3, 2, int16, defaultp> i16mat3x2; + typedef mat<4, 2, int16, defaultp> i16mat4x2; + typedef mat<2, 3, int16, defaultp> i16mat2x3; + typedef mat<3, 3, int16, defaultp> i16mat3x3; + typedef mat<4, 3, int16, defaultp> i16mat4x3; + typedef mat<2, 4, int16, defaultp> i16mat2x4; + typedef mat<3, 4, int16, defaultp> i16mat3x4; + typedef mat<4, 4, int16, defaultp> i16mat4x4; + + + typedef mat<2, 2, int32, lowp> lowp_i32mat2x2; + typedef mat<2, 3, int32, lowp> lowp_i32mat2x3; + typedef mat<2, 4, int32, lowp> lowp_i32mat2x4; + typedef mat<3, 2, int32, lowp> lowp_i32mat3x2; + typedef mat<3, 3, int32, lowp> lowp_i32mat3x3; + typedef mat<3, 4, int32, lowp> lowp_i32mat3x4; + typedef mat<4, 2, int32, lowp> lowp_i32mat4x2; + typedef mat<4, 3, int32, lowp> lowp_i32mat4x3; + typedef mat<4, 4, int32, lowp> lowp_i32mat4x4; + + typedef mat<2, 2, int32, mediump> mediump_i32mat2x2; + typedef mat<2, 3, int32, mediump> mediump_i32mat2x3; + typedef mat<2, 4, int32, mediump> mediump_i32mat2x4; + typedef mat<3, 2, int32, mediump> mediump_i32mat3x2; + typedef mat<3, 3, int32, mediump> mediump_i32mat3x3; + typedef mat<3, 4, int32, mediump> mediump_i32mat3x4; + typedef mat<4, 2, int32, mediump> mediump_i32mat4x2; + typedef mat<4, 3, int32, mediump> mediump_i32mat4x3; + typedef mat<4, 4, int32, mediump> mediump_i32mat4x4; + + typedef mat<2, 2, int32, highp> highp_i32mat2x2; + typedef mat<2, 3, int32, highp> highp_i32mat2x3; + typedef mat<2, 4, int32, highp> highp_i32mat2x4; + typedef mat<3, 2, int32, highp> highp_i32mat3x2; + typedef mat<3, 3, int32, highp> highp_i32mat3x3; + typedef mat<3, 4, int32, highp> highp_i32mat3x4; + typedef mat<4, 2, int32, highp> highp_i32mat4x2; + typedef mat<4, 3, int32, highp> highp_i32mat4x3; + typedef mat<4, 4, int32, highp> highp_i32mat4x4; + + typedef mat<2, 2, int32, defaultp> i32mat2x2; + typedef mat<3, 2, int32, defaultp> i32mat3x2; + typedef mat<4, 2, int32, defaultp> i32mat4x2; + typedef mat<2, 3, int32, defaultp> i32mat2x3; + typedef mat<3, 3, int32, defaultp> i32mat3x3; + typedef mat<4, 3, int32, defaultp> i32mat4x3; + typedef mat<2, 4, int32, defaultp> i32mat2x4; + typedef mat<3, 4, int32, defaultp> i32mat3x4; + typedef mat<4, 4, int32, defaultp> i32mat4x4; + + + typedef mat<2, 2, int64, lowp> lowp_i64mat2x2; + typedef mat<2, 3, int64, lowp> lowp_i64mat2x3; + typedef mat<2, 4, int64, lowp> lowp_i64mat2x4; + typedef mat<3, 2, int64, lowp> lowp_i64mat3x2; + typedef mat<3, 3, int64, lowp> lowp_i64mat3x3; + typedef mat<3, 4, int64, lowp> lowp_i64mat3x4; + typedef mat<4, 2, int64, lowp> lowp_i64mat4x2; + typedef mat<4, 3, int64, lowp> lowp_i64mat4x3; + typedef mat<4, 4, int64, lowp> lowp_i64mat4x4; + + typedef mat<2, 2, int64, mediump> mediump_i64mat2x2; + typedef mat<2, 3, int64, mediump> mediump_i64mat2x3; + typedef mat<2, 4, int64, mediump> mediump_i64mat2x4; + typedef mat<3, 2, int64, mediump> mediump_i64mat3x2; + typedef mat<3, 3, int64, mediump> mediump_i64mat3x3; + typedef mat<3, 4, int64, mediump> mediump_i64mat3x4; + typedef mat<4, 2, int64, mediump> mediump_i64mat4x2; + typedef mat<4, 3, int64, mediump> mediump_i64mat4x3; + typedef mat<4, 4, int64, mediump> mediump_i64mat4x4; + + typedef mat<2, 2, int64, highp> highp_i64mat2x2; + typedef mat<2, 3, int64, highp> highp_i64mat2x3; + typedef mat<2, 4, int64, highp> highp_i64mat2x4; + typedef mat<3, 2, int64, highp> highp_i64mat3x2; + typedef mat<3, 3, int64, highp> highp_i64mat3x3; + typedef mat<3, 4, int64, highp> highp_i64mat3x4; + typedef mat<4, 2, int64, highp> highp_i64mat4x2; + typedef mat<4, 3, int64, highp> highp_i64mat4x3; + typedef mat<4, 4, int64, highp> highp_i64mat4x4; + + typedef mat<2, 2, int64, defaultp> i64mat2x2; + typedef mat<3, 2, int64, defaultp> i64mat3x2; + typedef mat<4, 2, int64, defaultp> i64mat4x2; + typedef mat<2, 3, int64, defaultp> i64mat2x3; + typedef mat<3, 3, int64, defaultp> i64mat3x3; + typedef mat<4, 3, int64, defaultp> i64mat4x3; + typedef mat<2, 4, int64, defaultp> i64mat2x4; + typedef mat<3, 4, int64, defaultp> i64mat3x4; + typedef mat<4, 4, int64, defaultp> i64mat4x4; + + + // Unsigned integer matrix MxN + + typedef mat<2, 2, uint, lowp> lowp_umat2x2; + typedef mat<2, 3, uint, lowp> lowp_umat2x3; + typedef mat<2, 4, uint, lowp> lowp_umat2x4; + typedef mat<3, 2, uint, lowp> lowp_umat3x2; + typedef mat<3, 3, uint, lowp> lowp_umat3x3; + typedef mat<3, 4, uint, lowp> lowp_umat3x4; + typedef mat<4, 2, uint, lowp> lowp_umat4x2; + typedef mat<4, 3, uint, lowp> lowp_umat4x3; + typedef mat<4, 4, uint, lowp> lowp_umat4x4; + + typedef mat<2, 2, uint, mediump> mediump_umat2x2; + typedef mat<2, 3, uint, mediump> mediump_umat2x3; + typedef mat<2, 4, uint, mediump> mediump_umat2x4; + typedef mat<3, 2, uint, mediump> mediump_umat3x2; + typedef mat<3, 3, uint, mediump> mediump_umat3x3; + typedef mat<3, 4, uint, mediump> mediump_umat3x4; + typedef mat<4, 2, uint, mediump> mediump_umat4x2; + typedef mat<4, 3, uint, mediump> mediump_umat4x3; + typedef mat<4, 4, uint, mediump> mediump_umat4x4; + + typedef mat<2, 2, uint, highp> highp_umat2x2; + typedef mat<2, 3, uint, highp> highp_umat2x3; + typedef mat<2, 4, uint, highp> highp_umat2x4; + typedef mat<3, 2, uint, highp> highp_umat3x2; + typedef mat<3, 3, uint, highp> highp_umat3x3; + typedef mat<3, 4, uint, highp> highp_umat3x4; + typedef mat<4, 2, uint, highp> highp_umat4x2; + typedef mat<4, 3, uint, highp> highp_umat4x3; + typedef mat<4, 4, uint, highp> highp_umat4x4; + + typedef mat<2, 2, uint, defaultp> umat2x2; + typedef mat<3, 2, uint, defaultp> umat3x2; + typedef mat<4, 2, uint, defaultp> umat4x2; + typedef mat<2, 3, uint, defaultp> umat2x3; + typedef mat<3, 3, uint, defaultp> umat3x3; + typedef mat<4, 3, uint, defaultp> umat4x3; + typedef mat<2, 4, uint, defaultp> umat2x4; + typedef mat<3, 4, uint, defaultp> umat3x4; + typedef mat<4, 4, uint, defaultp> umat4x4; + + + typedef mat<2, 2, uint8, lowp> lowp_u8mat2x2; + typedef mat<2, 3, uint8, lowp> lowp_u8mat2x3; + typedef mat<2, 4, uint8, lowp> lowp_u8mat2x4; + typedef mat<3, 2, uint8, lowp> lowp_u8mat3x2; + typedef mat<3, 3, uint8, lowp> lowp_u8mat3x3; + typedef mat<3, 4, uint8, lowp> lowp_u8mat3x4; + typedef mat<4, 2, uint8, lowp> lowp_u8mat4x2; + typedef mat<4, 3, uint8, lowp> lowp_u8mat4x3; + typedef mat<4, 4, uint8, lowp> lowp_u8mat4x4; + + typedef mat<2, 2, uint8, mediump> mediump_u8mat2x2; + typedef mat<2, 3, uint8, mediump> mediump_u8mat2x3; + typedef mat<2, 4, uint8, mediump> mediump_u8mat2x4; + typedef mat<3, 2, uint8, mediump> mediump_u8mat3x2; + typedef mat<3, 3, uint8, mediump> mediump_u8mat3x3; + typedef mat<3, 4, uint8, mediump> mediump_u8mat3x4; + typedef mat<4, 2, uint8, mediump> mediump_u8mat4x2; + typedef mat<4, 3, uint8, mediump> mediump_u8mat4x3; + typedef mat<4, 4, uint8, mediump> mediump_u8mat4x4; + + typedef mat<2, 2, uint8, highp> highp_u8mat2x2; + typedef mat<2, 3, uint8, highp> highp_u8mat2x3; + typedef mat<2, 4, uint8, highp> highp_u8mat2x4; + typedef mat<3, 2, uint8, highp> highp_u8mat3x2; + typedef mat<3, 3, uint8, highp> highp_u8mat3x3; + typedef mat<3, 4, uint8, highp> highp_u8mat3x4; + typedef mat<4, 2, uint8, highp> highp_u8mat4x2; + typedef mat<4, 3, uint8, highp> highp_u8mat4x3; + typedef mat<4, 4, uint8, highp> highp_u8mat4x4; + + typedef mat<2, 2, uint8, defaultp> u8mat2x2; + typedef mat<3, 2, uint8, defaultp> u8mat3x2; + typedef mat<4, 2, uint8, defaultp> u8mat4x2; + typedef mat<2, 3, uint8, defaultp> u8mat2x3; + typedef mat<3, 3, uint8, defaultp> u8mat3x3; + typedef mat<4, 3, uint8, defaultp> u8mat4x3; + typedef mat<2, 4, uint8, defaultp> u8mat2x4; + typedef mat<3, 4, uint8, defaultp> u8mat3x4; + typedef mat<4, 4, uint8, defaultp> u8mat4x4; + + + typedef mat<2, 2, uint16, lowp> lowp_u16mat2x2; + typedef mat<2, 3, uint16, lowp> lowp_u16mat2x3; + typedef mat<2, 4, uint16, lowp> lowp_u16mat2x4; + typedef mat<3, 2, uint16, lowp> lowp_u16mat3x2; + typedef mat<3, 3, uint16, lowp> lowp_u16mat3x3; + typedef mat<3, 4, uint16, lowp> lowp_u16mat3x4; + typedef mat<4, 2, uint16, lowp> lowp_u16mat4x2; + typedef mat<4, 3, uint16, lowp> lowp_u16mat4x3; + typedef mat<4, 4, uint16, lowp> lowp_u16mat4x4; + + typedef mat<2, 2, uint16, mediump> mediump_u16mat2x2; + typedef mat<2, 3, uint16, mediump> mediump_u16mat2x3; + typedef mat<2, 4, uint16, mediump> mediump_u16mat2x4; + typedef mat<3, 2, uint16, mediump> mediump_u16mat3x2; + typedef mat<3, 3, uint16, mediump> mediump_u16mat3x3; + typedef mat<3, 4, uint16, mediump> mediump_u16mat3x4; + typedef mat<4, 2, uint16, mediump> mediump_u16mat4x2; + typedef mat<4, 3, uint16, mediump> mediump_u16mat4x3; + typedef mat<4, 4, uint16, mediump> mediump_u16mat4x4; + + typedef mat<2, 2, uint16, highp> highp_u16mat2x2; + typedef mat<2, 3, uint16, highp> highp_u16mat2x3; + typedef mat<2, 4, uint16, highp> highp_u16mat2x4; + typedef mat<3, 2, uint16, highp> highp_u16mat3x2; + typedef mat<3, 3, uint16, highp> highp_u16mat3x3; + typedef mat<3, 4, uint16, highp> highp_u16mat3x4; + typedef mat<4, 2, uint16, highp> highp_u16mat4x2; + typedef mat<4, 3, uint16, highp> highp_u16mat4x3; + typedef mat<4, 4, uint16, highp> highp_u16mat4x4; + + typedef mat<2, 2, uint16, defaultp> u16mat2x2; + typedef mat<3, 2, uint16, defaultp> u16mat3x2; + typedef mat<4, 2, uint16, defaultp> u16mat4x2; + typedef mat<2, 3, uint16, defaultp> u16mat2x3; + typedef mat<3, 3, uint16, defaultp> u16mat3x3; + typedef mat<4, 3, uint16, defaultp> u16mat4x3; + typedef mat<2, 4, uint16, defaultp> u16mat2x4; + typedef mat<3, 4, uint16, defaultp> u16mat3x4; + typedef mat<4, 4, uint16, defaultp> u16mat4x4; + + + typedef mat<2, 2, uint32, lowp> lowp_u32mat2x2; + typedef mat<2, 3, uint32, lowp> lowp_u32mat2x3; + typedef mat<2, 4, uint32, lowp> lowp_u32mat2x4; + typedef mat<3, 2, uint32, lowp> lowp_u32mat3x2; + typedef mat<3, 3, uint32, lowp> lowp_u32mat3x3; + typedef mat<3, 4, uint32, lowp> lowp_u32mat3x4; + typedef mat<4, 2, uint32, lowp> lowp_u32mat4x2; + typedef mat<4, 3, uint32, lowp> lowp_u32mat4x3; + typedef mat<4, 4, uint32, lowp> lowp_u32mat4x4; + + typedef mat<2, 2, uint32, mediump> mediump_u32mat2x2; + typedef mat<2, 3, uint32, mediump> mediump_u32mat2x3; + typedef mat<2, 4, uint32, mediump> mediump_u32mat2x4; + typedef mat<3, 2, uint32, mediump> mediump_u32mat3x2; + typedef mat<3, 3, uint32, mediump> mediump_u32mat3x3; + typedef mat<3, 4, uint32, mediump> mediump_u32mat3x4; + typedef mat<4, 2, uint32, mediump> mediump_u32mat4x2; + typedef mat<4, 3, uint32, mediump> mediump_u32mat4x3; + typedef mat<4, 4, uint32, mediump> mediump_u32mat4x4; + + typedef mat<2, 2, uint32, highp> highp_u32mat2x2; + typedef mat<2, 3, uint32, highp> highp_u32mat2x3; + typedef mat<2, 4, uint32, highp> highp_u32mat2x4; + typedef mat<3, 2, uint32, highp> highp_u32mat3x2; + typedef mat<3, 3, uint32, highp> highp_u32mat3x3; + typedef mat<3, 4, uint32, highp> highp_u32mat3x4; + typedef mat<4, 2, uint32, highp> highp_u32mat4x2; + typedef mat<4, 3, uint32, highp> highp_u32mat4x3; + typedef mat<4, 4, uint32, highp> highp_u32mat4x4; + + typedef mat<2, 2, uint32, defaultp> u32mat2x2; + typedef mat<3, 2, uint32, defaultp> u32mat3x2; + typedef mat<4, 2, uint32, defaultp> u32mat4x2; + typedef mat<2, 3, uint32, defaultp> u32mat2x3; + typedef mat<3, 3, uint32, defaultp> u32mat3x3; + typedef mat<4, 3, uint32, defaultp> u32mat4x3; + typedef mat<2, 4, uint32, defaultp> u32mat2x4; + typedef mat<3, 4, uint32, defaultp> u32mat3x4; + typedef mat<4, 4, uint32, defaultp> u32mat4x4; + + + typedef mat<2, 2, uint64, lowp> lowp_u64mat2x2; + typedef mat<2, 3, uint64, lowp> lowp_u64mat2x3; + typedef mat<2, 4, uint64, lowp> lowp_u64mat2x4; + typedef mat<3, 2, uint64, lowp> lowp_u64mat3x2; + typedef mat<3, 3, uint64, lowp> lowp_u64mat3x3; + typedef mat<3, 4, uint64, lowp> lowp_u64mat3x4; + typedef mat<4, 2, uint64, lowp> lowp_u64mat4x2; + typedef mat<4, 3, uint64, lowp> lowp_u64mat4x3; + typedef mat<4, 4, uint64, lowp> lowp_u64mat4x4; + + typedef mat<2, 2, uint64, mediump> mediump_u64mat2x2; + typedef mat<2, 3, uint64, mediump> mediump_u64mat2x3; + typedef mat<2, 4, uint64, mediump> mediump_u64mat2x4; + typedef mat<3, 2, uint64, mediump> mediump_u64mat3x2; + typedef mat<3, 3, uint64, mediump> mediump_u64mat3x3; + typedef mat<3, 4, uint64, mediump> mediump_u64mat3x4; + typedef mat<4, 2, uint64, mediump> mediump_u64mat4x2; + typedef mat<4, 3, uint64, mediump> mediump_u64mat4x3; + typedef mat<4, 4, uint64, mediump> mediump_u64mat4x4; + + typedef mat<2, 2, uint64, highp> highp_u64mat2x2; + typedef mat<2, 3, uint64, highp> highp_u64mat2x3; + typedef mat<2, 4, uint64, highp> highp_u64mat2x4; + typedef mat<3, 2, uint64, highp> highp_u64mat3x2; + typedef mat<3, 3, uint64, highp> highp_u64mat3x3; + typedef mat<3, 4, uint64, highp> highp_u64mat3x4; + typedef mat<4, 2, uint64, highp> highp_u64mat4x2; + typedef mat<4, 3, uint64, highp> highp_u64mat4x3; + typedef mat<4, 4, uint64, highp> highp_u64mat4x4; + + typedef mat<2, 2, uint64, defaultp> u64mat2x2; + typedef mat<3, 2, uint64, defaultp> u64mat3x2; + typedef mat<4, 2, uint64, defaultp> u64mat4x2; + typedef mat<2, 3, uint64, defaultp> u64mat2x3; + typedef mat<3, 3, uint64, defaultp> u64mat3x3; + typedef mat<4, 3, uint64, defaultp> u64mat4x3; + typedef mat<2, 4, uint64, defaultp> u64mat2x4; + typedef mat<3, 4, uint64, defaultp> u64mat3x4; + typedef mat<4, 4, uint64, defaultp> u64mat4x4; + + // Quaternion + + typedef qua lowp_quat; + typedef qua mediump_quat; + typedef qua highp_quat; + typedef qua quat; + + typedef qua lowp_fquat; + typedef qua mediump_fquat; + typedef qua highp_fquat; + typedef qua fquat; + + typedef qua lowp_f32quat; + typedef qua mediump_f32quat; + typedef qua highp_f32quat; + typedef qua f32quat; + + typedef qua lowp_dquat; + typedef qua mediump_dquat; + typedef qua highp_dquat; + typedef qua dquat; + + typedef qua lowp_f64quat; + typedef qua mediump_f64quat; + typedef qua highp_f64quat; + typedef qua f64quat; +}//namespace glm + + diff --git a/Vulkan/ext/include/glm/geometric.hpp b/Vulkan/ext/include/glm/geometric.hpp new file mode 100644 index 0000000..c068a3c --- /dev/null +++ b/Vulkan/ext/include/glm/geometric.hpp @@ -0,0 +1,116 @@ +/// @ref core +/// @file glm/geometric.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions +/// +/// @defgroup core_func_geometric Geometric functions +/// @ingroup core +/// +/// These operate on vectors as vectors, not component-wise. +/// +/// Include to use these core features. + +#pragma once + +#include "detail/type_vec3.hpp" + +namespace glm +{ + /// @addtogroup core_func_geometric + /// @{ + + /// Returns the length of x, i.e., sqrt(x * x). + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL length man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL T length(vec const& x); + + /// Returns the distance betwwen p0 and p1, i.e., length(p0 - p1). + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL distance man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL T distance(vec const& p0, vec const& p1); + + /// Returns the dot product of x and y, i.e., result = x * y. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL dot man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL T dot(vec const& x, vec const& y); + + /// Returns the cross product of x and y. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL cross man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL vec<3, T, Q> cross(vec<3, T, Q> const& x, vec<3, T, Q> const& y); + + /// Returns a vector in the same direction as x but with length of 1. + /// According to issue 10 GLSL 1.10 specification, if length(x) == 0 then result is undefined and generate an error. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL normalize man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL vec normalize(vec const& x); + + /// If dot(Nref, I) < 0.0, return N, otherwise, return -N. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL faceforward man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL vec faceforward( + vec const& N, + vec const& I, + vec const& Nref); + + /// For the incident vector I and surface orientation N, + /// returns the reflection direction : result = I - 2.0 * dot(N, I) * N. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL reflect man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL vec reflect( + vec const& I, + vec const& N); + + /// For the incident vector I and surface normal N, + /// and the ratio of indices of refraction eta, + /// return the refraction vector. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Floating-point scalar types. + /// + /// @see GLSL refract man page + /// @see GLSL 4.20.8 specification, section 8.5 Geometric Functions + template + GLM_FUNC_DECL vec refract( + vec const& I, + vec const& N, + T eta); + + /// @} +}//namespace glm + +#include "detail/func_geometric.inl" diff --git a/Vulkan/ext/include/glm/glm.hpp b/Vulkan/ext/include/glm/glm.hpp new file mode 100644 index 0000000..8b61064 --- /dev/null +++ b/Vulkan/ext/include/glm/glm.hpp @@ -0,0 +1,136 @@ +/// @ref core +/// @file glm/glm.hpp +/// +/// @defgroup core Core features +/// +/// @brief Features that implement in C++ the GLSL specification as closely as possible. +/// +/// The GLM core consists of C++ types that mirror GLSL types and +/// C++ functions that mirror the GLSL functions. +/// +/// The best documentation for GLM Core is the current GLSL specification, +/// version 4.2 +/// (pdf file). +/// +/// GLM core functionalities require to be included to be used. +/// +/// +/// @defgroup core_vector Vector types +/// +/// Vector types of two to four components with an exhaustive set of operators. +/// +/// @ingroup core +/// +/// +/// @defgroup core_vector_precision Vector types with precision qualifiers +/// +/// @brief Vector types with precision qualifiers which may result in various precision in term of ULPs +/// +/// GLSL allows defining qualifiers for particular variables. +/// With OpenGL's GLSL, these qualifiers have no effect; they are there for compatibility, +/// with OpenGL ES's GLSL, these qualifiers do have an effect. +/// +/// C++ has no language equivalent to qualifier qualifiers. So GLM provides the next-best thing: +/// a number of typedefs that use a particular qualifier. +/// +/// None of these types make any guarantees about the actual qualifier used. +/// +/// @ingroup core +/// +/// +/// @defgroup core_matrix Matrix types +/// +/// Matrix types of with C columns and R rows where C and R are values between 2 to 4 included. +/// These types have exhaustive sets of operators. +/// +/// @ingroup core +/// +/// +/// @defgroup core_matrix_precision Matrix types with precision qualifiers +/// +/// @brief Matrix types with precision qualifiers which may result in various precision in term of ULPs +/// +/// GLSL allows defining qualifiers for particular variables. +/// With OpenGL's GLSL, these qualifiers have no effect; they are there for compatibility, +/// with OpenGL ES's GLSL, these qualifiers do have an effect. +/// +/// C++ has no language equivalent to qualifier qualifiers. So GLM provides the next-best thing: +/// a number of typedefs that use a particular qualifier. +/// +/// None of these types make any guarantees about the actual qualifier used. +/// +/// @ingroup core +/// +/// +/// @defgroup ext Stable extensions +/// +/// @brief Additional features not specified by GLSL specification. +/// +/// EXT extensions are fully tested and documented. +/// +/// Even if it's highly unrecommended, it's possible to include all the extensions at once by +/// including . Otherwise, each extension needs to be included a specific file. +/// +/// +/// @defgroup gtc Recommended extensions +/// +/// @brief Additional features not specified by GLSL specification. +/// +/// GTC extensions aim to be stable with tests and documentation. +/// +/// Even if it's highly unrecommended, it's possible to include all the extensions at once by +/// including . Otherwise, each extension needs to be included a specific file. +/// +/// +/// @defgroup gtx Experimental extensions +/// +/// @brief Experimental features not specified by GLSL specification. +/// +/// Experimental extensions are useful functions and types, but the development of +/// their API and functionality is not necessarily stable. They can change +/// substantially between versions. Backwards compatibility is not much of an issue +/// for them. +/// +/// Even if it's highly unrecommended, it's possible to include all the extensions +/// at once by including . Otherwise, each extension needs to be +/// included a specific file. +/// +/// @mainpage OpenGL Mathematics (GLM) +/// - Website: glm.g-truc.net +/// - GLM API documentation +/// - GLM Manual + +#include "detail/_fixes.hpp" + +#include "detail/setup.hpp" + +#pragma once + +#include +#include +#include +#include +#include +#include "fwd.hpp" + +#include "vec2.hpp" +#include "vec3.hpp" +#include "vec4.hpp" +#include "mat2x2.hpp" +#include "mat2x3.hpp" +#include "mat2x4.hpp" +#include "mat3x2.hpp" +#include "mat3x3.hpp" +#include "mat3x4.hpp" +#include "mat4x2.hpp" +#include "mat4x3.hpp" +#include "mat4x4.hpp" + +#include "trigonometric.hpp" +#include "exponential.hpp" +#include "common.hpp" +#include "packing.hpp" +#include "geometric.hpp" +#include "matrix.hpp" +#include "vector_relational.hpp" +#include "integer.hpp" diff --git a/Vulkan/ext/include/glm/gtc/bitfield.hpp b/Vulkan/ext/include/glm/gtc/bitfield.hpp new file mode 100644 index 0000000..084fbe7 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/bitfield.hpp @@ -0,0 +1,266 @@ +/// @ref gtc_bitfield +/// @file glm/gtc/bitfield.hpp +/// +/// @see core (dependence) +/// @see gtc_bitfield (dependence) +/// +/// @defgroup gtc_bitfield GLM_GTC_bitfield +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Allow to perform bit operations on integer values + +#include "../detail/setup.hpp" + +#pragma once + +// Dependencies +#include "../ext/scalar_int_sized.hpp" +#include "../ext/scalar_uint_sized.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/_vectorize.hpp" +#include "type_precision.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_bitfield extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_bitfield + /// @{ + + /// Build a mask of 'count' bits + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL genIUType mask(genIUType Bits); + + /// Build a mask of 'count' bits + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed and unsigned integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL vec mask(vec const& v); + + /// Rotate all bits to the right. All the bits dropped in the right side are inserted back on the left side. + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL genIUType bitfieldRotateRight(genIUType In, int Shift); + + /// Rotate all bits to the right. All the bits dropped in the right side are inserted back on the left side. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed and unsigned integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL vec bitfieldRotateRight(vec const& In, int Shift); + + /// Rotate all bits to the left. All the bits dropped in the left side are inserted back on the right side. + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL genIUType bitfieldRotateLeft(genIUType In, int Shift); + + /// Rotate all bits to the left. All the bits dropped in the left side are inserted back on the right side. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed and unsigned integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL vec bitfieldRotateLeft(vec const& In, int Shift); + + /// Set to 1 a range of bits. + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL genIUType bitfieldFillOne(genIUType Value, int FirstBit, int BitCount); + + /// Set to 1 a range of bits. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed and unsigned integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL vec bitfieldFillOne(vec const& Value, int FirstBit, int BitCount); + + /// Set to 0 a range of bits. + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL genIUType bitfieldFillZero(genIUType Value, int FirstBit, int BitCount); + + /// Set to 0 a range of bits. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Signed and unsigned integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_bitfield + template + GLM_FUNC_DECL vec bitfieldFillZero(vec const& Value, int FirstBit, int BitCount); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of x followed by the first bit of y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int16 bitfieldInterleave(int8 x, int8 y); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of x followed by the first bit of y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint16 bitfieldInterleave(uint8 x, uint8 y); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of v.x followed by the first bit of v.y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint16 bitfieldInterleave(u8vec2 const& v); + + /// Deinterleaves the bits of x. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL glm::u8vec2 bitfieldDeinterleave(glm::uint16 x); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of x followed by the first bit of y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int32 bitfieldInterleave(int16 x, int16 y); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of x followed by the first bit of y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint32 bitfieldInterleave(uint16 x, uint16 y); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of v.x followed by the first bit of v.y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint32 bitfieldInterleave(u16vec2 const& v); + + /// Deinterleaves the bits of x. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL glm::u16vec2 bitfieldDeinterleave(glm::uint32 x); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of x followed by the first bit of y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int64 bitfieldInterleave(int32 x, int32 y); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of x followed by the first bit of y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint64 bitfieldInterleave(uint32 x, uint32 y); + + /// Interleaves the bits of x and y. + /// The first bit is the first bit of v.x followed by the first bit of v.y. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint64 bitfieldInterleave(u32vec2 const& v); + + /// Deinterleaves the bits of x. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL glm::u32vec2 bitfieldDeinterleave(glm::uint64 x); + + /// Interleaves the bits of x, y and z. + /// The first bit is the first bit of x followed by the first bit of y and the first bit of z. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int32 bitfieldInterleave(int8 x, int8 y, int8 z); + + /// Interleaves the bits of x, y and z. + /// The first bit is the first bit of x followed by the first bit of y and the first bit of z. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint32 bitfieldInterleave(uint8 x, uint8 y, uint8 z); + + /// Interleaves the bits of x, y and z. + /// The first bit is the first bit of x followed by the first bit of y and the first bit of z. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int64 bitfieldInterleave(int16 x, int16 y, int16 z); + + /// Interleaves the bits of x, y and z. + /// The first bit is the first bit of x followed by the first bit of y and the first bit of z. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint64 bitfieldInterleave(uint16 x, uint16 y, uint16 z); + + /// Interleaves the bits of x, y and z. + /// The first bit is the first bit of x followed by the first bit of y and the first bit of z. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int64 bitfieldInterleave(int32 x, int32 y, int32 z); + + /// Interleaves the bits of x, y and z. + /// The first bit is the first bit of x followed by the first bit of y and the first bit of z. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint64 bitfieldInterleave(uint32 x, uint32 y, uint32 z); + + /// Interleaves the bits of x, y, z and w. + /// The first bit is the first bit of x followed by the first bit of y, the first bit of z and finally the first bit of w. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int32 bitfieldInterleave(int8 x, int8 y, int8 z, int8 w); + + /// Interleaves the bits of x, y, z and w. + /// The first bit is the first bit of x followed by the first bit of y, the first bit of z and finally the first bit of w. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint32 bitfieldInterleave(uint8 x, uint8 y, uint8 z, uint8 w); + + /// Interleaves the bits of x, y, z and w. + /// The first bit is the first bit of x followed by the first bit of y, the first bit of z and finally the first bit of w. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL int64 bitfieldInterleave(int16 x, int16 y, int16 z, int16 w); + + /// Interleaves the bits of x, y, z and w. + /// The first bit is the first bit of x followed by the first bit of y, the first bit of z and finally the first bit of w. + /// The other bits are interleaved following the previous sequence. + /// + /// @see gtc_bitfield + GLM_FUNC_DECL uint64 bitfieldInterleave(uint16 x, uint16 y, uint16 z, uint16 w); + + /// @} +} //namespace glm + +#include "bitfield.inl" diff --git a/Vulkan/ext/include/glm/gtc/bitfield.inl b/Vulkan/ext/include/glm/gtc/bitfield.inl new file mode 100644 index 0000000..06cf188 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/bitfield.inl @@ -0,0 +1,626 @@ +/// @ref gtc_bitfield + +#include "../simd/integer.h" + +namespace glm{ +namespace detail +{ + template + GLM_FUNC_DECL RET bitfieldInterleave(PARAM x, PARAM y); + + template + GLM_FUNC_DECL RET bitfieldInterleave(PARAM x, PARAM y, PARAM z); + + template + GLM_FUNC_DECL RET bitfieldInterleave(PARAM x, PARAM y, PARAM z, PARAM w); + + template<> + GLM_FUNC_QUALIFIER glm::uint16 bitfieldInterleave(glm::uint8 x, glm::uint8 y) + { + glm::uint16 REG1(x); + glm::uint16 REG2(y); + + REG1 = ((REG1 << 4) | REG1) & static_cast(0x0F0F); + REG2 = ((REG2 << 4) | REG2) & static_cast(0x0F0F); + + REG1 = ((REG1 << 2) | REG1) & static_cast(0x3333); + REG2 = ((REG2 << 2) | REG2) & static_cast(0x3333); + + REG1 = ((REG1 << 1) | REG1) & static_cast(0x5555); + REG2 = ((REG2 << 1) | REG2) & static_cast(0x5555); + + return REG1 | static_cast(REG2 << 1); + } + + template<> + GLM_FUNC_QUALIFIER glm::uint32 bitfieldInterleave(glm::uint16 x, glm::uint16 y) + { + glm::uint32 REG1(x); + glm::uint32 REG2(y); + + REG1 = ((REG1 << 8) | REG1) & static_cast(0x00FF00FF); + REG2 = ((REG2 << 8) | REG2) & static_cast(0x00FF00FF); + + REG1 = ((REG1 << 4) | REG1) & static_cast(0x0F0F0F0F); + REG2 = ((REG2 << 4) | REG2) & static_cast(0x0F0F0F0F); + + REG1 = ((REG1 << 2) | REG1) & static_cast(0x33333333); + REG2 = ((REG2 << 2) | REG2) & static_cast(0x33333333); + + REG1 = ((REG1 << 1) | REG1) & static_cast(0x55555555); + REG2 = ((REG2 << 1) | REG2) & static_cast(0x55555555); + + return REG1 | (REG2 << 1); + } + + template<> + GLM_FUNC_QUALIFIER glm::uint64 bitfieldInterleave(glm::uint32 x, glm::uint32 y) + { + glm::uint64 REG1(x); + glm::uint64 REG2(y); + + REG1 = ((REG1 << 16) | REG1) & static_cast(0x0000FFFF0000FFFFull); + REG2 = ((REG2 << 16) | REG2) & static_cast(0x0000FFFF0000FFFFull); + + REG1 = ((REG1 << 8) | REG1) & static_cast(0x00FF00FF00FF00FFull); + REG2 = ((REG2 << 8) | REG2) & static_cast(0x00FF00FF00FF00FFull); + + REG1 = ((REG1 << 4) | REG1) & static_cast(0x0F0F0F0F0F0F0F0Full); + REG2 = ((REG2 << 4) | REG2) & static_cast(0x0F0F0F0F0F0F0F0Full); + + REG1 = ((REG1 << 2) | REG1) & static_cast(0x3333333333333333ull); + REG2 = ((REG2 << 2) | REG2) & static_cast(0x3333333333333333ull); + + REG1 = ((REG1 << 1) | REG1) & static_cast(0x5555555555555555ull); + REG2 = ((REG2 << 1) | REG2) & static_cast(0x5555555555555555ull); + + return REG1 | (REG2 << 1); + } + + template<> + GLM_FUNC_QUALIFIER glm::uint32 bitfieldInterleave(glm::uint8 x, glm::uint8 y, glm::uint8 z) + { + glm::uint32 REG1(x); + glm::uint32 REG2(y); + glm::uint32 REG3(z); + + REG1 = ((REG1 << 16) | REG1) & static_cast(0xFF0000FFu); + REG2 = ((REG2 << 16) | REG2) & static_cast(0xFF0000FFu); + REG3 = ((REG3 << 16) | REG3) & static_cast(0xFF0000FFu); + + REG1 = ((REG1 << 8) | REG1) & static_cast(0x0F00F00Fu); + REG2 = ((REG2 << 8) | REG2) & static_cast(0x0F00F00Fu); + REG3 = ((REG3 << 8) | REG3) & static_cast(0x0F00F00Fu); + + REG1 = ((REG1 << 4) | REG1) & static_cast(0xC30C30C3u); + REG2 = ((REG2 << 4) | REG2) & static_cast(0xC30C30C3u); + REG3 = ((REG3 << 4) | REG3) & static_cast(0xC30C30C3u); + + REG1 = ((REG1 << 2) | REG1) & static_cast(0x49249249u); + REG2 = ((REG2 << 2) | REG2) & static_cast(0x49249249u); + REG3 = ((REG3 << 2) | REG3) & static_cast(0x49249249u); + + return REG1 | (REG2 << 1) | (REG3 << 2); + } + + template<> + GLM_FUNC_QUALIFIER glm::uint64 bitfieldInterleave(glm::uint16 x, glm::uint16 y, glm::uint16 z) + { + glm::uint64 REG1(x); + glm::uint64 REG2(y); + glm::uint64 REG3(z); + + REG1 = ((REG1 << 32) | REG1) & static_cast(0xFFFF00000000FFFFull); + REG2 = ((REG2 << 32) | REG2) & static_cast(0xFFFF00000000FFFFull); + REG3 = ((REG3 << 32) | REG3) & static_cast(0xFFFF00000000FFFFull); + + REG1 = ((REG1 << 16) | REG1) & static_cast(0x00FF0000FF0000FFull); + REG2 = ((REG2 << 16) | REG2) & static_cast(0x00FF0000FF0000FFull); + REG3 = ((REG3 << 16) | REG3) & static_cast(0x00FF0000FF0000FFull); + + REG1 = ((REG1 << 8) | REG1) & static_cast(0xF00F00F00F00F00Full); + REG2 = ((REG2 << 8) | REG2) & static_cast(0xF00F00F00F00F00Full); + REG3 = ((REG3 << 8) | REG3) & static_cast(0xF00F00F00F00F00Full); + + REG1 = ((REG1 << 4) | REG1) & static_cast(0x30C30C30C30C30C3ull); + REG2 = ((REG2 << 4) | REG2) & static_cast(0x30C30C30C30C30C3ull); + REG3 = ((REG3 << 4) | REG3) & static_cast(0x30C30C30C30C30C3ull); + + REG1 = ((REG1 << 2) | REG1) & static_cast(0x9249249249249249ull); + REG2 = ((REG2 << 2) | REG2) & static_cast(0x9249249249249249ull); + REG3 = ((REG3 << 2) | REG3) & static_cast(0x9249249249249249ull); + + return REG1 | (REG2 << 1) | (REG3 << 2); + } + + template<> + GLM_FUNC_QUALIFIER glm::uint64 bitfieldInterleave(glm::uint32 x, glm::uint32 y, glm::uint32 z) + { + glm::uint64 REG1(x); + glm::uint64 REG2(y); + glm::uint64 REG3(z); + + REG1 = ((REG1 << 32) | REG1) & static_cast(0xFFFF00000000FFFFull); + REG2 = ((REG2 << 32) | REG2) & static_cast(0xFFFF00000000FFFFull); + REG3 = ((REG3 << 32) | REG3) & static_cast(0xFFFF00000000FFFFull); + + REG1 = ((REG1 << 16) | REG1) & static_cast(0x00FF0000FF0000FFull); + REG2 = ((REG2 << 16) | REG2) & static_cast(0x00FF0000FF0000FFull); + REG3 = ((REG3 << 16) | REG3) & static_cast(0x00FF0000FF0000FFull); + + REG1 = ((REG1 << 8) | REG1) & static_cast(0xF00F00F00F00F00Full); + REG2 = ((REG2 << 8) | REG2) & static_cast(0xF00F00F00F00F00Full); + REG3 = ((REG3 << 8) | REG3) & static_cast(0xF00F00F00F00F00Full); + + REG1 = ((REG1 << 4) | REG1) & static_cast(0x30C30C30C30C30C3ull); + REG2 = ((REG2 << 4) | REG2) & static_cast(0x30C30C30C30C30C3ull); + REG3 = ((REG3 << 4) | REG3) & static_cast(0x30C30C30C30C30C3ull); + + REG1 = ((REG1 << 2) | REG1) & static_cast(0x9249249249249249ull); + REG2 = ((REG2 << 2) | REG2) & static_cast(0x9249249249249249ull); + REG3 = ((REG3 << 2) | REG3) & static_cast(0x9249249249249249ull); + + return REG1 | (REG2 << 1) | (REG3 << 2); + } + + template<> + GLM_FUNC_QUALIFIER glm::uint32 bitfieldInterleave(glm::uint8 x, glm::uint8 y, glm::uint8 z, glm::uint8 w) + { + glm::uint32 REG1(x); + glm::uint32 REG2(y); + glm::uint32 REG3(z); + glm::uint32 REG4(w); + + REG1 = ((REG1 << 12) | REG1) & static_cast(0x000F000Fu); + REG2 = ((REG2 << 12) | REG2) & static_cast(0x000F000Fu); + REG3 = ((REG3 << 12) | REG3) & static_cast(0x000F000Fu); + REG4 = ((REG4 << 12) | REG4) & static_cast(0x000F000Fu); + + REG1 = ((REG1 << 6) | REG1) & static_cast(0x03030303u); + REG2 = ((REG2 << 6) | REG2) & static_cast(0x03030303u); + REG3 = ((REG3 << 6) | REG3) & static_cast(0x03030303u); + REG4 = ((REG4 << 6) | REG4) & static_cast(0x03030303u); + + REG1 = ((REG1 << 3) | REG1) & static_cast(0x11111111u); + REG2 = ((REG2 << 3) | REG2) & static_cast(0x11111111u); + REG3 = ((REG3 << 3) | REG3) & static_cast(0x11111111u); + REG4 = ((REG4 << 3) | REG4) & static_cast(0x11111111u); + + return REG1 | (REG2 << 1) | (REG3 << 2) | (REG4 << 3); + } + + template<> + GLM_FUNC_QUALIFIER glm::uint64 bitfieldInterleave(glm::uint16 x, glm::uint16 y, glm::uint16 z, glm::uint16 w) + { + glm::uint64 REG1(x); + glm::uint64 REG2(y); + glm::uint64 REG3(z); + glm::uint64 REG4(w); + + REG1 = ((REG1 << 24) | REG1) & static_cast(0x000000FF000000FFull); + REG2 = ((REG2 << 24) | REG2) & static_cast(0x000000FF000000FFull); + REG3 = ((REG3 << 24) | REG3) & static_cast(0x000000FF000000FFull); + REG4 = ((REG4 << 24) | REG4) & static_cast(0x000000FF000000FFull); + + REG1 = ((REG1 << 12) | REG1) & static_cast(0x000F000F000F000Full); + REG2 = ((REG2 << 12) | REG2) & static_cast(0x000F000F000F000Full); + REG3 = ((REG3 << 12) | REG3) & static_cast(0x000F000F000F000Full); + REG4 = ((REG4 << 12) | REG4) & static_cast(0x000F000F000F000Full); + + REG1 = ((REG1 << 6) | REG1) & static_cast(0x0303030303030303ull); + REG2 = ((REG2 << 6) | REG2) & static_cast(0x0303030303030303ull); + REG3 = ((REG3 << 6) | REG3) & static_cast(0x0303030303030303ull); + REG4 = ((REG4 << 6) | REG4) & static_cast(0x0303030303030303ull); + + REG1 = ((REG1 << 3) | REG1) & static_cast(0x1111111111111111ull); + REG2 = ((REG2 << 3) | REG2) & static_cast(0x1111111111111111ull); + REG3 = ((REG3 << 3) | REG3) & static_cast(0x1111111111111111ull); + REG4 = ((REG4 << 3) | REG4) & static_cast(0x1111111111111111ull); + + return REG1 | (REG2 << 1) | (REG3 << 2) | (REG4 << 3); + } +}//namespace detail + + template + GLM_FUNC_QUALIFIER genIUType mask(genIUType Bits) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'mask' accepts only integer values"); + + return Bits >= sizeof(genIUType) * 8 ? ~static_cast(0) : (static_cast(1) << Bits) - static_cast(1); + } + + template + GLM_FUNC_QUALIFIER vec mask(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'mask' accepts only integer values"); + + return detail::functor1::call(mask, v); + } + + template + GLM_FUNC_QUALIFIER genIType bitfieldRotateRight(genIType In, int Shift) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldRotateRight' accepts only integer values"); + + int const BitSize = static_cast(sizeof(genIType) * 8); + return (In << static_cast(Shift)) | (In >> static_cast(BitSize - Shift)); + } + + template + GLM_FUNC_QUALIFIER vec bitfieldRotateRight(vec const& In, int Shift) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldRotateRight' accepts only integer values"); + + int const BitSize = static_cast(sizeof(T) * 8); + return (In << static_cast(Shift)) | (In >> static_cast(BitSize - Shift)); + } + + template + GLM_FUNC_QUALIFIER genIType bitfieldRotateLeft(genIType In, int Shift) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldRotateLeft' accepts only integer values"); + + int const BitSize = static_cast(sizeof(genIType) * 8); + return (In >> static_cast(Shift)) | (In << static_cast(BitSize - Shift)); + } + + template + GLM_FUNC_QUALIFIER vec bitfieldRotateLeft(vec const& In, int Shift) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "'bitfieldRotateLeft' accepts only integer values"); + + int const BitSize = static_cast(sizeof(T) * 8); + return (In >> static_cast(Shift)) | (In << static_cast(BitSize - Shift)); + } + + template + GLM_FUNC_QUALIFIER genIUType bitfieldFillOne(genIUType Value, int FirstBit, int BitCount) + { + return Value | static_cast(mask(BitCount) << FirstBit); + } + + template + GLM_FUNC_QUALIFIER vec bitfieldFillOne(vec const& Value, int FirstBit, int BitCount) + { + return Value | static_cast(mask(BitCount) << FirstBit); + } + + template + GLM_FUNC_QUALIFIER genIUType bitfieldFillZero(genIUType Value, int FirstBit, int BitCount) + { + return Value & static_cast(~(mask(BitCount) << FirstBit)); + } + + template + GLM_FUNC_QUALIFIER vec bitfieldFillZero(vec const& Value, int FirstBit, int BitCount) + { + return Value & static_cast(~(mask(BitCount) << FirstBit)); + } + + GLM_FUNC_QUALIFIER int16 bitfieldInterleave(int8 x, int8 y) + { + union sign8 + { + int8 i; + uint8 u; + } sign_x, sign_y; + + union sign16 + { + int16 i; + uint16 u; + } result; + + sign_x.i = x; + sign_y.i = y; + result.u = bitfieldInterleave(sign_x.u, sign_y.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint16 bitfieldInterleave(uint8 x, uint8 y) + { + return detail::bitfieldInterleave(x, y); + } + + GLM_FUNC_QUALIFIER uint16 bitfieldInterleave(u8vec2 const& v) + { + return detail::bitfieldInterleave(v.x, v.y); + } + + GLM_FUNC_QUALIFIER u8vec2 bitfieldDeinterleave(glm::uint16 x) + { + uint16 REG1(x); + uint16 REG2(x >>= 1); + + REG1 = REG1 & static_cast(0x5555); + REG2 = REG2 & static_cast(0x5555); + + REG1 = ((REG1 >> 1) | REG1) & static_cast(0x3333); + REG2 = ((REG2 >> 1) | REG2) & static_cast(0x3333); + + REG1 = ((REG1 >> 2) | REG1) & static_cast(0x0F0F); + REG2 = ((REG2 >> 2) | REG2) & static_cast(0x0F0F); + + REG1 = ((REG1 >> 4) | REG1) & static_cast(0x00FF); + REG2 = ((REG2 >> 4) | REG2) & static_cast(0x00FF); + + REG1 = ((REG1 >> 8) | REG1) & static_cast(0xFFFF); + REG2 = ((REG2 >> 8) | REG2) & static_cast(0xFFFF); + + return glm::u8vec2(REG1, REG2); + } + + GLM_FUNC_QUALIFIER int32 bitfieldInterleave(int16 x, int16 y) + { + union sign16 + { + int16 i; + uint16 u; + } sign_x, sign_y; + + union sign32 + { + int32 i; + uint32 u; + } result; + + sign_x.i = x; + sign_y.i = y; + result.u = bitfieldInterleave(sign_x.u, sign_y.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint32 bitfieldInterleave(uint16 x, uint16 y) + { + return detail::bitfieldInterleave(x, y); + } + + GLM_FUNC_QUALIFIER glm::uint32 bitfieldInterleave(u16vec2 const& v) + { + return detail::bitfieldInterleave(v.x, v.y); + } + + GLM_FUNC_QUALIFIER glm::u16vec2 bitfieldDeinterleave(glm::uint32 x) + { + glm::uint32 REG1(x); + glm::uint32 REG2(x >>= 1); + + REG1 = REG1 & static_cast(0x55555555); + REG2 = REG2 & static_cast(0x55555555); + + REG1 = ((REG1 >> 1) | REG1) & static_cast(0x33333333); + REG2 = ((REG2 >> 1) | REG2) & static_cast(0x33333333); + + REG1 = ((REG1 >> 2) | REG1) & static_cast(0x0F0F0F0F); + REG2 = ((REG2 >> 2) | REG2) & static_cast(0x0F0F0F0F); + + REG1 = ((REG1 >> 4) | REG1) & static_cast(0x00FF00FF); + REG2 = ((REG2 >> 4) | REG2) & static_cast(0x00FF00FF); + + REG1 = ((REG1 >> 8) | REG1) & static_cast(0x0000FFFF); + REG2 = ((REG2 >> 8) | REG2) & static_cast(0x0000FFFF); + + return glm::u16vec2(REG1, REG2); + } + + GLM_FUNC_QUALIFIER int64 bitfieldInterleave(int32 x, int32 y) + { + union sign32 + { + int32 i; + uint32 u; + } sign_x, sign_y; + + union sign64 + { + int64 i; + uint64 u; + } result; + + sign_x.i = x; + sign_y.i = y; + result.u = bitfieldInterleave(sign_x.u, sign_y.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint64 bitfieldInterleave(uint32 x, uint32 y) + { + return detail::bitfieldInterleave(x, y); + } + + GLM_FUNC_QUALIFIER glm::uint64 bitfieldInterleave(u32vec2 const& v) + { + return detail::bitfieldInterleave(v.x, v.y); + } + + GLM_FUNC_QUALIFIER glm::u32vec2 bitfieldDeinterleave(glm::uint64 x) + { + glm::uint64 REG1(x); + glm::uint64 REG2(x >>= 1); + + REG1 = REG1 & static_cast(0x5555555555555555ull); + REG2 = REG2 & static_cast(0x5555555555555555ull); + + REG1 = ((REG1 >> 1) | REG1) & static_cast(0x3333333333333333ull); + REG2 = ((REG2 >> 1) | REG2) & static_cast(0x3333333333333333ull); + + REG1 = ((REG1 >> 2) | REG1) & static_cast(0x0F0F0F0F0F0F0F0Full); + REG2 = ((REG2 >> 2) | REG2) & static_cast(0x0F0F0F0F0F0F0F0Full); + + REG1 = ((REG1 >> 4) | REG1) & static_cast(0x00FF00FF00FF00FFull); + REG2 = ((REG2 >> 4) | REG2) & static_cast(0x00FF00FF00FF00FFull); + + REG1 = ((REG1 >> 8) | REG1) & static_cast(0x0000FFFF0000FFFFull); + REG2 = ((REG2 >> 8) | REG2) & static_cast(0x0000FFFF0000FFFFull); + + REG1 = ((REG1 >> 16) | REG1) & static_cast(0x00000000FFFFFFFFull); + REG2 = ((REG2 >> 16) | REG2) & static_cast(0x00000000FFFFFFFFull); + + return glm::u32vec2(REG1, REG2); + } + + GLM_FUNC_QUALIFIER int32 bitfieldInterleave(int8 x, int8 y, int8 z) + { + union sign8 + { + int8 i; + uint8 u; + } sign_x, sign_y, sign_z; + + union sign32 + { + int32 i; + uint32 u; + } result; + + sign_x.i = x; + sign_y.i = y; + sign_z.i = z; + result.u = bitfieldInterleave(sign_x.u, sign_y.u, sign_z.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint32 bitfieldInterleave(uint8 x, uint8 y, uint8 z) + { + return detail::bitfieldInterleave(x, y, z); + } + + GLM_FUNC_QUALIFIER uint32 bitfieldInterleave(u8vec3 const& v) + { + return detail::bitfieldInterleave(v.x, v.y, v.z); + } + + GLM_FUNC_QUALIFIER int64 bitfieldInterleave(int16 x, int16 y, int16 z) + { + union sign16 + { + int16 i; + uint16 u; + } sign_x, sign_y, sign_z; + + union sign64 + { + int64 i; + uint64 u; + } result; + + sign_x.i = x; + sign_y.i = y; + sign_z.i = z; + result.u = bitfieldInterleave(sign_x.u, sign_y.u, sign_z.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint64 bitfieldInterleave(uint16 x, uint16 y, uint16 z) + { + return detail::bitfieldInterleave(x, y, z); + } + + GLM_FUNC_QUALIFIER uint64 bitfieldInterleave(u16vec3 const& v) + { + return detail::bitfieldInterleave(v.x, v.y, v.z); + } + + GLM_FUNC_QUALIFIER int64 bitfieldInterleave(int32 x, int32 y, int32 z) + { + union sign16 + { + int32 i; + uint32 u; + } sign_x, sign_y, sign_z; + + union sign64 + { + int64 i; + uint64 u; + } result; + + sign_x.i = x; + sign_y.i = y; + sign_z.i = z; + result.u = bitfieldInterleave(sign_x.u, sign_y.u, sign_z.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint64 bitfieldInterleave(uint32 x, uint32 y, uint32 z) + { + return detail::bitfieldInterleave(x, y, z); + } + + GLM_FUNC_QUALIFIER uint64 bitfieldInterleave(u32vec3 const& v) + { + return detail::bitfieldInterleave(v.x, v.y, v.z); + } + + GLM_FUNC_QUALIFIER int32 bitfieldInterleave(int8 x, int8 y, int8 z, int8 w) + { + union sign8 + { + int8 i; + uint8 u; + } sign_x, sign_y, sign_z, sign_w; + + union sign32 + { + int32 i; + uint32 u; + } result; + + sign_x.i = x; + sign_y.i = y; + sign_z.i = z; + sign_w.i = w; + result.u = bitfieldInterleave(sign_x.u, sign_y.u, sign_z.u, sign_w.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint32 bitfieldInterleave(uint8 x, uint8 y, uint8 z, uint8 w) + { + return detail::bitfieldInterleave(x, y, z, w); + } + + GLM_FUNC_QUALIFIER uint32 bitfieldInterleave(u8vec4 const& v) + { + return detail::bitfieldInterleave(v.x, v.y, v.z, v.w); + } + + GLM_FUNC_QUALIFIER int64 bitfieldInterleave(int16 x, int16 y, int16 z, int16 w) + { + union sign16 + { + int16 i; + uint16 u; + } sign_x, sign_y, sign_z, sign_w; + + union sign64 + { + int64 i; + uint64 u; + } result; + + sign_x.i = x; + sign_y.i = y; + sign_z.i = z; + sign_w.i = w; + result.u = bitfieldInterleave(sign_x.u, sign_y.u, sign_z.u, sign_w.u); + + return result.i; + } + + GLM_FUNC_QUALIFIER uint64 bitfieldInterleave(uint16 x, uint16 y, uint16 z, uint16 w) + { + return detail::bitfieldInterleave(x, y, z, w); + } + + GLM_FUNC_QUALIFIER uint64 bitfieldInterleave(u16vec4 const& v) + { + return detail::bitfieldInterleave(v.x, v.y, v.z, v.w); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/color_space.hpp b/Vulkan/ext/include/glm/gtc/color_space.hpp new file mode 100644 index 0000000..cffd9f0 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/color_space.hpp @@ -0,0 +1,56 @@ +/// @ref gtc_color_space +/// @file glm/gtc/color_space.hpp +/// +/// @see core (dependence) +/// @see gtc_color_space (dependence) +/// +/// @defgroup gtc_color_space GLM_GTC_color_space +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Allow to perform bit operations on integer values + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../exponential.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_color_space extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_color_space + /// @{ + + /// Convert a linear color to sRGB color using a standard gamma correction. + /// IEC 61966-2-1:1999 / Rec. 709 specification https://www.w3.org/Graphics/Color/srgb + template + GLM_FUNC_DECL vec convertLinearToSRGB(vec const& ColorLinear); + + /// Convert a linear color to sRGB color using a custom gamma correction. + /// IEC 61966-2-1:1999 / Rec. 709 specification https://www.w3.org/Graphics/Color/srgb + template + GLM_FUNC_DECL vec convertLinearToSRGB(vec const& ColorLinear, T Gamma); + + /// Convert a sRGB color to linear color using a standard gamma correction. + /// IEC 61966-2-1:1999 / Rec. 709 specification https://www.w3.org/Graphics/Color/srgb + template + GLM_FUNC_DECL vec convertSRGBToLinear(vec const& ColorSRGB); + + /// Convert a sRGB color to linear color using a custom gamma correction. + // IEC 61966-2-1:1999 / Rec. 709 specification https://www.w3.org/Graphics/Color/srgb + template + GLM_FUNC_DECL vec convertSRGBToLinear(vec const& ColorSRGB, T Gamma); + + /// @} +} //namespace glm + +#include "color_space.inl" diff --git a/Vulkan/ext/include/glm/gtc/color_space.inl b/Vulkan/ext/include/glm/gtc/color_space.inl new file mode 100644 index 0000000..2a90004 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/color_space.inl @@ -0,0 +1,84 @@ +/// @ref gtc_color_space + +namespace glm{ +namespace detail +{ + template + struct compute_rgbToSrgb + { + GLM_FUNC_QUALIFIER static vec call(vec const& ColorRGB, T GammaCorrection) + { + vec const ClampedColor(clamp(ColorRGB, static_cast(0), static_cast(1))); + + return mix( + pow(ClampedColor, vec(GammaCorrection)) * static_cast(1.055) - static_cast(0.055), + ClampedColor * static_cast(12.92), + lessThan(ClampedColor, vec(static_cast(0.0031308)))); + } + }; + + template + struct compute_rgbToSrgb<4, T, Q> + { + GLM_FUNC_QUALIFIER static vec<4, T, Q> call(vec<4, T, Q> const& ColorRGB, T GammaCorrection) + { + return vec<4, T, Q>(compute_rgbToSrgb<3, T, Q>::call(vec<3, T, Q>(ColorRGB), GammaCorrection), ColorRGB.w); + } + }; + + template + struct compute_srgbToRgb + { + GLM_FUNC_QUALIFIER static vec call(vec const& ColorSRGB, T Gamma) + { + return mix( + pow((ColorSRGB + static_cast(0.055)) * static_cast(0.94786729857819905213270142180095), vec(Gamma)), + ColorSRGB * static_cast(0.07739938080495356037151702786378), + lessThanEqual(ColorSRGB, vec(static_cast(0.04045)))); + } + }; + + template + struct compute_srgbToRgb<4, T, Q> + { + GLM_FUNC_QUALIFIER static vec<4, T, Q> call(vec<4, T, Q> const& ColorSRGB, T Gamma) + { + return vec<4, T, Q>(compute_srgbToRgb<3, T, Q>::call(vec<3, T, Q>(ColorSRGB), Gamma), ColorSRGB.w); + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER vec convertLinearToSRGB(vec const& ColorLinear) + { + return detail::compute_rgbToSrgb::call(ColorLinear, static_cast(0.41666)); + } + + // Based on Ian Taylor http://chilliant.blogspot.fr/2012/08/srgb-approximations-for-hlsl.html + template<> + GLM_FUNC_QUALIFIER vec<3, float, lowp> convertLinearToSRGB(vec<3, float, lowp> const& ColorLinear) + { + vec<3, float, lowp> S1 = sqrt(ColorLinear); + vec<3, float, lowp> S2 = sqrt(S1); + vec<3, float, lowp> S3 = sqrt(S2); + return 0.662002687f * S1 + 0.684122060f * S2 - 0.323583601f * S3 - 0.0225411470f * ColorLinear; + } + + template + GLM_FUNC_QUALIFIER vec convertLinearToSRGB(vec const& ColorLinear, T Gamma) + { + return detail::compute_rgbToSrgb::call(ColorLinear, static_cast(1) / Gamma); + } + + template + GLM_FUNC_QUALIFIER vec convertSRGBToLinear(vec const& ColorSRGB) + { + return detail::compute_srgbToRgb::call(ColorSRGB, static_cast(2.4)); + } + + template + GLM_FUNC_QUALIFIER vec convertSRGBToLinear(vec const& ColorSRGB, T Gamma) + { + return detail::compute_srgbToRgb::call(ColorSRGB, Gamma); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/constants.hpp b/Vulkan/ext/include/glm/gtc/constants.hpp new file mode 100644 index 0000000..99f2128 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/constants.hpp @@ -0,0 +1,165 @@ +/// @ref gtc_constants +/// @file glm/gtc/constants.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_constants GLM_GTC_constants +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Provide a list of constants and precomputed useful values. + +#pragma once + +// Dependencies +#include "../ext/scalar_constants.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_constants extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_constants + /// @{ + + /// Return 0. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType zero(); + + /// Return 1. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType one(); + + /// Return pi * 2. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType two_pi(); + + /// Return square root of pi. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType root_pi(); + + /// Return pi / 2. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType half_pi(); + + /// Return pi / 2 * 3. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType three_over_two_pi(); + + /// Return pi / 4. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType quarter_pi(); + + /// Return 1 / pi. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType one_over_pi(); + + /// Return 1 / (pi * 2). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType one_over_two_pi(); + + /// Return 2 / pi. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType two_over_pi(); + + /// Return 4 / pi. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType four_over_pi(); + + /// Return 2 / sqrt(pi). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType two_over_root_pi(); + + /// Return 1 / sqrt(2). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType one_over_root_two(); + + /// Return sqrt(pi / 2). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType root_half_pi(); + + /// Return sqrt(2 * pi). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType root_two_pi(); + + /// Return sqrt(ln(4)). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType root_ln_four(); + + /// Return e constant. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType e(); + + /// Return Euler's constant. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType euler(); + + /// Return sqrt(2). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType root_two(); + + /// Return sqrt(3). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType root_three(); + + /// Return sqrt(5). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType root_five(); + + /// Return ln(2). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType ln_two(); + + /// Return ln(10). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType ln_ten(); + + /// Return ln(ln(2)). + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType ln_ln_two(); + + /// Return 1 / 3. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType third(); + + /// Return 2 / 3. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType two_thirds(); + + /// Return the golden ratio constant. + /// @see gtc_constants + template + GLM_FUNC_DECL GLM_CONSTEXPR genType golden_ratio(); + + /// @} +} //namespace glm + +#include "constants.inl" diff --git a/Vulkan/ext/include/glm/gtc/constants.inl b/Vulkan/ext/include/glm/gtc/constants.inl new file mode 100644 index 0000000..bb98c6b --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/constants.inl @@ -0,0 +1,167 @@ +/// @ref gtc_constants + +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType zero() + { + return genType(0); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType one() + { + return genType(1); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType two_pi() + { + return genType(6.28318530717958647692528676655900576); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType root_pi() + { + return genType(1.772453850905516027); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType half_pi() + { + return genType(1.57079632679489661923132169163975144); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType three_over_two_pi() + { + return genType(4.71238898038468985769396507491925432); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType quarter_pi() + { + return genType(0.785398163397448309615660845819875721); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType one_over_pi() + { + return genType(0.318309886183790671537767526745028724); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType one_over_two_pi() + { + return genType(0.159154943091895335768883763372514362); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType two_over_pi() + { + return genType(0.636619772367581343075535053490057448); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType four_over_pi() + { + return genType(1.273239544735162686151070106980114898); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType two_over_root_pi() + { + return genType(1.12837916709551257389615890312154517); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType one_over_root_two() + { + return genType(0.707106781186547524400844362104849039); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType root_half_pi() + { + return genType(1.253314137315500251); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType root_two_pi() + { + return genType(2.506628274631000502); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType root_ln_four() + { + return genType(1.17741002251547469); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType e() + { + return genType(2.71828182845904523536); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType euler() + { + return genType(0.577215664901532860606); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType root_two() + { + return genType(1.41421356237309504880168872420969808); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType root_three() + { + return genType(1.73205080756887729352744634150587236); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType root_five() + { + return genType(2.23606797749978969640917366873127623); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType ln_two() + { + return genType(0.693147180559945309417232121458176568); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType ln_ten() + { + return genType(2.30258509299404568401799145468436421); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType ln_ln_two() + { + return genType(-0.3665129205816643); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType third() + { + return genType(0.3333333333333333333333333333333333333333); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType two_thirds() + { + return genType(0.666666666666666666666666666666666666667); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR genType golden_ratio() + { + return genType(1.61803398874989484820458683436563811); + } + +} //namespace glm diff --git a/Vulkan/ext/include/glm/gtc/epsilon.hpp b/Vulkan/ext/include/glm/gtc/epsilon.hpp new file mode 100644 index 0000000..640439b --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/epsilon.hpp @@ -0,0 +1,60 @@ +/// @ref gtc_epsilon +/// @file glm/gtc/epsilon.hpp +/// +/// @see core (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtc_epsilon GLM_GTC_epsilon +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Comparison functions for a user defined epsilon values. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_epsilon extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_epsilon + /// @{ + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is satisfied. + /// + /// @see gtc_epsilon + template + GLM_FUNC_DECL vec epsilonEqual(vec const& x, vec const& y, T const& epsilon); + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is satisfied. + /// + /// @see gtc_epsilon + template + GLM_FUNC_DECL bool epsilonEqual(genType const& x, genType const& y, genType const& epsilon); + + /// Returns the component-wise comparison of |x - y| < epsilon. + /// True if this expression is not satisfied. + /// + /// @see gtc_epsilon + template + GLM_FUNC_DECL vec epsilonNotEqual(vec const& x, vec const& y, T const& epsilon); + + /// Returns the component-wise comparison of |x - y| >= epsilon. + /// True if this expression is not satisfied. + /// + /// @see gtc_epsilon + template + GLM_FUNC_DECL bool epsilonNotEqual(genType const& x, genType const& y, genType const& epsilon); + + /// @} +}//namespace glm + +#include "epsilon.inl" diff --git a/Vulkan/ext/include/glm/gtc/epsilon.inl b/Vulkan/ext/include/glm/gtc/epsilon.inl new file mode 100644 index 0000000..508b9f8 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/epsilon.inl @@ -0,0 +1,80 @@ +/// @ref gtc_epsilon + +// Dependency: +#include "../vector_relational.hpp" +#include "../common.hpp" + +namespace glm +{ + template<> + GLM_FUNC_QUALIFIER bool epsilonEqual + ( + float const& x, + float const& y, + float const& epsilon + ) + { + return abs(x - y) < epsilon; + } + + template<> + GLM_FUNC_QUALIFIER bool epsilonEqual + ( + double const& x, + double const& y, + double const& epsilon + ) + { + return abs(x - y) < epsilon; + } + + template + GLM_FUNC_QUALIFIER vec epsilonEqual(vec const& x, vec const& y, T const& epsilon) + { + return lessThan(abs(x - y), vec(epsilon)); + } + + template + GLM_FUNC_QUALIFIER vec epsilonEqual(vec const& x, vec const& y, vec const& epsilon) + { + return lessThan(abs(x - y), vec(epsilon)); + } + + template<> + GLM_FUNC_QUALIFIER bool epsilonNotEqual(float const& x, float const& y, float const& epsilon) + { + return abs(x - y) >= epsilon; + } + + template<> + GLM_FUNC_QUALIFIER bool epsilonNotEqual(double const& x, double const& y, double const& epsilon) + { + return abs(x - y) >= epsilon; + } + + template + GLM_FUNC_QUALIFIER vec epsilonNotEqual(vec const& x, vec const& y, T const& epsilon) + { + return greaterThanEqual(abs(x - y), vec(epsilon)); + } + + template + GLM_FUNC_QUALIFIER vec epsilonNotEqual(vec const& x, vec const& y, vec const& epsilon) + { + return greaterThanEqual(abs(x - y), vec(epsilon)); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> epsilonEqual(qua const& x, qua const& y, T const& epsilon) + { + vec<4, T, Q> v(x.x - y.x, x.y - y.y, x.z - y.z, x.w - y.w); + return lessThan(abs(v), vec<4, T, Q>(epsilon)); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> epsilonNotEqual(qua const& x, qua const& y, T const& epsilon) + { + vec<4, T, Q> v(x.x - y.x, x.y - y.y, x.z - y.z, x.w - y.w); + return greaterThanEqual(abs(v), vec<4, T, Q>(epsilon)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/integer.hpp b/Vulkan/ext/include/glm/gtc/integer.hpp new file mode 100644 index 0000000..64ce10b --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/integer.hpp @@ -0,0 +1,65 @@ +/// @ref gtc_integer +/// @file glm/gtc/integer.hpp +/// +/// @see core (dependence) +/// @see gtc_integer (dependence) +/// +/// @defgroup gtc_integer GLM_GTC_integer +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// @brief Allow to perform bit operations on integer values + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../common.hpp" +#include "../integer.hpp" +#include "../exponential.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_integer extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_integer + /// @{ + + /// Returns the log2 of x for integer values. Usefull to compute mipmap count from the texture size. + /// @see gtc_integer + template + GLM_FUNC_DECL genIUType log2(genIUType x); + + /// Returns a value equal to the nearest integer to x. + /// The fraction 0.5 will round in a direction chosen by the + /// implementation, presumably the direction that is fastest. + /// + /// @param x The values of the argument must be greater or equal to zero. + /// @tparam T floating point scalar types. + /// + /// @see GLSL round man page + /// @see gtc_integer + template + GLM_FUNC_DECL vec iround(vec const& x); + + /// Returns a value equal to the nearest integer to x. + /// The fraction 0.5 will round in a direction chosen by the + /// implementation, presumably the direction that is fastest. + /// + /// @param x The values of the argument must be greater or equal to zero. + /// @tparam T floating point scalar types. + /// + /// @see GLSL round man page + /// @see gtc_integer + template + GLM_FUNC_DECL vec uround(vec const& x); + + /// @} +} //namespace glm + +#include "integer.inl" diff --git a/Vulkan/ext/include/glm/gtc/integer.inl b/Vulkan/ext/include/glm/gtc/integer.inl new file mode 100644 index 0000000..f0a8b4f --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/integer.inl @@ -0,0 +1,68 @@ +/// @ref gtc_integer + +namespace glm{ +namespace detail +{ + template + struct compute_log2 + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + //Equivalent to return findMSB(vec); but save one function call in ASM with VC + //return findMSB(vec); + return vec(detail::compute_findMSB_vec::call(v)); + } + }; + +# if GLM_HAS_BITSCAN_WINDOWS + template + struct compute_log2<4, int, Q, false, Aligned> + { + GLM_FUNC_QUALIFIER static vec<4, int, Q> call(vec<4, int, Q> const& v) + { + vec<4, int, Q> Result; + _BitScanReverse(reinterpret_cast(&Result.x), v.x); + _BitScanReverse(reinterpret_cast(&Result.y), v.y); + _BitScanReverse(reinterpret_cast(&Result.z), v.z); + _BitScanReverse(reinterpret_cast(&Result.w), v.w); + return Result; + } + }; +# endif//GLM_HAS_BITSCAN_WINDOWS +}//namespace detail + template + GLM_FUNC_QUALIFIER int iround(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'iround' only accept floating-point inputs"); + assert(static_cast(0.0) <= x); + + return static_cast(x + static_cast(0.5)); + } + + template + GLM_FUNC_QUALIFIER vec iround(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'iround' only accept floating-point inputs"); + assert(all(lessThanEqual(vec(0), x))); + + return vec(x + static_cast(0.5)); + } + + template + GLM_FUNC_QUALIFIER uint uround(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'uround' only accept floating-point inputs"); + assert(static_cast(0.0) <= x); + + return static_cast(x + static_cast(0.5)); + } + + template + GLM_FUNC_QUALIFIER vec uround(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'uround' only accept floating-point inputs"); + assert(all(lessThanEqual(vec(0), x))); + + return vec(x + static_cast(0.5)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/matrix_access.hpp b/Vulkan/ext/include/glm/gtc/matrix_access.hpp new file mode 100644 index 0000000..4935ba7 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/matrix_access.hpp @@ -0,0 +1,60 @@ +/// @ref gtc_matrix_access +/// @file glm/gtc/matrix_access.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_matrix_access GLM_GTC_matrix_access +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Defines functions to access rows or columns of a matrix easily. + +#pragma once + +// Dependency: +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_matrix_access extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_matrix_access + /// @{ + + /// Get a specific row of a matrix. + /// @see gtc_matrix_access + template + GLM_FUNC_DECL typename genType::row_type row( + genType const& m, + length_t index); + + /// Set a specific row to a matrix. + /// @see gtc_matrix_access + template + GLM_FUNC_DECL genType row( + genType const& m, + length_t index, + typename genType::row_type const& x); + + /// Get a specific column of a matrix. + /// @see gtc_matrix_access + template + GLM_FUNC_DECL typename genType::col_type column( + genType const& m, + length_t index); + + /// Set a specific column to a matrix. + /// @see gtc_matrix_access + template + GLM_FUNC_DECL genType column( + genType const& m, + length_t index, + typename genType::col_type const& x); + + /// @} +}//namespace glm + +#include "matrix_access.inl" diff --git a/Vulkan/ext/include/glm/gtc/matrix_access.inl b/Vulkan/ext/include/glm/gtc/matrix_access.inl new file mode 100644 index 0000000..09fcc10 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/matrix_access.inl @@ -0,0 +1,62 @@ +/// @ref gtc_matrix_access + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType row + ( + genType const& m, + length_t index, + typename genType::row_type const& x + ) + { + assert(index >= 0 && index < m[0].length()); + + genType Result = m; + for(length_t i = 0; i < m.length(); ++i) + Result[i][index] = x[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER typename genType::row_type row + ( + genType const& m, + length_t index + ) + { + assert(index >= 0 && index < m[0].length()); + + typename genType::row_type Result(0); + for(length_t i = 0; i < m.length(); ++i) + Result[i] = m[i][index]; + return Result; + } + + template + GLM_FUNC_QUALIFIER genType column + ( + genType const& m, + length_t index, + typename genType::col_type const& x + ) + { + assert(index >= 0 && index < m.length()); + + genType Result = m; + Result[index] = x; + return Result; + } + + template + GLM_FUNC_QUALIFIER typename genType::col_type column + ( + genType const& m, + length_t index + ) + { + assert(index >= 0 && index < m.length()); + + return m[index]; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/matrix_integer.hpp b/Vulkan/ext/include/glm/gtc/matrix_integer.hpp new file mode 100644 index 0000000..d7ebdc7 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/matrix_integer.hpp @@ -0,0 +1,433 @@ +/// @ref gtc_matrix_integer +/// @file glm/gtc/matrix_integer.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_matrix_integer GLM_GTC_matrix_integer +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Defines a number of matrices with integer types. + +#pragma once + +// Dependency: +#include "../mat2x2.hpp" +#include "../mat2x3.hpp" +#include "../mat2x4.hpp" +#include "../mat3x2.hpp" +#include "../mat3x3.hpp" +#include "../mat3x4.hpp" +#include "../mat4x2.hpp" +#include "../mat4x3.hpp" +#include "../mat4x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_matrix_integer extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_matrix_integer + /// @{ + + /// High-qualifier signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, highp> highp_imat2; + + /// High-qualifier signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, highp> highp_imat3; + + /// High-qualifier signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, highp> highp_imat4; + + /// High-qualifier signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, highp> highp_imat2x2; + + /// High-qualifier signed integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, int, highp> highp_imat2x3; + + /// High-qualifier signed integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, int, highp> highp_imat2x4; + + /// High-qualifier signed integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, int, highp> highp_imat3x2; + + /// High-qualifier signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, highp> highp_imat3x3; + + /// High-qualifier signed integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, int, highp> highp_imat3x4; + + /// High-qualifier signed integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, int, highp> highp_imat4x2; + + /// High-qualifier signed integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, int, highp> highp_imat4x3; + + /// High-qualifier signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, highp> highp_imat4x4; + + + /// Medium-qualifier signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, mediump> mediump_imat2; + + /// Medium-qualifier signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, mediump> mediump_imat3; + + /// Medium-qualifier signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, mediump> mediump_imat4; + + + /// Medium-qualifier signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, mediump> mediump_imat2x2; + + /// Medium-qualifier signed integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, int, mediump> mediump_imat2x3; + + /// Medium-qualifier signed integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, int, mediump> mediump_imat2x4; + + /// Medium-qualifier signed integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, int, mediump> mediump_imat3x2; + + /// Medium-qualifier signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, mediump> mediump_imat3x3; + + /// Medium-qualifier signed integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, int, mediump> mediump_imat3x4; + + /// Medium-qualifier signed integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, int, mediump> mediump_imat4x2; + + /// Medium-qualifier signed integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, int, mediump> mediump_imat4x3; + + /// Medium-qualifier signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, mediump> mediump_imat4x4; + + + /// Low-qualifier signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, lowp> lowp_imat2; + + /// Low-qualifier signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, lowp> lowp_imat3; + + /// Low-qualifier signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, lowp> lowp_imat4; + + + /// Low-qualifier signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, lowp> lowp_imat2x2; + + /// Low-qualifier signed integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, int, lowp> lowp_imat2x3; + + /// Low-qualifier signed integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, int, lowp> lowp_imat2x4; + + /// Low-qualifier signed integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, int, lowp> lowp_imat3x2; + + /// Low-qualifier signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, lowp> lowp_imat3x3; + + /// Low-qualifier signed integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, int, lowp> lowp_imat3x4; + + /// Low-qualifier signed integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, int, lowp> lowp_imat4x2; + + /// Low-qualifier signed integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, int, lowp> lowp_imat4x3; + + /// Low-qualifier signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, lowp> lowp_imat4x4; + + + /// High-qualifier unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, highp> highp_umat2; + + /// High-qualifier unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, highp> highp_umat3; + + /// High-qualifier unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, highp> highp_umat4; + + /// High-qualifier unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, highp> highp_umat2x2; + + /// High-qualifier unsigned integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, uint, highp> highp_umat2x3; + + /// High-qualifier unsigned integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, uint, highp> highp_umat2x4; + + /// High-qualifier unsigned integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, uint, highp> highp_umat3x2; + + /// High-qualifier unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, highp> highp_umat3x3; + + /// High-qualifier unsigned integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, uint, highp> highp_umat3x4; + + /// High-qualifier unsigned integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, uint, highp> highp_umat4x2; + + /// High-qualifier unsigned integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, uint, highp> highp_umat4x3; + + /// High-qualifier unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, highp> highp_umat4x4; + + + /// Medium-qualifier unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, mediump> mediump_umat2; + + /// Medium-qualifier unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, mediump> mediump_umat3; + + /// Medium-qualifier unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, mediump> mediump_umat4; + + + /// Medium-qualifier unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, mediump> mediump_umat2x2; + + /// Medium-qualifier unsigned integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, uint, mediump> mediump_umat2x3; + + /// Medium-qualifier unsigned integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, uint, mediump> mediump_umat2x4; + + /// Medium-qualifier unsigned integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, uint, mediump> mediump_umat3x2; + + /// Medium-qualifier unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, mediump> mediump_umat3x3; + + /// Medium-qualifier unsigned integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, uint, mediump> mediump_umat3x4; + + /// Medium-qualifier unsigned integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, uint, mediump> mediump_umat4x2; + + /// Medium-qualifier unsigned integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, uint, mediump> mediump_umat4x3; + + /// Medium-qualifier unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, mediump> mediump_umat4x4; + + + /// Low-qualifier unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, lowp> lowp_umat2; + + /// Low-qualifier unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, lowp> lowp_umat3; + + /// Low-qualifier unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, lowp> lowp_umat4; + + + /// Low-qualifier unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, lowp> lowp_umat2x2; + + /// Low-qualifier unsigned integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, uint, lowp> lowp_umat2x3; + + /// Low-qualifier unsigned integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, uint, lowp> lowp_umat2x4; + + /// Low-qualifier unsigned integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, uint, lowp> lowp_umat3x2; + + /// Low-qualifier unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, lowp> lowp_umat3x3; + + /// Low-qualifier unsigned integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, uint, lowp> lowp_umat3x4; + + /// Low-qualifier unsigned integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, uint, lowp> lowp_umat4x2; + + /// Low-qualifier unsigned integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, uint, lowp> lowp_umat4x3; + + /// Low-qualifier unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, lowp> lowp_umat4x4; + + + + /// Signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, defaultp> imat2; + + /// Signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, defaultp> imat3; + + /// Signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, defaultp> imat4; + + /// Signed integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, int, defaultp> imat2x2; + + /// Signed integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, int, defaultp> imat2x3; + + /// Signed integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, int, defaultp> imat2x4; + + /// Signed integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, int, defaultp> imat3x2; + + /// Signed integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, int, defaultp> imat3x3; + + /// Signed integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, int, defaultp> imat3x4; + + /// Signed integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, int, defaultp> imat4x2; + + /// Signed integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, int, defaultp> imat4x3; + + /// Signed integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, int, defaultp> imat4x4; + + + + /// Unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, defaultp> umat2; + + /// Unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, defaultp> umat3; + + /// Unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, defaultp> umat4; + + /// Unsigned integer 2x2 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 2, uint, defaultp> umat2x2; + + /// Unsigned integer 2x3 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 3, uint, defaultp> umat2x3; + + /// Unsigned integer 2x4 matrix. + /// @see gtc_matrix_integer + typedef mat<2, 4, uint, defaultp> umat2x4; + + /// Unsigned integer 3x2 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 2, uint, defaultp> umat3x2; + + /// Unsigned integer 3x3 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 3, uint, defaultp> umat3x3; + + /// Unsigned integer 3x4 matrix. + /// @see gtc_matrix_integer + typedef mat<3, 4, uint, defaultp> umat3x4; + + /// Unsigned integer 4x2 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 2, uint, defaultp> umat4x2; + + /// Unsigned integer 4x3 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 3, uint, defaultp> umat4x3; + + /// Unsigned integer 4x4 matrix. + /// @see gtc_matrix_integer + typedef mat<4, 4, uint, defaultp> umat4x4; + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/matrix_inverse.hpp b/Vulkan/ext/include/glm/gtc/matrix_inverse.hpp new file mode 100644 index 0000000..a1900ad --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/matrix_inverse.hpp @@ -0,0 +1,50 @@ +/// @ref gtc_matrix_inverse +/// @file glm/gtc/matrix_inverse.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_matrix_inverse GLM_GTC_matrix_inverse +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Defines additional matrix inverting functions. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../matrix.hpp" +#include "../mat2x2.hpp" +#include "../mat3x3.hpp" +#include "../mat4x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_matrix_inverse extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_matrix_inverse + /// @{ + + /// Fast matrix inverse for affine matrix. + /// + /// @param m Input matrix to invert. + /// @tparam genType Squared floating-point matrix: half, float or double. Inverse of matrix based of half-qualifier floating point value is highly innacurate. + /// @see gtc_matrix_inverse + template + GLM_FUNC_DECL genType affineInverse(genType const& m); + + /// Compute the inverse transpose of a matrix. + /// + /// @param m Input matrix to invert transpose. + /// @tparam genType Squared floating-point matrix: half, float or double. Inverse of matrix based of half-qualifier floating point value is highly innacurate. + /// @see gtc_matrix_inverse + template + GLM_FUNC_DECL genType inverseTranspose(genType const& m); + + /// @} +}//namespace glm + +#include "matrix_inverse.inl" diff --git a/Vulkan/ext/include/glm/gtc/matrix_inverse.inl b/Vulkan/ext/include/glm/gtc/matrix_inverse.inl new file mode 100644 index 0000000..c004b9e --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/matrix_inverse.inl @@ -0,0 +1,118 @@ +/// @ref gtc_matrix_inverse + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> affineInverse(mat<3, 3, T, Q> const& m) + { + mat<2, 2, T, Q> const Inv(inverse(mat<2, 2, T, Q>(m))); + + return mat<3, 3, T, Q>( + vec<3, T, Q>(Inv[0], static_cast(0)), + vec<3, T, Q>(Inv[1], static_cast(0)), + vec<3, T, Q>(-Inv * vec<2, T, Q>(m[2]), static_cast(1))); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> affineInverse(mat<4, 4, T, Q> const& m) + { + mat<3, 3, T, Q> const Inv(inverse(mat<3, 3, T, Q>(m))); + + return mat<4, 4, T, Q>( + vec<4, T, Q>(Inv[0], static_cast(0)), + vec<4, T, Q>(Inv[1], static_cast(0)), + vec<4, T, Q>(Inv[2], static_cast(0)), + vec<4, T, Q>(-Inv * vec<3, T, Q>(m[3]), static_cast(1))); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> inverseTranspose(mat<2, 2, T, Q> const& m) + { + T Determinant = m[0][0] * m[1][1] - m[1][0] * m[0][1]; + + mat<2, 2, T, Q> Inverse( + + m[1][1] / Determinant, + - m[0][1] / Determinant, + - m[1][0] / Determinant, + + m[0][0] / Determinant); + + return Inverse; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> inverseTranspose(mat<3, 3, T, Q> const& m) + { + T Determinant = + + m[0][0] * (m[1][1] * m[2][2] - m[1][2] * m[2][1]) + - m[0][1] * (m[1][0] * m[2][2] - m[1][2] * m[2][0]) + + m[0][2] * (m[1][0] * m[2][1] - m[1][1] * m[2][0]); + + mat<3, 3, T, Q> Inverse; + Inverse[0][0] = + (m[1][1] * m[2][2] - m[2][1] * m[1][2]); + Inverse[0][1] = - (m[1][0] * m[2][2] - m[2][0] * m[1][2]); + Inverse[0][2] = + (m[1][0] * m[2][1] - m[2][0] * m[1][1]); + Inverse[1][0] = - (m[0][1] * m[2][2] - m[2][1] * m[0][2]); + Inverse[1][1] = + (m[0][0] * m[2][2] - m[2][0] * m[0][2]); + Inverse[1][2] = - (m[0][0] * m[2][1] - m[2][0] * m[0][1]); + Inverse[2][0] = + (m[0][1] * m[1][2] - m[1][1] * m[0][2]); + Inverse[2][1] = - (m[0][0] * m[1][2] - m[1][0] * m[0][2]); + Inverse[2][2] = + (m[0][0] * m[1][1] - m[1][0] * m[0][1]); + Inverse /= Determinant; + + return Inverse; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> inverseTranspose(mat<4, 4, T, Q> const& m) + { + T SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + T SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + T SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + T SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + T SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + T SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + T SubFactor06 = m[1][2] * m[3][3] - m[3][2] * m[1][3]; + T SubFactor07 = m[1][1] * m[3][3] - m[3][1] * m[1][3]; + T SubFactor08 = m[1][1] * m[3][2] - m[3][1] * m[1][2]; + T SubFactor09 = m[1][0] * m[3][3] - m[3][0] * m[1][3]; + T SubFactor10 = m[1][0] * m[3][2] - m[3][0] * m[1][2]; + T SubFactor11 = m[1][0] * m[3][1] - m[3][0] * m[1][1]; + T SubFactor12 = m[1][2] * m[2][3] - m[2][2] * m[1][3]; + T SubFactor13 = m[1][1] * m[2][3] - m[2][1] * m[1][3]; + T SubFactor14 = m[1][1] * m[2][2] - m[2][1] * m[1][2]; + T SubFactor15 = m[1][0] * m[2][3] - m[2][0] * m[1][3]; + T SubFactor16 = m[1][0] * m[2][2] - m[2][0] * m[1][2]; + T SubFactor17 = m[1][0] * m[2][1] - m[2][0] * m[1][1]; + + mat<4, 4, T, Q> Inverse; + Inverse[0][0] = + (m[1][1] * SubFactor00 - m[1][2] * SubFactor01 + m[1][3] * SubFactor02); + Inverse[0][1] = - (m[1][0] * SubFactor00 - m[1][2] * SubFactor03 + m[1][3] * SubFactor04); + Inverse[0][2] = + (m[1][0] * SubFactor01 - m[1][1] * SubFactor03 + m[1][3] * SubFactor05); + Inverse[0][3] = - (m[1][0] * SubFactor02 - m[1][1] * SubFactor04 + m[1][2] * SubFactor05); + + Inverse[1][0] = - (m[0][1] * SubFactor00 - m[0][2] * SubFactor01 + m[0][3] * SubFactor02); + Inverse[1][1] = + (m[0][0] * SubFactor00 - m[0][2] * SubFactor03 + m[0][3] * SubFactor04); + Inverse[1][2] = - (m[0][0] * SubFactor01 - m[0][1] * SubFactor03 + m[0][3] * SubFactor05); + Inverse[1][3] = + (m[0][0] * SubFactor02 - m[0][1] * SubFactor04 + m[0][2] * SubFactor05); + + Inverse[2][0] = + (m[0][1] * SubFactor06 - m[0][2] * SubFactor07 + m[0][3] * SubFactor08); + Inverse[2][1] = - (m[0][0] * SubFactor06 - m[0][2] * SubFactor09 + m[0][3] * SubFactor10); + Inverse[2][2] = + (m[0][0] * SubFactor07 - m[0][1] * SubFactor09 + m[0][3] * SubFactor11); + Inverse[2][3] = - (m[0][0] * SubFactor08 - m[0][1] * SubFactor10 + m[0][2] * SubFactor11); + + Inverse[3][0] = - (m[0][1] * SubFactor12 - m[0][2] * SubFactor13 + m[0][3] * SubFactor14); + Inverse[3][1] = + (m[0][0] * SubFactor12 - m[0][2] * SubFactor15 + m[0][3] * SubFactor16); + Inverse[3][2] = - (m[0][0] * SubFactor13 - m[0][1] * SubFactor15 + m[0][3] * SubFactor17); + Inverse[3][3] = + (m[0][0] * SubFactor14 - m[0][1] * SubFactor16 + m[0][2] * SubFactor17); + + T Determinant = + + m[0][0] * Inverse[0][0] + + m[0][1] * Inverse[0][1] + + m[0][2] * Inverse[0][2] + + m[0][3] * Inverse[0][3]; + + Inverse /= Determinant; + + return Inverse; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/matrix_transform.hpp b/Vulkan/ext/include/glm/gtc/matrix_transform.hpp new file mode 100644 index 0000000..612418f --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/matrix_transform.hpp @@ -0,0 +1,36 @@ +/// @ref gtc_matrix_transform +/// @file glm/gtc/matrix_transform.hpp +/// +/// @see core (dependence) +/// @see gtx_transform +/// @see gtx_transform2 +/// +/// @defgroup gtc_matrix_transform GLM_GTC_matrix_transform +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Defines functions that generate common transformation matrices. +/// +/// The matrices generated by this extension use standard OpenGL fixed-function +/// conventions. For example, the lookAt function generates a transform from world +/// space into the specific eye space that the projective matrix functions +/// (perspective, ortho, etc) are designed to expect. The OpenGL compatibility +/// specifications defines the particular layout of this eye space. + +#pragma once + +// Dependencies +#include "../mat4x4.hpp" +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include "../ext/matrix_projection.hpp" +#include "../ext/matrix_clip_space.hpp" +#include "../ext/matrix_transform.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_matrix_transform extension included") +#endif + +#include "matrix_transform.inl" diff --git a/Vulkan/ext/include/glm/gtc/matrix_transform.inl b/Vulkan/ext/include/glm/gtc/matrix_transform.inl new file mode 100644 index 0000000..15b46bc --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/matrix_transform.inl @@ -0,0 +1,3 @@ +#include "../geometric.hpp" +#include "../trigonometric.hpp" +#include "../matrix.hpp" diff --git a/Vulkan/ext/include/glm/gtc/noise.hpp b/Vulkan/ext/include/glm/gtc/noise.hpp new file mode 100644 index 0000000..ab1772e --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/noise.hpp @@ -0,0 +1,61 @@ +/// @ref gtc_noise +/// @file glm/gtc/noise.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_noise GLM_GTC_noise +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Defines 2D, 3D and 4D procedural noise functions +/// Based on the work of Stefan Gustavson and Ashima Arts on "webgl-noise": +/// https://github.com/ashima/webgl-noise +/// Following Stefan Gustavson's paper "Simplex noise demystified": +/// http://www.itn.liu.se/~stegu/simplexnoise/simplexnoise.pdf + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/_noise.hpp" +#include "../geometric.hpp" +#include "../common.hpp" +#include "../vector_relational.hpp" +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_noise extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_noise + /// @{ + + /// Classic perlin noise. + /// @see gtc_noise + template + GLM_FUNC_DECL T perlin( + vec const& p); + + /// Periodic perlin noise. + /// @see gtc_noise + template + GLM_FUNC_DECL T perlin( + vec const& p, + vec const& rep); + + /// Simplex noise. + /// @see gtc_noise + template + GLM_FUNC_DECL T simplex( + vec const& p); + + /// @} +}//namespace glm + +#include "noise.inl" diff --git a/Vulkan/ext/include/glm/gtc/noise.inl b/Vulkan/ext/include/glm/gtc/noise.inl new file mode 100644 index 0000000..30d0b27 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/noise.inl @@ -0,0 +1,807 @@ +/// @ref gtc_noise +/// +// Based on the work of Stefan Gustavson and Ashima Arts on "webgl-noise": +// https://github.com/ashima/webgl-noise +// Following Stefan Gustavson's paper "Simplex noise demystified": +// http://www.itn.liu.se/~stegu/simplexnoise/simplexnoise.pdf + +namespace glm{ +namespace gtc +{ + template + GLM_FUNC_QUALIFIER vec<4, T, Q> grad4(T const& j, vec<4, T, Q> const& ip) + { + vec<3, T, Q> pXYZ = floor(fract(vec<3, T, Q>(j) * vec<3, T, Q>(ip)) * T(7)) * ip[2] - T(1); + T pW = static_cast(1.5) - dot(abs(pXYZ), vec<3, T, Q>(1)); + vec<4, T, Q> s = vec<4, T, Q>(lessThan(vec<4, T, Q>(pXYZ, pW), vec<4, T, Q>(0.0))); + pXYZ = pXYZ + (vec<3, T, Q>(s) * T(2) - T(1)) * s.w; + return vec<4, T, Q>(pXYZ, pW); + } +}//namespace gtc + + // Classic Perlin noise + template + GLM_FUNC_QUALIFIER T perlin(vec<2, T, Q> const& Position) + { + vec<4, T, Q> Pi = glm::floor(vec<4, T, Q>(Position.x, Position.y, Position.x, Position.y)) + vec<4, T, Q>(0.0, 0.0, 1.0, 1.0); + vec<4, T, Q> Pf = glm::fract(vec<4, T, Q>(Position.x, Position.y, Position.x, Position.y)) - vec<4, T, Q>(0.0, 0.0, 1.0, 1.0); + Pi = mod(Pi, vec<4, T, Q>(289)); // To avoid truncation effects in permutation + vec<4, T, Q> ix(Pi.x, Pi.z, Pi.x, Pi.z); + vec<4, T, Q> iy(Pi.y, Pi.y, Pi.w, Pi.w); + vec<4, T, Q> fx(Pf.x, Pf.z, Pf.x, Pf.z); + vec<4, T, Q> fy(Pf.y, Pf.y, Pf.w, Pf.w); + + vec<4, T, Q> i = detail::permute(detail::permute(ix) + iy); + + vec<4, T, Q> gx = static_cast(2) * glm::fract(i / T(41)) - T(1); + vec<4, T, Q> gy = glm::abs(gx) - T(0.5); + vec<4, T, Q> tx = glm::floor(gx + T(0.5)); + gx = gx - tx; + + vec<2, T, Q> g00(gx.x, gy.x); + vec<2, T, Q> g10(gx.y, gy.y); + vec<2, T, Q> g01(gx.z, gy.z); + vec<2, T, Q> g11(gx.w, gy.w); + + vec<4, T, Q> norm = detail::taylorInvSqrt(vec<4, T, Q>(dot(g00, g00), dot(g01, g01), dot(g10, g10), dot(g11, g11))); + g00 *= norm.x; + g01 *= norm.y; + g10 *= norm.z; + g11 *= norm.w; + + T n00 = dot(g00, vec<2, T, Q>(fx.x, fy.x)); + T n10 = dot(g10, vec<2, T, Q>(fx.y, fy.y)); + T n01 = dot(g01, vec<2, T, Q>(fx.z, fy.z)); + T n11 = dot(g11, vec<2, T, Q>(fx.w, fy.w)); + + vec<2, T, Q> fade_xy = detail::fade(vec<2, T, Q>(Pf.x, Pf.y)); + vec<2, T, Q> n_x = mix(vec<2, T, Q>(n00, n01), vec<2, T, Q>(n10, n11), fade_xy.x); + T n_xy = mix(n_x.x, n_x.y, fade_xy.y); + return T(2.3) * n_xy; + } + + // Classic Perlin noise + template + GLM_FUNC_QUALIFIER T perlin(vec<3, T, Q> const& Position) + { + vec<3, T, Q> Pi0 = floor(Position); // Integer part for indexing + vec<3, T, Q> Pi1 = Pi0 + T(1); // Integer part + 1 + Pi0 = detail::mod289(Pi0); + Pi1 = detail::mod289(Pi1); + vec<3, T, Q> Pf0 = fract(Position); // Fractional part for interpolation + vec<3, T, Q> Pf1 = Pf0 - T(1); // Fractional part - 1.0 + vec<4, T, Q> ix(Pi0.x, Pi1.x, Pi0.x, Pi1.x); + vec<4, T, Q> iy = vec<4, T, Q>(vec<2, T, Q>(Pi0.y), vec<2, T, Q>(Pi1.y)); + vec<4, T, Q> iz0(Pi0.z); + vec<4, T, Q> iz1(Pi1.z); + + vec<4, T, Q> ixy = detail::permute(detail::permute(ix) + iy); + vec<4, T, Q> ixy0 = detail::permute(ixy + iz0); + vec<4, T, Q> ixy1 = detail::permute(ixy + iz1); + + vec<4, T, Q> gx0 = ixy0 * T(1.0 / 7.0); + vec<4, T, Q> gy0 = fract(floor(gx0) * T(1.0 / 7.0)) - T(0.5); + gx0 = fract(gx0); + vec<4, T, Q> gz0 = vec<4, T, Q>(0.5) - abs(gx0) - abs(gy0); + vec<4, T, Q> sz0 = step(gz0, vec<4, T, Q>(0.0)); + gx0 -= sz0 * (step(T(0), gx0) - T(0.5)); + gy0 -= sz0 * (step(T(0), gy0) - T(0.5)); + + vec<4, T, Q> gx1 = ixy1 * T(1.0 / 7.0); + vec<4, T, Q> gy1 = fract(floor(gx1) * T(1.0 / 7.0)) - T(0.5); + gx1 = fract(gx1); + vec<4, T, Q> gz1 = vec<4, T, Q>(0.5) - abs(gx1) - abs(gy1); + vec<4, T, Q> sz1 = step(gz1, vec<4, T, Q>(0.0)); + gx1 -= sz1 * (step(T(0), gx1) - T(0.5)); + gy1 -= sz1 * (step(T(0), gy1) - T(0.5)); + + vec<3, T, Q> g000(gx0.x, gy0.x, gz0.x); + vec<3, T, Q> g100(gx0.y, gy0.y, gz0.y); + vec<3, T, Q> g010(gx0.z, gy0.z, gz0.z); + vec<3, T, Q> g110(gx0.w, gy0.w, gz0.w); + vec<3, T, Q> g001(gx1.x, gy1.x, gz1.x); + vec<3, T, Q> g101(gx1.y, gy1.y, gz1.y); + vec<3, T, Q> g011(gx1.z, gy1.z, gz1.z); + vec<3, T, Q> g111(gx1.w, gy1.w, gz1.w); + + vec<4, T, Q> norm0 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g000, g000), dot(g010, g010), dot(g100, g100), dot(g110, g110))); + g000 *= norm0.x; + g010 *= norm0.y; + g100 *= norm0.z; + g110 *= norm0.w; + vec<4, T, Q> norm1 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g001, g001), dot(g011, g011), dot(g101, g101), dot(g111, g111))); + g001 *= norm1.x; + g011 *= norm1.y; + g101 *= norm1.z; + g111 *= norm1.w; + + T n000 = dot(g000, Pf0); + T n100 = dot(g100, vec<3, T, Q>(Pf1.x, Pf0.y, Pf0.z)); + T n010 = dot(g010, vec<3, T, Q>(Pf0.x, Pf1.y, Pf0.z)); + T n110 = dot(g110, vec<3, T, Q>(Pf1.x, Pf1.y, Pf0.z)); + T n001 = dot(g001, vec<3, T, Q>(Pf0.x, Pf0.y, Pf1.z)); + T n101 = dot(g101, vec<3, T, Q>(Pf1.x, Pf0.y, Pf1.z)); + T n011 = dot(g011, vec<3, T, Q>(Pf0.x, Pf1.y, Pf1.z)); + T n111 = dot(g111, Pf1); + + vec<3, T, Q> fade_xyz = detail::fade(Pf0); + vec<4, T, Q> n_z = mix(vec<4, T, Q>(n000, n100, n010, n110), vec<4, T, Q>(n001, n101, n011, n111), fade_xyz.z); + vec<2, T, Q> n_yz = mix(vec<2, T, Q>(n_z.x, n_z.y), vec<2, T, Q>(n_z.z, n_z.w), fade_xyz.y); + T n_xyz = mix(n_yz.x, n_yz.y, fade_xyz.x); + return T(2.2) * n_xyz; + } + /* + // Classic Perlin noise + template + GLM_FUNC_QUALIFIER T perlin(vec<3, T, Q> const& P) + { + vec<3, T, Q> Pi0 = floor(P); // Integer part for indexing + vec<3, T, Q> Pi1 = Pi0 + T(1); // Integer part + 1 + Pi0 = mod(Pi0, T(289)); + Pi1 = mod(Pi1, T(289)); + vec<3, T, Q> Pf0 = fract(P); // Fractional part for interpolation + vec<3, T, Q> Pf1 = Pf0 - T(1); // Fractional part - 1.0 + vec<4, T, Q> ix(Pi0.x, Pi1.x, Pi0.x, Pi1.x); + vec<4, T, Q> iy(Pi0.y, Pi0.y, Pi1.y, Pi1.y); + vec<4, T, Q> iz0(Pi0.z); + vec<4, T, Q> iz1(Pi1.z); + + vec<4, T, Q> ixy = permute(permute(ix) + iy); + vec<4, T, Q> ixy0 = permute(ixy + iz0); + vec<4, T, Q> ixy1 = permute(ixy + iz1); + + vec<4, T, Q> gx0 = ixy0 / T(7); + vec<4, T, Q> gy0 = fract(floor(gx0) / T(7)) - T(0.5); + gx0 = fract(gx0); + vec<4, T, Q> gz0 = vec<4, T, Q>(0.5) - abs(gx0) - abs(gy0); + vec<4, T, Q> sz0 = step(gz0, vec<4, T, Q>(0.0)); + gx0 -= sz0 * (step(0.0, gx0) - T(0.5)); + gy0 -= sz0 * (step(0.0, gy0) - T(0.5)); + + vec<4, T, Q> gx1 = ixy1 / T(7); + vec<4, T, Q> gy1 = fract(floor(gx1) / T(7)) - T(0.5); + gx1 = fract(gx1); + vec<4, T, Q> gz1 = vec<4, T, Q>(0.5) - abs(gx1) - abs(gy1); + vec<4, T, Q> sz1 = step(gz1, vec<4, T, Q>(0.0)); + gx1 -= sz1 * (step(T(0), gx1) - T(0.5)); + gy1 -= sz1 * (step(T(0), gy1) - T(0.5)); + + vec<3, T, Q> g000(gx0.x, gy0.x, gz0.x); + vec<3, T, Q> g100(gx0.y, gy0.y, gz0.y); + vec<3, T, Q> g010(gx0.z, gy0.z, gz0.z); + vec<3, T, Q> g110(gx0.w, gy0.w, gz0.w); + vec<3, T, Q> g001(gx1.x, gy1.x, gz1.x); + vec<3, T, Q> g101(gx1.y, gy1.y, gz1.y); + vec<3, T, Q> g011(gx1.z, gy1.z, gz1.z); + vec<3, T, Q> g111(gx1.w, gy1.w, gz1.w); + + vec<4, T, Q> norm0 = taylorInvSqrt(vec<4, T, Q>(dot(g000, g000), dot(g010, g010), dot(g100, g100), dot(g110, g110))); + g000 *= norm0.x; + g010 *= norm0.y; + g100 *= norm0.z; + g110 *= norm0.w; + vec<4, T, Q> norm1 = taylorInvSqrt(vec<4, T, Q>(dot(g001, g001), dot(g011, g011), dot(g101, g101), dot(g111, g111))); + g001 *= norm1.x; + g011 *= norm1.y; + g101 *= norm1.z; + g111 *= norm1.w; + + T n000 = dot(g000, Pf0); + T n100 = dot(g100, vec<3, T, Q>(Pf1.x, Pf0.y, Pf0.z)); + T n010 = dot(g010, vec<3, T, Q>(Pf0.x, Pf1.y, Pf0.z)); + T n110 = dot(g110, vec<3, T, Q>(Pf1.x, Pf1.y, Pf0.z)); + T n001 = dot(g001, vec<3, T, Q>(Pf0.x, Pf0.y, Pf1.z)); + T n101 = dot(g101, vec<3, T, Q>(Pf1.x, Pf0.y, Pf1.z)); + T n011 = dot(g011, vec<3, T, Q>(Pf0.x, Pf1.y, Pf1.z)); + T n111 = dot(g111, Pf1); + + vec<3, T, Q> fade_xyz = fade(Pf0); + vec<4, T, Q> n_z = mix(vec<4, T, Q>(n000, n100, n010, n110), vec<4, T, Q>(n001, n101, n011, n111), fade_xyz.z); + vec<2, T, Q> n_yz = mix( + vec<2, T, Q>(n_z.x, n_z.y), + vec<2, T, Q>(n_z.z, n_z.w), fade_xyz.y); + T n_xyz = mix(n_yz.x, n_yz.y, fade_xyz.x); + return T(2.2) * n_xyz; + } + */ + // Classic Perlin noise + template + GLM_FUNC_QUALIFIER T perlin(vec<4, T, Q> const& Position) + { + vec<4, T, Q> Pi0 = floor(Position); // Integer part for indexing + vec<4, T, Q> Pi1 = Pi0 + T(1); // Integer part + 1 + Pi0 = mod(Pi0, vec<4, T, Q>(289)); + Pi1 = mod(Pi1, vec<4, T, Q>(289)); + vec<4, T, Q> Pf0 = fract(Position); // Fractional part for interpolation + vec<4, T, Q> Pf1 = Pf0 - T(1); // Fractional part - 1.0 + vec<4, T, Q> ix(Pi0.x, Pi1.x, Pi0.x, Pi1.x); + vec<4, T, Q> iy(Pi0.y, Pi0.y, Pi1.y, Pi1.y); + vec<4, T, Q> iz0(Pi0.z); + vec<4, T, Q> iz1(Pi1.z); + vec<4, T, Q> iw0(Pi0.w); + vec<4, T, Q> iw1(Pi1.w); + + vec<4, T, Q> ixy = detail::permute(detail::permute(ix) + iy); + vec<4, T, Q> ixy0 = detail::permute(ixy + iz0); + vec<4, T, Q> ixy1 = detail::permute(ixy + iz1); + vec<4, T, Q> ixy00 = detail::permute(ixy0 + iw0); + vec<4, T, Q> ixy01 = detail::permute(ixy0 + iw1); + vec<4, T, Q> ixy10 = detail::permute(ixy1 + iw0); + vec<4, T, Q> ixy11 = detail::permute(ixy1 + iw1); + + vec<4, T, Q> gx00 = ixy00 / T(7); + vec<4, T, Q> gy00 = floor(gx00) / T(7); + vec<4, T, Q> gz00 = floor(gy00) / T(6); + gx00 = fract(gx00) - T(0.5); + gy00 = fract(gy00) - T(0.5); + gz00 = fract(gz00) - T(0.5); + vec<4, T, Q> gw00 = vec<4, T, Q>(0.75) - abs(gx00) - abs(gy00) - abs(gz00); + vec<4, T, Q> sw00 = step(gw00, vec<4, T, Q>(0.0)); + gx00 -= sw00 * (step(T(0), gx00) - T(0.5)); + gy00 -= sw00 * (step(T(0), gy00) - T(0.5)); + + vec<4, T, Q> gx01 = ixy01 / T(7); + vec<4, T, Q> gy01 = floor(gx01) / T(7); + vec<4, T, Q> gz01 = floor(gy01) / T(6); + gx01 = fract(gx01) - T(0.5); + gy01 = fract(gy01) - T(0.5); + gz01 = fract(gz01) - T(0.5); + vec<4, T, Q> gw01 = vec<4, T, Q>(0.75) - abs(gx01) - abs(gy01) - abs(gz01); + vec<4, T, Q> sw01 = step(gw01, vec<4, T, Q>(0.0)); + gx01 -= sw01 * (step(T(0), gx01) - T(0.5)); + gy01 -= sw01 * (step(T(0), gy01) - T(0.5)); + + vec<4, T, Q> gx10 = ixy10 / T(7); + vec<4, T, Q> gy10 = floor(gx10) / T(7); + vec<4, T, Q> gz10 = floor(gy10) / T(6); + gx10 = fract(gx10) - T(0.5); + gy10 = fract(gy10) - T(0.5); + gz10 = fract(gz10) - T(0.5); + vec<4, T, Q> gw10 = vec<4, T, Q>(0.75) - abs(gx10) - abs(gy10) - abs(gz10); + vec<4, T, Q> sw10 = step(gw10, vec<4, T, Q>(0)); + gx10 -= sw10 * (step(T(0), gx10) - T(0.5)); + gy10 -= sw10 * (step(T(0), gy10) - T(0.5)); + + vec<4, T, Q> gx11 = ixy11 / T(7); + vec<4, T, Q> gy11 = floor(gx11) / T(7); + vec<4, T, Q> gz11 = floor(gy11) / T(6); + gx11 = fract(gx11) - T(0.5); + gy11 = fract(gy11) - T(0.5); + gz11 = fract(gz11) - T(0.5); + vec<4, T, Q> gw11 = vec<4, T, Q>(0.75) - abs(gx11) - abs(gy11) - abs(gz11); + vec<4, T, Q> sw11 = step(gw11, vec<4, T, Q>(0.0)); + gx11 -= sw11 * (step(T(0), gx11) - T(0.5)); + gy11 -= sw11 * (step(T(0), gy11) - T(0.5)); + + vec<4, T, Q> g0000(gx00.x, gy00.x, gz00.x, gw00.x); + vec<4, T, Q> g1000(gx00.y, gy00.y, gz00.y, gw00.y); + vec<4, T, Q> g0100(gx00.z, gy00.z, gz00.z, gw00.z); + vec<4, T, Q> g1100(gx00.w, gy00.w, gz00.w, gw00.w); + vec<4, T, Q> g0010(gx10.x, gy10.x, gz10.x, gw10.x); + vec<4, T, Q> g1010(gx10.y, gy10.y, gz10.y, gw10.y); + vec<4, T, Q> g0110(gx10.z, gy10.z, gz10.z, gw10.z); + vec<4, T, Q> g1110(gx10.w, gy10.w, gz10.w, gw10.w); + vec<4, T, Q> g0001(gx01.x, gy01.x, gz01.x, gw01.x); + vec<4, T, Q> g1001(gx01.y, gy01.y, gz01.y, gw01.y); + vec<4, T, Q> g0101(gx01.z, gy01.z, gz01.z, gw01.z); + vec<4, T, Q> g1101(gx01.w, gy01.w, gz01.w, gw01.w); + vec<4, T, Q> g0011(gx11.x, gy11.x, gz11.x, gw11.x); + vec<4, T, Q> g1011(gx11.y, gy11.y, gz11.y, gw11.y); + vec<4, T, Q> g0111(gx11.z, gy11.z, gz11.z, gw11.z); + vec<4, T, Q> g1111(gx11.w, gy11.w, gz11.w, gw11.w); + + vec<4, T, Q> norm00 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0000, g0000), dot(g0100, g0100), dot(g1000, g1000), dot(g1100, g1100))); + g0000 *= norm00.x; + g0100 *= norm00.y; + g1000 *= norm00.z; + g1100 *= norm00.w; + + vec<4, T, Q> norm01 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0001, g0001), dot(g0101, g0101), dot(g1001, g1001), dot(g1101, g1101))); + g0001 *= norm01.x; + g0101 *= norm01.y; + g1001 *= norm01.z; + g1101 *= norm01.w; + + vec<4, T, Q> norm10 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0010, g0010), dot(g0110, g0110), dot(g1010, g1010), dot(g1110, g1110))); + g0010 *= norm10.x; + g0110 *= norm10.y; + g1010 *= norm10.z; + g1110 *= norm10.w; + + vec<4, T, Q> norm11 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0011, g0011), dot(g0111, g0111), dot(g1011, g1011), dot(g1111, g1111))); + g0011 *= norm11.x; + g0111 *= norm11.y; + g1011 *= norm11.z; + g1111 *= norm11.w; + + T n0000 = dot(g0000, Pf0); + T n1000 = dot(g1000, vec<4, T, Q>(Pf1.x, Pf0.y, Pf0.z, Pf0.w)); + T n0100 = dot(g0100, vec<4, T, Q>(Pf0.x, Pf1.y, Pf0.z, Pf0.w)); + T n1100 = dot(g1100, vec<4, T, Q>(Pf1.x, Pf1.y, Pf0.z, Pf0.w)); + T n0010 = dot(g0010, vec<4, T, Q>(Pf0.x, Pf0.y, Pf1.z, Pf0.w)); + T n1010 = dot(g1010, vec<4, T, Q>(Pf1.x, Pf0.y, Pf1.z, Pf0.w)); + T n0110 = dot(g0110, vec<4, T, Q>(Pf0.x, Pf1.y, Pf1.z, Pf0.w)); + T n1110 = dot(g1110, vec<4, T, Q>(Pf1.x, Pf1.y, Pf1.z, Pf0.w)); + T n0001 = dot(g0001, vec<4, T, Q>(Pf0.x, Pf0.y, Pf0.z, Pf1.w)); + T n1001 = dot(g1001, vec<4, T, Q>(Pf1.x, Pf0.y, Pf0.z, Pf1.w)); + T n0101 = dot(g0101, vec<4, T, Q>(Pf0.x, Pf1.y, Pf0.z, Pf1.w)); + T n1101 = dot(g1101, vec<4, T, Q>(Pf1.x, Pf1.y, Pf0.z, Pf1.w)); + T n0011 = dot(g0011, vec<4, T, Q>(Pf0.x, Pf0.y, Pf1.z, Pf1.w)); + T n1011 = dot(g1011, vec<4, T, Q>(Pf1.x, Pf0.y, Pf1.z, Pf1.w)); + T n0111 = dot(g0111, vec<4, T, Q>(Pf0.x, Pf1.y, Pf1.z, Pf1.w)); + T n1111 = dot(g1111, Pf1); + + vec<4, T, Q> fade_xyzw = detail::fade(Pf0); + vec<4, T, Q> n_0w = mix(vec<4, T, Q>(n0000, n1000, n0100, n1100), vec<4, T, Q>(n0001, n1001, n0101, n1101), fade_xyzw.w); + vec<4, T, Q> n_1w = mix(vec<4, T, Q>(n0010, n1010, n0110, n1110), vec<4, T, Q>(n0011, n1011, n0111, n1111), fade_xyzw.w); + vec<4, T, Q> n_zw = mix(n_0w, n_1w, fade_xyzw.z); + vec<2, T, Q> n_yzw = mix(vec<2, T, Q>(n_zw.x, n_zw.y), vec<2, T, Q>(n_zw.z, n_zw.w), fade_xyzw.y); + T n_xyzw = mix(n_yzw.x, n_yzw.y, fade_xyzw.x); + return T(2.2) * n_xyzw; + } + + // Classic Perlin noise, periodic variant + template + GLM_FUNC_QUALIFIER T perlin(vec<2, T, Q> const& Position, vec<2, T, Q> const& rep) + { + vec<4, T, Q> Pi = floor(vec<4, T, Q>(Position.x, Position.y, Position.x, Position.y)) + vec<4, T, Q>(0.0, 0.0, 1.0, 1.0); + vec<4, T, Q> Pf = fract(vec<4, T, Q>(Position.x, Position.y, Position.x, Position.y)) - vec<4, T, Q>(0.0, 0.0, 1.0, 1.0); + Pi = mod(Pi, vec<4, T, Q>(rep.x, rep.y, rep.x, rep.y)); // To create noise with explicit period + Pi = mod(Pi, vec<4, T, Q>(289)); // To avoid truncation effects in permutation + vec<4, T, Q> ix(Pi.x, Pi.z, Pi.x, Pi.z); + vec<4, T, Q> iy(Pi.y, Pi.y, Pi.w, Pi.w); + vec<4, T, Q> fx(Pf.x, Pf.z, Pf.x, Pf.z); + vec<4, T, Q> fy(Pf.y, Pf.y, Pf.w, Pf.w); + + vec<4, T, Q> i = detail::permute(detail::permute(ix) + iy); + + vec<4, T, Q> gx = static_cast(2) * fract(i / T(41)) - T(1); + vec<4, T, Q> gy = abs(gx) - T(0.5); + vec<4, T, Q> tx = floor(gx + T(0.5)); + gx = gx - tx; + + vec<2, T, Q> g00(gx.x, gy.x); + vec<2, T, Q> g10(gx.y, gy.y); + vec<2, T, Q> g01(gx.z, gy.z); + vec<2, T, Q> g11(gx.w, gy.w); + + vec<4, T, Q> norm = detail::taylorInvSqrt(vec<4, T, Q>(dot(g00, g00), dot(g01, g01), dot(g10, g10), dot(g11, g11))); + g00 *= norm.x; + g01 *= norm.y; + g10 *= norm.z; + g11 *= norm.w; + + T n00 = dot(g00, vec<2, T, Q>(fx.x, fy.x)); + T n10 = dot(g10, vec<2, T, Q>(fx.y, fy.y)); + T n01 = dot(g01, vec<2, T, Q>(fx.z, fy.z)); + T n11 = dot(g11, vec<2, T, Q>(fx.w, fy.w)); + + vec<2, T, Q> fade_xy = detail::fade(vec<2, T, Q>(Pf.x, Pf.y)); + vec<2, T, Q> n_x = mix(vec<2, T, Q>(n00, n01), vec<2, T, Q>(n10, n11), fade_xy.x); + T n_xy = mix(n_x.x, n_x.y, fade_xy.y); + return T(2.3) * n_xy; + } + + // Classic Perlin noise, periodic variant + template + GLM_FUNC_QUALIFIER T perlin(vec<3, T, Q> const& Position, vec<3, T, Q> const& rep) + { + vec<3, T, Q> Pi0 = mod(floor(Position), rep); // Integer part, modulo period + vec<3, T, Q> Pi1 = mod(Pi0 + vec<3, T, Q>(T(1)), rep); // Integer part + 1, mod period + Pi0 = mod(Pi0, vec<3, T, Q>(289)); + Pi1 = mod(Pi1, vec<3, T, Q>(289)); + vec<3, T, Q> Pf0 = fract(Position); // Fractional part for interpolation + vec<3, T, Q> Pf1 = Pf0 - vec<3, T, Q>(T(1)); // Fractional part - 1.0 + vec<4, T, Q> ix = vec<4, T, Q>(Pi0.x, Pi1.x, Pi0.x, Pi1.x); + vec<4, T, Q> iy = vec<4, T, Q>(Pi0.y, Pi0.y, Pi1.y, Pi1.y); + vec<4, T, Q> iz0(Pi0.z); + vec<4, T, Q> iz1(Pi1.z); + + vec<4, T, Q> ixy = detail::permute(detail::permute(ix) + iy); + vec<4, T, Q> ixy0 = detail::permute(ixy + iz0); + vec<4, T, Q> ixy1 = detail::permute(ixy + iz1); + + vec<4, T, Q> gx0 = ixy0 / T(7); + vec<4, T, Q> gy0 = fract(floor(gx0) / T(7)) - T(0.5); + gx0 = fract(gx0); + vec<4, T, Q> gz0 = vec<4, T, Q>(0.5) - abs(gx0) - abs(gy0); + vec<4, T, Q> sz0 = step(gz0, vec<4, T, Q>(0)); + gx0 -= sz0 * (step(T(0), gx0) - T(0.5)); + gy0 -= sz0 * (step(T(0), gy0) - T(0.5)); + + vec<4, T, Q> gx1 = ixy1 / T(7); + vec<4, T, Q> gy1 = fract(floor(gx1) / T(7)) - T(0.5); + gx1 = fract(gx1); + vec<4, T, Q> gz1 = vec<4, T, Q>(0.5) - abs(gx1) - abs(gy1); + vec<4, T, Q> sz1 = step(gz1, vec<4, T, Q>(T(0))); + gx1 -= sz1 * (step(T(0), gx1) - T(0.5)); + gy1 -= sz1 * (step(T(0), gy1) - T(0.5)); + + vec<3, T, Q> g000 = vec<3, T, Q>(gx0.x, gy0.x, gz0.x); + vec<3, T, Q> g100 = vec<3, T, Q>(gx0.y, gy0.y, gz0.y); + vec<3, T, Q> g010 = vec<3, T, Q>(gx0.z, gy0.z, gz0.z); + vec<3, T, Q> g110 = vec<3, T, Q>(gx0.w, gy0.w, gz0.w); + vec<3, T, Q> g001 = vec<3, T, Q>(gx1.x, gy1.x, gz1.x); + vec<3, T, Q> g101 = vec<3, T, Q>(gx1.y, gy1.y, gz1.y); + vec<3, T, Q> g011 = vec<3, T, Q>(gx1.z, gy1.z, gz1.z); + vec<3, T, Q> g111 = vec<3, T, Q>(gx1.w, gy1.w, gz1.w); + + vec<4, T, Q> norm0 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g000, g000), dot(g010, g010), dot(g100, g100), dot(g110, g110))); + g000 *= norm0.x; + g010 *= norm0.y; + g100 *= norm0.z; + g110 *= norm0.w; + vec<4, T, Q> norm1 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g001, g001), dot(g011, g011), dot(g101, g101), dot(g111, g111))); + g001 *= norm1.x; + g011 *= norm1.y; + g101 *= norm1.z; + g111 *= norm1.w; + + T n000 = dot(g000, Pf0); + T n100 = dot(g100, vec<3, T, Q>(Pf1.x, Pf0.y, Pf0.z)); + T n010 = dot(g010, vec<3, T, Q>(Pf0.x, Pf1.y, Pf0.z)); + T n110 = dot(g110, vec<3, T, Q>(Pf1.x, Pf1.y, Pf0.z)); + T n001 = dot(g001, vec<3, T, Q>(Pf0.x, Pf0.y, Pf1.z)); + T n101 = dot(g101, vec<3, T, Q>(Pf1.x, Pf0.y, Pf1.z)); + T n011 = dot(g011, vec<3, T, Q>(Pf0.x, Pf1.y, Pf1.z)); + T n111 = dot(g111, Pf1); + + vec<3, T, Q> fade_xyz = detail::fade(Pf0); + vec<4, T, Q> n_z = mix(vec<4, T, Q>(n000, n100, n010, n110), vec<4, T, Q>(n001, n101, n011, n111), fade_xyz.z); + vec<2, T, Q> n_yz = mix(vec<2, T, Q>(n_z.x, n_z.y), vec<2, T, Q>(n_z.z, n_z.w), fade_xyz.y); + T n_xyz = mix(n_yz.x, n_yz.y, fade_xyz.x); + return T(2.2) * n_xyz; + } + + // Classic Perlin noise, periodic version + template + GLM_FUNC_QUALIFIER T perlin(vec<4, T, Q> const& Position, vec<4, T, Q> const& rep) + { + vec<4, T, Q> Pi0 = mod(floor(Position), rep); // Integer part modulo rep + vec<4, T, Q> Pi1 = mod(Pi0 + T(1), rep); // Integer part + 1 mod rep + vec<4, T, Q> Pf0 = fract(Position); // Fractional part for interpolation + vec<4, T, Q> Pf1 = Pf0 - T(1); // Fractional part - 1.0 + vec<4, T, Q> ix = vec<4, T, Q>(Pi0.x, Pi1.x, Pi0.x, Pi1.x); + vec<4, T, Q> iy = vec<4, T, Q>(Pi0.y, Pi0.y, Pi1.y, Pi1.y); + vec<4, T, Q> iz0(Pi0.z); + vec<4, T, Q> iz1(Pi1.z); + vec<4, T, Q> iw0(Pi0.w); + vec<4, T, Q> iw1(Pi1.w); + + vec<4, T, Q> ixy = detail::permute(detail::permute(ix) + iy); + vec<4, T, Q> ixy0 = detail::permute(ixy + iz0); + vec<4, T, Q> ixy1 = detail::permute(ixy + iz1); + vec<4, T, Q> ixy00 = detail::permute(ixy0 + iw0); + vec<4, T, Q> ixy01 = detail::permute(ixy0 + iw1); + vec<4, T, Q> ixy10 = detail::permute(ixy1 + iw0); + vec<4, T, Q> ixy11 = detail::permute(ixy1 + iw1); + + vec<4, T, Q> gx00 = ixy00 / T(7); + vec<4, T, Q> gy00 = floor(gx00) / T(7); + vec<4, T, Q> gz00 = floor(gy00) / T(6); + gx00 = fract(gx00) - T(0.5); + gy00 = fract(gy00) - T(0.5); + gz00 = fract(gz00) - T(0.5); + vec<4, T, Q> gw00 = vec<4, T, Q>(0.75) - abs(gx00) - abs(gy00) - abs(gz00); + vec<4, T, Q> sw00 = step(gw00, vec<4, T, Q>(0)); + gx00 -= sw00 * (step(T(0), gx00) - T(0.5)); + gy00 -= sw00 * (step(T(0), gy00) - T(0.5)); + + vec<4, T, Q> gx01 = ixy01 / T(7); + vec<4, T, Q> gy01 = floor(gx01) / T(7); + vec<4, T, Q> gz01 = floor(gy01) / T(6); + gx01 = fract(gx01) - T(0.5); + gy01 = fract(gy01) - T(0.5); + gz01 = fract(gz01) - T(0.5); + vec<4, T, Q> gw01 = vec<4, T, Q>(0.75) - abs(gx01) - abs(gy01) - abs(gz01); + vec<4, T, Q> sw01 = step(gw01, vec<4, T, Q>(0.0)); + gx01 -= sw01 * (step(T(0), gx01) - T(0.5)); + gy01 -= sw01 * (step(T(0), gy01) - T(0.5)); + + vec<4, T, Q> gx10 = ixy10 / T(7); + vec<4, T, Q> gy10 = floor(gx10) / T(7); + vec<4, T, Q> gz10 = floor(gy10) / T(6); + gx10 = fract(gx10) - T(0.5); + gy10 = fract(gy10) - T(0.5); + gz10 = fract(gz10) - T(0.5); + vec<4, T, Q> gw10 = vec<4, T, Q>(0.75) - abs(gx10) - abs(gy10) - abs(gz10); + vec<4, T, Q> sw10 = step(gw10, vec<4, T, Q>(0.0)); + gx10 -= sw10 * (step(T(0), gx10) - T(0.5)); + gy10 -= sw10 * (step(T(0), gy10) - T(0.5)); + + vec<4, T, Q> gx11 = ixy11 / T(7); + vec<4, T, Q> gy11 = floor(gx11) / T(7); + vec<4, T, Q> gz11 = floor(gy11) / T(6); + gx11 = fract(gx11) - T(0.5); + gy11 = fract(gy11) - T(0.5); + gz11 = fract(gz11) - T(0.5); + vec<4, T, Q> gw11 = vec<4, T, Q>(0.75) - abs(gx11) - abs(gy11) - abs(gz11); + vec<4, T, Q> sw11 = step(gw11, vec<4, T, Q>(T(0))); + gx11 -= sw11 * (step(T(0), gx11) - T(0.5)); + gy11 -= sw11 * (step(T(0), gy11) - T(0.5)); + + vec<4, T, Q> g0000(gx00.x, gy00.x, gz00.x, gw00.x); + vec<4, T, Q> g1000(gx00.y, gy00.y, gz00.y, gw00.y); + vec<4, T, Q> g0100(gx00.z, gy00.z, gz00.z, gw00.z); + vec<4, T, Q> g1100(gx00.w, gy00.w, gz00.w, gw00.w); + vec<4, T, Q> g0010(gx10.x, gy10.x, gz10.x, gw10.x); + vec<4, T, Q> g1010(gx10.y, gy10.y, gz10.y, gw10.y); + vec<4, T, Q> g0110(gx10.z, gy10.z, gz10.z, gw10.z); + vec<4, T, Q> g1110(gx10.w, gy10.w, gz10.w, gw10.w); + vec<4, T, Q> g0001(gx01.x, gy01.x, gz01.x, gw01.x); + vec<4, T, Q> g1001(gx01.y, gy01.y, gz01.y, gw01.y); + vec<4, T, Q> g0101(gx01.z, gy01.z, gz01.z, gw01.z); + vec<4, T, Q> g1101(gx01.w, gy01.w, gz01.w, gw01.w); + vec<4, T, Q> g0011(gx11.x, gy11.x, gz11.x, gw11.x); + vec<4, T, Q> g1011(gx11.y, gy11.y, gz11.y, gw11.y); + vec<4, T, Q> g0111(gx11.z, gy11.z, gz11.z, gw11.z); + vec<4, T, Q> g1111(gx11.w, gy11.w, gz11.w, gw11.w); + + vec<4, T, Q> norm00 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0000, g0000), dot(g0100, g0100), dot(g1000, g1000), dot(g1100, g1100))); + g0000 *= norm00.x; + g0100 *= norm00.y; + g1000 *= norm00.z; + g1100 *= norm00.w; + + vec<4, T, Q> norm01 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0001, g0001), dot(g0101, g0101), dot(g1001, g1001), dot(g1101, g1101))); + g0001 *= norm01.x; + g0101 *= norm01.y; + g1001 *= norm01.z; + g1101 *= norm01.w; + + vec<4, T, Q> norm10 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0010, g0010), dot(g0110, g0110), dot(g1010, g1010), dot(g1110, g1110))); + g0010 *= norm10.x; + g0110 *= norm10.y; + g1010 *= norm10.z; + g1110 *= norm10.w; + + vec<4, T, Q> norm11 = detail::taylorInvSqrt(vec<4, T, Q>(dot(g0011, g0011), dot(g0111, g0111), dot(g1011, g1011), dot(g1111, g1111))); + g0011 *= norm11.x; + g0111 *= norm11.y; + g1011 *= norm11.z; + g1111 *= norm11.w; + + T n0000 = dot(g0000, Pf0); + T n1000 = dot(g1000, vec<4, T, Q>(Pf1.x, Pf0.y, Pf0.z, Pf0.w)); + T n0100 = dot(g0100, vec<4, T, Q>(Pf0.x, Pf1.y, Pf0.z, Pf0.w)); + T n1100 = dot(g1100, vec<4, T, Q>(Pf1.x, Pf1.y, Pf0.z, Pf0.w)); + T n0010 = dot(g0010, vec<4, T, Q>(Pf0.x, Pf0.y, Pf1.z, Pf0.w)); + T n1010 = dot(g1010, vec<4, T, Q>(Pf1.x, Pf0.y, Pf1.z, Pf0.w)); + T n0110 = dot(g0110, vec<4, T, Q>(Pf0.x, Pf1.y, Pf1.z, Pf0.w)); + T n1110 = dot(g1110, vec<4, T, Q>(Pf1.x, Pf1.y, Pf1.z, Pf0.w)); + T n0001 = dot(g0001, vec<4, T, Q>(Pf0.x, Pf0.y, Pf0.z, Pf1.w)); + T n1001 = dot(g1001, vec<4, T, Q>(Pf1.x, Pf0.y, Pf0.z, Pf1.w)); + T n0101 = dot(g0101, vec<4, T, Q>(Pf0.x, Pf1.y, Pf0.z, Pf1.w)); + T n1101 = dot(g1101, vec<4, T, Q>(Pf1.x, Pf1.y, Pf0.z, Pf1.w)); + T n0011 = dot(g0011, vec<4, T, Q>(Pf0.x, Pf0.y, Pf1.z, Pf1.w)); + T n1011 = dot(g1011, vec<4, T, Q>(Pf1.x, Pf0.y, Pf1.z, Pf1.w)); + T n0111 = dot(g0111, vec<4, T, Q>(Pf0.x, Pf1.y, Pf1.z, Pf1.w)); + T n1111 = dot(g1111, Pf1); + + vec<4, T, Q> fade_xyzw = detail::fade(Pf0); + vec<4, T, Q> n_0w = mix(vec<4, T, Q>(n0000, n1000, n0100, n1100), vec<4, T, Q>(n0001, n1001, n0101, n1101), fade_xyzw.w); + vec<4, T, Q> n_1w = mix(vec<4, T, Q>(n0010, n1010, n0110, n1110), vec<4, T, Q>(n0011, n1011, n0111, n1111), fade_xyzw.w); + vec<4, T, Q> n_zw = mix(n_0w, n_1w, fade_xyzw.z); + vec<2, T, Q> n_yzw = mix(vec<2, T, Q>(n_zw.x, n_zw.y), vec<2, T, Q>(n_zw.z, n_zw.w), fade_xyzw.y); + T n_xyzw = mix(n_yzw.x, n_yzw.y, fade_xyzw.x); + return T(2.2) * n_xyzw; + } + + template + GLM_FUNC_QUALIFIER T simplex(glm::vec<2, T, Q> const& v) + { + vec<4, T, Q> const C = vec<4, T, Q>( + T( 0.211324865405187), // (3.0 - sqrt(3.0)) / 6.0 + T( 0.366025403784439), // 0.5 * (sqrt(3.0) - 1.0) + T(-0.577350269189626), // -1.0 + 2.0 * C.x + T( 0.024390243902439)); // 1.0 / 41.0 + + // First corner + vec<2, T, Q> i = floor(v + dot(v, vec<2, T, Q>(C[1]))); + vec<2, T, Q> x0 = v - i + dot(i, vec<2, T, Q>(C[0])); + + // Other corners + //i1.x = step( x0.y, x0.x ); // x0.x > x0.y ? 1.0 : 0.0 + //i1.y = 1.0 - i1.x; + vec<2, T, Q> i1 = (x0.x > x0.y) ? vec<2, T, Q>(1, 0) : vec<2, T, Q>(0, 1); + // x0 = x0 - 0.0 + 0.0 * C.xx ; + // x1 = x0 - i1 + 1.0 * C.xx ; + // x2 = x0 - 1.0 + 2.0 * C.xx ; + vec<4, T, Q> x12 = vec<4, T, Q>(x0.x, x0.y, x0.x, x0.y) + vec<4, T, Q>(C.x, C.x, C.z, C.z); + x12 = vec<4, T, Q>(vec<2, T, Q>(x12) - i1, x12.z, x12.w); + + // Permutations + i = mod(i, vec<2, T, Q>(289)); // Avoid truncation effects in permutation + vec<3, T, Q> p = detail::permute( + detail::permute(i.y + vec<3, T, Q>(T(0), i1.y, T(1))) + + i.x + vec<3, T, Q>(T(0), i1.x, T(1))); + + vec<3, T, Q> m = max(vec<3, T, Q>(0.5) - vec<3, T, Q>( + dot(x0, x0), + dot(vec<2, T, Q>(x12.x, x12.y), vec<2, T, Q>(x12.x, x12.y)), + dot(vec<2, T, Q>(x12.z, x12.w), vec<2, T, Q>(x12.z, x12.w))), vec<3, T, Q>(0)); + m = m * m ; + m = m * m ; + + // Gradients: 41 points uniformly over a line, mapped onto a diamond. + // The ring size 17*17 = 289 is close to a multiple of 41 (41*7 = 287) + + vec<3, T, Q> x = static_cast(2) * fract(p * C.w) - T(1); + vec<3, T, Q> h = abs(x) - T(0.5); + vec<3, T, Q> ox = floor(x + T(0.5)); + vec<3, T, Q> a0 = x - ox; + + // Normalise gradients implicitly by scaling m + // Inlined for speed: m *= taylorInvSqrt( a0*a0 + h*h ); + m *= static_cast(1.79284291400159) - T(0.85373472095314) * (a0 * a0 + h * h); + + // Compute final noise value at P + vec<3, T, Q> g; + g.x = a0.x * x0.x + h.x * x0.y; + //g.yz = a0.yz * x12.xz + h.yz * x12.yw; + g.y = a0.y * x12.x + h.y * x12.y; + g.z = a0.z * x12.z + h.z * x12.w; + return T(130) * dot(m, g); + } + + template + GLM_FUNC_QUALIFIER T simplex(vec<3, T, Q> const& v) + { + vec<2, T, Q> const C(1.0 / 6.0, 1.0 / 3.0); + vec<4, T, Q> const D(0.0, 0.5, 1.0, 2.0); + + // First corner + vec<3, T, Q> i(floor(v + dot(v, vec<3, T, Q>(C.y)))); + vec<3, T, Q> x0(v - i + dot(i, vec<3, T, Q>(C.x))); + + // Other corners + vec<3, T, Q> g(step(vec<3, T, Q>(x0.y, x0.z, x0.x), x0)); + vec<3, T, Q> l(T(1) - g); + vec<3, T, Q> i1(min(g, vec<3, T, Q>(l.z, l.x, l.y))); + vec<3, T, Q> i2(max(g, vec<3, T, Q>(l.z, l.x, l.y))); + + // x0 = x0 - 0.0 + 0.0 * C.xxx; + // x1 = x0 - i1 + 1.0 * C.xxx; + // x2 = x0 - i2 + 2.0 * C.xxx; + // x3 = x0 - 1.0 + 3.0 * C.xxx; + vec<3, T, Q> x1(x0 - i1 + C.x); + vec<3, T, Q> x2(x0 - i2 + C.y); // 2.0*C.x = 1/3 = C.y + vec<3, T, Q> x3(x0 - D.y); // -1.0+3.0*C.x = -0.5 = -D.y + + // Permutations + i = detail::mod289(i); + vec<4, T, Q> p(detail::permute(detail::permute(detail::permute( + i.z + vec<4, T, Q>(T(0), i1.z, i2.z, T(1))) + + i.y + vec<4, T, Q>(T(0), i1.y, i2.y, T(1))) + + i.x + vec<4, T, Q>(T(0), i1.x, i2.x, T(1)))); + + // Gradients: 7x7 points over a square, mapped onto an octahedron. + // The ring size 17*17 = 289 is close to a multiple of 49 (49*6 = 294) + T n_ = static_cast(0.142857142857); // 1.0/7.0 + vec<3, T, Q> ns(n_ * vec<3, T, Q>(D.w, D.y, D.z) - vec<3, T, Q>(D.x, D.z, D.x)); + + vec<4, T, Q> j(p - T(49) * floor(p * ns.z * ns.z)); // mod(p,7*7) + + vec<4, T, Q> x_(floor(j * ns.z)); + vec<4, T, Q> y_(floor(j - T(7) * x_)); // mod(j,N) + + vec<4, T, Q> x(x_ * ns.x + ns.y); + vec<4, T, Q> y(y_ * ns.x + ns.y); + vec<4, T, Q> h(T(1) - abs(x) - abs(y)); + + vec<4, T, Q> b0(x.x, x.y, y.x, y.y); + vec<4, T, Q> b1(x.z, x.w, y.z, y.w); + + // vec4 s0 = vec4(lessThan(b0,0.0))*2.0 - 1.0; + // vec4 s1 = vec4(lessThan(b1,0.0))*2.0 - 1.0; + vec<4, T, Q> s0(floor(b0) * T(2) + T(1)); + vec<4, T, Q> s1(floor(b1) * T(2) + T(1)); + vec<4, T, Q> sh(-step(h, vec<4, T, Q>(0.0))); + + vec<4, T, Q> a0 = vec<4, T, Q>(b0.x, b0.z, b0.y, b0.w) + vec<4, T, Q>(s0.x, s0.z, s0.y, s0.w) * vec<4, T, Q>(sh.x, sh.x, sh.y, sh.y); + vec<4, T, Q> a1 = vec<4, T, Q>(b1.x, b1.z, b1.y, b1.w) + vec<4, T, Q>(s1.x, s1.z, s1.y, s1.w) * vec<4, T, Q>(sh.z, sh.z, sh.w, sh.w); + + vec<3, T, Q> p0(a0.x, a0.y, h.x); + vec<3, T, Q> p1(a0.z, a0.w, h.y); + vec<3, T, Q> p2(a1.x, a1.y, h.z); + vec<3, T, Q> p3(a1.z, a1.w, h.w); + + // Normalise gradients + vec<4, T, Q> norm = detail::taylorInvSqrt(vec<4, T, Q>(dot(p0, p0), dot(p1, p1), dot(p2, p2), dot(p3, p3))); + p0 *= norm.x; + p1 *= norm.y; + p2 *= norm.z; + p3 *= norm.w; + + // Mix final noise value + vec<4, T, Q> m = max(T(0.6) - vec<4, T, Q>(dot(x0, x0), dot(x1, x1), dot(x2, x2), dot(x3, x3)), vec<4, T, Q>(0)); + m = m * m; + return T(42) * dot(m * m, vec<4, T, Q>(dot(p0, x0), dot(p1, x1), dot(p2, x2), dot(p3, x3))); + } + + template + GLM_FUNC_QUALIFIER T simplex(vec<4, T, Q> const& v) + { + vec<4, T, Q> const C( + 0.138196601125011, // (5 - sqrt(5))/20 G4 + 0.276393202250021, // 2 * G4 + 0.414589803375032, // 3 * G4 + -0.447213595499958); // -1 + 4 * G4 + + // (sqrt(5) - 1)/4 = F4, used once below + T const F4 = static_cast(0.309016994374947451); + + // First corner + vec<4, T, Q> i = floor(v + dot(v, vec<4, T, Q>(F4))); + vec<4, T, Q> x0 = v - i + dot(i, vec<4, T, Q>(C.x)); + + // Other corners + + // Rank sorting originally contributed by Bill Licea-Kane, AMD (formerly ATI) + vec<4, T, Q> i0; + vec<3, T, Q> isX = step(vec<3, T, Q>(x0.y, x0.z, x0.w), vec<3, T, Q>(x0.x)); + vec<3, T, Q> isYZ = step(vec<3, T, Q>(x0.z, x0.w, x0.w), vec<3, T, Q>(x0.y, x0.y, x0.z)); + // i0.x = dot(isX, vec3(1.0)); + //i0.x = isX.x + isX.y + isX.z; + //i0.yzw = static_cast(1) - isX; + i0 = vec<4, T, Q>(isX.x + isX.y + isX.z, T(1) - isX); + // i0.y += dot(isYZ.xy, vec2(1.0)); + i0.y += isYZ.x + isYZ.y; + //i0.zw += 1.0 - vec<2, T, Q>(isYZ.x, isYZ.y); + i0.z += static_cast(1) - isYZ.x; + i0.w += static_cast(1) - isYZ.y; + i0.z += isYZ.z; + i0.w += static_cast(1) - isYZ.z; + + // i0 now contains the unique values 0,1,2,3 in each channel + vec<4, T, Q> i3 = clamp(i0, T(0), T(1)); + vec<4, T, Q> i2 = clamp(i0 - T(1), T(0), T(1)); + vec<4, T, Q> i1 = clamp(i0 - T(2), T(0), T(1)); + + // x0 = x0 - 0.0 + 0.0 * C.xxxx + // x1 = x0 - i1 + 0.0 * C.xxxx + // x2 = x0 - i2 + 0.0 * C.xxxx + // x3 = x0 - i3 + 0.0 * C.xxxx + // x4 = x0 - 1.0 + 4.0 * C.xxxx + vec<4, T, Q> x1 = x0 - i1 + C.x; + vec<4, T, Q> x2 = x0 - i2 + C.y; + vec<4, T, Q> x3 = x0 - i3 + C.z; + vec<4, T, Q> x4 = x0 + C.w; + + // Permutations + i = mod(i, vec<4, T, Q>(289)); + T j0 = detail::permute(detail::permute(detail::permute(detail::permute(i.w) + i.z) + i.y) + i.x); + vec<4, T, Q> j1 = detail::permute(detail::permute(detail::permute(detail::permute( + i.w + vec<4, T, Q>(i1.w, i2.w, i3.w, T(1))) + + i.z + vec<4, T, Q>(i1.z, i2.z, i3.z, T(1))) + + i.y + vec<4, T, Q>(i1.y, i2.y, i3.y, T(1))) + + i.x + vec<4, T, Q>(i1.x, i2.x, i3.x, T(1))); + + // Gradients: 7x7x6 points over a cube, mapped onto a 4-cross polytope + // 7*7*6 = 294, which is close to the ring size 17*17 = 289. + vec<4, T, Q> ip = vec<4, T, Q>(T(1) / T(294), T(1) / T(49), T(1) / T(7), T(0)); + + vec<4, T, Q> p0 = gtc::grad4(j0, ip); + vec<4, T, Q> p1 = gtc::grad4(j1.x, ip); + vec<4, T, Q> p2 = gtc::grad4(j1.y, ip); + vec<4, T, Q> p3 = gtc::grad4(j1.z, ip); + vec<4, T, Q> p4 = gtc::grad4(j1.w, ip); + + // Normalise gradients + vec<4, T, Q> norm = detail::taylorInvSqrt(vec<4, T, Q>(dot(p0, p0), dot(p1, p1), dot(p2, p2), dot(p3, p3))); + p0 *= norm.x; + p1 *= norm.y; + p2 *= norm.z; + p3 *= norm.w; + p4 *= detail::taylorInvSqrt(dot(p4, p4)); + + // Mix contributions from the five corners + vec<3, T, Q> m0 = max(T(0.6) - vec<3, T, Q>(dot(x0, x0), dot(x1, x1), dot(x2, x2)), vec<3, T, Q>(0)); + vec<2, T, Q> m1 = max(T(0.6) - vec<2, T, Q>(dot(x3, x3), dot(x4, x4) ), vec<2, T, Q>(0)); + m0 = m0 * m0; + m1 = m1 * m1; + return T(49) * + (dot(m0 * m0, vec<3, T, Q>(dot(p0, x0), dot(p1, x1), dot(p2, x2))) + + dot(m1 * m1, vec<2, T, Q>(dot(p3, x3), dot(p4, x4)))); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/packing.hpp b/Vulkan/ext/include/glm/gtc/packing.hpp new file mode 100644 index 0000000..8e416b3 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/packing.hpp @@ -0,0 +1,728 @@ +/// @ref gtc_packing +/// @file glm/gtc/packing.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_packing GLM_GTC_packing +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// This extension provides a set of function to convert vertors to packed +/// formats. + +#pragma once + +// Dependency: +#include "type_precision.hpp" +#include "../ext/vector_packing.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_packing extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_packing + /// @{ + + /// First, converts the normalized floating-point value v into a 8-bit integer value. + /// Then, the results are packed into the returned 8-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packUnorm1x8: round(clamp(c, 0, +1) * 255.0) + /// + /// @see gtc_packing + /// @see uint16 packUnorm2x8(vec2 const& v) + /// @see uint32 packUnorm4x8(vec4 const& v) + /// @see GLSL packUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint8 packUnorm1x8(float v); + + /// Convert a single 8-bit integer to a normalized floating-point value. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackUnorm4x8: f / 255.0 + /// + /// @see gtc_packing + /// @see vec2 unpackUnorm2x8(uint16 p) + /// @see vec4 unpackUnorm4x8(uint32 p) + /// @see GLSL unpackUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL float unpackUnorm1x8(uint8 p); + + /// First, converts each component of the normalized floating-point value v into 8-bit integer values. + /// Then, the results are packed into the returned 16-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packUnorm2x8: round(clamp(c, 0, +1) * 255.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see gtc_packing + /// @see uint8 packUnorm1x8(float const& v) + /// @see uint32 packUnorm4x8(vec4 const& v) + /// @see GLSL packUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint16 packUnorm2x8(vec2 const& v); + + /// First, unpacks a single 16-bit unsigned integer p into a pair of 8-bit unsigned integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned two-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackUnorm4x8: f / 255.0 + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see float unpackUnorm1x8(uint8 v) + /// @see vec4 unpackUnorm4x8(uint32 p) + /// @see GLSL unpackUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec2 unpackUnorm2x8(uint16 p); + + /// First, converts the normalized floating-point value v into 8-bit integer value. + /// Then, the results are packed into the returned 8-bit unsigned integer. + /// + /// The conversion to fixed point is done as follows: + /// packSnorm1x8: round(clamp(s, -1, +1) * 127.0) + /// + /// @see gtc_packing + /// @see uint16 packSnorm2x8(vec2 const& v) + /// @see uint32 packSnorm4x8(vec4 const& v) + /// @see GLSL packSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint8 packSnorm1x8(float s); + + /// First, unpacks a single 8-bit unsigned integer p into a single 8-bit signed integers. + /// Then, the value is converted to a normalized floating-point value to generate the returned scalar. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm1x8: clamp(f / 127.0, -1, +1) + /// + /// @see gtc_packing + /// @see vec2 unpackSnorm2x8(uint16 p) + /// @see vec4 unpackSnorm4x8(uint32 p) + /// @see GLSL unpackSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL float unpackSnorm1x8(uint8 p); + + /// First, converts each component of the normalized floating-point value v into 8-bit integer values. + /// Then, the results are packed into the returned 16-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packSnorm2x8: round(clamp(c, -1, +1) * 127.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see gtc_packing + /// @see uint8 packSnorm1x8(float const& v) + /// @see uint32 packSnorm4x8(vec4 const& v) + /// @see GLSL packSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint16 packSnorm2x8(vec2 const& v); + + /// First, unpacks a single 16-bit unsigned integer p into a pair of 8-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned two-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm2x8: clamp(f / 127.0, -1, +1) + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see float unpackSnorm1x8(uint8 p) + /// @see vec4 unpackSnorm4x8(uint32 p) + /// @see GLSL unpackSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec2 unpackSnorm2x8(uint16 p); + + /// First, converts the normalized floating-point value v into a 16-bit integer value. + /// Then, the results are packed into the returned 16-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packUnorm1x16: round(clamp(c, 0, +1) * 65535.0) + /// + /// @see gtc_packing + /// @see uint16 packSnorm1x16(float const& v) + /// @see uint64 packSnorm4x16(vec4 const& v) + /// @see GLSL packUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint16 packUnorm1x16(float v); + + /// First, unpacks a single 16-bit unsigned integer p into a of 16-bit unsigned integers. + /// Then, the value is converted to a normalized floating-point value to generate the returned scalar. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackUnorm1x16: f / 65535.0 + /// + /// @see gtc_packing + /// @see vec2 unpackUnorm2x16(uint32 p) + /// @see vec4 unpackUnorm4x16(uint64 p) + /// @see GLSL unpackUnorm2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL float unpackUnorm1x16(uint16 p); + + /// First, converts each component of the normalized floating-point value v into 16-bit integer values. + /// Then, the results are packed into the returned 64-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packUnorm4x16: round(clamp(c, 0, +1) * 65535.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see gtc_packing + /// @see uint16 packUnorm1x16(float const& v) + /// @see uint32 packUnorm2x16(vec2 const& v) + /// @see GLSL packUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint64 packUnorm4x16(vec4 const& v); + + /// First, unpacks a single 64-bit unsigned integer p into four 16-bit unsigned integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackUnormx4x16: f / 65535.0 + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see float unpackUnorm1x16(uint16 p) + /// @see vec2 unpackUnorm2x16(uint32 p) + /// @see GLSL unpackUnorm2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec4 unpackUnorm4x16(uint64 p); + + /// First, converts the normalized floating-point value v into 16-bit integer value. + /// Then, the results are packed into the returned 16-bit unsigned integer. + /// + /// The conversion to fixed point is done as follows: + /// packSnorm1x8: round(clamp(s, -1, +1) * 32767.0) + /// + /// @see gtc_packing + /// @see uint32 packSnorm2x16(vec2 const& v) + /// @see uint64 packSnorm4x16(vec4 const& v) + /// @see GLSL packSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint16 packSnorm1x16(float v); + + /// First, unpacks a single 16-bit unsigned integer p into a single 16-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned scalar. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm1x16: clamp(f / 32767.0, -1, +1) + /// + /// @see gtc_packing + /// @see vec2 unpackSnorm2x16(uint32 p) + /// @see vec4 unpackSnorm4x16(uint64 p) + /// @see GLSL unpackSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL float unpackSnorm1x16(uint16 p); + + /// First, converts each component of the normalized floating-point value v into 16-bit integer values. + /// Then, the results are packed into the returned 64-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packSnorm2x8: round(clamp(c, -1, +1) * 32767.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see gtc_packing + /// @see uint16 packSnorm1x16(float const& v) + /// @see uint32 packSnorm2x16(vec2 const& v) + /// @see GLSL packSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint64 packSnorm4x16(vec4 const& v); + + /// First, unpacks a single 64-bit unsigned integer p into four 16-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm4x16: clamp(f / 32767.0, -1, +1) + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see float unpackSnorm1x16(uint16 p) + /// @see vec2 unpackSnorm2x16(uint32 p) + /// @see GLSL unpackSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec4 unpackSnorm4x16(uint64 p); + + /// Returns an unsigned integer obtained by converting the components of a floating-point scalar + /// to the 16-bit floating-point representation found in the OpenGL Specification, + /// and then packing this 16-bit value into a 16-bit unsigned integer. + /// + /// @see gtc_packing + /// @see uint32 packHalf2x16(vec2 const& v) + /// @see uint64 packHalf4x16(vec4 const& v) + /// @see GLSL packHalf2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint16 packHalf1x16(float v); + + /// Returns a floating-point scalar with components obtained by unpacking a 16-bit unsigned integer into a 16-bit value, + /// interpreted as a 16-bit floating-point number according to the OpenGL Specification, + /// and converting it to 32-bit floating-point values. + /// + /// @see gtc_packing + /// @see vec2 unpackHalf2x16(uint32 const& v) + /// @see vec4 unpackHalf4x16(uint64 const& v) + /// @see GLSL unpackHalf2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL float unpackHalf1x16(uint16 v); + + /// Returns an unsigned integer obtained by converting the components of a four-component floating-point vector + /// to the 16-bit floating-point representation found in the OpenGL Specification, + /// and then packing these four 16-bit values into a 64-bit unsigned integer. + /// The first vector component specifies the 16 least-significant bits of the result; + /// the forth component specifies the 16 most-significant bits. + /// + /// @see gtc_packing + /// @see uint16 packHalf1x16(float const& v) + /// @see uint32 packHalf2x16(vec2 const& v) + /// @see GLSL packHalf2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint64 packHalf4x16(vec4 const& v); + + /// Returns a four-component floating-point vector with components obtained by unpacking a 64-bit unsigned integer into four 16-bit values, + /// interpreting those values as 16-bit floating-point numbers according to the OpenGL Specification, + /// and converting them to 32-bit floating-point values. + /// The first component of the vector is obtained from the 16 least-significant bits of v; + /// the forth component is obtained from the 16 most-significant bits of v. + /// + /// @see gtc_packing + /// @see float unpackHalf1x16(uint16 const& v) + /// @see vec2 unpackHalf2x16(uint32 const& v) + /// @see GLSL unpackHalf2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec4 unpackHalf4x16(uint64 p); + + /// Returns an unsigned integer obtained by converting the components of a four-component signed integer vector + /// to the 10-10-10-2-bit signed integer representation found in the OpenGL Specification, + /// and then packing these four values into a 32-bit unsigned integer. + /// The first vector component specifies the 10 least-significant bits of the result; + /// the forth component specifies the 2 most-significant bits. + /// + /// @see gtc_packing + /// @see uint32 packI3x10_1x2(uvec4 const& v) + /// @see uint32 packSnorm3x10_1x2(vec4 const& v) + /// @see uint32 packUnorm3x10_1x2(vec4 const& v) + /// @see ivec4 unpackI3x10_1x2(uint32 const& p) + GLM_FUNC_DECL uint32 packI3x10_1x2(ivec4 const& v); + + /// Unpacks a single 32-bit unsigned integer p into three 10-bit and one 2-bit signed integers. + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see uint32 packU3x10_1x2(uvec4 const& v) + /// @see vec4 unpackSnorm3x10_1x2(uint32 const& p); + /// @see uvec4 unpackI3x10_1x2(uint32 const& p); + GLM_FUNC_DECL ivec4 unpackI3x10_1x2(uint32 p); + + /// Returns an unsigned integer obtained by converting the components of a four-component unsigned integer vector + /// to the 10-10-10-2-bit unsigned integer representation found in the OpenGL Specification, + /// and then packing these four values into a 32-bit unsigned integer. + /// The first vector component specifies the 10 least-significant bits of the result; + /// the forth component specifies the 2 most-significant bits. + /// + /// @see gtc_packing + /// @see uint32 packI3x10_1x2(ivec4 const& v) + /// @see uint32 packSnorm3x10_1x2(vec4 const& v) + /// @see uint32 packUnorm3x10_1x2(vec4 const& v) + /// @see ivec4 unpackU3x10_1x2(uint32 const& p) + GLM_FUNC_DECL uint32 packU3x10_1x2(uvec4 const& v); + + /// Unpacks a single 32-bit unsigned integer p into three 10-bit and one 2-bit unsigned integers. + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see uint32 packU3x10_1x2(uvec4 const& v) + /// @see vec4 unpackSnorm3x10_1x2(uint32 const& p); + /// @see uvec4 unpackI3x10_1x2(uint32 const& p); + GLM_FUNC_DECL uvec4 unpackU3x10_1x2(uint32 p); + + /// First, converts the first three components of the normalized floating-point value v into 10-bit signed integer values. + /// Then, converts the forth component of the normalized floating-point value v into 2-bit signed integer values. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packSnorm3x10_1x2(xyz): round(clamp(c, -1, +1) * 511.0) + /// packSnorm3x10_1x2(w): round(clamp(c, -1, +1) * 1.0) + /// + /// The first vector component specifies the 10 least-significant bits of the result; + /// the forth component specifies the 2 most-significant bits. + /// + /// @see gtc_packing + /// @see vec4 unpackSnorm3x10_1x2(uint32 const& p) + /// @see uint32 packUnorm3x10_1x2(vec4 const& v) + /// @see uint32 packU3x10_1x2(uvec4 const& v) + /// @see uint32 packI3x10_1x2(ivec4 const& v) + GLM_FUNC_DECL uint32 packSnorm3x10_1x2(vec4 const& v); + + /// First, unpacks a single 32-bit unsigned integer p into four 16-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm3x10_1x2(xyz): clamp(f / 511.0, -1, +1) + /// unpackSnorm3x10_1x2(w): clamp(f / 511.0, -1, +1) + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see uint32 packSnorm3x10_1x2(vec4 const& v) + /// @see vec4 unpackUnorm3x10_1x2(uint32 const& p)) + /// @see uvec4 unpackI3x10_1x2(uint32 const& p) + /// @see uvec4 unpackU3x10_1x2(uint32 const& p) + GLM_FUNC_DECL vec4 unpackSnorm3x10_1x2(uint32 p); + + /// First, converts the first three components of the normalized floating-point value v into 10-bit unsigned integer values. + /// Then, converts the forth component of the normalized floating-point value v into 2-bit signed uninteger values. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packUnorm3x10_1x2(xyz): round(clamp(c, 0, +1) * 1023.0) + /// packUnorm3x10_1x2(w): round(clamp(c, 0, +1) * 3.0) + /// + /// The first vector component specifies the 10 least-significant bits of the result; + /// the forth component specifies the 2 most-significant bits. + /// + /// @see gtc_packing + /// @see vec4 unpackUnorm3x10_1x2(uint32 const& p) + /// @see uint32 packUnorm3x10_1x2(vec4 const& v) + /// @see uint32 packU3x10_1x2(uvec4 const& v) + /// @see uint32 packI3x10_1x2(ivec4 const& v) + GLM_FUNC_DECL uint32 packUnorm3x10_1x2(vec4 const& v); + + /// First, unpacks a single 32-bit unsigned integer p into four 16-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm3x10_1x2(xyz): clamp(f / 1023.0, 0, +1) + /// unpackSnorm3x10_1x2(w): clamp(f / 3.0, 0, +1) + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see uint32 packSnorm3x10_1x2(vec4 const& v) + /// @see vec4 unpackInorm3x10_1x2(uint32 const& p)) + /// @see uvec4 unpackI3x10_1x2(uint32 const& p) + /// @see uvec4 unpackU3x10_1x2(uint32 const& p) + GLM_FUNC_DECL vec4 unpackUnorm3x10_1x2(uint32 p); + + /// First, converts the first two components of the normalized floating-point value v into 11-bit signless floating-point values. + /// Then, converts the third component of the normalized floating-point value v into a 10-bit signless floating-point value. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The first vector component specifies the 11 least-significant bits of the result; + /// the last component specifies the 10 most-significant bits. + /// + /// @see gtc_packing + /// @see vec3 unpackF2x11_1x10(uint32 const& p) + GLM_FUNC_DECL uint32 packF2x11_1x10(vec3 const& v); + + /// First, unpacks a single 32-bit unsigned integer p into two 11-bit signless floating-point values and one 10-bit signless floating-point value . + /// Then, each component is converted to a normalized floating-point value to generate the returned three-component vector. + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see gtc_packing + /// @see uint32 packF2x11_1x10(vec3 const& v) + GLM_FUNC_DECL vec3 unpackF2x11_1x10(uint32 p); + + + /// First, converts the first two components of the normalized floating-point value v into 11-bit signless floating-point values. + /// Then, converts the third component of the normalized floating-point value v into a 10-bit signless floating-point value. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The first vector component specifies the 11 least-significant bits of the result; + /// the last component specifies the 10 most-significant bits. + /// + /// packF3x9_E1x5 allows encoding into RGBE / RGB9E5 format + /// + /// @see gtc_packing + /// @see vec3 unpackF3x9_E1x5(uint32 const& p) + GLM_FUNC_DECL uint32 packF3x9_E1x5(vec3 const& v); + + /// First, unpacks a single 32-bit unsigned integer p into two 11-bit signless floating-point values and one 10-bit signless floating-point value . + /// Then, each component is converted to a normalized floating-point value to generate the returned three-component vector. + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// unpackF3x9_E1x5 allows decoding RGBE / RGB9E5 data + /// + /// @see gtc_packing + /// @see uint32 packF3x9_E1x5(vec3 const& v) + GLM_FUNC_DECL vec3 unpackF3x9_E1x5(uint32 p); + + /// Returns an unsigned integer vector obtained by converting the components of a floating-point vector + /// to the 16-bit floating-point representation found in the OpenGL Specification. + /// The first vector component specifies the 16 least-significant bits of the result; + /// the forth component specifies the 16 most-significant bits. + /// + /// @see gtc_packing + /// @see vec<3, T, Q> unpackRGBM(vec<4, T, Q> const& p) + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + template + GLM_FUNC_DECL vec<4, T, Q> packRGBM(vec<3, T, Q> const& rgb); + + /// Returns a floating-point vector with components obtained by reinterpreting an integer vector as 16-bit floating-point numbers and converting them to 32-bit floating-point values. + /// The first component of the vector is obtained from the 16 least-significant bits of v; + /// the forth component is obtained from the 16 most-significant bits of v. + /// + /// @see gtc_packing + /// @see vec<4, T, Q> packRGBM(vec<3, float, Q> const& v) + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + template + GLM_FUNC_DECL vec<3, T, Q> unpackRGBM(vec<4, T, Q> const& rgbm); + + /// Returns an unsigned integer vector obtained by converting the components of a floating-point vector + /// to the 16-bit floating-point representation found in the OpenGL Specification. + /// The first vector component specifies the 16 least-significant bits of the result; + /// the forth component specifies the 16 most-significant bits. + /// + /// @see gtc_packing + /// @see vec unpackHalf(vec const& p) + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + template + GLM_FUNC_DECL vec packHalf(vec const& v); + + /// Returns a floating-point vector with components obtained by reinterpreting an integer vector as 16-bit floating-point numbers and converting them to 32-bit floating-point values. + /// The first component of the vector is obtained from the 16 least-significant bits of v; + /// the forth component is obtained from the 16 most-significant bits of v. + /// + /// @see gtc_packing + /// @see vec packHalf(vec const& v) + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + template + GLM_FUNC_DECL vec unpackHalf(vec const& p); + + /// Convert each component of the normalized floating-point vector into unsigned integer values. + /// + /// @see gtc_packing + /// @see vec unpackUnorm(vec const& p); + template + GLM_FUNC_DECL vec packUnorm(vec const& v); + + /// Convert a packed integer to a normalized floating-point vector. + /// + /// @see gtc_packing + /// @see vec packUnorm(vec const& v) + template + GLM_FUNC_DECL vec unpackUnorm(vec const& v); + + /// Convert each component of the normalized floating-point vector into signed integer values. + /// + /// @see gtc_packing + /// @see vec unpackSnorm(vec const& p); + template + GLM_FUNC_DECL vec packSnorm(vec const& v); + + /// Convert a packed integer to a normalized floating-point vector. + /// + /// @see gtc_packing + /// @see vec packSnorm(vec const& v) + template + GLM_FUNC_DECL vec unpackSnorm(vec const& v); + + /// Convert each component of the normalized floating-point vector into unsigned integer values. + /// + /// @see gtc_packing + /// @see vec2 unpackUnorm2x4(uint8 p) + GLM_FUNC_DECL uint8 packUnorm2x4(vec2 const& v); + + /// Convert a packed integer to a normalized floating-point vector. + /// + /// @see gtc_packing + /// @see uint8 packUnorm2x4(vec2 const& v) + GLM_FUNC_DECL vec2 unpackUnorm2x4(uint8 p); + + /// Convert each component of the normalized floating-point vector into unsigned integer values. + /// + /// @see gtc_packing + /// @see vec4 unpackUnorm4x4(uint16 p) + GLM_FUNC_DECL uint16 packUnorm4x4(vec4 const& v); + + /// Convert a packed integer to a normalized floating-point vector. + /// + /// @see gtc_packing + /// @see uint16 packUnorm4x4(vec4 const& v) + GLM_FUNC_DECL vec4 unpackUnorm4x4(uint16 p); + + /// Convert each component of the normalized floating-point vector into unsigned integer values. + /// + /// @see gtc_packing + /// @see vec3 unpackUnorm1x5_1x6_1x5(uint16 p) + GLM_FUNC_DECL uint16 packUnorm1x5_1x6_1x5(vec3 const& v); + + /// Convert a packed integer to a normalized floating-point vector. + /// + /// @see gtc_packing + /// @see uint16 packUnorm1x5_1x6_1x5(vec3 const& v) + GLM_FUNC_DECL vec3 unpackUnorm1x5_1x6_1x5(uint16 p); + + /// Convert each component of the normalized floating-point vector into unsigned integer values. + /// + /// @see gtc_packing + /// @see vec4 unpackUnorm3x5_1x1(uint16 p) + GLM_FUNC_DECL uint16 packUnorm3x5_1x1(vec4 const& v); + + /// Convert a packed integer to a normalized floating-point vector. + /// + /// @see gtc_packing + /// @see uint16 packUnorm3x5_1x1(vec4 const& v) + GLM_FUNC_DECL vec4 unpackUnorm3x5_1x1(uint16 p); + + /// Convert each component of the normalized floating-point vector into unsigned integer values. + /// + /// @see gtc_packing + /// @see vec3 unpackUnorm2x3_1x2(uint8 p) + GLM_FUNC_DECL uint8 packUnorm2x3_1x2(vec3 const& v); + + /// Convert a packed integer to a normalized floating-point vector. + /// + /// @see gtc_packing + /// @see uint8 packUnorm2x3_1x2(vec3 const& v) + GLM_FUNC_DECL vec3 unpackUnorm2x3_1x2(uint8 p); + + + + /// Convert each component from an integer vector into a packed integer. + /// + /// @see gtc_packing + /// @see i8vec2 unpackInt2x8(int16 p) + GLM_FUNC_DECL int16 packInt2x8(i8vec2 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see int16 packInt2x8(i8vec2 const& v) + GLM_FUNC_DECL i8vec2 unpackInt2x8(int16 p); + + /// Convert each component from an integer vector into a packed unsigned integer. + /// + /// @see gtc_packing + /// @see u8vec2 unpackInt2x8(uint16 p) + GLM_FUNC_DECL uint16 packUint2x8(u8vec2 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see uint16 packInt2x8(u8vec2 const& v) + GLM_FUNC_DECL u8vec2 unpackUint2x8(uint16 p); + + /// Convert each component from an integer vector into a packed integer. + /// + /// @see gtc_packing + /// @see i8vec4 unpackInt4x8(int32 p) + GLM_FUNC_DECL int32 packInt4x8(i8vec4 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see int32 packInt2x8(i8vec4 const& v) + GLM_FUNC_DECL i8vec4 unpackInt4x8(int32 p); + + /// Convert each component from an integer vector into a packed unsigned integer. + /// + /// @see gtc_packing + /// @see u8vec4 unpackUint4x8(uint32 p) + GLM_FUNC_DECL uint32 packUint4x8(u8vec4 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see uint32 packUint4x8(u8vec2 const& v) + GLM_FUNC_DECL u8vec4 unpackUint4x8(uint32 p); + + /// Convert each component from an integer vector into a packed integer. + /// + /// @see gtc_packing + /// @see i16vec2 unpackInt2x16(int p) + GLM_FUNC_DECL int packInt2x16(i16vec2 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see int packInt2x16(i16vec2 const& v) + GLM_FUNC_DECL i16vec2 unpackInt2x16(int p); + + /// Convert each component from an integer vector into a packed integer. + /// + /// @see gtc_packing + /// @see i16vec4 unpackInt4x16(int64 p) + GLM_FUNC_DECL int64 packInt4x16(i16vec4 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see int64 packInt4x16(i16vec4 const& v) + GLM_FUNC_DECL i16vec4 unpackInt4x16(int64 p); + + /// Convert each component from an integer vector into a packed unsigned integer. + /// + /// @see gtc_packing + /// @see u16vec2 unpackUint2x16(uint p) + GLM_FUNC_DECL uint packUint2x16(u16vec2 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see uint packUint2x16(u16vec2 const& v) + GLM_FUNC_DECL u16vec2 unpackUint2x16(uint p); + + /// Convert each component from an integer vector into a packed unsigned integer. + /// + /// @see gtc_packing + /// @see u16vec4 unpackUint4x16(uint64 p) + GLM_FUNC_DECL uint64 packUint4x16(u16vec4 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see uint64 packUint4x16(u16vec4 const& v) + GLM_FUNC_DECL u16vec4 unpackUint4x16(uint64 p); + + /// Convert each component from an integer vector into a packed integer. + /// + /// @see gtc_packing + /// @see i32vec2 unpackInt2x32(int p) + GLM_FUNC_DECL int64 packInt2x32(i32vec2 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see int packInt2x16(i32vec2 const& v) + GLM_FUNC_DECL i32vec2 unpackInt2x32(int64 p); + + /// Convert each component from an integer vector into a packed unsigned integer. + /// + /// @see gtc_packing + /// @see u32vec2 unpackUint2x32(int p) + GLM_FUNC_DECL uint64 packUint2x32(u32vec2 const& v); + + /// Convert a packed integer into an integer vector. + /// + /// @see gtc_packing + /// @see int packUint2x16(u32vec2 const& v) + GLM_FUNC_DECL u32vec2 unpackUint2x32(uint64 p); + + /// @} +}// namespace glm + +#include "packing.inl" diff --git a/Vulkan/ext/include/glm/gtc/packing.inl b/Vulkan/ext/include/glm/gtc/packing.inl new file mode 100644 index 0000000..8c906e1 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/packing.inl @@ -0,0 +1,938 @@ +/// @ref gtc_packing + +#include "../ext/scalar_relational.hpp" +#include "../ext/vector_relational.hpp" +#include "../common.hpp" +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include "../detail/type_half.hpp" +#include +#include + +namespace glm{ +namespace detail +{ + GLM_FUNC_QUALIFIER glm::uint16 float2half(glm::uint32 f) + { + // 10 bits => EE EEEFFFFF + // 11 bits => EEE EEFFFFFF + // Half bits => SEEEEEFF FFFFFFFF + // Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF + + // 0x00007c00 => 00000000 00000000 01111100 00000000 + // 0x000003ff => 00000000 00000000 00000011 11111111 + // 0x38000000 => 00111000 00000000 00000000 00000000 + // 0x7f800000 => 01111111 10000000 00000000 00000000 + // 0x00008000 => 00000000 00000000 10000000 00000000 + return + ((f >> 16) & 0x8000) | // sign + ((((f & 0x7f800000) - 0x38000000) >> 13) & 0x7c00) | // exponential + ((f >> 13) & 0x03ff); // Mantissa + } + + GLM_FUNC_QUALIFIER glm::uint32 float2packed11(glm::uint32 f) + { + // 10 bits => EE EEEFFFFF + // 11 bits => EEE EEFFFFFF + // Half bits => SEEEEEFF FFFFFFFF + // Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF + + // 0x000007c0 => 00000000 00000000 00000111 11000000 + // 0x00007c00 => 00000000 00000000 01111100 00000000 + // 0x000003ff => 00000000 00000000 00000011 11111111 + // 0x38000000 => 00111000 00000000 00000000 00000000 + // 0x7f800000 => 01111111 10000000 00000000 00000000 + // 0x00008000 => 00000000 00000000 10000000 00000000 + return + ((((f & 0x7f800000) - 0x38000000) >> 17) & 0x07c0) | // exponential + ((f >> 17) & 0x003f); // Mantissa + } + + GLM_FUNC_QUALIFIER glm::uint32 packed11ToFloat(glm::uint32 p) + { + // 10 bits => EE EEEFFFFF + // 11 bits => EEE EEFFFFFF + // Half bits => SEEEEEFF FFFFFFFF + // Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF + + // 0x000007c0 => 00000000 00000000 00000111 11000000 + // 0x00007c00 => 00000000 00000000 01111100 00000000 + // 0x000003ff => 00000000 00000000 00000011 11111111 + // 0x38000000 => 00111000 00000000 00000000 00000000 + // 0x7f800000 => 01111111 10000000 00000000 00000000 + // 0x00008000 => 00000000 00000000 10000000 00000000 + return + ((((p & 0x07c0) << 17) + 0x38000000) & 0x7f800000) | // exponential + ((p & 0x003f) << 17); // Mantissa + } + + GLM_FUNC_QUALIFIER glm::uint32 float2packed10(glm::uint32 f) + { + // 10 bits => EE EEEFFFFF + // 11 bits => EEE EEFFFFFF + // Half bits => SEEEEEFF FFFFFFFF + // Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF + + // 0x0000001F => 00000000 00000000 00000000 00011111 + // 0x0000003F => 00000000 00000000 00000000 00111111 + // 0x000003E0 => 00000000 00000000 00000011 11100000 + // 0x000007C0 => 00000000 00000000 00000111 11000000 + // 0x00007C00 => 00000000 00000000 01111100 00000000 + // 0x000003FF => 00000000 00000000 00000011 11111111 + // 0x38000000 => 00111000 00000000 00000000 00000000 + // 0x7f800000 => 01111111 10000000 00000000 00000000 + // 0x00008000 => 00000000 00000000 10000000 00000000 + return + ((((f & 0x7f800000) - 0x38000000) >> 18) & 0x03E0) | // exponential + ((f >> 18) & 0x001f); // Mantissa + } + + GLM_FUNC_QUALIFIER glm::uint32 packed10ToFloat(glm::uint32 p) + { + // 10 bits => EE EEEFFFFF + // 11 bits => EEE EEFFFFFF + // Half bits => SEEEEEFF FFFFFFFF + // Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF + + // 0x0000001F => 00000000 00000000 00000000 00011111 + // 0x0000003F => 00000000 00000000 00000000 00111111 + // 0x000003E0 => 00000000 00000000 00000011 11100000 + // 0x000007C0 => 00000000 00000000 00000111 11000000 + // 0x00007C00 => 00000000 00000000 01111100 00000000 + // 0x000003FF => 00000000 00000000 00000011 11111111 + // 0x38000000 => 00111000 00000000 00000000 00000000 + // 0x7f800000 => 01111111 10000000 00000000 00000000 + // 0x00008000 => 00000000 00000000 10000000 00000000 + return + ((((p & 0x03E0) << 18) + 0x38000000) & 0x7f800000) | // exponential + ((p & 0x001f) << 18); // Mantissa + } + + GLM_FUNC_QUALIFIER glm::uint half2float(glm::uint h) + { + return ((h & 0x8000) << 16) | ((( h & 0x7c00) + 0x1C000) << 13) | ((h & 0x03FF) << 13); + } + + GLM_FUNC_QUALIFIER glm::uint floatTo11bit(float x) + { + if(x == 0.0f) + return 0u; + else if(glm::isnan(x)) + return ~0u; + else if(glm::isinf(x)) + return 0x1Fu << 6u; + + uint Pack = 0u; + memcpy(&Pack, &x, sizeof(Pack)); + return float2packed11(Pack); + } + + GLM_FUNC_QUALIFIER float packed11bitToFloat(glm::uint x) + { + if(x == 0) + return 0.0f; + else if(x == ((1 << 11) - 1)) + return ~0;//NaN + else if(x == (0x1f << 6)) + return ~0;//Inf + + uint Result = packed11ToFloat(x); + + float Temp = 0; + memcpy(&Temp, &Result, sizeof(Temp)); + return Temp; + } + + GLM_FUNC_QUALIFIER glm::uint floatTo10bit(float x) + { + if(x == 0.0f) + return 0u; + else if(glm::isnan(x)) + return ~0u; + else if(glm::isinf(x)) + return 0x1Fu << 5u; + + uint Pack = 0; + memcpy(&Pack, &x, sizeof(Pack)); + return float2packed10(Pack); + } + + GLM_FUNC_QUALIFIER float packed10bitToFloat(glm::uint x) + { + if(x == 0) + return 0.0f; + else if(x == ((1 << 10) - 1)) + return ~0;//NaN + else if(x == (0x1f << 5)) + return ~0;//Inf + + uint Result = packed10ToFloat(x); + + float Temp = 0; + memcpy(&Temp, &Result, sizeof(Temp)); + return Temp; + } + +// GLM_FUNC_QUALIFIER glm::uint f11_f11_f10(float x, float y, float z) +// { +// return ((floatTo11bit(x) & ((1 << 11) - 1)) << 0) | ((floatTo11bit(y) & ((1 << 11) - 1)) << 11) | ((floatTo10bit(z) & ((1 << 10) - 1)) << 22); +// } + + union u3u3u2 + { + struct + { + uint x : 3; + uint y : 3; + uint z : 2; + } data; + uint8 pack; + }; + + union u4u4 + { + struct + { + uint x : 4; + uint y : 4; + } data; + uint8 pack; + }; + + union u4u4u4u4 + { + struct + { + uint x : 4; + uint y : 4; + uint z : 4; + uint w : 4; + } data; + uint16 pack; + }; + + union u5u6u5 + { + struct + { + uint x : 5; + uint y : 6; + uint z : 5; + } data; + uint16 pack; + }; + + union u5u5u5u1 + { + struct + { + uint x : 5; + uint y : 5; + uint z : 5; + uint w : 1; + } data; + uint16 pack; + }; + + union u10u10u10u2 + { + struct + { + uint x : 10; + uint y : 10; + uint z : 10; + uint w : 2; + } data; + uint32 pack; + }; + + union i10i10i10i2 + { + struct + { + int x : 10; + int y : 10; + int z : 10; + int w : 2; + } data; + uint32 pack; + }; + + union u9u9u9e5 + { + struct + { + uint x : 9; + uint y : 9; + uint z : 9; + uint w : 5; + } data; + uint32 pack; + }; + + template + struct compute_half + {}; + + template + struct compute_half<1, Q> + { + GLM_FUNC_QUALIFIER static vec<1, uint16, Q> pack(vec<1, float, Q> const& v) + { + int16 const Unpack(detail::toFloat16(v.x)); + u16vec1 Packed; + memcpy(&Packed, &Unpack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER static vec<1, float, Q> unpack(vec<1, uint16, Q> const& v) + { + i16vec1 Unpack; + memcpy(&Unpack, &v, sizeof(Unpack)); + return vec<1, float, Q>(detail::toFloat32(v.x)); + } + }; + + template + struct compute_half<2, Q> + { + GLM_FUNC_QUALIFIER static vec<2, uint16, Q> pack(vec<2, float, Q> const& v) + { + vec<2, int16, Q> const Unpack(detail::toFloat16(v.x), detail::toFloat16(v.y)); + u16vec2 Packed; + memcpy(&Packed, &Unpack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER static vec<2, float, Q> unpack(vec<2, uint16, Q> const& v) + { + i16vec2 Unpack; + memcpy(&Unpack, &v, sizeof(Unpack)); + return vec<2, float, Q>(detail::toFloat32(v.x), detail::toFloat32(v.y)); + } + }; + + template + struct compute_half<3, Q> + { + GLM_FUNC_QUALIFIER static vec<3, uint16, Q> pack(vec<3, float, Q> const& v) + { + vec<3, int16, Q> const Unpack(detail::toFloat16(v.x), detail::toFloat16(v.y), detail::toFloat16(v.z)); + u16vec3 Packed; + memcpy(&Packed, &Unpack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER static vec<3, float, Q> unpack(vec<3, uint16, Q> const& v) + { + i16vec3 Unpack; + memcpy(&Unpack, &v, sizeof(Unpack)); + return vec<3, float, Q>(detail::toFloat32(v.x), detail::toFloat32(v.y), detail::toFloat32(v.z)); + } + }; + + template + struct compute_half<4, Q> + { + GLM_FUNC_QUALIFIER static vec<4, uint16, Q> pack(vec<4, float, Q> const& v) + { + vec<4, int16, Q> const Unpack(detail::toFloat16(v.x), detail::toFloat16(v.y), detail::toFloat16(v.z), detail::toFloat16(v.w)); + u16vec4 Packed; + memcpy(&Packed, &Unpack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER static vec<4, float, Q> unpack(vec<4, uint16, Q> const& v) + { + i16vec4 Unpack; + memcpy(&Unpack, &v, sizeof(Unpack)); + return vec<4, float, Q>(detail::toFloat32(v.x), detail::toFloat32(v.y), detail::toFloat32(v.z), detail::toFloat32(v.w)); + } + }; +}//namespace detail + + GLM_FUNC_QUALIFIER uint8 packUnorm1x8(float v) + { + return static_cast(round(clamp(v, 0.0f, 1.0f) * 255.0f)); + } + + GLM_FUNC_QUALIFIER float unpackUnorm1x8(uint8 p) + { + float const Unpack(p); + return Unpack * static_cast(0.0039215686274509803921568627451); // 1 / 255 + } + + GLM_FUNC_QUALIFIER uint16 packUnorm2x8(vec2 const& v) + { + u8vec2 const Topack(round(clamp(v, 0.0f, 1.0f) * 255.0f)); + + uint16 Unpack = 0; + memcpy(&Unpack, &Topack, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER vec2 unpackUnorm2x8(uint16 p) + { + u8vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return vec2(Unpack) * float(0.0039215686274509803921568627451); // 1 / 255 + } + + GLM_FUNC_QUALIFIER uint8 packSnorm1x8(float v) + { + int8 const Topack(static_cast(round(clamp(v ,-1.0f, 1.0f) * 127.0f))); + uint8 Packed = 0; + memcpy(&Packed, &Topack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER float unpackSnorm1x8(uint8 p) + { + int8 Unpack = 0; + memcpy(&Unpack, &p, sizeof(Unpack)); + return clamp( + static_cast(Unpack) * 0.00787401574803149606299212598425f, // 1.0f / 127.0f + -1.0f, 1.0f); + } + + GLM_FUNC_QUALIFIER uint16 packSnorm2x8(vec2 const& v) + { + i8vec2 const Topack(round(clamp(v, -1.0f, 1.0f) * 127.0f)); + uint16 Packed = 0; + memcpy(&Packed, &Topack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER vec2 unpackSnorm2x8(uint16 p) + { + i8vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return clamp( + vec2(Unpack) * 0.00787401574803149606299212598425f, // 1.0f / 127.0f + -1.0f, 1.0f); + } + + GLM_FUNC_QUALIFIER uint16 packUnorm1x16(float s) + { + return static_cast(round(clamp(s, 0.0f, 1.0f) * 65535.0f)); + } + + GLM_FUNC_QUALIFIER float unpackUnorm1x16(uint16 p) + { + float const Unpack(p); + return Unpack * 1.5259021896696421759365224689097e-5f; // 1.0 / 65535.0 + } + + GLM_FUNC_QUALIFIER uint64 packUnorm4x16(vec4 const& v) + { + u16vec4 const Topack(round(clamp(v , 0.0f, 1.0f) * 65535.0f)); + uint64 Packed = 0; + memcpy(&Packed, &Topack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER vec4 unpackUnorm4x16(uint64 p) + { + u16vec4 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return vec4(Unpack) * 1.5259021896696421759365224689097e-5f; // 1.0 / 65535.0 + } + + GLM_FUNC_QUALIFIER uint16 packSnorm1x16(float v) + { + int16 const Topack = static_cast(round(clamp(v ,-1.0f, 1.0f) * 32767.0f)); + uint16 Packed = 0; + memcpy(&Packed, &Topack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER float unpackSnorm1x16(uint16 p) + { + int16 Unpack = 0; + memcpy(&Unpack, &p, sizeof(Unpack)); + return clamp( + static_cast(Unpack) * 3.0518509475997192297128208258309e-5f, //1.0f / 32767.0f, + -1.0f, 1.0f); + } + + GLM_FUNC_QUALIFIER uint64 packSnorm4x16(vec4 const& v) + { + i16vec4 const Topack(round(clamp(v ,-1.0f, 1.0f) * 32767.0f)); + uint64 Packed = 0; + memcpy(&Packed, &Topack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER vec4 unpackSnorm4x16(uint64 p) + { + i16vec4 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return clamp( + vec4(Unpack) * 3.0518509475997192297128208258309e-5f, //1.0f / 32767.0f, + -1.0f, 1.0f); + } + + GLM_FUNC_QUALIFIER uint16 packHalf1x16(float v) + { + int16 const Topack(detail::toFloat16(v)); + uint16 Packed = 0; + memcpy(&Packed, &Topack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER float unpackHalf1x16(uint16 v) + { + int16 Unpack = 0; + memcpy(&Unpack, &v, sizeof(Unpack)); + return detail::toFloat32(Unpack); + } + + GLM_FUNC_QUALIFIER uint64 packHalf4x16(glm::vec4 const& v) + { + i16vec4 const Unpack( + detail::toFloat16(v.x), + detail::toFloat16(v.y), + detail::toFloat16(v.z), + detail::toFloat16(v.w)); + uint64 Packed = 0; + memcpy(&Packed, &Unpack, sizeof(Packed)); + return Packed; + } + + GLM_FUNC_QUALIFIER glm::vec4 unpackHalf4x16(uint64 v) + { + i16vec4 Unpack; + memcpy(&Unpack, &v, sizeof(Unpack)); + return vec4( + detail::toFloat32(Unpack.x), + detail::toFloat32(Unpack.y), + detail::toFloat32(Unpack.z), + detail::toFloat32(Unpack.w)); + } + + GLM_FUNC_QUALIFIER uint32 packI3x10_1x2(ivec4 const& v) + { + detail::i10i10i10i2 Result; + Result.data.x = v.x; + Result.data.y = v.y; + Result.data.z = v.z; + Result.data.w = v.w; + return Result.pack; + } + + GLM_FUNC_QUALIFIER ivec4 unpackI3x10_1x2(uint32 v) + { + detail::i10i10i10i2 Unpack; + Unpack.pack = v; + return ivec4( + Unpack.data.x, + Unpack.data.y, + Unpack.data.z, + Unpack.data.w); + } + + GLM_FUNC_QUALIFIER uint32 packU3x10_1x2(uvec4 const& v) + { + detail::u10u10u10u2 Result; + Result.data.x = v.x; + Result.data.y = v.y; + Result.data.z = v.z; + Result.data.w = v.w; + return Result.pack; + } + + GLM_FUNC_QUALIFIER uvec4 unpackU3x10_1x2(uint32 v) + { + detail::u10u10u10u2 Unpack; + Unpack.pack = v; + return uvec4( + Unpack.data.x, + Unpack.data.y, + Unpack.data.z, + Unpack.data.w); + } + + GLM_FUNC_QUALIFIER uint32 packSnorm3x10_1x2(vec4 const& v) + { + ivec4 const Pack(round(clamp(v,-1.0f, 1.0f) * vec4(511.f, 511.f, 511.f, 1.f))); + + detail::i10i10i10i2 Result; + Result.data.x = Pack.x; + Result.data.y = Pack.y; + Result.data.z = Pack.z; + Result.data.w = Pack.w; + return Result.pack; + } + + GLM_FUNC_QUALIFIER vec4 unpackSnorm3x10_1x2(uint32 v) + { + detail::i10i10i10i2 Unpack; + Unpack.pack = v; + + vec4 const Result(Unpack.data.x, Unpack.data.y, Unpack.data.z, Unpack.data.w); + + return clamp(Result * vec4(1.f / 511.f, 1.f / 511.f, 1.f / 511.f, 1.f), -1.0f, 1.0f); + } + + GLM_FUNC_QUALIFIER uint32 packUnorm3x10_1x2(vec4 const& v) + { + uvec4 const Unpack(round(clamp(v, 0.0f, 1.0f) * vec4(1023.f, 1023.f, 1023.f, 3.f))); + + detail::u10u10u10u2 Result; + Result.data.x = Unpack.x; + Result.data.y = Unpack.y; + Result.data.z = Unpack.z; + Result.data.w = Unpack.w; + return Result.pack; + } + + GLM_FUNC_QUALIFIER vec4 unpackUnorm3x10_1x2(uint32 v) + { + vec4 const ScaleFactors(1.0f / 1023.f, 1.0f / 1023.f, 1.0f / 1023.f, 1.0f / 3.f); + + detail::u10u10u10u2 Unpack; + Unpack.pack = v; + return vec4(Unpack.data.x, Unpack.data.y, Unpack.data.z, Unpack.data.w) * ScaleFactors; + } + + GLM_FUNC_QUALIFIER uint32 packF2x11_1x10(vec3 const& v) + { + return + ((detail::floatTo11bit(v.x) & ((1 << 11) - 1)) << 0) | + ((detail::floatTo11bit(v.y) & ((1 << 11) - 1)) << 11) | + ((detail::floatTo10bit(v.z) & ((1 << 10) - 1)) << 22); + } + + GLM_FUNC_QUALIFIER vec3 unpackF2x11_1x10(uint32 v) + { + return vec3( + detail::packed11bitToFloat(v >> 0), + detail::packed11bitToFloat(v >> 11), + detail::packed10bitToFloat(v >> 22)); + } + + GLM_FUNC_QUALIFIER uint32 packF3x9_E1x5(vec3 const& v) + { + float const SharedExpMax = (pow(2.0f, 9.0f - 1.0f) / pow(2.0f, 9.0f)) * pow(2.0f, 31.f - 15.f); + vec3 const Color = clamp(v, 0.0f, SharedExpMax); + float const MaxColor = max(Color.x, max(Color.y, Color.z)); + + float const ExpSharedP = max(-15.f - 1.f, floor(log2(MaxColor))) + 1.0f + 15.f; + float const MaxShared = floor(MaxColor / pow(2.0f, (ExpSharedP - 15.f - 9.f)) + 0.5f); + float const ExpShared = equal(MaxShared, pow(2.0f, 9.0f), epsilon()) ? ExpSharedP + 1.0f : ExpSharedP; + + uvec3 const ColorComp(floor(Color / pow(2.f, (ExpShared - 15.f - 9.f)) + 0.5f)); + + detail::u9u9u9e5 Unpack; + Unpack.data.x = ColorComp.x; + Unpack.data.y = ColorComp.y; + Unpack.data.z = ColorComp.z; + Unpack.data.w = uint(ExpShared); + return Unpack.pack; + } + + GLM_FUNC_QUALIFIER vec3 unpackF3x9_E1x5(uint32 v) + { + detail::u9u9u9e5 Unpack; + Unpack.pack = v; + + return vec3(Unpack.data.x, Unpack.data.y, Unpack.data.z) * pow(2.0f, Unpack.data.w - 15.f - 9.f); + } + + // Based on Brian Karis http://graphicrants.blogspot.fr/2009/04/rgbm-color-encoding.html + template + GLM_FUNC_QUALIFIER vec<4, T, Q> packRGBM(vec<3, T, Q> const& rgb) + { + vec<3, T, Q> const Color(rgb * static_cast(1.0 / 6.0)); + T Alpha = clamp(max(max(Color.x, Color.y), max(Color.z, static_cast(1e-6))), static_cast(0), static_cast(1)); + Alpha = ceil(Alpha * static_cast(255.0)) / static_cast(255.0); + return vec<4, T, Q>(Color / Alpha, Alpha); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> unpackRGBM(vec<4, T, Q> const& rgbm) + { + return vec<3, T, Q>(rgbm.x, rgbm.y, rgbm.z) * rgbm.w * static_cast(6); + } + + template + GLM_FUNC_QUALIFIER vec packHalf(vec const& v) + { + return detail::compute_half::pack(v); + } + + template + GLM_FUNC_QUALIFIER vec unpackHalf(vec const& v) + { + return detail::compute_half::unpack(v); + } + + template + GLM_FUNC_QUALIFIER vec packUnorm(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "uintType must be an integer type"); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "floatType must be a floating point type"); + + return vec(round(clamp(v, static_cast(0), static_cast(1)) * static_cast(std::numeric_limits::max()))); + } + + template + GLM_FUNC_QUALIFIER vec unpackUnorm(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "uintType must be an integer type"); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "floatType must be a floating point type"); + + return vec(v) * (static_cast(1) / static_cast(std::numeric_limits::max())); + } + + template + GLM_FUNC_QUALIFIER vec packSnorm(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "uintType must be an integer type"); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "floatType must be a floating point type"); + + return vec(round(clamp(v , static_cast(-1), static_cast(1)) * static_cast(std::numeric_limits::max()))); + } + + template + GLM_FUNC_QUALIFIER vec unpackSnorm(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_integer, "uintType must be an integer type"); + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "floatType must be a floating point type"); + + return clamp(vec(v) * (static_cast(1) / static_cast(std::numeric_limits::max())), static_cast(-1), static_cast(1)); + } + + GLM_FUNC_QUALIFIER uint8 packUnorm2x4(vec2 const& v) + { + u32vec2 const Unpack(round(clamp(v, 0.0f, 1.0f) * 15.0f)); + detail::u4u4 Result; + Result.data.x = Unpack.x; + Result.data.y = Unpack.y; + return Result.pack; + } + + GLM_FUNC_QUALIFIER vec2 unpackUnorm2x4(uint8 v) + { + float const ScaleFactor(1.f / 15.f); + detail::u4u4 Unpack; + Unpack.pack = v; + return vec2(Unpack.data.x, Unpack.data.y) * ScaleFactor; + } + + GLM_FUNC_QUALIFIER uint16 packUnorm4x4(vec4 const& v) + { + u32vec4 const Unpack(round(clamp(v, 0.0f, 1.0f) * 15.0f)); + detail::u4u4u4u4 Result; + Result.data.x = Unpack.x; + Result.data.y = Unpack.y; + Result.data.z = Unpack.z; + Result.data.w = Unpack.w; + return Result.pack; + } + + GLM_FUNC_QUALIFIER vec4 unpackUnorm4x4(uint16 v) + { + float const ScaleFactor(1.f / 15.f); + detail::u4u4u4u4 Unpack; + Unpack.pack = v; + return vec4(Unpack.data.x, Unpack.data.y, Unpack.data.z, Unpack.data.w) * ScaleFactor; + } + + GLM_FUNC_QUALIFIER uint16 packUnorm1x5_1x6_1x5(vec3 const& v) + { + u32vec3 const Unpack(round(clamp(v, 0.0f, 1.0f) * vec3(31.f, 63.f, 31.f))); + detail::u5u6u5 Result; + Result.data.x = Unpack.x; + Result.data.y = Unpack.y; + Result.data.z = Unpack.z; + return Result.pack; + } + + GLM_FUNC_QUALIFIER vec3 unpackUnorm1x5_1x6_1x5(uint16 v) + { + vec3 const ScaleFactor(1.f / 31.f, 1.f / 63.f, 1.f / 31.f); + detail::u5u6u5 Unpack; + Unpack.pack = v; + return vec3(Unpack.data.x, Unpack.data.y, Unpack.data.z) * ScaleFactor; + } + + GLM_FUNC_QUALIFIER uint16 packUnorm3x5_1x1(vec4 const& v) + { + u32vec4 const Unpack(round(clamp(v, 0.0f, 1.0f) * vec4(31.f, 31.f, 31.f, 1.f))); + detail::u5u5u5u1 Result; + Result.data.x = Unpack.x; + Result.data.y = Unpack.y; + Result.data.z = Unpack.z; + Result.data.w = Unpack.w; + return Result.pack; + } + + GLM_FUNC_QUALIFIER vec4 unpackUnorm3x5_1x1(uint16 v) + { + vec4 const ScaleFactor(1.f / 31.f, 1.f / 31.f, 1.f / 31.f, 1.f); + detail::u5u5u5u1 Unpack; + Unpack.pack = v; + return vec4(Unpack.data.x, Unpack.data.y, Unpack.data.z, Unpack.data.w) * ScaleFactor; + } + + GLM_FUNC_QUALIFIER uint8 packUnorm2x3_1x2(vec3 const& v) + { + u32vec3 const Unpack(round(clamp(v, 0.0f, 1.0f) * vec3(7.f, 7.f, 3.f))); + detail::u3u3u2 Result; + Result.data.x = Unpack.x; + Result.data.y = Unpack.y; + Result.data.z = Unpack.z; + return Result.pack; + } + + GLM_FUNC_QUALIFIER vec3 unpackUnorm2x3_1x2(uint8 v) + { + vec3 const ScaleFactor(1.f / 7.f, 1.f / 7.f, 1.f / 3.f); + detail::u3u3u2 Unpack; + Unpack.pack = v; + return vec3(Unpack.data.x, Unpack.data.y, Unpack.data.z) * ScaleFactor; + } + + GLM_FUNC_QUALIFIER int16 packInt2x8(i8vec2 const& v) + { + int16 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER i8vec2 unpackInt2x8(int16 p) + { + i8vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER uint16 packUint2x8(u8vec2 const& v) + { + uint16 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER u8vec2 unpackUint2x8(uint16 p) + { + u8vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER int32 packInt4x8(i8vec4 const& v) + { + int32 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER i8vec4 unpackInt4x8(int32 p) + { + i8vec4 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER uint32 packUint4x8(u8vec4 const& v) + { + uint32 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER u8vec4 unpackUint4x8(uint32 p) + { + u8vec4 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER int packInt2x16(i16vec2 const& v) + { + int Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER i16vec2 unpackInt2x16(int p) + { + i16vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER int64 packInt4x16(i16vec4 const& v) + { + int64 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER i16vec4 unpackInt4x16(int64 p) + { + i16vec4 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER uint packUint2x16(u16vec2 const& v) + { + uint Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER u16vec2 unpackUint2x16(uint p) + { + u16vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER uint64 packUint4x16(u16vec4 const& v) + { + uint64 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER u16vec4 unpackUint4x16(uint64 p) + { + u16vec4 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER int64 packInt2x32(i32vec2 const& v) + { + int64 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER i32vec2 unpackInt2x32(int64 p) + { + i32vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } + + GLM_FUNC_QUALIFIER uint64 packUint2x32(u32vec2 const& v) + { + uint64 Pack = 0; + memcpy(&Pack, &v, sizeof(Pack)); + return Pack; + } + + GLM_FUNC_QUALIFIER u32vec2 unpackUint2x32(uint64 p) + { + u32vec2 Unpack; + memcpy(&Unpack, &p, sizeof(Unpack)); + return Unpack; + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/gtc/quaternion.hpp b/Vulkan/ext/include/glm/gtc/quaternion.hpp new file mode 100644 index 0000000..359e072 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/quaternion.hpp @@ -0,0 +1,173 @@ +/// @ref gtc_quaternion +/// @file glm/gtc/quaternion.hpp +/// +/// @see core (dependence) +/// @see gtc_constants (dependence) +/// +/// @defgroup gtc_quaternion GLM_GTC_quaternion +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Defines a templated quaternion type and several quaternion operations. + +#pragma once + +// Dependency: +#include "../gtc/constants.hpp" +#include "../gtc/matrix_transform.hpp" +#include "../ext/vector_relational.hpp" +#include "../ext/quaternion_common.hpp" +#include "../ext/quaternion_float.hpp" +#include "../ext/quaternion_float_precision.hpp" +#include "../ext/quaternion_double.hpp" +#include "../ext/quaternion_double_precision.hpp" +#include "../ext/quaternion_relational.hpp" +#include "../ext/quaternion_geometric.hpp" +#include "../ext/quaternion_trigonometric.hpp" +#include "../ext/quaternion_transform.hpp" +#include "../detail/type_mat3x3.hpp" +#include "../detail/type_mat4x4.hpp" +#include "../detail/type_vec3.hpp" +#include "../detail/type_vec4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_quaternion extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_quaternion + /// @{ + + /// Returns euler angles, pitch as x, yaw as y, roll as z. + /// The result is expressed in radians. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL vec<3, T, Q> eulerAngles(qua const& x); + + /// Returns roll value of euler angles expressed in radians. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL T roll(qua const& x); + + /// Returns pitch value of euler angles expressed in radians. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL T pitch(qua const& x); + + /// Returns yaw value of euler angles expressed in radians. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL T yaw(qua const& x); + + /// Converts a quaternion to a 3 * 3 matrix. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL mat<3, 3, T, Q> mat3_cast(qua const& x); + + /// Converts a quaternion to a 4 * 4 matrix. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL mat<4, 4, T, Q> mat4_cast(qua const& x); + + /// Converts a pure rotation 3 * 3 matrix to a quaternion. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL qua quat_cast(mat<3, 3, T, Q> const& x); + + /// Converts a pure rotation 4 * 4 matrix to a quaternion. + /// + /// @tparam T Floating-point scalar types. + /// + /// @see gtc_quaternion + template + GLM_FUNC_DECL qua quat_cast(mat<4, 4, T, Q> const& x); + + /// Returns the component-wise comparison result of x < y. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_relational + template + GLM_FUNC_DECL vec<4, bool, Q> lessThan(qua const& x, qua const& y); + + /// Returns the component-wise comparison of result x <= y. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_relational + template + GLM_FUNC_DECL vec<4, bool, Q> lessThanEqual(qua const& x, qua const& y); + + /// Returns the component-wise comparison of result x > y. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_relational + template + GLM_FUNC_DECL vec<4, bool, Q> greaterThan(qua const& x, qua const& y); + + /// Returns the component-wise comparison of result x >= y. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_quaternion_relational + template + GLM_FUNC_DECL vec<4, bool, Q> greaterThanEqual(qua const& x, qua const& y); + + /// Build a look at quaternion based on the default handedness. + /// + /// @param direction Desired forward direction. Needs to be normalized. + /// @param up Up vector, how the camera is oriented. Typically (0, 1, 0). + template + GLM_FUNC_DECL qua quatLookAt( + vec<3, T, Q> const& direction, + vec<3, T, Q> const& up); + + /// Build a right-handed look at quaternion. + /// + /// @param direction Desired forward direction onto which the -z-axis gets mapped. Needs to be normalized. + /// @param up Up vector, how the camera is oriented. Typically (0, 1, 0). + template + GLM_FUNC_DECL qua quatLookAtRH( + vec<3, T, Q> const& direction, + vec<3, T, Q> const& up); + + /// Build a left-handed look at quaternion. + /// + /// @param direction Desired forward direction onto which the +z-axis gets mapped. Needs to be normalized. + /// @param up Up vector, how the camera is oriented. Typically (0, 1, 0). + template + GLM_FUNC_DECL qua quatLookAtLH( + vec<3, T, Q> const& direction, + vec<3, T, Q> const& up); + /// @} +} //namespace glm + +#include "quaternion.inl" diff --git a/Vulkan/ext/include/glm/gtc/quaternion.inl b/Vulkan/ext/include/glm/gtc/quaternion.inl new file mode 100644 index 0000000..06f9f02 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/quaternion.inl @@ -0,0 +1,202 @@ +#include "../trigonometric.hpp" +#include "../geometric.hpp" +#include "../exponential.hpp" +#include "epsilon.hpp" +#include + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> eulerAngles(qua const& x) + { + return vec<3, T, Q>(pitch(x), yaw(x), roll(x)); + } + + template + GLM_FUNC_QUALIFIER T roll(qua const& q) + { + return static_cast(atan(static_cast(2) * (q.x * q.y + q.w * q.z), q.w * q.w + q.x * q.x - q.y * q.y - q.z * q.z)); + } + + template + GLM_FUNC_QUALIFIER T pitch(qua const& q) + { + //return T(atan(T(2) * (q.y * q.z + q.w * q.x), q.w * q.w - q.x * q.x - q.y * q.y + q.z * q.z)); + T const y = static_cast(2) * (q.y * q.z + q.w * q.x); + T const x = q.w * q.w - q.x * q.x - q.y * q.y + q.z * q.z; + + if(all(equal(vec<2, T, Q>(x, y), vec<2, T, Q>(0), epsilon()))) //avoid atan2(0,0) - handle singularity - Matiis + return static_cast(static_cast(2) * atan(q.x, q.w)); + + return static_cast(atan(y, x)); + } + + template + GLM_FUNC_QUALIFIER T yaw(qua const& q) + { + return asin(clamp(static_cast(-2) * (q.x * q.z - q.w * q.y), static_cast(-1), static_cast(1))); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> mat3_cast(qua const& q) + { + mat<3, 3, T, Q> Result(T(1)); + T qxx(q.x * q.x); + T qyy(q.y * q.y); + T qzz(q.z * q.z); + T qxz(q.x * q.z); + T qxy(q.x * q.y); + T qyz(q.y * q.z); + T qwx(q.w * q.x); + T qwy(q.w * q.y); + T qwz(q.w * q.z); + + Result[0][0] = T(1) - T(2) * (qyy + qzz); + Result[0][1] = T(2) * (qxy + qwz); + Result[0][2] = T(2) * (qxz - qwy); + + Result[1][0] = T(2) * (qxy - qwz); + Result[1][1] = T(1) - T(2) * (qxx + qzz); + Result[1][2] = T(2) * (qyz + qwx); + + Result[2][0] = T(2) * (qxz + qwy); + Result[2][1] = T(2) * (qyz - qwx); + Result[2][2] = T(1) - T(2) * (qxx + qyy); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> mat4_cast(qua const& q) + { + return mat<4, 4, T, Q>(mat3_cast(q)); + } + + template + GLM_FUNC_QUALIFIER qua quat_cast(mat<3, 3, T, Q> const& m) + { + T fourXSquaredMinus1 = m[0][0] - m[1][1] - m[2][2]; + T fourYSquaredMinus1 = m[1][1] - m[0][0] - m[2][2]; + T fourZSquaredMinus1 = m[2][2] - m[0][0] - m[1][1]; + T fourWSquaredMinus1 = m[0][0] + m[1][1] + m[2][2]; + + int biggestIndex = 0; + T fourBiggestSquaredMinus1 = fourWSquaredMinus1; + if(fourXSquaredMinus1 > fourBiggestSquaredMinus1) + { + fourBiggestSquaredMinus1 = fourXSquaredMinus1; + biggestIndex = 1; + } + if(fourYSquaredMinus1 > fourBiggestSquaredMinus1) + { + fourBiggestSquaredMinus1 = fourYSquaredMinus1; + biggestIndex = 2; + } + if(fourZSquaredMinus1 > fourBiggestSquaredMinus1) + { + fourBiggestSquaredMinus1 = fourZSquaredMinus1; + biggestIndex = 3; + } + + T biggestVal = sqrt(fourBiggestSquaredMinus1 + static_cast(1)) * static_cast(0.5); + T mult = static_cast(0.25) / biggestVal; + + switch(biggestIndex) + { + case 0: + return qua(biggestVal, (m[1][2] - m[2][1]) * mult, (m[2][0] - m[0][2]) * mult, (m[0][1] - m[1][0]) * mult); + case 1: + return qua((m[1][2] - m[2][1]) * mult, biggestVal, (m[0][1] + m[1][0]) * mult, (m[2][0] + m[0][2]) * mult); + case 2: + return qua((m[2][0] - m[0][2]) * mult, (m[0][1] + m[1][0]) * mult, biggestVal, (m[1][2] + m[2][1]) * mult); + case 3: + return qua((m[0][1] - m[1][0]) * mult, (m[2][0] + m[0][2]) * mult, (m[1][2] + m[2][1]) * mult, biggestVal); + default: // Silence a -Wswitch-default warning in GCC. Should never actually get here. Assert is just for sanity. + assert(false); + return qua(1, 0, 0, 0); + } + } + + template + GLM_FUNC_QUALIFIER qua quat_cast(mat<4, 4, T, Q> const& m4) + { + return quat_cast(mat<3, 3, T, Q>(m4)); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> lessThan(qua const& x, qua const& y) + { + vec<4, bool, Q> Result; + for(length_t i = 0; i < x.length(); ++i) + Result[i] = x[i] < y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> lessThanEqual(qua const& x, qua const& y) + { + vec<4, bool, Q> Result; + for(length_t i = 0; i < x.length(); ++i) + Result[i] = x[i] <= y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> greaterThan(qua const& x, qua const& y) + { + vec<4, bool, Q> Result; + for(length_t i = 0; i < x.length(); ++i) + Result[i] = x[i] > y[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> greaterThanEqual(qua const& x, qua const& y) + { + vec<4, bool, Q> Result; + for(length_t i = 0; i < x.length(); ++i) + Result[i] = x[i] >= y[i]; + return Result; + } + + + template + GLM_FUNC_QUALIFIER qua quatLookAt(vec<3, T, Q> const& direction, vec<3, T, Q> const& up) + { +# if GLM_CONFIG_CLIP_CONTROL & GLM_CLIP_CONTROL_LH_BIT + return quatLookAtLH(direction, up); +# else + return quatLookAtRH(direction, up); +# endif + } + + template + GLM_FUNC_QUALIFIER qua quatLookAtRH(vec<3, T, Q> const& direction, vec<3, T, Q> const& up) + { + mat<3, 3, T, Q> Result; + + Result[2] = -direction; + vec<3, T, Q> const& Right = cross(up, Result[2]); + Result[0] = Right * inversesqrt(max(static_cast(0.00001), dot(Right, Right))); + Result[1] = cross(Result[2], Result[0]); + + return quat_cast(Result); + } + + template + GLM_FUNC_QUALIFIER qua quatLookAtLH(vec<3, T, Q> const& direction, vec<3, T, Q> const& up) + { + mat<3, 3, T, Q> Result; + + Result[2] = direction; + vec<3, T, Q> const& Right = cross(up, Result[2]); + Result[0] = Right * inversesqrt(max(static_cast(0.00001), dot(Right, Right))); + Result[1] = cross(Result[2], Result[0]); + + return quat_cast(Result); + } +}//namespace glm + +#if GLM_CONFIG_SIMD == GLM_ENABLE +# include "quaternion_simd.inl" +#endif + diff --git a/Vulkan/ext/include/glm/gtc/quaternion_simd.inl b/Vulkan/ext/include/glm/gtc/quaternion_simd.inl new file mode 100644 index 0000000..e69de29 diff --git a/Vulkan/ext/include/glm/gtc/random.hpp b/Vulkan/ext/include/glm/gtc/random.hpp new file mode 100644 index 0000000..9a85958 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/random.hpp @@ -0,0 +1,82 @@ +/// @ref gtc_random +/// @file glm/gtc/random.hpp +/// +/// @see core (dependence) +/// @see gtx_random (extended) +/// +/// @defgroup gtc_random GLM_GTC_random +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Generate random number from various distribution methods. + +#pragma once + +// Dependency: +#include "../ext/scalar_int_sized.hpp" +#include "../ext/scalar_uint_sized.hpp" +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_random extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_random + /// @{ + + /// Generate random numbers in the interval [Min, Max], according a linear distribution + /// + /// @param Min Minimum value included in the sampling + /// @param Max Maximum value included in the sampling + /// @tparam genType Value type. Currently supported: float or double scalars. + /// @see gtc_random + template + GLM_FUNC_DECL genType linearRand(genType Min, genType Max); + + /// Generate random numbers in the interval [Min, Max], according a linear distribution + /// + /// @param Min Minimum value included in the sampling + /// @param Max Maximum value included in the sampling + /// @tparam T Value type. Currently supported: float or double. + /// + /// @see gtc_random + template + GLM_FUNC_DECL vec linearRand(vec const& Min, vec const& Max); + + /// Generate random numbers in the interval [Min, Max], according a gaussian distribution + /// + /// @see gtc_random + template + GLM_FUNC_DECL genType gaussRand(genType Mean, genType Deviation); + + /// Generate a random 2D vector which coordinates are regulary distributed on a circle of a given radius + /// + /// @see gtc_random + template + GLM_FUNC_DECL vec<2, T, defaultp> circularRand(T Radius); + + /// Generate a random 3D vector which coordinates are regulary distributed on a sphere of a given radius + /// + /// @see gtc_random + template + GLM_FUNC_DECL vec<3, T, defaultp> sphericalRand(T Radius); + + /// Generate a random 2D vector which coordinates are regulary distributed within the area of a disk of a given radius + /// + /// @see gtc_random + template + GLM_FUNC_DECL vec<2, T, defaultp> diskRand(T Radius); + + /// Generate a random 3D vector which coordinates are regulary distributed within the volume of a ball of a given radius + /// + /// @see gtc_random + template + GLM_FUNC_DECL vec<3, T, defaultp> ballRand(T Radius); + + /// @} +}//namespace glm + +#include "random.inl" diff --git a/Vulkan/ext/include/glm/gtc/random.inl b/Vulkan/ext/include/glm/gtc/random.inl new file mode 100644 index 0000000..7048509 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/random.inl @@ -0,0 +1,303 @@ +#include "../geometric.hpp" +#include "../exponential.hpp" +#include "../trigonometric.hpp" +#include "../detail/type_vec1.hpp" +#include +#include +#include +#include + +namespace glm{ +namespace detail +{ + template + struct compute_rand + { + GLM_FUNC_QUALIFIER static vec call(); + }; + + template + struct compute_rand<1, uint8, P> + { + GLM_FUNC_QUALIFIER static vec<1, uint8, P> call() + { + return vec<1, uint8, P>( + std::rand() % std::numeric_limits::max()); + } + }; + + template + struct compute_rand<2, uint8, P> + { + GLM_FUNC_QUALIFIER static vec<2, uint8, P> call() + { + return vec<2, uint8, P>( + std::rand() % std::numeric_limits::max(), + std::rand() % std::numeric_limits::max()); + } + }; + + template + struct compute_rand<3, uint8, P> + { + GLM_FUNC_QUALIFIER static vec<3, uint8, P> call() + { + return vec<3, uint8, P>( + std::rand() % std::numeric_limits::max(), + std::rand() % std::numeric_limits::max(), + std::rand() % std::numeric_limits::max()); + } + }; + + template + struct compute_rand<4, uint8, P> + { + GLM_FUNC_QUALIFIER static vec<4, uint8, P> call() + { + return vec<4, uint8, P>( + std::rand() % std::numeric_limits::max(), + std::rand() % std::numeric_limits::max(), + std::rand() % std::numeric_limits::max(), + std::rand() % std::numeric_limits::max()); + } + }; + + template + struct compute_rand + { + GLM_FUNC_QUALIFIER static vec call() + { + return + (vec(compute_rand::call()) << static_cast(8)) | + (vec(compute_rand::call()) << static_cast(0)); + } + }; + + template + struct compute_rand + { + GLM_FUNC_QUALIFIER static vec call() + { + return + (vec(compute_rand::call()) << static_cast(16)) | + (vec(compute_rand::call()) << static_cast(0)); + } + }; + + template + struct compute_rand + { + GLM_FUNC_QUALIFIER static vec call() + { + return + (vec(compute_rand::call()) << static_cast(32)) | + (vec(compute_rand::call()) << static_cast(0)); + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max); + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (vec(compute_rand::call() % vec(Max + static_cast(1) - Min))) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (compute_rand::call() % (Max + static_cast(1) - Min)) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (vec(compute_rand::call() % vec(Max + static_cast(1) - Min))) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (compute_rand::call() % (Max + static_cast(1) - Min)) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (vec(compute_rand::call() % vec(Max + static_cast(1) - Min))) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (compute_rand::call() % (Max + static_cast(1) - Min)) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (vec(compute_rand::call() % vec(Max + static_cast(1) - Min))) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return (compute_rand::call() % (Max + static_cast(1) - Min)) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return vec(compute_rand::call()) / static_cast(std::numeric_limits::max()) * (Max - Min) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return vec(compute_rand::call()) / static_cast(std::numeric_limits::max()) * (Max - Min) + Min; + } + }; + + template + struct compute_linearRand + { + GLM_FUNC_QUALIFIER static vec call(vec const& Min, vec const& Max) + { + return vec(compute_rand::call()) / static_cast(std::numeric_limits::max()) * (Max - Min) + Min; + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER genType linearRand(genType Min, genType Max) + { + return detail::compute_linearRand<1, genType, highp>::call( + vec<1, genType, highp>(Min), + vec<1, genType, highp>(Max)).x; + } + + template + GLM_FUNC_QUALIFIER vec linearRand(vec const& Min, vec const& Max) + { + return detail::compute_linearRand::call(Min, Max); + } + + template + GLM_FUNC_QUALIFIER genType gaussRand(genType Mean, genType Deviation) + { + genType w, x1, x2; + + do + { + x1 = linearRand(genType(-1), genType(1)); + x2 = linearRand(genType(-1), genType(1)); + + w = x1 * x1 + x2 * x2; + } while(w > genType(1)); + + return static_cast(x2 * Deviation * Deviation * sqrt((genType(-2) * log(w)) / w) + Mean); + } + + template + GLM_FUNC_QUALIFIER vec gaussRand(vec const& Mean, vec const& Deviation) + { + return detail::functor2::call(gaussRand, Mean, Deviation); + } + + template + GLM_FUNC_QUALIFIER vec<2, T, defaultp> diskRand(T Radius) + { + assert(Radius > static_cast(0)); + + vec<2, T, defaultp> Result(T(0)); + T LenRadius(T(0)); + + do + { + Result = linearRand( + vec<2, T, defaultp>(-Radius), + vec<2, T, defaultp>(Radius)); + LenRadius = length(Result); + } + while(LenRadius > Radius); + + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, defaultp> ballRand(T Radius) + { + assert(Radius > static_cast(0)); + + vec<3, T, defaultp> Result(T(0)); + T LenRadius(T(0)); + + do + { + Result = linearRand( + vec<3, T, defaultp>(-Radius), + vec<3, T, defaultp>(Radius)); + LenRadius = length(Result); + } + while(LenRadius > Radius); + + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, defaultp> circularRand(T Radius) + { + assert(Radius > static_cast(0)); + + T a = linearRand(T(0), static_cast(6.283185307179586476925286766559)); + return vec<2, T, defaultp>(glm::cos(a), glm::sin(a)) * Radius; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, defaultp> sphericalRand(T Radius) + { + assert(Radius > static_cast(0)); + + T theta = linearRand(T(0), T(6.283185307179586476925286766559f)); + T phi = std::acos(linearRand(T(-1.0f), T(1.0f))); + + T x = std::sin(phi) * std::cos(theta); + T y = std::sin(phi) * std::sin(theta); + T z = std::cos(phi); + + return vec<3, T, defaultp>(x, y, z) * Radius; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/reciprocal.hpp b/Vulkan/ext/include/glm/gtc/reciprocal.hpp new file mode 100644 index 0000000..c7d1330 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/reciprocal.hpp @@ -0,0 +1,135 @@ +/// @ref gtc_reciprocal +/// @file glm/gtc/reciprocal.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_reciprocal GLM_GTC_reciprocal +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Define secant, cosecant and cotangent functions. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_reciprocal extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_reciprocal + /// @{ + + /// Secant function. + /// hypotenuse / adjacent or 1 / cos(x) + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType sec(genType angle); + + /// Cosecant function. + /// hypotenuse / opposite or 1 / sin(x) + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType csc(genType angle); + + /// Cotangent function. + /// adjacent / opposite or 1 / tan(x) + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType cot(genType angle); + + /// Inverse secant function. + /// + /// @return Return an angle expressed in radians. + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType asec(genType x); + + /// Inverse cosecant function. + /// + /// @return Return an angle expressed in radians. + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType acsc(genType x); + + /// Inverse cotangent function. + /// + /// @return Return an angle expressed in radians. + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType acot(genType x); + + /// Secant hyperbolic function. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType sech(genType angle); + + /// Cosecant hyperbolic function. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType csch(genType angle); + + /// Cotangent hyperbolic function. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType coth(genType angle); + + /// Inverse secant hyperbolic function. + /// + /// @return Return an angle expressed in radians. + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType asech(genType x); + + /// Inverse cosecant hyperbolic function. + /// + /// @return Return an angle expressed in radians. + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType acsch(genType x); + + /// Inverse cotangent hyperbolic function. + /// + /// @return Return an angle expressed in radians. + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see gtc_reciprocal + template + GLM_FUNC_DECL genType acoth(genType x); + + /// @} +}//namespace glm + +#include "reciprocal.inl" diff --git a/Vulkan/ext/include/glm/gtc/reciprocal.inl b/Vulkan/ext/include/glm/gtc/reciprocal.inl new file mode 100644 index 0000000..d88729e --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/reciprocal.inl @@ -0,0 +1,191 @@ +/// @ref gtc_reciprocal + +#include "../trigonometric.hpp" +#include + +namespace glm +{ + // sec + template + GLM_FUNC_QUALIFIER genType sec(genType angle) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'sec' only accept floating-point values"); + return genType(1) / glm::cos(angle); + } + + template + GLM_FUNC_QUALIFIER vec sec(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'sec' only accept floating-point inputs"); + return detail::functor1::call(sec, x); + } + + // csc + template + GLM_FUNC_QUALIFIER genType csc(genType angle) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'csc' only accept floating-point values"); + return genType(1) / glm::sin(angle); + } + + template + GLM_FUNC_QUALIFIER vec csc(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'csc' only accept floating-point inputs"); + return detail::functor1::call(csc, x); + } + + // cot + template + GLM_FUNC_QUALIFIER genType cot(genType angle) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'cot' only accept floating-point values"); + + genType const pi_over_2 = genType(3.1415926535897932384626433832795 / 2.0); + return glm::tan(pi_over_2 - angle); + } + + template + GLM_FUNC_QUALIFIER vec cot(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'cot' only accept floating-point inputs"); + return detail::functor1::call(cot, x); + } + + // asec + template + GLM_FUNC_QUALIFIER genType asec(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'asec' only accept floating-point values"); + return acos(genType(1) / x); + } + + template + GLM_FUNC_QUALIFIER vec asec(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'asec' only accept floating-point inputs"); + return detail::functor1::call(asec, x); + } + + // acsc + template + GLM_FUNC_QUALIFIER genType acsc(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acsc' only accept floating-point values"); + return asin(genType(1) / x); + } + + template + GLM_FUNC_QUALIFIER vec acsc(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acsc' only accept floating-point inputs"); + return detail::functor1::call(acsc, x); + } + + // acot + template + GLM_FUNC_QUALIFIER genType acot(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acot' only accept floating-point values"); + + genType const pi_over_2 = genType(3.1415926535897932384626433832795 / 2.0); + return pi_over_2 - atan(x); + } + + template + GLM_FUNC_QUALIFIER vec acot(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acot' only accept floating-point inputs"); + return detail::functor1::call(acot, x); + } + + // sech + template + GLM_FUNC_QUALIFIER genType sech(genType angle) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'sech' only accept floating-point values"); + return genType(1) / glm::cosh(angle); + } + + template + GLM_FUNC_QUALIFIER vec sech(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'sech' only accept floating-point inputs"); + return detail::functor1::call(sech, x); + } + + // csch + template + GLM_FUNC_QUALIFIER genType csch(genType angle) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'csch' only accept floating-point values"); + return genType(1) / glm::sinh(angle); + } + + template + GLM_FUNC_QUALIFIER vec csch(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'csch' only accept floating-point inputs"); + return detail::functor1::call(csch, x); + } + + // coth + template + GLM_FUNC_QUALIFIER genType coth(genType angle) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'coth' only accept floating-point values"); + return glm::cosh(angle) / glm::sinh(angle); + } + + template + GLM_FUNC_QUALIFIER vec coth(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'coth' only accept floating-point inputs"); + return detail::functor1::call(coth, x); + } + + // asech + template + GLM_FUNC_QUALIFIER genType asech(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'asech' only accept floating-point values"); + return acosh(genType(1) / x); + } + + template + GLM_FUNC_QUALIFIER vec asech(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'asech' only accept floating-point inputs"); + return detail::functor1::call(asech, x); + } + + // acsch + template + GLM_FUNC_QUALIFIER genType acsch(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acsch' only accept floating-point values"); + return asinh(genType(1) / x); + } + + template + GLM_FUNC_QUALIFIER vec acsch(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acsch' only accept floating-point inputs"); + return detail::functor1::call(acsch, x); + } + + // acoth + template + GLM_FUNC_QUALIFIER genType acoth(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acoth' only accept floating-point values"); + return atanh(genType(1) / x); + } + + template + GLM_FUNC_QUALIFIER vec acoth(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'acoth' only accept floating-point inputs"); + return detail::functor1::call(acoth, x); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/round.hpp b/Vulkan/ext/include/glm/gtc/round.hpp new file mode 100644 index 0000000..56edbbc --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/round.hpp @@ -0,0 +1,160 @@ +/// @ref gtc_round +/// @file glm/gtc/round.hpp +/// +/// @see core (dependence) +/// @see gtc_round (dependence) +/// +/// @defgroup gtc_round GLM_GTC_round +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Rounding value to specific boundings + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/_vectorize.hpp" +#include "../vector_relational.hpp" +#include "../common.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_round extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_round + /// @{ + + /// Return the power of two number which value is just higher the input value, + /// round up to a power of two. + /// + /// @see gtc_round + template + GLM_FUNC_DECL genIUType ceilPowerOfTwo(genIUType v); + + /// Return the power of two number which value is just higher the input value, + /// round up to a power of two. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_round + template + GLM_FUNC_DECL vec ceilPowerOfTwo(vec const& v); + + /// Return the power of two number which value is just lower the input value, + /// round down to a power of two. + /// + /// @see gtc_round + template + GLM_FUNC_DECL genIUType floorPowerOfTwo(genIUType v); + + /// Return the power of two number which value is just lower the input value, + /// round down to a power of two. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_round + template + GLM_FUNC_DECL vec floorPowerOfTwo(vec const& v); + + /// Return the power of two number which value is the closet to the input value. + /// + /// @see gtc_round + template + GLM_FUNC_DECL genIUType roundPowerOfTwo(genIUType v); + + /// Return the power of two number which value is the closet to the input value. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_round + template + GLM_FUNC_DECL vec roundPowerOfTwo(vec const& v); + + /// Higher multiple number of Source. + /// + /// @tparam genType Floating-point or integer scalar or vector types. + /// + /// @param v Source value to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see gtc_round + template + GLM_FUNC_DECL genType ceilMultiple(genType v, genType Multiple); + + /// Higher multiple number of Source. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @param v Source values to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see gtc_round + template + GLM_FUNC_DECL vec ceilMultiple(vec const& v, vec const& Multiple); + + /// Lower multiple number of Source. + /// + /// @tparam genType Floating-point or integer scalar or vector types. + /// + /// @param v Source value to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see gtc_round + template + GLM_FUNC_DECL genType floorMultiple(genType v, genType Multiple); + + /// Lower multiple number of Source. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @param v Source values to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see gtc_round + template + GLM_FUNC_DECL vec floorMultiple(vec const& v, vec const& Multiple); + + /// Lower multiple number of Source. + /// + /// @tparam genType Floating-point or integer scalar or vector types. + /// + /// @param v Source value to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see gtc_round + template + GLM_FUNC_DECL genType roundMultiple(genType v, genType Multiple); + + /// Lower multiple number of Source. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @param v Source values to which is applied the function + /// @param Multiple Must be a null or positive value + /// + /// @see gtc_round + template + GLM_FUNC_DECL vec roundMultiple(vec const& v, vec const& Multiple); + + /// @} +} //namespace glm + +#include "round.inl" diff --git a/Vulkan/ext/include/glm/gtc/round.inl b/Vulkan/ext/include/glm/gtc/round.inl new file mode 100644 index 0000000..48411e4 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/round.inl @@ -0,0 +1,155 @@ +/// @ref gtc_round + +#include "../integer.hpp" +#include "../ext/vector_integer.hpp" + +namespace glm{ +namespace detail +{ + template + struct compute_roundMultiple {}; + + template<> + struct compute_roundMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + if (Source >= genType(0)) + return Source - std::fmod(Source, Multiple); + else + { + genType Tmp = Source + genType(1); + return Tmp - std::fmod(Tmp, Multiple) - Multiple; + } + } + }; + + template<> + struct compute_roundMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + if (Source >= genType(0)) + return Source - Source % Multiple; + else + { + genType Tmp = Source + genType(1); + return Tmp - Tmp % Multiple - Multiple; + } + } + }; + + template<> + struct compute_roundMultiple + { + template + GLM_FUNC_QUALIFIER static genType call(genType Source, genType Multiple) + { + if (Source >= genType(0)) + return Source - Source % Multiple; + else + { + genType Tmp = Source + genType(1); + return Tmp - Tmp % Multiple - Multiple; + } + } + }; +}//namespace detail + + ////////////////// + // ceilPowerOfTwo + + template + GLM_FUNC_QUALIFIER genType ceilPowerOfTwo(genType value) + { + return detail::compute_ceilPowerOfTwo<1, genType, defaultp, std::numeric_limits::is_signed>::call(vec<1, genType, defaultp>(value)).x; + } + + template + GLM_FUNC_QUALIFIER vec ceilPowerOfTwo(vec const& v) + { + return detail::compute_ceilPowerOfTwo::is_signed>::call(v); + } + + /////////////////// + // floorPowerOfTwo + + template + GLM_FUNC_QUALIFIER genType floorPowerOfTwo(genType value) + { + return isPowerOfTwo(value) ? value : static_cast(1) << findMSB(value); + } + + template + GLM_FUNC_QUALIFIER vec floorPowerOfTwo(vec const& v) + { + return detail::functor1::call(floorPowerOfTwo, v); + } + + /////////////////// + // roundPowerOfTwo + + template + GLM_FUNC_QUALIFIER genIUType roundPowerOfTwo(genIUType value) + { + if(isPowerOfTwo(value)) + return value; + + genIUType const prev = static_cast(1) << findMSB(value); + genIUType const next = prev << static_cast(1); + return (next - value) < (value - prev) ? next : prev; + } + + template + GLM_FUNC_QUALIFIER vec roundPowerOfTwo(vec const& v) + { + return detail::functor1::call(roundPowerOfTwo, v); + } + + ////////////////////// + // ceilMultiple + + template + GLM_FUNC_QUALIFIER genType ceilMultiple(genType Source, genType Multiple) + { + return detail::compute_ceilMultiple::is_iec559, std::numeric_limits::is_signed>::call(Source, Multiple); + } + + template + GLM_FUNC_QUALIFIER vec ceilMultiple(vec const& Source, vec const& Multiple) + { + return detail::functor2::call(ceilMultiple, Source, Multiple); + } + + ////////////////////// + // floorMultiple + + template + GLM_FUNC_QUALIFIER genType floorMultiple(genType Source, genType Multiple) + { + return detail::compute_floorMultiple::is_iec559, std::numeric_limits::is_signed>::call(Source, Multiple); + } + + template + GLM_FUNC_QUALIFIER vec floorMultiple(vec const& Source, vec const& Multiple) + { + return detail::functor2::call(floorMultiple, Source, Multiple); + } + + ////////////////////// + // roundMultiple + + template + GLM_FUNC_QUALIFIER genType roundMultiple(genType Source, genType Multiple) + { + return detail::compute_roundMultiple::is_iec559, std::numeric_limits::is_signed>::call(Source, Multiple); + } + + template + GLM_FUNC_QUALIFIER vec roundMultiple(vec const& Source, vec const& Multiple) + { + return detail::functor2::call(roundMultiple, Source, Multiple); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/type_aligned.hpp b/Vulkan/ext/include/glm/gtc/type_aligned.hpp new file mode 100644 index 0000000..5403abf --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/type_aligned.hpp @@ -0,0 +1,1315 @@ +/// @ref gtc_type_aligned +/// @file glm/gtc/type_aligned.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_type_aligned GLM_GTC_type_aligned +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Aligned types allowing SIMD optimizations of vectors and matrices types + +#pragma once + +#if (GLM_CONFIG_ALIGNED_GENTYPES == GLM_DISABLE) +# error "GLM: Aligned gentypes require to enable C++ language extensions. Define GLM_FORCE_ALIGNED_GENTYPES before including GLM headers to use aligned types." +#endif + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_type_aligned extension included") +#endif + +#include "../mat4x4.hpp" +#include "../mat4x3.hpp" +#include "../mat4x2.hpp" +#include "../mat3x4.hpp" +#include "../mat3x3.hpp" +#include "../mat3x2.hpp" +#include "../mat2x4.hpp" +#include "../mat2x3.hpp" +#include "../mat2x2.hpp" +#include "../gtc/vec1.hpp" +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" + +namespace glm +{ + /// @addtogroup gtc_type_aligned + /// @{ + + // -- *vec1 -- + + /// 1 component vector aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<1, float, aligned_highp> aligned_highp_vec1; + + /// 1 component vector aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<1, float, aligned_mediump> aligned_mediump_vec1; + + /// 1 component vector aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<1, float, aligned_lowp> aligned_lowp_vec1; + + /// 1 component vector aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<1, double, aligned_highp> aligned_highp_dvec1; + + /// 1 component vector aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<1, double, aligned_mediump> aligned_mediump_dvec1; + + /// 1 component vector aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<1, double, aligned_lowp> aligned_lowp_dvec1; + + /// 1 component vector aligned in memory of signed integer numbers. + typedef vec<1, int, aligned_highp> aligned_highp_ivec1; + + /// 1 component vector aligned in memory of signed integer numbers. + typedef vec<1, int, aligned_mediump> aligned_mediump_ivec1; + + /// 1 component vector aligned in memory of signed integer numbers. + typedef vec<1, int, aligned_lowp> aligned_lowp_ivec1; + + /// 1 component vector aligned in memory of unsigned integer numbers. + typedef vec<1, uint, aligned_highp> aligned_highp_uvec1; + + /// 1 component vector aligned in memory of unsigned integer numbers. + typedef vec<1, uint, aligned_mediump> aligned_mediump_uvec1; + + /// 1 component vector aligned in memory of unsigned integer numbers. + typedef vec<1, uint, aligned_lowp> aligned_lowp_uvec1; + + /// 1 component vector aligned in memory of bool values. + typedef vec<1, bool, aligned_highp> aligned_highp_bvec1; + + /// 1 component vector aligned in memory of bool values. + typedef vec<1, bool, aligned_mediump> aligned_mediump_bvec1; + + /// 1 component vector aligned in memory of bool values. + typedef vec<1, bool, aligned_lowp> aligned_lowp_bvec1; + + /// 1 component vector tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<1, float, packed_highp> packed_highp_vec1; + + /// 1 component vector tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<1, float, packed_mediump> packed_mediump_vec1; + + /// 1 component vector tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<1, float, packed_lowp> packed_lowp_vec1; + + /// 1 component vector tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<1, double, packed_highp> packed_highp_dvec1; + + /// 1 component vector tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<1, double, packed_mediump> packed_mediump_dvec1; + + /// 1 component vector tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<1, double, packed_lowp> packed_lowp_dvec1; + + /// 1 component vector tightly packed in memory of signed integer numbers. + typedef vec<1, int, packed_highp> packed_highp_ivec1; + + /// 1 component vector tightly packed in memory of signed integer numbers. + typedef vec<1, int, packed_mediump> packed_mediump_ivec1; + + /// 1 component vector tightly packed in memory of signed integer numbers. + typedef vec<1, int, packed_lowp> packed_lowp_ivec1; + + /// 1 component vector tightly packed in memory of unsigned integer numbers. + typedef vec<1, uint, packed_highp> packed_highp_uvec1; + + /// 1 component vector tightly packed in memory of unsigned integer numbers. + typedef vec<1, uint, packed_mediump> packed_mediump_uvec1; + + /// 1 component vector tightly packed in memory of unsigned integer numbers. + typedef vec<1, uint, packed_lowp> packed_lowp_uvec1; + + /// 1 component vector tightly packed in memory of bool values. + typedef vec<1, bool, packed_highp> packed_highp_bvec1; + + /// 1 component vector tightly packed in memory of bool values. + typedef vec<1, bool, packed_mediump> packed_mediump_bvec1; + + /// 1 component vector tightly packed in memory of bool values. + typedef vec<1, bool, packed_lowp> packed_lowp_bvec1; + + // -- *vec2 -- + + /// 2 components vector aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<2, float, aligned_highp> aligned_highp_vec2; + + /// 2 components vector aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<2, float, aligned_mediump> aligned_mediump_vec2; + + /// 2 components vector aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<2, float, aligned_lowp> aligned_lowp_vec2; + + /// 2 components vector aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<2, double, aligned_highp> aligned_highp_dvec2; + + /// 2 components vector aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<2, double, aligned_mediump> aligned_mediump_dvec2; + + /// 2 components vector aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<2, double, aligned_lowp> aligned_lowp_dvec2; + + /// 2 components vector aligned in memory of signed integer numbers. + typedef vec<2, int, aligned_highp> aligned_highp_ivec2; + + /// 2 components vector aligned in memory of signed integer numbers. + typedef vec<2, int, aligned_mediump> aligned_mediump_ivec2; + + /// 2 components vector aligned in memory of signed integer numbers. + typedef vec<2, int, aligned_lowp> aligned_lowp_ivec2; + + /// 2 components vector aligned in memory of unsigned integer numbers. + typedef vec<2, uint, aligned_highp> aligned_highp_uvec2; + + /// 2 components vector aligned in memory of unsigned integer numbers. + typedef vec<2, uint, aligned_mediump> aligned_mediump_uvec2; + + /// 2 components vector aligned in memory of unsigned integer numbers. + typedef vec<2, uint, aligned_lowp> aligned_lowp_uvec2; + + /// 2 components vector aligned in memory of bool values. + typedef vec<2, bool, aligned_highp> aligned_highp_bvec2; + + /// 2 components vector aligned in memory of bool values. + typedef vec<2, bool, aligned_mediump> aligned_mediump_bvec2; + + /// 2 components vector aligned in memory of bool values. + typedef vec<2, bool, aligned_lowp> aligned_lowp_bvec2; + + /// 2 components vector tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<2, float, packed_highp> packed_highp_vec2; + + /// 2 components vector tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<2, float, packed_mediump> packed_mediump_vec2; + + /// 2 components vector tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<2, float, packed_lowp> packed_lowp_vec2; + + /// 2 components vector tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<2, double, packed_highp> packed_highp_dvec2; + + /// 2 components vector tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<2, double, packed_mediump> packed_mediump_dvec2; + + /// 2 components vector tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<2, double, packed_lowp> packed_lowp_dvec2; + + /// 2 components vector tightly packed in memory of signed integer numbers. + typedef vec<2, int, packed_highp> packed_highp_ivec2; + + /// 2 components vector tightly packed in memory of signed integer numbers. + typedef vec<2, int, packed_mediump> packed_mediump_ivec2; + + /// 2 components vector tightly packed in memory of signed integer numbers. + typedef vec<2, int, packed_lowp> packed_lowp_ivec2; + + /// 2 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<2, uint, packed_highp> packed_highp_uvec2; + + /// 2 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<2, uint, packed_mediump> packed_mediump_uvec2; + + /// 2 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<2, uint, packed_lowp> packed_lowp_uvec2; + + /// 2 components vector tightly packed in memory of bool values. + typedef vec<2, bool, packed_highp> packed_highp_bvec2; + + /// 2 components vector tightly packed in memory of bool values. + typedef vec<2, bool, packed_mediump> packed_mediump_bvec2; + + /// 2 components vector tightly packed in memory of bool values. + typedef vec<2, bool, packed_lowp> packed_lowp_bvec2; + + // -- *vec3 -- + + /// 3 components vector aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<3, float, aligned_highp> aligned_highp_vec3; + + /// 3 components vector aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<3, float, aligned_mediump> aligned_mediump_vec3; + + /// 3 components vector aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<3, float, aligned_lowp> aligned_lowp_vec3; + + /// 3 components vector aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<3, double, aligned_highp> aligned_highp_dvec3; + + /// 3 components vector aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<3, double, aligned_mediump> aligned_mediump_dvec3; + + /// 3 components vector aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<3, double, aligned_lowp> aligned_lowp_dvec3; + + /// 3 components vector aligned in memory of signed integer numbers. + typedef vec<3, int, aligned_highp> aligned_highp_ivec3; + + /// 3 components vector aligned in memory of signed integer numbers. + typedef vec<3, int, aligned_mediump> aligned_mediump_ivec3; + + /// 3 components vector aligned in memory of signed integer numbers. + typedef vec<3, int, aligned_lowp> aligned_lowp_ivec3; + + /// 3 components vector aligned in memory of unsigned integer numbers. + typedef vec<3, uint, aligned_highp> aligned_highp_uvec3; + + /// 3 components vector aligned in memory of unsigned integer numbers. + typedef vec<3, uint, aligned_mediump> aligned_mediump_uvec3; + + /// 3 components vector aligned in memory of unsigned integer numbers. + typedef vec<3, uint, aligned_lowp> aligned_lowp_uvec3; + + /// 3 components vector aligned in memory of bool values. + typedef vec<3, bool, aligned_highp> aligned_highp_bvec3; + + /// 3 components vector aligned in memory of bool values. + typedef vec<3, bool, aligned_mediump> aligned_mediump_bvec3; + + /// 3 components vector aligned in memory of bool values. + typedef vec<3, bool, aligned_lowp> aligned_lowp_bvec3; + + /// 3 components vector tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<3, float, packed_highp> packed_highp_vec3; + + /// 3 components vector tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<3, float, packed_mediump> packed_mediump_vec3; + + /// 3 components vector tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<3, float, packed_lowp> packed_lowp_vec3; + + /// 3 components vector tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<3, double, packed_highp> packed_highp_dvec3; + + /// 3 components vector tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<3, double, packed_mediump> packed_mediump_dvec3; + + /// 3 components vector tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<3, double, packed_lowp> packed_lowp_dvec3; + + /// 3 components vector tightly packed in memory of signed integer numbers. + typedef vec<3, int, packed_highp> packed_highp_ivec3; + + /// 3 components vector tightly packed in memory of signed integer numbers. + typedef vec<3, int, packed_mediump> packed_mediump_ivec3; + + /// 3 components vector tightly packed in memory of signed integer numbers. + typedef vec<3, int, packed_lowp> packed_lowp_ivec3; + + /// 3 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<3, uint, packed_highp> packed_highp_uvec3; + + /// 3 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<3, uint, packed_mediump> packed_mediump_uvec3; + + /// 3 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<3, uint, packed_lowp> packed_lowp_uvec3; + + /// 3 components vector tightly packed in memory of bool values. + typedef vec<3, bool, packed_highp> packed_highp_bvec3; + + /// 3 components vector tightly packed in memory of bool values. + typedef vec<3, bool, packed_mediump> packed_mediump_bvec3; + + /// 3 components vector tightly packed in memory of bool values. + typedef vec<3, bool, packed_lowp> packed_lowp_bvec3; + + // -- *vec4 -- + + /// 4 components vector aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<4, float, aligned_highp> aligned_highp_vec4; + + /// 4 components vector aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<4, float, aligned_mediump> aligned_mediump_vec4; + + /// 4 components vector aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<4, float, aligned_lowp> aligned_lowp_vec4; + + /// 4 components vector aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<4, double, aligned_highp> aligned_highp_dvec4; + + /// 4 components vector aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<4, double, aligned_mediump> aligned_mediump_dvec4; + + /// 4 components vector aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<4, double, aligned_lowp> aligned_lowp_dvec4; + + /// 4 components vector aligned in memory of signed integer numbers. + typedef vec<4, int, aligned_highp> aligned_highp_ivec4; + + /// 4 components vector aligned in memory of signed integer numbers. + typedef vec<4, int, aligned_mediump> aligned_mediump_ivec4; + + /// 4 components vector aligned in memory of signed integer numbers. + typedef vec<4, int, aligned_lowp> aligned_lowp_ivec4; + + /// 4 components vector aligned in memory of unsigned integer numbers. + typedef vec<4, uint, aligned_highp> aligned_highp_uvec4; + + /// 4 components vector aligned in memory of unsigned integer numbers. + typedef vec<4, uint, aligned_mediump> aligned_mediump_uvec4; + + /// 4 components vector aligned in memory of unsigned integer numbers. + typedef vec<4, uint, aligned_lowp> aligned_lowp_uvec4; + + /// 4 components vector aligned in memory of bool values. + typedef vec<4, bool, aligned_highp> aligned_highp_bvec4; + + /// 4 components vector aligned in memory of bool values. + typedef vec<4, bool, aligned_mediump> aligned_mediump_bvec4; + + /// 4 components vector aligned in memory of bool values. + typedef vec<4, bool, aligned_lowp> aligned_lowp_bvec4; + + /// 4 components vector tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<4, float, packed_highp> packed_highp_vec4; + + /// 4 components vector tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<4, float, packed_mediump> packed_mediump_vec4; + + /// 4 components vector tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<4, float, packed_lowp> packed_lowp_vec4; + + /// 4 components vector tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef vec<4, double, packed_highp> packed_highp_dvec4; + + /// 4 components vector tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef vec<4, double, packed_mediump> packed_mediump_dvec4; + + /// 4 components vector tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef vec<4, double, packed_lowp> packed_lowp_dvec4; + + /// 4 components vector tightly packed in memory of signed integer numbers. + typedef vec<4, int, packed_highp> packed_highp_ivec4; + + /// 4 components vector tightly packed in memory of signed integer numbers. + typedef vec<4, int, packed_mediump> packed_mediump_ivec4; + + /// 4 components vector tightly packed in memory of signed integer numbers. + typedef vec<4, int, packed_lowp> packed_lowp_ivec4; + + /// 4 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<4, uint, packed_highp> packed_highp_uvec4; + + /// 4 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<4, uint, packed_mediump> packed_mediump_uvec4; + + /// 4 components vector tightly packed in memory of unsigned integer numbers. + typedef vec<4, uint, packed_lowp> packed_lowp_uvec4; + + /// 4 components vector tightly packed in memory of bool values. + typedef vec<4, bool, packed_highp> packed_highp_bvec4; + + /// 4 components vector tightly packed in memory of bool values. + typedef vec<4, bool, packed_mediump> packed_mediump_bvec4; + + /// 4 components vector tightly packed in memory of bool values. + typedef vec<4, bool, packed_lowp> packed_lowp_bvec4; + + // -- *mat2 -- + + /// 2 by 2 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, float, aligned_highp> aligned_highp_mat2; + + /// 2 by 2 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, float, aligned_mediump> aligned_mediump_mat2; + + /// 2 by 2 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, float, aligned_lowp> aligned_lowp_mat2; + + /// 2 by 2 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, double, aligned_highp> aligned_highp_dmat2; + + /// 2 by 2 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, double, aligned_mediump> aligned_mediump_dmat2; + + /// 2 by 2 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, double, aligned_lowp> aligned_lowp_dmat2; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, float, packed_highp> packed_highp_mat2; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, float, packed_mediump> packed_mediump_mat2; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, float, packed_lowp> packed_lowp_mat2; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, double, packed_highp> packed_highp_dmat2; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, double, packed_mediump> packed_mediump_dmat2; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, double, packed_lowp> packed_lowp_dmat2; + + // -- *mat3 -- + + /// 3 by 3 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, float, aligned_highp> aligned_highp_mat3; + + /// 3 by 3 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, float, aligned_mediump> aligned_mediump_mat3; + + /// 3 by 3 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, float, aligned_lowp> aligned_lowp_mat3; + + /// 3 by 3 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, double, aligned_highp> aligned_highp_dmat3; + + /// 3 by 3 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, double, aligned_mediump> aligned_mediump_dmat3; + + /// 3 by 3 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, double, aligned_lowp> aligned_lowp_dmat3; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, float, packed_highp> packed_highp_mat3; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, float, packed_mediump> packed_mediump_mat3; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, float, packed_lowp> packed_lowp_mat3; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, double, packed_highp> packed_highp_dmat3; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, double, packed_mediump> packed_mediump_dmat3; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, double, packed_lowp> packed_lowp_dmat3; + + // -- *mat4 -- + + /// 4 by 4 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, float, aligned_highp> aligned_highp_mat4; + + /// 4 by 4 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, float, aligned_mediump> aligned_mediump_mat4; + + /// 4 by 4 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, float, aligned_lowp> aligned_lowp_mat4; + + /// 4 by 4 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, double, aligned_highp> aligned_highp_dmat4; + + /// 4 by 4 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, double, aligned_mediump> aligned_mediump_dmat4; + + /// 4 by 4 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, double, aligned_lowp> aligned_lowp_dmat4; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, float, packed_highp> packed_highp_mat4; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, float, packed_mediump> packed_mediump_mat4; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, float, packed_lowp> packed_lowp_mat4; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, double, packed_highp> packed_highp_dmat4; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, double, packed_mediump> packed_mediump_dmat4; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, double, packed_lowp> packed_lowp_dmat4; + + // -- *mat2x2 -- + + /// 2 by 2 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, float, aligned_highp> aligned_highp_mat2x2; + + /// 2 by 2 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, float, aligned_mediump> aligned_mediump_mat2x2; + + /// 2 by 2 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, float, aligned_lowp> aligned_lowp_mat2x2; + + /// 2 by 2 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, double, aligned_highp> aligned_highp_dmat2x2; + + /// 2 by 2 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, double, aligned_mediump> aligned_mediump_dmat2x2; + + /// 2 by 2 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, double, aligned_lowp> aligned_lowp_dmat2x2; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, float, packed_highp> packed_highp_mat2x2; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, float, packed_mediump> packed_mediump_mat2x2; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, float, packed_lowp> packed_lowp_mat2x2; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 2, double, packed_highp> packed_highp_dmat2x2; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 2, double, packed_mediump> packed_mediump_dmat2x2; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 2, double, packed_lowp> packed_lowp_dmat2x2; + + // -- *mat2x3 -- + + /// 2 by 3 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 3, float, aligned_highp> aligned_highp_mat2x3; + + /// 2 by 3 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 3, float, aligned_mediump> aligned_mediump_mat2x3; + + /// 2 by 3 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 3, float, aligned_lowp> aligned_lowp_mat2x3; + + /// 2 by 3 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 3, double, aligned_highp> aligned_highp_dmat2x3; + + /// 2 by 3 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 3, double, aligned_mediump> aligned_mediump_dmat2x3; + + /// 2 by 3 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 3, double, aligned_lowp> aligned_lowp_dmat2x3; + + /// 2 by 3 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 3, float, packed_highp> packed_highp_mat2x3; + + /// 2 by 3 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 3, float, packed_mediump> packed_mediump_mat2x3; + + /// 2 by 3 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 3, float, packed_lowp> packed_lowp_mat2x3; + + /// 2 by 3 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 3, double, packed_highp> packed_highp_dmat2x3; + + /// 2 by 3 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 3, double, packed_mediump> packed_mediump_dmat2x3; + + /// 2 by 3 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 3, double, packed_lowp> packed_lowp_dmat2x3; + + // -- *mat2x4 -- + + /// 2 by 4 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 4, float, aligned_highp> aligned_highp_mat2x4; + + /// 2 by 4 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 4, float, aligned_mediump> aligned_mediump_mat2x4; + + /// 2 by 4 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 4, float, aligned_lowp> aligned_lowp_mat2x4; + + /// 2 by 4 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 4, double, aligned_highp> aligned_highp_dmat2x4; + + /// 2 by 4 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 4, double, aligned_mediump> aligned_mediump_dmat2x4; + + /// 2 by 4 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 4, double, aligned_lowp> aligned_lowp_dmat2x4; + + /// 2 by 4 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 4, float, packed_highp> packed_highp_mat2x4; + + /// 2 by 4 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 4, float, packed_mediump> packed_mediump_mat2x4; + + /// 2 by 4 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 4, float, packed_lowp> packed_lowp_mat2x4; + + /// 2 by 4 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<2, 4, double, packed_highp> packed_highp_dmat2x4; + + /// 2 by 4 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<2, 4, double, packed_mediump> packed_mediump_dmat2x4; + + /// 2 by 4 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<2, 4, double, packed_lowp> packed_lowp_dmat2x4; + + // -- *mat3x2 -- + + /// 3 by 2 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 2, float, aligned_highp> aligned_highp_mat3x2; + + /// 3 by 2 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 2, float, aligned_mediump> aligned_mediump_mat3x2; + + /// 3 by 2 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 2, float, aligned_lowp> aligned_lowp_mat3x2; + + /// 3 by 2 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 2, double, aligned_highp> aligned_highp_dmat3x2; + + /// 3 by 2 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 2, double, aligned_mediump> aligned_mediump_dmat3x2; + + /// 3 by 2 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 2, double, aligned_lowp> aligned_lowp_dmat3x2; + + /// 3 by 2 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 2, float, packed_highp> packed_highp_mat3x2; + + /// 3 by 2 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 2, float, packed_mediump> packed_mediump_mat3x2; + + /// 3 by 2 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 2, float, packed_lowp> packed_lowp_mat3x2; + + /// 3 by 2 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 2, double, packed_highp> packed_highp_dmat3x2; + + /// 3 by 2 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 2, double, packed_mediump> packed_mediump_dmat3x2; + + /// 3 by 2 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 2, double, packed_lowp> packed_lowp_dmat3x2; + + // -- *mat3x3 -- + + /// 3 by 3 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, float, aligned_highp> aligned_highp_mat3x3; + + /// 3 by 3 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, float, aligned_mediump> aligned_mediump_mat3x3; + + /// 3 by 3 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, float, aligned_lowp> aligned_lowp_mat3x3; + + /// 3 by 3 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, double, aligned_highp> aligned_highp_dmat3x3; + + /// 3 by 3 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, double, aligned_mediump> aligned_mediump_dmat3x3; + + /// 3 by 3 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, double, aligned_lowp> aligned_lowp_dmat3x3; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, float, packed_highp> packed_highp_mat3x3; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, float, packed_mediump> packed_mediump_mat3x3; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, float, packed_lowp> packed_lowp_mat3x3; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 3, double, packed_highp> packed_highp_dmat3x3; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 3, double, packed_mediump> packed_mediump_dmat3x3; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 3, double, packed_lowp> packed_lowp_dmat3x3; + + // -- *mat3x4 -- + + /// 3 by 4 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 4, float, aligned_highp> aligned_highp_mat3x4; + + /// 3 by 4 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 4, float, aligned_mediump> aligned_mediump_mat3x4; + + /// 3 by 4 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 4, float, aligned_lowp> aligned_lowp_mat3x4; + + /// 3 by 4 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 4, double, aligned_highp> aligned_highp_dmat3x4; + + /// 3 by 4 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 4, double, aligned_mediump> aligned_mediump_dmat3x4; + + /// 3 by 4 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 4, double, aligned_lowp> aligned_lowp_dmat3x4; + + /// 3 by 4 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 4, float, packed_highp> packed_highp_mat3x4; + + /// 3 by 4 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 4, float, packed_mediump> packed_mediump_mat3x4; + + /// 3 by 4 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 4, float, packed_lowp> packed_lowp_mat3x4; + + /// 3 by 4 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<3, 4, double, packed_highp> packed_highp_dmat3x4; + + /// 3 by 4 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<3, 4, double, packed_mediump> packed_mediump_dmat3x4; + + /// 3 by 4 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<3, 4, double, packed_lowp> packed_lowp_dmat3x4; + + // -- *mat4x2 -- + + /// 4 by 2 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 2, float, aligned_highp> aligned_highp_mat4x2; + + /// 4 by 2 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 2, float, aligned_mediump> aligned_mediump_mat4x2; + + /// 4 by 2 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 2, float, aligned_lowp> aligned_lowp_mat4x2; + + /// 4 by 2 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 2, double, aligned_highp> aligned_highp_dmat4x2; + + /// 4 by 2 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 2, double, aligned_mediump> aligned_mediump_dmat4x2; + + /// 4 by 2 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 2, double, aligned_lowp> aligned_lowp_dmat4x2; + + /// 4 by 2 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 2, float, packed_highp> packed_highp_mat4x2; + + /// 4 by 2 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 2, float, packed_mediump> packed_mediump_mat4x2; + + /// 4 by 2 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 2, float, packed_lowp> packed_lowp_mat4x2; + + /// 4 by 2 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 2, double, packed_highp> packed_highp_dmat4x2; + + /// 4 by 2 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 2, double, packed_mediump> packed_mediump_dmat4x2; + + /// 4 by 2 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 2, double, packed_lowp> packed_lowp_dmat4x2; + + // -- *mat4x3 -- + + /// 4 by 3 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 3, float, aligned_highp> aligned_highp_mat4x3; + + /// 4 by 3 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 3, float, aligned_mediump> aligned_mediump_mat4x3; + + /// 4 by 3 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 3, float, aligned_lowp> aligned_lowp_mat4x3; + + /// 4 by 3 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 3, double, aligned_highp> aligned_highp_dmat4x3; + + /// 4 by 3 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 3, double, aligned_mediump> aligned_mediump_dmat4x3; + + /// 4 by 3 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 3, double, aligned_lowp> aligned_lowp_dmat4x3; + + /// 4 by 3 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 3, float, packed_highp> packed_highp_mat4x3; + + /// 4 by 3 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 3, float, packed_mediump> packed_mediump_mat4x3; + + /// 4 by 3 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 3, float, packed_lowp> packed_lowp_mat4x3; + + /// 4 by 3 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 3, double, packed_highp> packed_highp_dmat4x3; + + /// 4 by 3 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 3, double, packed_mediump> packed_mediump_dmat4x3; + + /// 4 by 3 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 3, double, packed_lowp> packed_lowp_dmat4x3; + + // -- *mat4x4 -- + + /// 4 by 4 matrix aligned in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, float, aligned_highp> aligned_highp_mat4x4; + + /// 4 by 4 matrix aligned in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, float, aligned_mediump> aligned_mediump_mat4x4; + + /// 4 by 4 matrix aligned in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, float, aligned_lowp> aligned_lowp_mat4x4; + + /// 4 by 4 matrix aligned in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, double, aligned_highp> aligned_highp_dmat4x4; + + /// 4 by 4 matrix aligned in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, double, aligned_mediump> aligned_mediump_dmat4x4; + + /// 4 by 4 matrix aligned in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, double, aligned_lowp> aligned_lowp_dmat4x4; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, float, packed_highp> packed_highp_mat4x4; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, float, packed_mediump> packed_mediump_mat4x4; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, float, packed_lowp> packed_lowp_mat4x4; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers using high precision arithmetic in term of ULPs. + typedef mat<4, 4, double, packed_highp> packed_highp_dmat4x4; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers using medium precision arithmetic in term of ULPs. + typedef mat<4, 4, double, packed_mediump> packed_mediump_dmat4x4; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers using low precision arithmetic in term of ULPs. + typedef mat<4, 4, double, packed_lowp> packed_lowp_dmat4x4; + + // -- default -- + +#if(defined(GLM_PRECISION_LOWP_FLOAT)) + typedef aligned_lowp_vec1 aligned_vec1; + typedef aligned_lowp_vec2 aligned_vec2; + typedef aligned_lowp_vec3 aligned_vec3; + typedef aligned_lowp_vec4 aligned_vec4; + typedef packed_lowp_vec1 packed_vec1; + typedef packed_lowp_vec2 packed_vec2; + typedef packed_lowp_vec3 packed_vec3; + typedef packed_lowp_vec4 packed_vec4; + + typedef aligned_lowp_mat2 aligned_mat2; + typedef aligned_lowp_mat3 aligned_mat3; + typedef aligned_lowp_mat4 aligned_mat4; + typedef packed_lowp_mat2 packed_mat2; + typedef packed_lowp_mat3 packed_mat3; + typedef packed_lowp_mat4 packed_mat4; + + typedef aligned_lowp_mat2x2 aligned_mat2x2; + typedef aligned_lowp_mat2x3 aligned_mat2x3; + typedef aligned_lowp_mat2x4 aligned_mat2x4; + typedef aligned_lowp_mat3x2 aligned_mat3x2; + typedef aligned_lowp_mat3x3 aligned_mat3x3; + typedef aligned_lowp_mat3x4 aligned_mat3x4; + typedef aligned_lowp_mat4x2 aligned_mat4x2; + typedef aligned_lowp_mat4x3 aligned_mat4x3; + typedef aligned_lowp_mat4x4 aligned_mat4x4; + typedef packed_lowp_mat2x2 packed_mat2x2; + typedef packed_lowp_mat2x3 packed_mat2x3; + typedef packed_lowp_mat2x4 packed_mat2x4; + typedef packed_lowp_mat3x2 packed_mat3x2; + typedef packed_lowp_mat3x3 packed_mat3x3; + typedef packed_lowp_mat3x4 packed_mat3x4; + typedef packed_lowp_mat4x2 packed_mat4x2; + typedef packed_lowp_mat4x3 packed_mat4x3; + typedef packed_lowp_mat4x4 packed_mat4x4; +#elif(defined(GLM_PRECISION_MEDIUMP_FLOAT)) + typedef aligned_mediump_vec1 aligned_vec1; + typedef aligned_mediump_vec2 aligned_vec2; + typedef aligned_mediump_vec3 aligned_vec3; + typedef aligned_mediump_vec4 aligned_vec4; + typedef packed_mediump_vec1 packed_vec1; + typedef packed_mediump_vec2 packed_vec2; + typedef packed_mediump_vec3 packed_vec3; + typedef packed_mediump_vec4 packed_vec4; + + typedef aligned_mediump_mat2 aligned_mat2; + typedef aligned_mediump_mat3 aligned_mat3; + typedef aligned_mediump_mat4 aligned_mat4; + typedef packed_mediump_mat2 packed_mat2; + typedef packed_mediump_mat3 packed_mat3; + typedef packed_mediump_mat4 packed_mat4; + + typedef aligned_mediump_mat2x2 aligned_mat2x2; + typedef aligned_mediump_mat2x3 aligned_mat2x3; + typedef aligned_mediump_mat2x4 aligned_mat2x4; + typedef aligned_mediump_mat3x2 aligned_mat3x2; + typedef aligned_mediump_mat3x3 aligned_mat3x3; + typedef aligned_mediump_mat3x4 aligned_mat3x4; + typedef aligned_mediump_mat4x2 aligned_mat4x2; + typedef aligned_mediump_mat4x3 aligned_mat4x3; + typedef aligned_mediump_mat4x4 aligned_mat4x4; + typedef packed_mediump_mat2x2 packed_mat2x2; + typedef packed_mediump_mat2x3 packed_mat2x3; + typedef packed_mediump_mat2x4 packed_mat2x4; + typedef packed_mediump_mat3x2 packed_mat3x2; + typedef packed_mediump_mat3x3 packed_mat3x3; + typedef packed_mediump_mat3x4 packed_mat3x4; + typedef packed_mediump_mat4x2 packed_mat4x2; + typedef packed_mediump_mat4x3 packed_mat4x3; + typedef packed_mediump_mat4x4 packed_mat4x4; +#else //defined(GLM_PRECISION_HIGHP_FLOAT) + /// 1 component vector aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_vec1 aligned_vec1; + + /// 2 components vector aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_vec2 aligned_vec2; + + /// 3 components vector aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_vec3 aligned_vec3; + + /// 4 components vector aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_vec4 aligned_vec4; + + /// 1 component vector tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_vec1 packed_vec1; + + /// 2 components vector tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_vec2 packed_vec2; + + /// 3 components vector tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_vec3 packed_vec3; + + /// 4 components vector tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_vec4 packed_vec4; + + /// 2 by 2 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat2 aligned_mat2; + + /// 3 by 3 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat3 aligned_mat3; + + /// 4 by 4 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat4 aligned_mat4; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat2 packed_mat2; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat3 packed_mat3; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat4 packed_mat4; + + /// 2 by 2 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat2x2 aligned_mat2x2; + + /// 2 by 3 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat2x3 aligned_mat2x3; + + /// 2 by 4 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat2x4 aligned_mat2x4; + + /// 3 by 2 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat3x2 aligned_mat3x2; + + /// 3 by 3 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat3x3 aligned_mat3x3; + + /// 3 by 4 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat3x4 aligned_mat3x4; + + /// 4 by 2 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat4x2 aligned_mat4x2; + + /// 4 by 3 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat4x3 aligned_mat4x3; + + /// 4 by 4 matrix tightly aligned in memory of single-precision floating-point numbers. + typedef aligned_highp_mat4x4 aligned_mat4x4; + + /// 2 by 2 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat2x2 packed_mat2x2; + + /// 2 by 3 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat2x3 packed_mat2x3; + + /// 2 by 4 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat2x4 packed_mat2x4; + + /// 3 by 2 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat3x2 packed_mat3x2; + + /// 3 by 3 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat3x3 packed_mat3x3; + + /// 3 by 4 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat3x4 packed_mat3x4; + + /// 4 by 2 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat4x2 packed_mat4x2; + + /// 4 by 3 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat4x3 packed_mat4x3; + + /// 4 by 4 matrix tightly packed in memory of single-precision floating-point numbers. + typedef packed_highp_mat4x4 packed_mat4x4; +#endif//GLM_PRECISION + +#if(defined(GLM_PRECISION_LOWP_DOUBLE)) + typedef aligned_lowp_dvec1 aligned_dvec1; + typedef aligned_lowp_dvec2 aligned_dvec2; + typedef aligned_lowp_dvec3 aligned_dvec3; + typedef aligned_lowp_dvec4 aligned_dvec4; + typedef packed_lowp_dvec1 packed_dvec1; + typedef packed_lowp_dvec2 packed_dvec2; + typedef packed_lowp_dvec3 packed_dvec3; + typedef packed_lowp_dvec4 packed_dvec4; + + typedef aligned_lowp_dmat2 aligned_dmat2; + typedef aligned_lowp_dmat3 aligned_dmat3; + typedef aligned_lowp_dmat4 aligned_dmat4; + typedef packed_lowp_dmat2 packed_dmat2; + typedef packed_lowp_dmat3 packed_dmat3; + typedef packed_lowp_dmat4 packed_dmat4; + + typedef aligned_lowp_dmat2x2 aligned_dmat2x2; + typedef aligned_lowp_dmat2x3 aligned_dmat2x3; + typedef aligned_lowp_dmat2x4 aligned_dmat2x4; + typedef aligned_lowp_dmat3x2 aligned_dmat3x2; + typedef aligned_lowp_dmat3x3 aligned_dmat3x3; + typedef aligned_lowp_dmat3x4 aligned_dmat3x4; + typedef aligned_lowp_dmat4x2 aligned_dmat4x2; + typedef aligned_lowp_dmat4x3 aligned_dmat4x3; + typedef aligned_lowp_dmat4x4 aligned_dmat4x4; + typedef packed_lowp_dmat2x2 packed_dmat2x2; + typedef packed_lowp_dmat2x3 packed_dmat2x3; + typedef packed_lowp_dmat2x4 packed_dmat2x4; + typedef packed_lowp_dmat3x2 packed_dmat3x2; + typedef packed_lowp_dmat3x3 packed_dmat3x3; + typedef packed_lowp_dmat3x4 packed_dmat3x4; + typedef packed_lowp_dmat4x2 packed_dmat4x2; + typedef packed_lowp_dmat4x3 packed_dmat4x3; + typedef packed_lowp_dmat4x4 packed_dmat4x4; +#elif(defined(GLM_PRECISION_MEDIUMP_DOUBLE)) + typedef aligned_mediump_dvec1 aligned_dvec1; + typedef aligned_mediump_dvec2 aligned_dvec2; + typedef aligned_mediump_dvec3 aligned_dvec3; + typedef aligned_mediump_dvec4 aligned_dvec4; + typedef packed_mediump_dvec1 packed_dvec1; + typedef packed_mediump_dvec2 packed_dvec2; + typedef packed_mediump_dvec3 packed_dvec3; + typedef packed_mediump_dvec4 packed_dvec4; + + typedef aligned_mediump_dmat2 aligned_dmat2; + typedef aligned_mediump_dmat3 aligned_dmat3; + typedef aligned_mediump_dmat4 aligned_dmat4; + typedef packed_mediump_dmat2 packed_dmat2; + typedef packed_mediump_dmat3 packed_dmat3; + typedef packed_mediump_dmat4 packed_dmat4; + + typedef aligned_mediump_dmat2x2 aligned_dmat2x2; + typedef aligned_mediump_dmat2x3 aligned_dmat2x3; + typedef aligned_mediump_dmat2x4 aligned_dmat2x4; + typedef aligned_mediump_dmat3x2 aligned_dmat3x2; + typedef aligned_mediump_dmat3x3 aligned_dmat3x3; + typedef aligned_mediump_dmat3x4 aligned_dmat3x4; + typedef aligned_mediump_dmat4x2 aligned_dmat4x2; + typedef aligned_mediump_dmat4x3 aligned_dmat4x3; + typedef aligned_mediump_dmat4x4 aligned_dmat4x4; + typedef packed_mediump_dmat2x2 packed_dmat2x2; + typedef packed_mediump_dmat2x3 packed_dmat2x3; + typedef packed_mediump_dmat2x4 packed_dmat2x4; + typedef packed_mediump_dmat3x2 packed_dmat3x2; + typedef packed_mediump_dmat3x3 packed_dmat3x3; + typedef packed_mediump_dmat3x4 packed_dmat3x4; + typedef packed_mediump_dmat4x2 packed_dmat4x2; + typedef packed_mediump_dmat4x3 packed_dmat4x3; + typedef packed_mediump_dmat4x4 packed_dmat4x4; +#else //defined(GLM_PRECISION_HIGHP_DOUBLE) + /// 1 component vector aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dvec1 aligned_dvec1; + + /// 2 components vector aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dvec2 aligned_dvec2; + + /// 3 components vector aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dvec3 aligned_dvec3; + + /// 4 components vector aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dvec4 aligned_dvec4; + + /// 1 component vector tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dvec1 packed_dvec1; + + /// 2 components vector tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dvec2 packed_dvec2; + + /// 3 components vector tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dvec3 packed_dvec3; + + /// 4 components vector tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dvec4 packed_dvec4; + + /// 2 by 2 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat2 aligned_dmat2; + + /// 3 by 3 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat3 aligned_dmat3; + + /// 4 by 4 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat4 aligned_dmat4; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat2 packed_dmat2; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat3 packed_dmat3; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat4 packed_dmat4; + + /// 2 by 2 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat2x2 aligned_dmat2x2; + + /// 2 by 3 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat2x3 aligned_dmat2x3; + + /// 2 by 4 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat2x4 aligned_dmat2x4; + + /// 3 by 2 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat3x2 aligned_dmat3x2; + + /// 3 by 3 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat3x3 aligned_dmat3x3; + + /// 3 by 4 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat3x4 aligned_dmat3x4; + + /// 4 by 2 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat4x2 aligned_dmat4x2; + + /// 4 by 3 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat4x3 aligned_dmat4x3; + + /// 4 by 4 matrix tightly aligned in memory of double-precision floating-point numbers. + typedef aligned_highp_dmat4x4 aligned_dmat4x4; + + /// 2 by 2 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat2x2 packed_dmat2x2; + + /// 2 by 3 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat2x3 packed_dmat2x3; + + /// 2 by 4 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat2x4 packed_dmat2x4; + + /// 3 by 2 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat3x2 packed_dmat3x2; + + /// 3 by 3 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat3x3 packed_dmat3x3; + + /// 3 by 4 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat3x4 packed_dmat3x4; + + /// 4 by 2 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat4x2 packed_dmat4x2; + + /// 4 by 3 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat4x3 packed_dmat4x3; + + /// 4 by 4 matrix tightly packed in memory of double-precision floating-point numbers. + typedef packed_highp_dmat4x4 packed_dmat4x4; +#endif//GLM_PRECISION + +#if(defined(GLM_PRECISION_LOWP_INT)) + typedef aligned_lowp_ivec1 aligned_ivec1; + typedef aligned_lowp_ivec2 aligned_ivec2; + typedef aligned_lowp_ivec3 aligned_ivec3; + typedef aligned_lowp_ivec4 aligned_ivec4; +#elif(defined(GLM_PRECISION_MEDIUMP_INT)) + typedef aligned_mediump_ivec1 aligned_ivec1; + typedef aligned_mediump_ivec2 aligned_ivec2; + typedef aligned_mediump_ivec3 aligned_ivec3; + typedef aligned_mediump_ivec4 aligned_ivec4; +#else //defined(GLM_PRECISION_HIGHP_INT) + /// 1 component vector aligned in memory of signed integer numbers. + typedef aligned_highp_ivec1 aligned_ivec1; + + /// 2 components vector aligned in memory of signed integer numbers. + typedef aligned_highp_ivec2 aligned_ivec2; + + /// 3 components vector aligned in memory of signed integer numbers. + typedef aligned_highp_ivec3 aligned_ivec3; + + /// 4 components vector aligned in memory of signed integer numbers. + typedef aligned_highp_ivec4 aligned_ivec4; + + /// 1 component vector tightly packed in memory of signed integer numbers. + typedef packed_highp_ivec1 packed_ivec1; + + /// 2 components vector tightly packed in memory of signed integer numbers. + typedef packed_highp_ivec2 packed_ivec2; + + /// 3 components vector tightly packed in memory of signed integer numbers. + typedef packed_highp_ivec3 packed_ivec3; + + /// 4 components vector tightly packed in memory of signed integer numbers. + typedef packed_highp_ivec4 packed_ivec4; +#endif//GLM_PRECISION + + // -- Unsigned integer definition -- + +#if(defined(GLM_PRECISION_LOWP_UINT)) + typedef aligned_lowp_uvec1 aligned_uvec1; + typedef aligned_lowp_uvec2 aligned_uvec2; + typedef aligned_lowp_uvec3 aligned_uvec3; + typedef aligned_lowp_uvec4 aligned_uvec4; +#elif(defined(GLM_PRECISION_MEDIUMP_UINT)) + typedef aligned_mediump_uvec1 aligned_uvec1; + typedef aligned_mediump_uvec2 aligned_uvec2; + typedef aligned_mediump_uvec3 aligned_uvec3; + typedef aligned_mediump_uvec4 aligned_uvec4; +#else //defined(GLM_PRECISION_HIGHP_UINT) + /// 1 component vector aligned in memory of unsigned integer numbers. + typedef aligned_highp_uvec1 aligned_uvec1; + + /// 2 components vector aligned in memory of unsigned integer numbers. + typedef aligned_highp_uvec2 aligned_uvec2; + + /// 3 components vector aligned in memory of unsigned integer numbers. + typedef aligned_highp_uvec3 aligned_uvec3; + + /// 4 components vector aligned in memory of unsigned integer numbers. + typedef aligned_highp_uvec4 aligned_uvec4; + + /// 1 component vector tightly packed in memory of unsigned integer numbers. + typedef packed_highp_uvec1 packed_uvec1; + + /// 2 components vector tightly packed in memory of unsigned integer numbers. + typedef packed_highp_uvec2 packed_uvec2; + + /// 3 components vector tightly packed in memory of unsigned integer numbers. + typedef packed_highp_uvec3 packed_uvec3; + + /// 4 components vector tightly packed in memory of unsigned integer numbers. + typedef packed_highp_uvec4 packed_uvec4; +#endif//GLM_PRECISION + +#if(defined(GLM_PRECISION_LOWP_BOOL)) + typedef aligned_lowp_bvec1 aligned_bvec1; + typedef aligned_lowp_bvec2 aligned_bvec2; + typedef aligned_lowp_bvec3 aligned_bvec3; + typedef aligned_lowp_bvec4 aligned_bvec4; +#elif(defined(GLM_PRECISION_MEDIUMP_BOOL)) + typedef aligned_mediump_bvec1 aligned_bvec1; + typedef aligned_mediump_bvec2 aligned_bvec2; + typedef aligned_mediump_bvec3 aligned_bvec3; + typedef aligned_mediump_bvec4 aligned_bvec4; +#else //defined(GLM_PRECISION_HIGHP_BOOL) + /// 1 component vector aligned in memory of bool values. + typedef aligned_highp_bvec1 aligned_bvec1; + + /// 2 components vector aligned in memory of bool values. + typedef aligned_highp_bvec2 aligned_bvec2; + + /// 3 components vector aligned in memory of bool values. + typedef aligned_highp_bvec3 aligned_bvec3; + + /// 4 components vector aligned in memory of bool values. + typedef aligned_highp_bvec4 aligned_bvec4; + + /// 1 components vector tightly packed in memory of bool values. + typedef packed_highp_bvec1 packed_bvec1; + + /// 2 components vector tightly packed in memory of bool values. + typedef packed_highp_bvec2 packed_bvec2; + + /// 3 components vector tightly packed in memory of bool values. + typedef packed_highp_bvec3 packed_bvec3; + + /// 4 components vector tightly packed in memory of bool values. + typedef packed_highp_bvec4 packed_bvec4; +#endif//GLM_PRECISION + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtc/type_precision.hpp b/Vulkan/ext/include/glm/gtc/type_precision.hpp new file mode 100644 index 0000000..775e2f4 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/type_precision.hpp @@ -0,0 +1,2094 @@ +/// @ref gtc_type_precision +/// @file glm/gtc/type_precision.hpp +/// +/// @see core (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtc_type_precision GLM_GTC_type_precision +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Defines specific C++-based qualifier types. + +#pragma once + +// Dependency: +#include "../gtc/quaternion.hpp" +#include "../gtc/vec1.hpp" +#include "../ext/vector_int1_sized.hpp" +#include "../ext/vector_int2_sized.hpp" +#include "../ext/vector_int3_sized.hpp" +#include "../ext/vector_int4_sized.hpp" +#include "../ext/scalar_int_sized.hpp" +#include "../ext/vector_uint1_sized.hpp" +#include "../ext/vector_uint2_sized.hpp" +#include "../ext/vector_uint3_sized.hpp" +#include "../ext/vector_uint4_sized.hpp" +#include "../ext/scalar_uint_sized.hpp" +#include "../detail/type_vec2.hpp" +#include "../detail/type_vec3.hpp" +#include "../detail/type_vec4.hpp" +#include "../detail/type_mat2x2.hpp" +#include "../detail/type_mat2x3.hpp" +#include "../detail/type_mat2x4.hpp" +#include "../detail/type_mat3x2.hpp" +#include "../detail/type_mat3x3.hpp" +#include "../detail/type_mat3x4.hpp" +#include "../detail/type_mat4x2.hpp" +#include "../detail/type_mat4x3.hpp" +#include "../detail/type_mat4x4.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_type_precision extension included") +#endif + +namespace glm +{ + /////////////////////////// + // Signed int vector types + + /// @addtogroup gtc_type_precision + /// @{ + + /// Low qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 lowp_int8; + + /// Low qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 lowp_int16; + + /// Low qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 lowp_int32; + + /// Low qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 lowp_int64; + + /// Low qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 lowp_int8_t; + + /// Low qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 lowp_int16_t; + + /// Low qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 lowp_int32_t; + + /// Low qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 lowp_int64_t; + + /// Low qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 lowp_i8; + + /// Low qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 lowp_i16; + + /// Low qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 lowp_i32; + + /// Low qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 lowp_i64; + + /// Medium qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 mediump_int8; + + /// Medium qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 mediump_int16; + + /// Medium qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 mediump_int32; + + /// Medium qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 mediump_int64; + + /// Medium qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 mediump_int8_t; + + /// Medium qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 mediump_int16_t; + + /// Medium qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 mediump_int32_t; + + /// Medium qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 mediump_int64_t; + + /// Medium qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 mediump_i8; + + /// Medium qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 mediump_i16; + + /// Medium qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 mediump_i32; + + /// Medium qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 mediump_i64; + + /// High qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 highp_int8; + + /// High qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 highp_int16; + + /// High qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 highp_int32; + + /// High qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 highp_int64; + + /// High qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 highp_int8_t; + + /// High qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 highp_int16_t; + + /// 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 highp_int32_t; + + /// High qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 highp_int64_t; + + /// High qualifier 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 highp_i8; + + /// High qualifier 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 highp_i16; + + /// High qualifier 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 highp_i32; + + /// High qualifier 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 highp_i64; + + +#if GLM_HAS_EXTENDED_INTEGER_TYPE + using std::int8_t; + using std::int16_t; + using std::int32_t; + using std::int64_t; +#else + /// 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 int8_t; + + /// 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 int16_t; + + /// 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 int32_t; + + /// 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 int64_t; +#endif + + /// 8 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int8 i8; + + /// 16 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int16 i16; + + /// 32 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int32 i32; + + /// 64 bit signed integer type. + /// @see gtc_type_precision + typedef detail::int64 i64; + + ///////////////////////////// + // Unsigned int vector types + + /// Low qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 lowp_uint8; + + /// Low qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 lowp_uint16; + + /// Low qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 lowp_uint32; + + /// Low qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 lowp_uint64; + + /// Low qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 lowp_uint8_t; + + /// Low qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 lowp_uint16_t; + + /// Low qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 lowp_uint32_t; + + /// Low qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 lowp_uint64_t; + + /// Low qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 lowp_u8; + + /// Low qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 lowp_u16; + + /// Low qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 lowp_u32; + + /// Low qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 lowp_u64; + + /// Medium qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 mediump_uint8; + + /// Medium qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 mediump_uint16; + + /// Medium qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 mediump_uint32; + + /// Medium qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 mediump_uint64; + + /// Medium qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 mediump_uint8_t; + + /// Medium qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 mediump_uint16_t; + + /// Medium qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 mediump_uint32_t; + + /// Medium qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 mediump_uint64_t; + + /// Medium qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 mediump_u8; + + /// Medium qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 mediump_u16; + + /// Medium qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 mediump_u32; + + /// Medium qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 mediump_u64; + + /// High qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 highp_uint8; + + /// High qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 highp_uint16; + + /// High qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 highp_uint32; + + /// High qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 highp_uint64; + + /// High qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 highp_uint8_t; + + /// High qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 highp_uint16_t; + + /// High qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 highp_uint32_t; + + /// High qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 highp_uint64_t; + + /// High qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 highp_u8; + + /// High qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 highp_u16; + + /// High qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 highp_u32; + + /// High qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 highp_u64; + +#if GLM_HAS_EXTENDED_INTEGER_TYPE + using std::uint8_t; + using std::uint16_t; + using std::uint32_t; + using std::uint64_t; +#else + /// Default qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 uint8_t; + + /// Default qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 uint16_t; + + /// Default qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 uint32_t; + + /// Default qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 uint64_t; +#endif + + /// Default qualifier 8 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint8 u8; + + /// Default qualifier 16 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint16 u16; + + /// Default qualifier 32 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint32 u32; + + /// Default qualifier 64 bit unsigned integer type. + /// @see gtc_type_precision + typedef detail::uint64 u64; + + + + + + ////////////////////// + // Float vector types + + /// Single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float float32; + + /// Double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef double float64; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_float32; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_float64; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_float32_t; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_float64_t; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_f32; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_f64; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_float32; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_float64; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_float32_t; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_float64_t; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_f32; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_f64; + + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_float32; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_float64; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_float32_t; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_float64_t; + + /// Low 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 lowp_f32; + + /// Low 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 lowp_f64; + + + /// Medium 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 mediump_float32; + + /// Medium 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 mediump_float64; + + /// Medium 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 mediump_float32_t; + + /// Medium 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 mediump_float64_t; + + /// Medium 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 mediump_f32; + + /// Medium 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 mediump_f64; + + + /// High 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 highp_float32; + + /// High 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 highp_float64; + + /// High 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 highp_float32_t; + + /// High 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 highp_float64_t; + + /// High 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 highp_f32; + + /// High 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 highp_f64; + + +#if(defined(GLM_PRECISION_LOWP_FLOAT)) + /// Default 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef lowp_float32_t float32_t; + + /// Default 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef lowp_float64_t float64_t; + + /// Default 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef lowp_f32 f32; + + /// Default 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef lowp_f64 f64; + +#elif(defined(GLM_PRECISION_MEDIUMP_FLOAT)) + /// Default 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef mediump_float32 float32_t; + + /// Default 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef mediump_float64 float64_t; + + /// Default 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef mediump_float32 f32; + + /// Default 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef mediump_float64 f64; + +#else//(defined(GLM_PRECISION_HIGHP_FLOAT)) + + /// Default 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef highp_float32_t float32_t; + + /// Default 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef highp_float64_t float64_t; + + /// Default 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef highp_float32_t f32; + + /// Default 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef highp_float64_t f64; +#endif + + + /// Low single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, float, lowp> lowp_fvec1; + + /// Low single-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, float, lowp> lowp_fvec2; + + /// Low single-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, float, lowp> lowp_fvec3; + + /// Low single-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, float, lowp> lowp_fvec4; + + + /// Medium single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, float, mediump> mediump_fvec1; + + /// Medium Single-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, float, mediump> mediump_fvec2; + + /// Medium Single-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, float, mediump> mediump_fvec3; + + /// Medium Single-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, float, mediump> mediump_fvec4; + + + /// High single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, float, highp> highp_fvec1; + + /// High Single-qualifier floating-point vector of 2 components. + /// @see core_precision + typedef vec<2, float, highp> highp_fvec2; + + /// High Single-qualifier floating-point vector of 3 components. + /// @see core_precision + typedef vec<3, float, highp> highp_fvec3; + + /// High Single-qualifier floating-point vector of 4 components. + /// @see core_precision + typedef vec<4, float, highp> highp_fvec4; + + + /// Low single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f32, lowp> lowp_f32vec1; + + /// Low single-qualifier floating-point vector of 2 components. + /// @see core_precision + typedef vec<2, f32, lowp> lowp_f32vec2; + + /// Low single-qualifier floating-point vector of 3 components. + /// @see core_precision + typedef vec<3, f32, lowp> lowp_f32vec3; + + /// Low single-qualifier floating-point vector of 4 components. + /// @see core_precision + typedef vec<4, f32, lowp> lowp_f32vec4; + + /// Medium single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f32, mediump> mediump_f32vec1; + + /// Medium single-qualifier floating-point vector of 2 components. + /// @see core_precision + typedef vec<2, f32, mediump> mediump_f32vec2; + + /// Medium single-qualifier floating-point vector of 3 components. + /// @see core_precision + typedef vec<3, f32, mediump> mediump_f32vec3; + + /// Medium single-qualifier floating-point vector of 4 components. + /// @see core_precision + typedef vec<4, f32, mediump> mediump_f32vec4; + + /// High single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f32, highp> highp_f32vec1; + + /// High single-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, f32, highp> highp_f32vec2; + + /// High single-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, f32, highp> highp_f32vec3; + + /// High single-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, f32, highp> highp_f32vec4; + + + /// Low double-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f64, lowp> lowp_f64vec1; + + /// Low double-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, f64, lowp> lowp_f64vec2; + + /// Low double-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, f64, lowp> lowp_f64vec3; + + /// Low double-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, f64, lowp> lowp_f64vec4; + + /// Medium double-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f64, mediump> mediump_f64vec1; + + /// Medium double-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, f64, mediump> mediump_f64vec2; + + /// Medium double-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, f64, mediump> mediump_f64vec3; + + /// Medium double-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, f64, mediump> mediump_f64vec4; + + /// High double-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f64, highp> highp_f64vec1; + + /// High double-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, f64, highp> highp_f64vec2; + + /// High double-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, f64, highp> highp_f64vec3; + + /// High double-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, f64, highp> highp_f64vec4; + + + + ////////////////////// + // Float matrix types + + /// Low single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef lowp_f32 lowp_fmat1x1; + + /// Low single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, lowp> lowp_fmat2x2; + + /// Low single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, lowp> lowp_fmat2x3; + + /// Low single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, lowp> lowp_fmat2x4; + + /// Low single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, lowp> lowp_fmat3x2; + + /// Low single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, lowp> lowp_fmat3x3; + + /// Low single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, lowp> lowp_fmat3x4; + + /// Low single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, lowp> lowp_fmat4x2; + + /// Low single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, lowp> lowp_fmat4x3; + + /// Low single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, lowp> lowp_fmat4x4; + + /// Low single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef lowp_fmat1x1 lowp_fmat1; + + /// Low single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef lowp_fmat2x2 lowp_fmat2; + + /// Low single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef lowp_fmat3x3 lowp_fmat3; + + /// Low single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef lowp_fmat4x4 lowp_fmat4; + + + /// Medium single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef mediump_f32 mediump_fmat1x1; + + /// Medium single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, mediump> mediump_fmat2x2; + + /// Medium single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, mediump> mediump_fmat2x3; + + /// Medium single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, mediump> mediump_fmat2x4; + + /// Medium single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, mediump> mediump_fmat3x2; + + /// Medium single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, mediump> mediump_fmat3x3; + + /// Medium single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, mediump> mediump_fmat3x4; + + /// Medium single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, mediump> mediump_fmat4x2; + + /// Medium single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, mediump> mediump_fmat4x3; + + /// Medium single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, mediump> mediump_fmat4x4; + + /// Medium single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef mediump_fmat1x1 mediump_fmat1; + + /// Medium single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mediump_fmat2x2 mediump_fmat2; + + /// Medium single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mediump_fmat3x3 mediump_fmat3; + + /// Medium single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mediump_fmat4x4 mediump_fmat4; + + + /// High single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef highp_f32 highp_fmat1x1; + + /// High single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, highp> highp_fmat2x2; + + /// High single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, highp> highp_fmat2x3; + + /// High single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, highp> highp_fmat2x4; + + /// High single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, highp> highp_fmat3x2; + + /// High single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, highp> highp_fmat3x3; + + /// High single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, highp> highp_fmat3x4; + + /// High single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, highp> highp_fmat4x2; + + /// High single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, highp> highp_fmat4x3; + + /// High single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, highp> highp_fmat4x4; + + /// High single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef highp_fmat1x1 highp_fmat1; + + /// High single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef highp_fmat2x2 highp_fmat2; + + /// High single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef highp_fmat3x3 highp_fmat3; + + /// High single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef highp_fmat4x4 highp_fmat4; + + + /// Low single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f32 lowp_f32mat1x1; + + /// Low single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, lowp> lowp_f32mat2x2; + + /// Low single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, lowp> lowp_f32mat2x3; + + /// Low single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, lowp> lowp_f32mat2x4; + + /// Low single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, lowp> lowp_f32mat3x2; + + /// Low single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, lowp> lowp_f32mat3x3; + + /// Low single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, lowp> lowp_f32mat3x4; + + /// Low single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, lowp> lowp_f32mat4x2; + + /// Low single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, lowp> lowp_f32mat4x3; + + /// Low single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, lowp> lowp_f32mat4x4; + + /// Low single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef detail::tmat1x1 lowp_f32mat1; + + /// Low single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef lowp_f32mat2x2 lowp_f32mat2; + + /// Low single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef lowp_f32mat3x3 lowp_f32mat3; + + /// Low single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef lowp_f32mat4x4 lowp_f32mat4; + + + /// High single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f32 mediump_f32mat1x1; + + /// Low single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, mediump> mediump_f32mat2x2; + + /// Medium single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, mediump> mediump_f32mat2x3; + + /// Medium single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, mediump> mediump_f32mat2x4; + + /// Medium single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, mediump> mediump_f32mat3x2; + + /// Medium single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, mediump> mediump_f32mat3x3; + + /// Medium single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, mediump> mediump_f32mat3x4; + + /// Medium single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, mediump> mediump_f32mat4x2; + + /// Medium single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, mediump> mediump_f32mat4x3; + + /// Medium single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, mediump> mediump_f32mat4x4; + + /// Medium single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef detail::tmat1x1 f32mat1; + + /// Medium single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mediump_f32mat2x2 mediump_f32mat2; + + /// Medium single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mediump_f32mat3x3 mediump_f32mat3; + + /// Medium single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mediump_f32mat4x4 mediump_f32mat4; + + + /// High single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f32 highp_f32mat1x1; + + /// High single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, highp> highp_f32mat2x2; + + /// High single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, highp> highp_f32mat2x3; + + /// High single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, highp> highp_f32mat2x4; + + /// High single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, highp> highp_f32mat3x2; + + /// High single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, highp> highp_f32mat3x3; + + /// High single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, highp> highp_f32mat3x4; + + /// High single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, highp> highp_f32mat4x2; + + /// High single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, highp> highp_f32mat4x3; + + /// High single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, highp> highp_f32mat4x4; + + /// High single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef detail::tmat1x1 f32mat1; + + /// High single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef highp_f32mat2x2 highp_f32mat2; + + /// High single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef highp_f32mat3x3 highp_f32mat3; + + /// High single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef highp_f32mat4x4 highp_f32mat4; + + + /// Low double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f64 lowp_f64mat1x1; + + /// Low double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f64, lowp> lowp_f64mat2x2; + + /// Low double-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f64, lowp> lowp_f64mat2x3; + + /// Low double-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f64, lowp> lowp_f64mat2x4; + + /// Low double-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f64, lowp> lowp_f64mat3x2; + + /// Low double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f64, lowp> lowp_f64mat3x3; + + /// Low double-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f64, lowp> lowp_f64mat3x4; + + /// Low double-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f64, lowp> lowp_f64mat4x2; + + /// Low double-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f64, lowp> lowp_f64mat4x3; + + /// Low double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f64, lowp> lowp_f64mat4x4; + + /// Low double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef lowp_f64mat1x1 lowp_f64mat1; + + /// Low double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef lowp_f64mat2x2 lowp_f64mat2; + + /// Low double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef lowp_f64mat3x3 lowp_f64mat3; + + /// Low double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef lowp_f64mat4x4 lowp_f64mat4; + + + /// Medium double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f64 Highp_f64mat1x1; + + /// Medium double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f64, mediump> mediump_f64mat2x2; + + /// Medium double-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f64, mediump> mediump_f64mat2x3; + + /// Medium double-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f64, mediump> mediump_f64mat2x4; + + /// Medium double-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f64, mediump> mediump_f64mat3x2; + + /// Medium double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f64, mediump> mediump_f64mat3x3; + + /// Medium double-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f64, mediump> mediump_f64mat3x4; + + /// Medium double-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f64, mediump> mediump_f64mat4x2; + + /// Medium double-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f64, mediump> mediump_f64mat4x3; + + /// Medium double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f64, mediump> mediump_f64mat4x4; + + /// Medium double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef mediump_f64mat1x1 mediump_f64mat1; + + /// Medium double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mediump_f64mat2x2 mediump_f64mat2; + + /// Medium double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mediump_f64mat3x3 mediump_f64mat3; + + /// Medium double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mediump_f64mat4x4 mediump_f64mat4; + + /// High double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f64 highp_f64mat1x1; + + /// High double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f64, highp> highp_f64mat2x2; + + /// High double-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f64, highp> highp_f64mat2x3; + + /// High double-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f64, highp> highp_f64mat2x4; + + /// High double-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f64, highp> highp_f64mat3x2; + + /// High double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f64, highp> highp_f64mat3x3; + + /// High double-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f64, highp> highp_f64mat3x4; + + /// High double-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f64, highp> highp_f64mat4x2; + + /// High double-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f64, highp> highp_f64mat4x3; + + /// High double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f64, highp> highp_f64mat4x4; + + /// High double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef highp_f64mat1x1 highp_f64mat1; + + /// High double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef highp_f64mat2x2 highp_f64mat2; + + /// High double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef highp_f64mat3x3 highp_f64mat3; + + /// High double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef highp_f64mat4x4 highp_f64mat4; + + + ///////////////////////////// + // Signed int vector types + + /// Low qualifier signed integer vector of 1 component type. + /// @see gtc_type_precision + typedef vec<1, int, lowp> lowp_ivec1; + + /// Low qualifier signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, int, lowp> lowp_ivec2; + + /// Low qualifier signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, int, lowp> lowp_ivec3; + + /// Low qualifier signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, int, lowp> lowp_ivec4; + + + /// Medium qualifier signed integer vector of 1 component type. + /// @see gtc_type_precision + typedef vec<1, int, mediump> mediump_ivec1; + + /// Medium qualifier signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, int, mediump> mediump_ivec2; + + /// Medium qualifier signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, int, mediump> mediump_ivec3; + + /// Medium qualifier signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, int, mediump> mediump_ivec4; + + + /// High qualifier signed integer vector of 1 component type. + /// @see gtc_type_precision + typedef vec<1, int, highp> highp_ivec1; + + /// High qualifier signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, int, highp> highp_ivec2; + + /// High qualifier signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, int, highp> highp_ivec3; + + /// High qualifier signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, int, highp> highp_ivec4; + + + /// Low qualifier 8 bit signed integer vector of 1 component type. + /// @see gtc_type_precision + typedef vec<1, i8, lowp> lowp_i8vec1; + + /// Low qualifier 8 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i8, lowp> lowp_i8vec2; + + /// Low qualifier 8 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i8, lowp> lowp_i8vec3; + + /// Low qualifier 8 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i8, lowp> lowp_i8vec4; + + + /// Medium qualifier 8 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i8, mediump> mediump_i8vec1; + + /// Medium qualifier 8 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i8, mediump> mediump_i8vec2; + + /// Medium qualifier 8 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i8, mediump> mediump_i8vec3; + + /// Medium qualifier 8 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i8, mediump> mediump_i8vec4; + + + /// High qualifier 8 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i8, highp> highp_i8vec1; + + /// High qualifier 8 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i8, highp> highp_i8vec2; + + /// High qualifier 8 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i8, highp> highp_i8vec3; + + /// High qualifier 8 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i8, highp> highp_i8vec4; + + + /// Low qualifier 16 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i16, lowp> lowp_i16vec1; + + /// Low qualifier 16 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i16, lowp> lowp_i16vec2; + + /// Low qualifier 16 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i16, lowp> lowp_i16vec3; + + /// Low qualifier 16 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i16, lowp> lowp_i16vec4; + + + /// Medium qualifier 16 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i16, mediump> mediump_i16vec1; + + /// Medium qualifier 16 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i16, mediump> mediump_i16vec2; + + /// Medium qualifier 16 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i16, mediump> mediump_i16vec3; + + /// Medium qualifier 16 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i16, mediump> mediump_i16vec4; + + + /// High qualifier 16 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i16, highp> highp_i16vec1; + + /// High qualifier 16 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i16, highp> highp_i16vec2; + + /// High qualifier 16 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i16, highp> highp_i16vec3; + + /// High qualifier 16 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i16, highp> highp_i16vec4; + + + /// Low qualifier 32 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i32, lowp> lowp_i32vec1; + + /// Low qualifier 32 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i32, lowp> lowp_i32vec2; + + /// Low qualifier 32 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i32, lowp> lowp_i32vec3; + + /// Low qualifier 32 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i32, lowp> lowp_i32vec4; + + + /// Medium qualifier 32 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i32, mediump> mediump_i32vec1; + + /// Medium qualifier 32 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i32, mediump> mediump_i32vec2; + + /// Medium qualifier 32 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i32, mediump> mediump_i32vec3; + + /// Medium qualifier 32 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i32, mediump> mediump_i32vec4; + + + /// High qualifier 32 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i32, highp> highp_i32vec1; + + /// High qualifier 32 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i32, highp> highp_i32vec2; + + /// High qualifier 32 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i32, highp> highp_i32vec3; + + /// High qualifier 32 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i32, highp> highp_i32vec4; + + + /// Low qualifier 64 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i64, lowp> lowp_i64vec1; + + /// Low qualifier 64 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i64, lowp> lowp_i64vec2; + + /// Low qualifier 64 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i64, lowp> lowp_i64vec3; + + /// Low qualifier 64 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i64, lowp> lowp_i64vec4; + + + /// Medium qualifier 64 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i64, mediump> mediump_i64vec1; + + /// Medium qualifier 64 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i64, mediump> mediump_i64vec2; + + /// Medium qualifier 64 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i64, mediump> mediump_i64vec3; + + /// Medium qualifier 64 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i64, mediump> mediump_i64vec4; + + + /// High qualifier 64 bit signed integer scalar type. + /// @see gtc_type_precision + typedef vec<1, i64, highp> highp_i64vec1; + + /// High qualifier 64 bit signed integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, i64, highp> highp_i64vec2; + + /// High qualifier 64 bit signed integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, i64, highp> highp_i64vec3; + + /// High qualifier 64 bit signed integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, i64, highp> highp_i64vec4; + + + ///////////////////////////// + // Unsigned int vector types + + /// Low qualifier unsigned integer vector of 1 component type. + /// @see gtc_type_precision + typedef vec<1, uint, lowp> lowp_uvec1; + + /// Low qualifier unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, uint, lowp> lowp_uvec2; + + /// Low qualifier unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, uint, lowp> lowp_uvec3; + + /// Low qualifier unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, uint, lowp> lowp_uvec4; + + + /// Medium qualifier unsigned integer vector of 1 component type. + /// @see gtc_type_precision + typedef vec<1, uint, mediump> mediump_uvec1; + + /// Medium qualifier unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, uint, mediump> mediump_uvec2; + + /// Medium qualifier unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, uint, mediump> mediump_uvec3; + + /// Medium qualifier unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, uint, mediump> mediump_uvec4; + + + /// High qualifier unsigned integer vector of 1 component type. + /// @see gtc_type_precision + typedef vec<1, uint, highp> highp_uvec1; + + /// High qualifier unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, uint, highp> highp_uvec2; + + /// High qualifier unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, uint, highp> highp_uvec3; + + /// High qualifier unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, uint, highp> highp_uvec4; + + + /// Low qualifier 8 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u8, lowp> lowp_u8vec1; + + /// Low qualifier 8 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u8, lowp> lowp_u8vec2; + + /// Low qualifier 8 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u8, lowp> lowp_u8vec3; + + /// Low qualifier 8 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u8, lowp> lowp_u8vec4; + + + /// Medium qualifier 8 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u8, mediump> mediump_u8vec1; + + /// Medium qualifier 8 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u8, mediump> mediump_u8vec2; + + /// Medium qualifier 8 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u8, mediump> mediump_u8vec3; + + /// Medium qualifier 8 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u8, mediump> mediump_u8vec4; + + + /// High qualifier 8 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u8, highp> highp_u8vec1; + + /// High qualifier 8 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u8, highp> highp_u8vec2; + + /// High qualifier 8 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u8, highp> highp_u8vec3; + + /// High qualifier 8 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u8, highp> highp_u8vec4; + + + /// Low qualifier 16 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u16, lowp> lowp_u16vec1; + + /// Low qualifier 16 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u16, lowp> lowp_u16vec2; + + /// Low qualifier 16 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u16, lowp> lowp_u16vec3; + + /// Low qualifier 16 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u16, lowp> lowp_u16vec4; + + + /// Medium qualifier 16 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u16, mediump> mediump_u16vec1; + + /// Medium qualifier 16 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u16, mediump> mediump_u16vec2; + + /// Medium qualifier 16 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u16, mediump> mediump_u16vec3; + + /// Medium qualifier 16 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u16, mediump> mediump_u16vec4; + + + /// High qualifier 16 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u16, highp> highp_u16vec1; + + /// High qualifier 16 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u16, highp> highp_u16vec2; + + /// High qualifier 16 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u16, highp> highp_u16vec3; + + /// High qualifier 16 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u16, highp> highp_u16vec4; + + + /// Low qualifier 32 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u32, lowp> lowp_u32vec1; + + /// Low qualifier 32 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u32, lowp> lowp_u32vec2; + + /// Low qualifier 32 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u32, lowp> lowp_u32vec3; + + /// Low qualifier 32 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u32, lowp> lowp_u32vec4; + + + /// Medium qualifier 32 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u32, mediump> mediump_u32vec1; + + /// Medium qualifier 32 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u32, mediump> mediump_u32vec2; + + /// Medium qualifier 32 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u32, mediump> mediump_u32vec3; + + /// Medium qualifier 32 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u32, mediump> mediump_u32vec4; + + + /// High qualifier 32 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u32, highp> highp_u32vec1; + + /// High qualifier 32 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u32, highp> highp_u32vec2; + + /// High qualifier 32 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u32, highp> highp_u32vec3; + + /// High qualifier 32 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u32, highp> highp_u32vec4; + + + /// Low qualifier 64 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u64, lowp> lowp_u64vec1; + + /// Low qualifier 64 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u64, lowp> lowp_u64vec2; + + /// Low qualifier 64 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u64, lowp> lowp_u64vec3; + + /// Low qualifier 64 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u64, lowp> lowp_u64vec4; + + + /// Medium qualifier 64 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u64, mediump> mediump_u64vec1; + + /// Medium qualifier 64 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u64, mediump> mediump_u64vec2; + + /// Medium qualifier 64 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u64, mediump> mediump_u64vec3; + + /// Medium qualifier 64 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u64, mediump> mediump_u64vec4; + + + /// High qualifier 64 bit unsigned integer scalar type. + /// @see gtc_type_precision + typedef vec<1, u64, highp> highp_u64vec1; + + /// High qualifier 64 bit unsigned integer vector of 2 components type. + /// @see gtc_type_precision + typedef vec<2, u64, highp> highp_u64vec2; + + /// High qualifier 64 bit unsigned integer vector of 3 components type. + /// @see gtc_type_precision + typedef vec<3, u64, highp> highp_u64vec3; + + /// High qualifier 64 bit unsigned integer vector of 4 components type. + /// @see gtc_type_precision + typedef vec<4, u64, highp> highp_u64vec4; + + + ////////////////////// + // Float vector types + + /// 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 float32_t; + + /// 32 bit single-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float32 f32; + +# ifndef GLM_FORCE_SINGLE_ONLY + + /// 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 float64_t; + + /// 64 bit double-qualifier floating-point scalar. + /// @see gtc_type_precision + typedef float64 f64; +# endif//GLM_FORCE_SINGLE_ONLY + + /// Single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, float, defaultp> fvec1; + + /// Single-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, float, defaultp> fvec2; + + /// Single-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, float, defaultp> fvec3; + + /// Single-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, float, defaultp> fvec4; + + + /// Single-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f32, defaultp> f32vec1; + + /// Single-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, f32, defaultp> f32vec2; + + /// Single-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, f32, defaultp> f32vec3; + + /// Single-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, f32, defaultp> f32vec4; + +# ifndef GLM_FORCE_SINGLE_ONLY + /// Double-qualifier floating-point vector of 1 component. + /// @see gtc_type_precision + typedef vec<1, f64, defaultp> f64vec1; + + /// Double-qualifier floating-point vector of 2 components. + /// @see gtc_type_precision + typedef vec<2, f64, defaultp> f64vec2; + + /// Double-qualifier floating-point vector of 3 components. + /// @see gtc_type_precision + typedef vec<3, f64, defaultp> f64vec3; + + /// Double-qualifier floating-point vector of 4 components. + /// @see gtc_type_precision + typedef vec<4, f64, defaultp> f64vec4; +# endif//GLM_FORCE_SINGLE_ONLY + + + ////////////////////// + // Float matrix types + + /// Single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef detail::tmat1x1 fmat1; + + /// Single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, defaultp> fmat2; + + /// Single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, defaultp> fmat3; + + /// Single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, defaultp> fmat4; + + + /// Single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f32 fmat1x1; + + /// Single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, defaultp> fmat2x2; + + /// Single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, defaultp> fmat2x3; + + /// Single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, defaultp> fmat2x4; + + /// Single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, defaultp> fmat3x2; + + /// Single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, defaultp> fmat3x3; + + /// Single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, defaultp> fmat3x4; + + /// Single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, defaultp> fmat4x2; + + /// Single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, defaultp> fmat4x3; + + /// Single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, defaultp> fmat4x4; + + + /// Single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef detail::tmat1x1 f32mat1; + + /// Single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, defaultp> f32mat2; + + /// Single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, defaultp> f32mat3; + + /// Single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, defaultp> f32mat4; + + + /// Single-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f32 f32mat1x1; + + /// Single-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f32, defaultp> f32mat2x2; + + /// Single-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f32, defaultp> f32mat2x3; + + /// Single-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f32, defaultp> f32mat2x4; + + /// Single-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f32, defaultp> f32mat3x2; + + /// Single-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f32, defaultp> f32mat3x3; + + /// Single-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f32, defaultp> f32mat3x4; + + /// Single-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f32, defaultp> f32mat4x2; + + /// Single-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f32, defaultp> f32mat4x3; + + /// Single-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f32, defaultp> f32mat4x4; + + +# ifndef GLM_FORCE_SINGLE_ONLY + + /// Double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef detail::tmat1x1 f64mat1; + + /// Double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f64, defaultp> f64mat2; + + /// Double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f64, defaultp> f64mat3; + + /// Double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f64, defaultp> f64mat4; + + + /// Double-qualifier floating-point 1x1 matrix. + /// @see gtc_type_precision + //typedef f64 f64mat1x1; + + /// Double-qualifier floating-point 2x2 matrix. + /// @see gtc_type_precision + typedef mat<2, 2, f64, defaultp> f64mat2x2; + + /// Double-qualifier floating-point 2x3 matrix. + /// @see gtc_type_precision + typedef mat<2, 3, f64, defaultp> f64mat2x3; + + /// Double-qualifier floating-point 2x4 matrix. + /// @see gtc_type_precision + typedef mat<2, 4, f64, defaultp> f64mat2x4; + + /// Double-qualifier floating-point 3x2 matrix. + /// @see gtc_type_precision + typedef mat<3, 2, f64, defaultp> f64mat3x2; + + /// Double-qualifier floating-point 3x3 matrix. + /// @see gtc_type_precision + typedef mat<3, 3, f64, defaultp> f64mat3x3; + + /// Double-qualifier floating-point 3x4 matrix. + /// @see gtc_type_precision + typedef mat<3, 4, f64, defaultp> f64mat3x4; + + /// Double-qualifier floating-point 4x2 matrix. + /// @see gtc_type_precision + typedef mat<4, 2, f64, defaultp> f64mat4x2; + + /// Double-qualifier floating-point 4x3 matrix. + /// @see gtc_type_precision + typedef mat<4, 3, f64, defaultp> f64mat4x3; + + /// Double-qualifier floating-point 4x4 matrix. + /// @see gtc_type_precision + typedef mat<4, 4, f64, defaultp> f64mat4x4; + +# endif//GLM_FORCE_SINGLE_ONLY + + ////////////////////////// + // Quaternion types + + /// Single-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua f32quat; + + /// Low single-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua lowp_f32quat; + + /// Low double-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua lowp_f64quat; + + /// Medium single-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua mediump_f32quat; + +# ifndef GLM_FORCE_SINGLE_ONLY + + /// Medium double-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua mediump_f64quat; + + /// High single-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua highp_f32quat; + + /// High double-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua highp_f64quat; + + /// Double-qualifier floating-point quaternion. + /// @see gtc_type_precision + typedef qua f64quat; + +# endif//GLM_FORCE_SINGLE_ONLY + + /// @} +}//namespace glm + +#include "type_precision.inl" diff --git a/Vulkan/ext/include/glm/gtc/type_precision.inl b/Vulkan/ext/include/glm/gtc/type_precision.inl new file mode 100644 index 0000000..ae80912 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/type_precision.inl @@ -0,0 +1,6 @@ +/// @ref gtc_precision + +namespace glm +{ + +} diff --git a/Vulkan/ext/include/glm/gtc/type_ptr.hpp b/Vulkan/ext/include/glm/gtc/type_ptr.hpp new file mode 100644 index 0000000..d7e625a --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/type_ptr.hpp @@ -0,0 +1,230 @@ +/// @ref gtc_type_ptr +/// @file glm/gtc/type_ptr.hpp +/// +/// @see core (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtc_type_ptr GLM_GTC_type_ptr +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Handles the interaction between pointers and vector, matrix types. +/// +/// This extension defines an overloaded function, glm::value_ptr. It returns +/// a pointer to the memory layout of the object. Matrix types store their values +/// in column-major order. +/// +/// This is useful for uploading data to matrices or copying data to buffer objects. +/// +/// Example: +/// @code +/// #include +/// #include +/// +/// glm::vec3 aVector(3); +/// glm::mat4 someMatrix(1.0); +/// +/// glUniform3fv(uniformLoc, 1, glm::value_ptr(aVector)); +/// glUniformMatrix4fv(uniformMatrixLoc, 1, GL_FALSE, glm::value_ptr(someMatrix)); +/// @endcode +/// +/// need to be included to use the features of this extension. + +#pragma once + +// Dependency: +#include "../gtc/quaternion.hpp" +#include "../gtc/vec1.hpp" +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include "../mat2x2.hpp" +#include "../mat2x3.hpp" +#include "../mat2x4.hpp" +#include "../mat3x2.hpp" +#include "../mat3x3.hpp" +#include "../mat3x4.hpp" +#include "../mat4x2.hpp" +#include "../mat4x3.hpp" +#include "../mat4x4.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_type_ptr extension included") +#endif + +namespace glm +{ + /// @addtogroup gtc_type_ptr + /// @{ + + /// Return the constant address to the data of the input parameter. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL typename genType::value_type const * value_ptr(genType const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<1, T, Q> make_vec1(vec<1, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<1, T, Q> make_vec1(vec<2, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<1, T, Q> make_vec1(vec<3, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<1, T, Q> make_vec1(vec<4, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<2, T, Q> make_vec2(vec<1, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<2, T, Q> make_vec2(vec<2, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<2, T, Q> make_vec2(vec<3, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<2, T, Q> make_vec2(vec<4, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<3, T, Q> make_vec3(vec<1, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<3, T, Q> make_vec3(vec<2, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<3, T, Q> make_vec3(vec<3, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<3, T, Q> make_vec3(vec<4, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<4, T, Q> make_vec4(vec<1, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<4, T, Q> make_vec4(vec<2, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<4, T, Q> make_vec4(vec<3, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<4, T, Q> make_vec4(vec<4, T, Q> const& v); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<2, T, defaultp> make_vec2(T const * const ptr); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<3, T, defaultp> make_vec3(T const * const ptr); + + /// Build a vector from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL vec<4, T, defaultp> make_vec4(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<2, 2, T, defaultp> make_mat2x2(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<2, 3, T, defaultp> make_mat2x3(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<2, 4, T, defaultp> make_mat2x4(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<3, 2, T, defaultp> make_mat3x2(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<3, 3, T, defaultp> make_mat3x3(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<3, 4, T, defaultp> make_mat3x4(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<4, 2, T, defaultp> make_mat4x2(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<4, 3, T, defaultp> make_mat4x3(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> make_mat4x4(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<2, 2, T, defaultp> make_mat2(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<3, 3, T, defaultp> make_mat3(T const * const ptr); + + /// Build a matrix from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> make_mat4(T const * const ptr); + + /// Build a quaternion from a pointer. + /// @see gtc_type_ptr + template + GLM_FUNC_DECL qua make_quat(T const * const ptr); + + /// @} +}//namespace glm + +#include "type_ptr.inl" diff --git a/Vulkan/ext/include/glm/gtc/type_ptr.inl b/Vulkan/ext/include/glm/gtc/type_ptr.inl new file mode 100644 index 0000000..71df4d3 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/type_ptr.inl @@ -0,0 +1,386 @@ +/// @ref gtc_type_ptr + +#include + +namespace glm +{ + /// @addtogroup gtc_type_ptr + /// @{ + + template + GLM_FUNC_QUALIFIER T const* value_ptr(vec<2, T, Q> const& v) + { + return &(v.x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(vec<2, T, Q>& v) + { + return &(v.x); + } + + template + GLM_FUNC_QUALIFIER T const * value_ptr(vec<3, T, Q> const& v) + { + return &(v.x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(vec<3, T, Q>& v) + { + return &(v.x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(vec<4, T, Q> const& v) + { + return &(v.x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(vec<4, T, Q>& v) + { + return &(v.x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<2, 2, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<2, 2, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<3, 3, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<3, 3, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<4, 4, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<4, 4, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<2, 3, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<2, 3, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<3, 2, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<3, 2, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<2, 4, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<2, 4, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<4, 2, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<4, 2, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<3, 4, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(mat<3, 4, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const* value_ptr(mat<4, 3, T, Q> const& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T * value_ptr(mat<4, 3, T, Q>& m) + { + return &(m[0].x); + } + + template + GLM_FUNC_QUALIFIER T const * value_ptr(qua const& q) + { + return &(q[0]); + } + + template + GLM_FUNC_QUALIFIER T* value_ptr(qua& q) + { + return &(q[0]); + } + + template + inline vec<1, T, Q> make_vec1(vec<1, T, Q> const& v) + { + return v; + } + + template + inline vec<1, T, Q> make_vec1(vec<2, T, Q> const& v) + { + return vec<1, T, Q>(v); + } + + template + inline vec<1, T, Q> make_vec1(vec<3, T, Q> const& v) + { + return vec<1, T, Q>(v); + } + + template + inline vec<1, T, Q> make_vec1(vec<4, T, Q> const& v) + { + return vec<1, T, Q>(v); + } + + template + inline vec<2, T, Q> make_vec2(vec<1, T, Q> const& v) + { + return vec<2, T, Q>(v.x, static_cast(0)); + } + + template + inline vec<2, T, Q> make_vec2(vec<2, T, Q> const& v) + { + return v; + } + + template + inline vec<2, T, Q> make_vec2(vec<3, T, Q> const& v) + { + return vec<2, T, Q>(v); + } + + template + inline vec<2, T, Q> make_vec2(vec<4, T, Q> const& v) + { + return vec<2, T, Q>(v); + } + + template + inline vec<3, T, Q> make_vec3(vec<1, T, Q> const& v) + { + return vec<3, T, Q>(v.x, static_cast(0), static_cast(0)); + } + + template + inline vec<3, T, Q> make_vec3(vec<2, T, Q> const& v) + { + return vec<3, T, Q>(v.x, v.y, static_cast(0)); + } + + template + inline vec<3, T, Q> make_vec3(vec<3, T, Q> const& v) + { + return v; + } + + template + inline vec<3, T, Q> make_vec3(vec<4, T, Q> const& v) + { + return vec<3, T, Q>(v); + } + + template + inline vec<4, T, Q> make_vec4(vec<1, T, Q> const& v) + { + return vec<4, T, Q>(v.x, static_cast(0), static_cast(0), static_cast(1)); + } + + template + inline vec<4, T, Q> make_vec4(vec<2, T, Q> const& v) + { + return vec<4, T, Q>(v.x, v.y, static_cast(0), static_cast(1)); + } + + template + inline vec<4, T, Q> make_vec4(vec<3, T, Q> const& v) + { + return vec<4, T, Q>(v.x, v.y, v.z, static_cast(1)); + } + + template + inline vec<4, T, Q> make_vec4(vec<4, T, Q> const& v) + { + return v; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, defaultp> make_vec2(T const *const ptr) + { + vec<2, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(vec<2, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, defaultp> make_vec3(T const *const ptr) + { + vec<3, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(vec<3, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, defaultp> make_vec4(T const *const ptr) + { + vec<4, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(vec<4, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, defaultp> make_mat2x2(T const *const ptr) + { + mat<2, 2, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<2, 2, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, defaultp> make_mat2x3(T const *const ptr) + { + mat<2, 3, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<2, 3, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, defaultp> make_mat2x4(T const *const ptr) + { + mat<2, 4, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<2, 4, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, defaultp> make_mat3x2(T const *const ptr) + { + mat<3, 2, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<3, 2, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, defaultp> make_mat3x3(T const *const ptr) + { + mat<3, 3, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<3, 3, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, defaultp> make_mat3x4(T const *const ptr) + { + mat<3, 4, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<3, 4, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, defaultp> make_mat4x2(T const *const ptr) + { + mat<4, 2, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<4, 2, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, defaultp> make_mat4x3(T const *const ptr) + { + mat<4, 3, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<4, 3, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> make_mat4x4(T const *const ptr) + { + mat<4, 4, T, defaultp> Result; + memcpy(value_ptr(Result), ptr, sizeof(mat<4, 4, T, defaultp>)); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, defaultp> make_mat2(T const *const ptr) + { + return make_mat2x2(ptr); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, defaultp> make_mat3(T const *const ptr) + { + return make_mat3x3(ptr); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> make_mat4(T const *const ptr) + { + return make_mat4x4(ptr); + } + + template + GLM_FUNC_QUALIFIER qua make_quat(T const *const ptr) + { + qua Result; + memcpy(value_ptr(Result), ptr, sizeof(qua)); + return Result; + } + + /// @} +}//namespace glm + diff --git a/Vulkan/ext/include/glm/gtc/ulp.hpp b/Vulkan/ext/include/glm/gtc/ulp.hpp new file mode 100644 index 0000000..0d80a75 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/ulp.hpp @@ -0,0 +1,152 @@ +/// @ref gtc_ulp +/// @file glm/gtc/ulp.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_ulp GLM_GTC_ulp +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Allow the measurement of the accuracy of a function against a reference +/// implementation. This extension works on floating-point data and provide results +/// in ULP. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/_vectorize.hpp" +#include "../ext/scalar_int_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_ulp extension included") +#endif + +namespace glm +{ + /// Return the next ULP value(s) after the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL genType next_float(genType x); + + /// Return the previous ULP value(s) before the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL genType prev_float(genType x); + + /// Return the value(s) ULP distance after the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL genType next_float(genType x, int ULPs); + + /// Return the value(s) ULP distance before the input value(s). + /// + /// @tparam genType A floating-point scalar type. + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL genType prev_float(genType x, int ULPs); + + /// Return the distance in the number of ULP between 2 single-precision floating-point scalars. + /// + /// @see gtc_ulp + GLM_FUNC_DECL int float_distance(float x, float y); + + /// Return the distance in the number of ULP between 2 double-precision floating-point scalars. + /// + /// @see gtc_ulp + GLM_FUNC_DECL int64 float_distance(double x, double y); + + /// Return the next ULP value(s) after the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec next_float(vec const& x); + + /// Return the value(s) ULP distance after the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec next_float(vec const& x, int ULPs); + + /// Return the value(s) ULP distance after the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec next_float(vec const& x, vec const& ULPs); + + /// Return the previous ULP value(s) before the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec prev_float(vec const& x); + + /// Return the value(s) ULP distance before the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec prev_float(vec const& x, int ULPs); + + /// Return the value(s) ULP distance before the input value(s). + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec prev_float(vec const& x, vec const& ULPs); + + /// Return the distance in the number of ULP between 2 single-precision floating-point scalars. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec float_distance(vec const& x, vec const& y); + + /// Return the distance in the number of ULP between 2 double-precision floating-point scalars. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam Q Value from qualifier enum + /// + /// @see gtc_ulp + template + GLM_FUNC_DECL vec float_distance(vec const& x, vec const& y); + + /// @} +}//namespace glm + +#include "ulp.inl" diff --git a/Vulkan/ext/include/glm/gtc/ulp.inl b/Vulkan/ext/include/glm/gtc/ulp.inl new file mode 100644 index 0000000..4ecbd3f --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/ulp.inl @@ -0,0 +1,173 @@ +/// @ref gtc_ulp + +#include "../ext/scalar_ulp.hpp" + +namespace glm +{ + template<> + GLM_FUNC_QUALIFIER float next_float(float x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::max()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return detail::nextafterf(x, FLT_MAX); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafterf(x, FLT_MAX); +# else + return nextafterf(x, FLT_MAX); +# endif + } + + template<> + GLM_FUNC_QUALIFIER double next_float(double x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::max()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return detail::nextafter(x, std::numeric_limits::max()); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafter(x, DBL_MAX); +# else + return nextafter(x, DBL_MAX); +# endif + } + + template + GLM_FUNC_QUALIFIER T next_float(T x, int ULPs) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'next_float' only accept floating-point input"); + assert(ULPs >= 0); + + T temp = x; + for (int i = 0; i < ULPs; ++i) + temp = next_float(temp); + return temp; + } + + GLM_FUNC_QUALIFIER float prev_float(float x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::min()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return detail::nextafterf(x, FLT_MIN); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafterf(x, FLT_MIN); +# else + return nextafterf(x, FLT_MIN); +# endif + } + + GLM_FUNC_QUALIFIER double prev_float(double x) + { +# if GLM_HAS_CXX11_STL + return std::nextafter(x, std::numeric_limits::min()); +# elif((GLM_COMPILER & GLM_COMPILER_VC) || ((GLM_COMPILER & GLM_COMPILER_INTEL) && (GLM_PLATFORM & GLM_PLATFORM_WINDOWS))) + return _nextafter(x, DBL_MIN); +# elif(GLM_PLATFORM & GLM_PLATFORM_ANDROID) + return __builtin_nextafter(x, DBL_MIN); +# else + return nextafter(x, DBL_MIN); +# endif + } + + template + GLM_FUNC_QUALIFIER T prev_float(T x, int ULPs) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'prev_float' only accept floating-point input"); + assert(ULPs >= 0); + + T temp = x; + for (int i = 0; i < ULPs; ++i) + temp = prev_float(temp); + return temp; + } + + GLM_FUNC_QUALIFIER int float_distance(float x, float y) + { + detail::float_t const a(x); + detail::float_t const b(y); + + return abs(a.i - b.i); + } + + GLM_FUNC_QUALIFIER int64 float_distance(double x, double y) + { + detail::float_t const a(x); + detail::float_t const b(y); + + return abs(a.i - b.i); + } + + template + GLM_FUNC_QUALIFIER vec next_float(vec const& x) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = next_float(x[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec next_float(vec const& x, int ULPs) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = next_float(x[i], ULPs); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec next_float(vec const& x, vec const& ULPs) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = next_float(x[i], ULPs[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec prev_float(vec const& x) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = prev_float(x[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec prev_float(vec const& x, int ULPs) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = prev_float(x[i], ULPs); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec prev_float(vec const& x, vec const& ULPs) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = prev_float(x[i], ULPs[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec float_distance(vec const& x, vec const& y) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = float_distance(x[i], y[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER vec float_distance(vec const& x, vec const& y) + { + vec Result; + for (length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = float_distance(x[i], y[i]); + return Result; + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/gtc/vec1.hpp b/Vulkan/ext/include/glm/gtc/vec1.hpp new file mode 100644 index 0000000..63697a2 --- /dev/null +++ b/Vulkan/ext/include/glm/gtc/vec1.hpp @@ -0,0 +1,30 @@ +/// @ref gtc_vec1 +/// @file glm/gtc/vec1.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtc_vec1 GLM_GTC_vec1 +/// @ingroup gtc +/// +/// Include to use the features of this extension. +/// +/// Add vec1, ivec1, uvec1 and bvec1 types. + +#pragma once + +// Dependency: +#include "../ext/vector_bool1.hpp" +#include "../ext/vector_bool1_precision.hpp" +#include "../ext/vector_float1.hpp" +#include "../ext/vector_float1_precision.hpp" +#include "../ext/vector_double1.hpp" +#include "../ext/vector_double1_precision.hpp" +#include "../ext/vector_int1.hpp" +#include "../ext/vector_int1_sized.hpp" +#include "../ext/vector_uint1.hpp" +#include "../ext/vector_uint1_sized.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# pragma message("GLM: GLM_GTC_vec1 extension included") +#endif + diff --git a/Vulkan/ext/include/glm/gtx/associated_min_max.hpp b/Vulkan/ext/include/glm/gtx/associated_min_max.hpp new file mode 100644 index 0000000..d1a41c0 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/associated_min_max.hpp @@ -0,0 +1,207 @@ +/// @ref gtx_associated_min_max +/// @file glm/gtx/associated_min_max.hpp +/// +/// @see core (dependence) +/// @see gtx_extented_min_max (dependence) +/// +/// @defgroup gtx_associated_min_max GLM_GTX_associated_min_max +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// @brief Min and max functions that return associated values not the compared onces. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_associated_min_max is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_associated_min_max extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_associated_min_max + /// @{ + + /// Minimum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL U associatedMin(T x, U a, T y, U b); + + /// Minimum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec<2, U, Q> associatedMin( + vec const& x, vec const& a, + vec const& y, vec const& b); + + /// Minimum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMin( + T x, const vec& a, + T y, const vec& b); + + /// Minimum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMin( + vec const& x, U a, + vec const& y, U b); + + /// Minimum comparison between 3 variables and returns 3 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL U associatedMin( + T x, U a, + T y, U b, + T z, U c); + + /// Minimum comparison between 3 variables and returns 3 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMin( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c); + + /// Minimum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL U associatedMin( + T x, U a, + T y, U b, + T z, U c, + T w, U d); + + /// Minimum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMin( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c, + vec const& w, vec const& d); + + /// Minimum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMin( + T x, vec const& a, + T y, vec const& b, + T z, vec const& c, + T w, vec const& d); + + /// Minimum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMin( + vec const& x, U a, + vec const& y, U b, + vec const& z, U c, + vec const& w, U d); + + /// Maximum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL U associatedMax(T x, U a, T y, U b); + + /// Maximum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec<2, U, Q> associatedMax( + vec const& x, vec const& a, + vec const& y, vec const& b); + + /// Maximum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + T x, vec const& a, + T y, vec const& b); + + /// Maximum comparison between 2 variables and returns 2 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + vec const& x, U a, + vec const& y, U b); + + /// Maximum comparison between 3 variables and returns 3 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL U associatedMax( + T x, U a, + T y, U b, + T z, U c); + + /// Maximum comparison between 3 variables and returns 3 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c); + + /// Maximum comparison between 3 variables and returns 3 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + T x, vec const& a, + T y, vec const& b, + T z, vec const& c); + + /// Maximum comparison between 3 variables and returns 3 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + vec const& x, U a, + vec const& y, U b, + vec const& z, U c); + + /// Maximum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL U associatedMax( + T x, U a, + T y, U b, + T z, U c, + T w, U d); + + /// Maximum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c, + vec const& w, vec const& d); + + /// Maximum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + T x, vec const& a, + T y, vec const& b, + T z, vec const& c, + T w, vec const& d); + + /// Maximum comparison between 4 variables and returns 4 associated variable values + /// @see gtx_associated_min_max + template + GLM_FUNC_DECL vec associatedMax( + vec const& x, U a, + vec const& y, U b, + vec const& z, U c, + vec const& w, U d); + + /// @} +} //namespace glm + +#include "associated_min_max.inl" diff --git a/Vulkan/ext/include/glm/gtx/associated_min_max.inl b/Vulkan/ext/include/glm/gtx/associated_min_max.inl new file mode 100644 index 0000000..5186c47 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/associated_min_max.inl @@ -0,0 +1,354 @@ +/// @ref gtx_associated_min_max + +namespace glm{ + +// Min comparison between 2 variables +template +GLM_FUNC_QUALIFIER U associatedMin(T x, U a, T y, U b) +{ + return x < y ? a : b; +} + +template +GLM_FUNC_QUALIFIER vec<2, U, Q> associatedMin +( + vec const& x, vec const& a, + vec const& y, vec const& b +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x[i] < y[i] ? a[i] : b[i]; + return Result; +} + +template +GLM_FUNC_QUALIFIER vec associatedMin +( + T x, const vec& a, + T y, const vec& b +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x < y ? a[i] : b[i]; + return Result; +} + +template +GLM_FUNC_QUALIFIER vec associatedMin +( + vec const& x, U a, + vec const& y, U b +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x[i] < y[i] ? a : b; + return Result; +} + +// Min comparison between 3 variables +template +GLM_FUNC_QUALIFIER U associatedMin +( + T x, U a, + T y, U b, + T z, U c +) +{ + U Result = x < y ? (x < z ? a : c) : (y < z ? b : c); + return Result; +} + +template +GLM_FUNC_QUALIFIER vec associatedMin +( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x[i] < y[i] ? (x[i] < z[i] ? a[i] : c[i]) : (y[i] < z[i] ? b[i] : c[i]); + return Result; +} + +// Min comparison between 4 variables +template +GLM_FUNC_QUALIFIER U associatedMin +( + T x, U a, + T y, U b, + T z, U c, + T w, U d +) +{ + T Test1 = min(x, y); + T Test2 = min(z, w); + U Result1 = x < y ? a : b; + U Result2 = z < w ? c : d; + U Result = Test1 < Test2 ? Result1 : Result2; + return Result; +} + +// Min comparison between 4 variables +template +GLM_FUNC_QUALIFIER vec associatedMin +( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c, + vec const& w, vec const& d +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + { + T Test1 = min(x[i], y[i]); + T Test2 = min(z[i], w[i]); + U Result1 = x[i] < y[i] ? a[i] : b[i]; + U Result2 = z[i] < w[i] ? c[i] : d[i]; + Result[i] = Test1 < Test2 ? Result1 : Result2; + } + return Result; +} + +// Min comparison between 4 variables +template +GLM_FUNC_QUALIFIER vec associatedMin +( + T x, vec const& a, + T y, vec const& b, + T z, vec const& c, + T w, vec const& d +) +{ + T Test1 = min(x, y); + T Test2 = min(z, w); + + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + { + U Result1 = x < y ? a[i] : b[i]; + U Result2 = z < w ? c[i] : d[i]; + Result[i] = Test1 < Test2 ? Result1 : Result2; + } + return Result; +} + +// Min comparison between 4 variables +template +GLM_FUNC_QUALIFIER vec associatedMin +( + vec const& x, U a, + vec const& y, U b, + vec const& z, U c, + vec const& w, U d +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + { + T Test1 = min(x[i], y[i]); + T Test2 = min(z[i], w[i]); + U Result1 = x[i] < y[i] ? a : b; + U Result2 = z[i] < w[i] ? c : d; + Result[i] = Test1 < Test2 ? Result1 : Result2; + } + return Result; +} + +// Max comparison between 2 variables +template +GLM_FUNC_QUALIFIER U associatedMax(T x, U a, T y, U b) +{ + return x > y ? a : b; +} + +// Max comparison between 2 variables +template +GLM_FUNC_QUALIFIER vec<2, U, Q> associatedMax +( + vec const& x, vec const& a, + vec const& y, vec const& b +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x[i] > y[i] ? a[i] : b[i]; + return Result; +} + +// Max comparison between 2 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + T x, vec const& a, + T y, vec const& b +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x > y ? a[i] : b[i]; + return Result; +} + +// Max comparison between 2 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + vec const& x, U a, + vec const& y, U b +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x[i] > y[i] ? a : b; + return Result; +} + +// Max comparison between 3 variables +template +GLM_FUNC_QUALIFIER U associatedMax +( + T x, U a, + T y, U b, + T z, U c +) +{ + U Result = x > y ? (x > z ? a : c) : (y > z ? b : c); + return Result; +} + +// Max comparison between 3 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x[i] > y[i] ? (x[i] > z[i] ? a[i] : c[i]) : (y[i] > z[i] ? b[i] : c[i]); + return Result; +} + +// Max comparison between 3 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + T x, vec const& a, + T y, vec const& b, + T z, vec const& c +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x > y ? (x > z ? a[i] : c[i]) : (y > z ? b[i] : c[i]); + return Result; +} + +// Max comparison between 3 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + vec const& x, U a, + vec const& y, U b, + vec const& z, U c +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + Result[i] = x[i] > y[i] ? (x[i] > z[i] ? a : c) : (y[i] > z[i] ? b : c); + return Result; +} + +// Max comparison between 4 variables +template +GLM_FUNC_QUALIFIER U associatedMax +( + T x, U a, + T y, U b, + T z, U c, + T w, U d +) +{ + T Test1 = max(x, y); + T Test2 = max(z, w); + U Result1 = x > y ? a : b; + U Result2 = z > w ? c : d; + U Result = Test1 > Test2 ? Result1 : Result2; + return Result; +} + +// Max comparison between 4 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + vec const& x, vec const& a, + vec const& y, vec const& b, + vec const& z, vec const& c, + vec const& w, vec const& d +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + { + T Test1 = max(x[i], y[i]); + T Test2 = max(z[i], w[i]); + U Result1 = x[i] > y[i] ? a[i] : b[i]; + U Result2 = z[i] > w[i] ? c[i] : d[i]; + Result[i] = Test1 > Test2 ? Result1 : Result2; + } + return Result; +} + +// Max comparison between 4 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + T x, vec const& a, + T y, vec const& b, + T z, vec const& c, + T w, vec const& d +) +{ + T Test1 = max(x, y); + T Test2 = max(z, w); + + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + { + U Result1 = x > y ? a[i] : b[i]; + U Result2 = z > w ? c[i] : d[i]; + Result[i] = Test1 > Test2 ? Result1 : Result2; + } + return Result; +} + +// Max comparison between 4 variables +template +GLM_FUNC_QUALIFIER vec associatedMax +( + vec const& x, U a, + vec const& y, U b, + vec const& z, U c, + vec const& w, U d +) +{ + vec Result; + for(length_t i = 0, n = Result.length(); i < n; ++i) + { + T Test1 = max(x[i], y[i]); + T Test2 = max(z[i], w[i]); + U Result1 = x[i] > y[i] ? a : b; + U Result2 = z[i] > w[i] ? c : d; + Result[i] = Test1 > Test2 ? Result1 : Result2; + } + return Result; +} +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/bit.hpp b/Vulkan/ext/include/glm/gtx/bit.hpp new file mode 100644 index 0000000..60a7aef --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/bit.hpp @@ -0,0 +1,98 @@ +/// @ref gtx_bit +/// @file glm/gtx/bit.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_bit GLM_GTX_bit +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Allow to perform bit operations on integer values + +#pragma once + +// Dependencies +#include "../gtc/bitfield.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_bit is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_bit extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_bit + /// @{ + + /// @see gtx_bit + template + GLM_FUNC_DECL genIUType highestBitValue(genIUType Value); + + /// @see gtx_bit + template + GLM_FUNC_DECL genIUType lowestBitValue(genIUType Value); + + /// Find the highest bit set to 1 in a integer variable and return its value. + /// + /// @see gtx_bit + template + GLM_FUNC_DECL vec highestBitValue(vec const& value); + + /// Return the power of two number which value is just higher the input value. + /// Deprecated, use ceilPowerOfTwo from GTC_round instead + /// + /// @see gtc_round + /// @see gtx_bit + template + GLM_DEPRECATED GLM_FUNC_DECL genIUType powerOfTwoAbove(genIUType Value); + + /// Return the power of two number which value is just higher the input value. + /// Deprecated, use ceilPowerOfTwo from GTC_round instead + /// + /// @see gtc_round + /// @see gtx_bit + template + GLM_DEPRECATED GLM_FUNC_DECL vec powerOfTwoAbove(vec const& value); + + /// Return the power of two number which value is just lower the input value. + /// Deprecated, use floorPowerOfTwo from GTC_round instead + /// + /// @see gtc_round + /// @see gtx_bit + template + GLM_DEPRECATED GLM_FUNC_DECL genIUType powerOfTwoBelow(genIUType Value); + + /// Return the power of two number which value is just lower the input value. + /// Deprecated, use floorPowerOfTwo from GTC_round instead + /// + /// @see gtc_round + /// @see gtx_bit + template + GLM_DEPRECATED GLM_FUNC_DECL vec powerOfTwoBelow(vec const& value); + + /// Return the power of two number which value is the closet to the input value. + /// Deprecated, use roundPowerOfTwo from GTC_round instead + /// + /// @see gtc_round + /// @see gtx_bit + template + GLM_DEPRECATED GLM_FUNC_DECL genIUType powerOfTwoNearest(genIUType Value); + + /// Return the power of two number which value is the closet to the input value. + /// Deprecated, use roundPowerOfTwo from GTC_round instead + /// + /// @see gtc_round + /// @see gtx_bit + template + GLM_DEPRECATED GLM_FUNC_DECL vec powerOfTwoNearest(vec const& value); + + /// @} +} //namespace glm + + +#include "bit.inl" + diff --git a/Vulkan/ext/include/glm/gtx/bit.inl b/Vulkan/ext/include/glm/gtx/bit.inl new file mode 100644 index 0000000..621b626 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/bit.inl @@ -0,0 +1,92 @@ +/// @ref gtx_bit + +namespace glm +{ + /////////////////// + // highestBitValue + + template + GLM_FUNC_QUALIFIER genIUType highestBitValue(genIUType Value) + { + genIUType tmp = Value; + genIUType result = genIUType(0); + while(tmp) + { + result = (tmp & (~tmp + 1)); // grab lowest bit + tmp &= ~result; // clear lowest bit + } + return result; + } + + template + GLM_FUNC_QUALIFIER vec highestBitValue(vec const& v) + { + return detail::functor1::call(highestBitValue, v); + } + + /////////////////// + // lowestBitValue + + template + GLM_FUNC_QUALIFIER genIUType lowestBitValue(genIUType Value) + { + return (Value & (~Value + 1)); + } + + template + GLM_FUNC_QUALIFIER vec lowestBitValue(vec const& v) + { + return detail::functor1::call(lowestBitValue, v); + } + + /////////////////// + // powerOfTwoAbove + + template + GLM_FUNC_QUALIFIER genType powerOfTwoAbove(genType value) + { + return isPowerOfTwo(value) ? value : highestBitValue(value) << 1; + } + + template + GLM_FUNC_QUALIFIER vec powerOfTwoAbove(vec const& v) + { + return detail::functor1::call(powerOfTwoAbove, v); + } + + /////////////////// + // powerOfTwoBelow + + template + GLM_FUNC_QUALIFIER genType powerOfTwoBelow(genType value) + { + return isPowerOfTwo(value) ? value : highestBitValue(value); + } + + template + GLM_FUNC_QUALIFIER vec powerOfTwoBelow(vec const& v) + { + return detail::functor1::call(powerOfTwoBelow, v); + } + + ///////////////////// + // powerOfTwoNearest + + template + GLM_FUNC_QUALIFIER genType powerOfTwoNearest(genType value) + { + if(isPowerOfTwo(value)) + return value; + + genType const prev = highestBitValue(value); + genType const next = prev << 1; + return (next - value) < (value - prev) ? next : prev; + } + + template + GLM_FUNC_QUALIFIER vec powerOfTwoNearest(vec const& v) + { + return detail::functor1::call(powerOfTwoNearest, v); + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/closest_point.hpp b/Vulkan/ext/include/glm/gtx/closest_point.hpp new file mode 100644 index 0000000..de6dbbf --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/closest_point.hpp @@ -0,0 +1,49 @@ +/// @ref gtx_closest_point +/// @file glm/gtx/closest_point.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_closest_point GLM_GTX_closest_point +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Find the point on a straight line which is the closet of a point. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_closest_point is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_closest_point extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_closest_point + /// @{ + + /// Find the point on a straight line which is the closet of a point. + /// @see gtx_closest_point + template + GLM_FUNC_DECL vec<3, T, Q> closestPointOnLine( + vec<3, T, Q> const& point, + vec<3, T, Q> const& a, + vec<3, T, Q> const& b); + + /// 2d lines work as well + template + GLM_FUNC_DECL vec<2, T, Q> closestPointOnLine( + vec<2, T, Q> const& point, + vec<2, T, Q> const& a, + vec<2, T, Q> const& b); + + /// @} +}// namespace glm + +#include "closest_point.inl" diff --git a/Vulkan/ext/include/glm/gtx/closest_point.inl b/Vulkan/ext/include/glm/gtx/closest_point.inl new file mode 100644 index 0000000..0a39b04 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/closest_point.inl @@ -0,0 +1,45 @@ +/// @ref gtx_closest_point + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> closestPointOnLine + ( + vec<3, T, Q> const& point, + vec<3, T, Q> const& a, + vec<3, T, Q> const& b + ) + { + T LineLength = distance(a, b); + vec<3, T, Q> Vector = point - a; + vec<3, T, Q> LineDirection = (b - a) / LineLength; + + // Project Vector to LineDirection to get the distance of point from a + T Distance = dot(Vector, LineDirection); + + if(Distance <= T(0)) return a; + if(Distance >= LineLength) return b; + return a + LineDirection * Distance; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> closestPointOnLine + ( + vec<2, T, Q> const& point, + vec<2, T, Q> const& a, + vec<2, T, Q> const& b + ) + { + T LineLength = distance(a, b); + vec<2, T, Q> Vector = point - a; + vec<2, T, Q> LineDirection = (b - a) / LineLength; + + // Project Vector to LineDirection to get the distance of point from a + T Distance = dot(Vector, LineDirection); + + if(Distance <= T(0)) return a; + if(Distance >= LineLength) return b; + return a + LineDirection * Distance; + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/color_encoding.hpp b/Vulkan/ext/include/glm/gtx/color_encoding.hpp new file mode 100644 index 0000000..96ded2a --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/color_encoding.hpp @@ -0,0 +1,54 @@ +/// @ref gtx_color_encoding +/// @file glm/gtx/color_encoding.hpp +/// +/// @see core (dependence) +/// @see gtx_color_encoding (dependence) +/// +/// @defgroup gtx_color_encoding GLM_GTX_color_encoding +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// @brief Allow to perform bit operations on integer values + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../vec3.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTC_color_encoding is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTC_color_encoding extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_color_encoding + /// @{ + + /// Convert a linear sRGB color to D65 YUV. + template + GLM_FUNC_DECL vec<3, T, Q> convertLinearSRGBToD65XYZ(vec<3, T, Q> const& ColorLinearSRGB); + + /// Convert a linear sRGB color to D50 YUV. + template + GLM_FUNC_DECL vec<3, T, Q> convertLinearSRGBToD50XYZ(vec<3, T, Q> const& ColorLinearSRGB); + + /// Convert a D65 YUV color to linear sRGB. + template + GLM_FUNC_DECL vec<3, T, Q> convertD65XYZToLinearSRGB(vec<3, T, Q> const& ColorD65XYZ); + + /// Convert a D65 YUV color to D50 YUV. + template + GLM_FUNC_DECL vec<3, T, Q> convertD65XYZToD50XYZ(vec<3, T, Q> const& ColorD65XYZ); + + /// @} +} //namespace glm + +#include "color_encoding.inl" diff --git a/Vulkan/ext/include/glm/gtx/color_encoding.inl b/Vulkan/ext/include/glm/gtx/color_encoding.inl new file mode 100644 index 0000000..e50fa3e --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/color_encoding.inl @@ -0,0 +1,45 @@ +/// @ref gtx_color_encoding + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> convertLinearSRGBToD65XYZ(vec<3, T, Q> const& ColorLinearSRGB) + { + vec<3, T, Q> const M(0.490f, 0.17697f, 0.2f); + vec<3, T, Q> const N(0.31f, 0.8124f, 0.01063f); + vec<3, T, Q> const O(0.490f, 0.01f, 0.99f); + + return (M * ColorLinearSRGB + N * ColorLinearSRGB + O * ColorLinearSRGB) * static_cast(5.650675255693055f); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> convertLinearSRGBToD50XYZ(vec<3, T, Q> const& ColorLinearSRGB) + { + vec<3, T, Q> const M(0.436030342570117f, 0.222438466210245f, 0.013897440074263f); + vec<3, T, Q> const N(0.385101860087134f, 0.716942745571917f, 0.097076381494207f); + vec<3, T, Q> const O(0.143067806654203f, 0.060618777416563f, 0.713926257896652f); + + return M * ColorLinearSRGB + N * ColorLinearSRGB + O * ColorLinearSRGB; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> convertD65XYZToLinearSRGB(vec<3, T, Q> const& ColorD65XYZ) + { + vec<3, T, Q> const M(0.41847f, -0.091169f, 0.0009209f); + vec<3, T, Q> const N(-0.15866f, 0.25243f, 0.015708f); + vec<3, T, Q> const O(0.0009209f, -0.0025498f, 0.1786f); + + return M * ColorD65XYZ + N * ColorD65XYZ + O * ColorD65XYZ; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> convertD65XYZToD50XYZ(vec<3, T, Q> const& ColorD65XYZ) + { + vec<3, T, Q> const M(+1.047844353856414f, +0.029549007606644f, -0.009250984365223f); + vec<3, T, Q> const N(+0.022898981050086f, +0.990508028941971f, +0.015072338237051f); + vec<3, T, Q> const O(-0.050206647741605f, -0.017074711360960f, +0.751717835079977f); + + return M * ColorD65XYZ + N * ColorD65XYZ + O * ColorD65XYZ; + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/color_space.hpp b/Vulkan/ext/include/glm/gtx/color_space.hpp new file mode 100644 index 0000000..a634392 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/color_space.hpp @@ -0,0 +1,72 @@ +/// @ref gtx_color_space +/// @file glm/gtx/color_space.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_color_space GLM_GTX_color_space +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Related to RGB to HSV conversions and operations. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_color_space is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_color_space extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_color_space + /// @{ + + /// Converts a color from HSV color space to its color in RGB color space. + /// @see gtx_color_space + template + GLM_FUNC_DECL vec<3, T, Q> rgbColor( + vec<3, T, Q> const& hsvValue); + + /// Converts a color from RGB color space to its color in HSV color space. + /// @see gtx_color_space + template + GLM_FUNC_DECL vec<3, T, Q> hsvColor( + vec<3, T, Q> const& rgbValue); + + /// Build a saturation matrix. + /// @see gtx_color_space + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> saturation( + T const s); + + /// Modify the saturation of a color. + /// @see gtx_color_space + template + GLM_FUNC_DECL vec<3, T, Q> saturation( + T const s, + vec<3, T, Q> const& color); + + /// Modify the saturation of a color. + /// @see gtx_color_space + template + GLM_FUNC_DECL vec<4, T, Q> saturation( + T const s, + vec<4, T, Q> const& color); + + /// Compute color luminosity associating ratios (0.33, 0.59, 0.11) to RGB canals. + /// @see gtx_color_space + template + GLM_FUNC_DECL T luminosity( + vec<3, T, Q> const& color); + + /// @} +}//namespace glm + +#include "color_space.inl" diff --git a/Vulkan/ext/include/glm/gtx/color_space.inl b/Vulkan/ext/include/glm/gtx/color_space.inl new file mode 100644 index 0000000..f698afe --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/color_space.inl @@ -0,0 +1,141 @@ +/// @ref gtx_color_space + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rgbColor(const vec<3, T, Q>& hsvColor) + { + vec<3, T, Q> hsv = hsvColor; + vec<3, T, Q> rgbColor; + + if(hsv.y == static_cast(0)) + // achromatic (grey) + rgbColor = vec<3, T, Q>(hsv.z); + else + { + T sector = floor(hsv.x * (T(1) / T(60))); + T frac = (hsv.x * (T(1) / T(60))) - sector; + // factorial part of h + T o = hsv.z * (T(1) - hsv.y); + T p = hsv.z * (T(1) - hsv.y * frac); + T q = hsv.z * (T(1) - hsv.y * (T(1) - frac)); + + switch(int(sector)) + { + default: + case 0: + rgbColor.r = hsv.z; + rgbColor.g = q; + rgbColor.b = o; + break; + case 1: + rgbColor.r = p; + rgbColor.g = hsv.z; + rgbColor.b = o; + break; + case 2: + rgbColor.r = o; + rgbColor.g = hsv.z; + rgbColor.b = q; + break; + case 3: + rgbColor.r = o; + rgbColor.g = p; + rgbColor.b = hsv.z; + break; + case 4: + rgbColor.r = q; + rgbColor.g = o; + rgbColor.b = hsv.z; + break; + case 5: + rgbColor.r = hsv.z; + rgbColor.g = o; + rgbColor.b = p; + break; + } + } + + return rgbColor; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> hsvColor(const vec<3, T, Q>& rgbColor) + { + vec<3, T, Q> hsv = rgbColor; + float Min = min(min(rgbColor.r, rgbColor.g), rgbColor.b); + float Max = max(max(rgbColor.r, rgbColor.g), rgbColor.b); + float Delta = Max - Min; + + hsv.z = Max; + + if(Max != static_cast(0)) + { + hsv.y = Delta / hsv.z; + T h = static_cast(0); + + if(rgbColor.r == Max) + // between yellow & magenta + h = static_cast(0) + T(60) * (rgbColor.g - rgbColor.b) / Delta; + else if(rgbColor.g == Max) + // between cyan & yellow + h = static_cast(120) + T(60) * (rgbColor.b - rgbColor.r) / Delta; + else + // between magenta & cyan + h = static_cast(240) + T(60) * (rgbColor.r - rgbColor.g) / Delta; + + if(h < T(0)) + hsv.x = h + T(360); + else + hsv.x = h; + } + else + { + // If r = g = b = 0 then s = 0, h is undefined + hsv.y = static_cast(0); + hsv.x = static_cast(0); + } + + return hsv; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> saturation(T const s) + { + vec<3, T, defaultp> rgbw = vec<3, T, defaultp>(T(0.2126), T(0.7152), T(0.0722)); + + vec<3, T, defaultp> const col((T(1) - s) * rgbw); + + mat<4, 4, T, defaultp> result(T(1)); + result[0][0] = col.x + s; + result[0][1] = col.x; + result[0][2] = col.x; + result[1][0] = col.y; + result[1][1] = col.y + s; + result[1][2] = col.y; + result[2][0] = col.z; + result[2][1] = col.z; + result[2][2] = col.z + s; + + return result; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> saturation(const T s, const vec<3, T, Q>& color) + { + return vec<3, T, Q>(saturation(s) * vec<4, T, Q>(color, T(0))); + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> saturation(const T s, const vec<4, T, Q>& color) + { + return saturation(s) * color; + } + + template + GLM_FUNC_QUALIFIER T luminosity(const vec<3, T, Q>& color) + { + const vec<3, T, Q> tmp = vec<3, T, Q>(0.33, 0.59, 0.11); + return dot(color, tmp); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/color_space_YCoCg.hpp b/Vulkan/ext/include/glm/gtx/color_space_YCoCg.hpp new file mode 100644 index 0000000..dd2b771 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/color_space_YCoCg.hpp @@ -0,0 +1,60 @@ +/// @ref gtx_color_space_YCoCg +/// @file glm/gtx/color_space_YCoCg.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_color_space_YCoCg GLM_GTX_color_space_YCoCg +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// RGB to YCoCg conversions and operations + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_color_space_YCoCg is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_color_space_YCoCg extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_color_space_YCoCg + /// @{ + + /// Convert a color from RGB color space to YCoCg color space. + /// @see gtx_color_space_YCoCg + template + GLM_FUNC_DECL vec<3, T, Q> rgb2YCoCg( + vec<3, T, Q> const& rgbColor); + + /// Convert a color from YCoCg color space to RGB color space. + /// @see gtx_color_space_YCoCg + template + GLM_FUNC_DECL vec<3, T, Q> YCoCg2rgb( + vec<3, T, Q> const& YCoCgColor); + + /// Convert a color from RGB color space to YCoCgR color space. + /// @see "YCoCg-R: A Color Space with RGB Reversibility and Low Dynamic Range" + /// @see gtx_color_space_YCoCg + template + GLM_FUNC_DECL vec<3, T, Q> rgb2YCoCgR( + vec<3, T, Q> const& rgbColor); + + /// Convert a color from YCoCgR color space to RGB color space. + /// @see "YCoCg-R: A Color Space with RGB Reversibility and Low Dynamic Range" + /// @see gtx_color_space_YCoCg + template + GLM_FUNC_DECL vec<3, T, Q> YCoCgR2rgb( + vec<3, T, Q> const& YCoCgColor); + + /// @} +}//namespace glm + +#include "color_space_YCoCg.inl" diff --git a/Vulkan/ext/include/glm/gtx/color_space_YCoCg.inl b/Vulkan/ext/include/glm/gtx/color_space_YCoCg.inl new file mode 100644 index 0000000..83ba857 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/color_space_YCoCg.inl @@ -0,0 +1,107 @@ +/// @ref gtx_color_space_YCoCg + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rgb2YCoCg + ( + vec<3, T, Q> const& rgbColor + ) + { + vec<3, T, Q> result; + result.x/*Y */ = rgbColor.r / T(4) + rgbColor.g / T(2) + rgbColor.b / T(4); + result.y/*Co*/ = rgbColor.r / T(2) + rgbColor.g * T(0) - rgbColor.b / T(2); + result.z/*Cg*/ = - rgbColor.r / T(4) + rgbColor.g / T(2) - rgbColor.b / T(4); + return result; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> YCoCg2rgb + ( + vec<3, T, Q> const& YCoCgColor + ) + { + vec<3, T, Q> result; + result.r = YCoCgColor.x + YCoCgColor.y - YCoCgColor.z; + result.g = YCoCgColor.x + YCoCgColor.z; + result.b = YCoCgColor.x - YCoCgColor.y - YCoCgColor.z; + return result; + } + + template + class compute_YCoCgR { + public: + static GLM_FUNC_QUALIFIER vec<3, T, Q> rgb2YCoCgR + ( + vec<3, T, Q> const& rgbColor + ) + { + vec<3, T, Q> result; + result.x/*Y */ = rgbColor.g * static_cast(0.5) + (rgbColor.r + rgbColor.b) * static_cast(0.25); + result.y/*Co*/ = rgbColor.r - rgbColor.b; + result.z/*Cg*/ = rgbColor.g - (rgbColor.r + rgbColor.b) * static_cast(0.5); + return result; + } + + static GLM_FUNC_QUALIFIER vec<3, T, Q> YCoCgR2rgb + ( + vec<3, T, Q> const& YCoCgRColor + ) + { + vec<3, T, Q> result; + T tmp = YCoCgRColor.x - (YCoCgRColor.z * static_cast(0.5)); + result.g = YCoCgRColor.z + tmp; + result.b = tmp - (YCoCgRColor.y * static_cast(0.5)); + result.r = result.b + YCoCgRColor.y; + return result; + } + }; + + template + class compute_YCoCgR { + public: + static GLM_FUNC_QUALIFIER vec<3, T, Q> rgb2YCoCgR + ( + vec<3, T, Q> const& rgbColor + ) + { + vec<3, T, Q> result; + result.y/*Co*/ = rgbColor.r - rgbColor.b; + T tmp = rgbColor.b + (result.y >> 1); + result.z/*Cg*/ = rgbColor.g - tmp; + result.x/*Y */ = tmp + (result.z >> 1); + return result; + } + + static GLM_FUNC_QUALIFIER vec<3, T, Q> YCoCgR2rgb + ( + vec<3, T, Q> const& YCoCgRColor + ) + { + vec<3, T, Q> result; + T tmp = YCoCgRColor.x - (YCoCgRColor.z >> 1); + result.g = YCoCgRColor.z + tmp; + result.b = tmp - (YCoCgRColor.y >> 1); + result.r = result.b + YCoCgRColor.y; + return result; + } + }; + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rgb2YCoCgR + ( + vec<3, T, Q> const& rgbColor + ) + { + return compute_YCoCgR::is_integer>::rgb2YCoCgR(rgbColor); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> YCoCgR2rgb + ( + vec<3, T, Q> const& YCoCgRColor + ) + { + return compute_YCoCgR::is_integer>::YCoCgR2rgb(YCoCgRColor); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/common.hpp b/Vulkan/ext/include/glm/gtx/common.hpp new file mode 100644 index 0000000..254ada2 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/common.hpp @@ -0,0 +1,76 @@ +/// @ref gtx_common +/// @file glm/gtx/common.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_common GLM_GTX_common +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// @brief Provide functions to increase the compatibility with Cg and HLSL languages + +#pragma once + +// Dependencies: +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include "../gtc/vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_common is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_common extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_common + /// @{ + + /// Returns true if x is a denormalized number + /// Numbers whose absolute value is too small to be represented in the normal format are represented in an alternate, denormalized format. + /// This format is less precise but can represent values closer to zero. + /// + /// @tparam genType Floating-point scalar or vector types. + /// + /// @see GLSL isnan man page + /// @see GLSL 4.20.8 specification, section 8.3 Common Functions + template + GLM_FUNC_DECL typename genType::bool_type isdenormal(genType const& x); + + /// Similar to 'mod' but with a different rounding and integer support. + /// Returns 'x - y * trunc(x/y)' instead of 'x - y * floor(x/y)' + /// + /// @see GLSL mod vs HLSL fmod + /// @see GLSL mod man page + template + GLM_FUNC_DECL vec fmod(vec const& v); + + /// Returns whether vector components values are within an interval. A open interval excludes its endpoints, and is denoted with square brackets. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_relational + template + GLM_FUNC_DECL vec openBounded(vec const& Value, vec const& Min, vec const& Max); + + /// Returns whether vector components values are within an interval. A closed interval includes its endpoints, and is denoted with square brackets. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see ext_vector_relational + template + GLM_FUNC_DECL vec closeBounded(vec const& Value, vec const& Min, vec const& Max); + + /// @} +}//namespace glm + +#include "common.inl" diff --git a/Vulkan/ext/include/glm/gtx/common.inl b/Vulkan/ext/include/glm/gtx/common.inl new file mode 100644 index 0000000..4ad2126 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/common.inl @@ -0,0 +1,125 @@ +/// @ref gtx_common + +#include +#include "../gtc/epsilon.hpp" +#include "../gtc/constants.hpp" + +namespace glm{ +namespace detail +{ + template + struct compute_fmod + { + GLM_FUNC_QUALIFIER static vec call(vec const& a, vec const& b) + { + return detail::functor2::call(std::fmod, a, b); + } + }; + + template + struct compute_fmod + { + GLM_FUNC_QUALIFIER static vec call(vec const& a, vec const& b) + { + return a % b; + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER bool isdenormal(T const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isdenormal' only accept floating-point inputs"); + +# if GLM_HAS_CXX11_STL + return std::fpclassify(x) == FP_SUBNORMAL; +# else + return epsilonNotEqual(x, static_cast(0), epsilon()) && std::fabs(x) < std::numeric_limits::min(); +# endif + } + + template + GLM_FUNC_QUALIFIER typename vec<1, T, Q>::bool_type isdenormal + ( + vec<1, T, Q> const& x + ) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isdenormal' only accept floating-point inputs"); + + return typename vec<1, T, Q>::bool_type( + isdenormal(x.x)); + } + + template + GLM_FUNC_QUALIFIER typename vec<2, T, Q>::bool_type isdenormal + ( + vec<2, T, Q> const& x + ) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isdenormal' only accept floating-point inputs"); + + return typename vec<2, T, Q>::bool_type( + isdenormal(x.x), + isdenormal(x.y)); + } + + template + GLM_FUNC_QUALIFIER typename vec<3, T, Q>::bool_type isdenormal + ( + vec<3, T, Q> const& x + ) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isdenormal' only accept floating-point inputs"); + + return typename vec<3, T, Q>::bool_type( + isdenormal(x.x), + isdenormal(x.y), + isdenormal(x.z)); + } + + template + GLM_FUNC_QUALIFIER typename vec<4, T, Q>::bool_type isdenormal + ( + vec<4, T, Q> const& x + ) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isdenormal' only accept floating-point inputs"); + + return typename vec<4, T, Q>::bool_type( + isdenormal(x.x), + isdenormal(x.y), + isdenormal(x.z), + isdenormal(x.w)); + } + + // fmod + template + GLM_FUNC_QUALIFIER genType fmod(genType x, genType y) + { + return fmod(vec<1, genType>(x), y).x; + } + + template + GLM_FUNC_QUALIFIER vec fmod(vec const& x, T y) + { + return detail::compute_fmod::is_iec559>::call(x, vec(y)); + } + + template + GLM_FUNC_QUALIFIER vec fmod(vec const& x, vec const& y) + { + return detail::compute_fmod::is_iec559>::call(x, y); + } + + template + GLM_FUNC_QUALIFIER vec openBounded(vec const& Value, vec const& Min, vec const& Max) + { + return greaterThan(Value, Min) && lessThan(Value, Max); + } + + template + GLM_FUNC_QUALIFIER vec closeBounded(vec const& Value, vec const& Min, vec const& Max) + { + return greaterThanEqual(Value, Min) && lessThanEqual(Value, Max); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/compatibility.hpp b/Vulkan/ext/include/glm/gtx/compatibility.hpp new file mode 100644 index 0000000..f1b00a6 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/compatibility.hpp @@ -0,0 +1,133 @@ +/// @ref gtx_compatibility +/// @file glm/gtx/compatibility.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_compatibility GLM_GTX_compatibility +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Provide functions to increase the compatibility with Cg and HLSL languages + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/quaternion.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_compatibility is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_compatibility extension included") +# endif +#endif + +#if GLM_COMPILER & GLM_COMPILER_VC +# include +#elif GLM_COMPILER & GLM_COMPILER_GCC +# include +# if(GLM_PLATFORM & GLM_PLATFORM_ANDROID) +# undef isfinite +# endif +#endif//GLM_COMPILER + +namespace glm +{ + /// @addtogroup gtx_compatibility + /// @{ + + template GLM_FUNC_QUALIFIER T lerp(T x, T y, T a){return mix(x, y, a);} //!< \brief Returns x * (1.0 - a) + y * a, i.e., the linear blend of x and y using the floating-point value a. The value for a is not restricted to the range [0, 1]. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<2, T, Q> lerp(const vec<2, T, Q>& x, const vec<2, T, Q>& y, T a){return mix(x, y, a);} //!< \brief Returns x * (1.0 - a) + y * a, i.e., the linear blend of x and y using the floating-point value a. The value for a is not restricted to the range [0, 1]. (From GLM_GTX_compatibility) + + template GLM_FUNC_QUALIFIER vec<3, T, Q> lerp(const vec<3, T, Q>& x, const vec<3, T, Q>& y, T a){return mix(x, y, a);} //!< \brief Returns x * (1.0 - a) + y * a, i.e., the linear blend of x and y using the floating-point value a. The value for a is not restricted to the range [0, 1]. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<4, T, Q> lerp(const vec<4, T, Q>& x, const vec<4, T, Q>& y, T a){return mix(x, y, a);} //!< \brief Returns x * (1.0 - a) + y * a, i.e., the linear blend of x and y using the floating-point value a. The value for a is not restricted to the range [0, 1]. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<2, T, Q> lerp(const vec<2, T, Q>& x, const vec<2, T, Q>& y, const vec<2, T, Q>& a){return mix(x, y, a);} //!< \brief Returns the component-wise result of x * (1.0 - a) + y * a, i.e., the linear blend of x and y using vector a. The value for a is not restricted to the range [0, 1]. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<3, T, Q> lerp(const vec<3, T, Q>& x, const vec<3, T, Q>& y, const vec<3, T, Q>& a){return mix(x, y, a);} //!< \brief Returns the component-wise result of x * (1.0 - a) + y * a, i.e., the linear blend of x and y using vector a. The value for a is not restricted to the range [0, 1]. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<4, T, Q> lerp(const vec<4, T, Q>& x, const vec<4, T, Q>& y, const vec<4, T, Q>& a){return mix(x, y, a);} //!< \brief Returns the component-wise result of x * (1.0 - a) + y * a, i.e., the linear blend of x and y using vector a. The value for a is not restricted to the range [0, 1]. (From GLM_GTX_compatibility) + + template GLM_FUNC_QUALIFIER T saturate(T x){return clamp(x, T(0), T(1));} //!< \brief Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<2, T, Q> saturate(const vec<2, T, Q>& x){return clamp(x, T(0), T(1));} //!< \brief Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<3, T, Q> saturate(const vec<3, T, Q>& x){return clamp(x, T(0), T(1));} //!< \brief Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<4, T, Q> saturate(const vec<4, T, Q>& x){return clamp(x, T(0), T(1));} //!< \brief Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) + + template GLM_FUNC_QUALIFIER T atan2(T x, T y){return atan(x, y);} //!< \brief Arc tangent. Returns an angle whose tangent is y/x. The signs of x and y are used to determine what quadrant the angle is in. The range of values returned by this function is [-PI, PI]. Results are undefined if x and y are both 0. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<2, T, Q> atan2(const vec<2, T, Q>& x, const vec<2, T, Q>& y){return atan(x, y);} //!< \brief Arc tangent. Returns an angle whose tangent is y/x. The signs of x and y are used to determine what quadrant the angle is in. The range of values returned by this function is [-PI, PI]. Results are undefined if x and y are both 0. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<3, T, Q> atan2(const vec<3, T, Q>& x, const vec<3, T, Q>& y){return atan(x, y);} //!< \brief Arc tangent. Returns an angle whose tangent is y/x. The signs of x and y are used to determine what quadrant the angle is in. The range of values returned by this function is [-PI, PI]. Results are undefined if x and y are both 0. (From GLM_GTX_compatibility) + template GLM_FUNC_QUALIFIER vec<4, T, Q> atan2(const vec<4, T, Q>& x, const vec<4, T, Q>& y){return atan(x, y);} //!< \brief Arc tangent. Returns an angle whose tangent is y/x. The signs of x and y are used to determine what quadrant the angle is in. The range of values returned by this function is [-PI, PI]. Results are undefined if x and y are both 0. (From GLM_GTX_compatibility) + + template GLM_FUNC_DECL bool isfinite(genType const& x); //!< \brief Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) + template GLM_FUNC_DECL vec<1, bool, Q> isfinite(const vec<1, T, Q>& x); //!< \brief Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) + template GLM_FUNC_DECL vec<2, bool, Q> isfinite(const vec<2, T, Q>& x); //!< \brief Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) + template GLM_FUNC_DECL vec<3, bool, Q> isfinite(const vec<3, T, Q>& x); //!< \brief Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) + template GLM_FUNC_DECL vec<4, bool, Q> isfinite(const vec<4, T, Q>& x); //!< \brief Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) + + typedef bool bool1; //!< \brief boolean type with 1 component. (From GLM_GTX_compatibility extension) + typedef vec<2, bool, highp> bool2; //!< \brief boolean type with 2 components. (From GLM_GTX_compatibility extension) + typedef vec<3, bool, highp> bool3; //!< \brief boolean type with 3 components. (From GLM_GTX_compatibility extension) + typedef vec<4, bool, highp> bool4; //!< \brief boolean type with 4 components. (From GLM_GTX_compatibility extension) + + typedef bool bool1x1; //!< \brief boolean matrix with 1 x 1 component. (From GLM_GTX_compatibility extension) + typedef mat<2, 2, bool, highp> bool2x2; //!< \brief boolean matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 3, bool, highp> bool2x3; //!< \brief boolean matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 4, bool, highp> bool2x4; //!< \brief boolean matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 2, bool, highp> bool3x2; //!< \brief boolean matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 3, bool, highp> bool3x3; //!< \brief boolean matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 4, bool, highp> bool3x4; //!< \brief boolean matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 2, bool, highp> bool4x2; //!< \brief boolean matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 3, bool, highp> bool4x3; //!< \brief boolean matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 4, bool, highp> bool4x4; //!< \brief boolean matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) + + typedef int int1; //!< \brief integer vector with 1 component. (From GLM_GTX_compatibility extension) + typedef vec<2, int, highp> int2; //!< \brief integer vector with 2 components. (From GLM_GTX_compatibility extension) + typedef vec<3, int, highp> int3; //!< \brief integer vector with 3 components. (From GLM_GTX_compatibility extension) + typedef vec<4, int, highp> int4; //!< \brief integer vector with 4 components. (From GLM_GTX_compatibility extension) + + typedef int int1x1; //!< \brief integer matrix with 1 component. (From GLM_GTX_compatibility extension) + typedef mat<2, 2, int, highp> int2x2; //!< \brief integer matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 3, int, highp> int2x3; //!< \brief integer matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 4, int, highp> int2x4; //!< \brief integer matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 2, int, highp> int3x2; //!< \brief integer matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 3, int, highp> int3x3; //!< \brief integer matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 4, int, highp> int3x4; //!< \brief integer matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 2, int, highp> int4x2; //!< \brief integer matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 3, int, highp> int4x3; //!< \brief integer matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 4, int, highp> int4x4; //!< \brief integer matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) + + typedef float float1; //!< \brief single-qualifier floating-point vector with 1 component. (From GLM_GTX_compatibility extension) + typedef vec<2, float, highp> float2; //!< \brief single-qualifier floating-point vector with 2 components. (From GLM_GTX_compatibility extension) + typedef vec<3, float, highp> float3; //!< \brief single-qualifier floating-point vector with 3 components. (From GLM_GTX_compatibility extension) + typedef vec<4, float, highp> float4; //!< \brief single-qualifier floating-point vector with 4 components. (From GLM_GTX_compatibility extension) + + typedef float float1x1; //!< \brief single-qualifier floating-point matrix with 1 component. (From GLM_GTX_compatibility extension) + typedef mat<2, 2, float, highp> float2x2; //!< \brief single-qualifier floating-point matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 3, float, highp> float2x3; //!< \brief single-qualifier floating-point matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 4, float, highp> float2x4; //!< \brief single-qualifier floating-point matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 2, float, highp> float3x2; //!< \brief single-qualifier floating-point matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 3, float, highp> float3x3; //!< \brief single-qualifier floating-point matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 4, float, highp> float3x4; //!< \brief single-qualifier floating-point matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 2, float, highp> float4x2; //!< \brief single-qualifier floating-point matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 3, float, highp> float4x3; //!< \brief single-qualifier floating-point matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 4, float, highp> float4x4; //!< \brief single-qualifier floating-point matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) + + typedef double double1; //!< \brief double-qualifier floating-point vector with 1 component. (From GLM_GTX_compatibility extension) + typedef vec<2, double, highp> double2; //!< \brief double-qualifier floating-point vector with 2 components. (From GLM_GTX_compatibility extension) + typedef vec<3, double, highp> double3; //!< \brief double-qualifier floating-point vector with 3 components. (From GLM_GTX_compatibility extension) + typedef vec<4, double, highp> double4; //!< \brief double-qualifier floating-point vector with 4 components. (From GLM_GTX_compatibility extension) + + typedef double double1x1; //!< \brief double-qualifier floating-point matrix with 1 component. (From GLM_GTX_compatibility extension) + typedef mat<2, 2, double, highp> double2x2; //!< \brief double-qualifier floating-point matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 3, double, highp> double2x3; //!< \brief double-qualifier floating-point matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<2, 4, double, highp> double2x4; //!< \brief double-qualifier floating-point matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 2, double, highp> double3x2; //!< \brief double-qualifier floating-point matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 3, double, highp> double3x3; //!< \brief double-qualifier floating-point matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<3, 4, double, highp> double3x4; //!< \brief double-qualifier floating-point matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 2, double, highp> double4x2; //!< \brief double-qualifier floating-point matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 3, double, highp> double4x3; //!< \brief double-qualifier floating-point matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) + typedef mat<4, 4, double, highp> double4x4; //!< \brief double-qualifier floating-point matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) + + /// @} +}//namespace glm + +#include "compatibility.inl" diff --git a/Vulkan/ext/include/glm/gtx/compatibility.inl b/Vulkan/ext/include/glm/gtx/compatibility.inl new file mode 100644 index 0000000..1d49496 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/compatibility.inl @@ -0,0 +1,62 @@ +#include + +namespace glm +{ + // isfinite + template + GLM_FUNC_QUALIFIER bool isfinite( + genType const& x) + { +# if GLM_HAS_CXX11_STL + return std::isfinite(x) != 0; +# elif GLM_COMPILER & GLM_COMPILER_VC + return _finite(x) != 0; +# elif GLM_COMPILER & GLM_COMPILER_GCC && GLM_PLATFORM & GLM_PLATFORM_ANDROID + return _isfinite(x) != 0; +# else + if (std::numeric_limits::is_integer || std::denorm_absent == std::numeric_limits::has_denorm) + return std::numeric_limits::min() <= x && std::numeric_limits::max() >= x; + else + return -std::numeric_limits::max() <= x && std::numeric_limits::max() >= x; +# endif + } + + template + GLM_FUNC_QUALIFIER vec<1, bool, Q> isfinite( + vec<1, T, Q> const& x) + { + return vec<1, bool, Q>( + isfinite(x.x)); + } + + template + GLM_FUNC_QUALIFIER vec<2, bool, Q> isfinite( + vec<2, T, Q> const& x) + { + return vec<2, bool, Q>( + isfinite(x.x), + isfinite(x.y)); + } + + template + GLM_FUNC_QUALIFIER vec<3, bool, Q> isfinite( + vec<3, T, Q> const& x) + { + return vec<3, bool, Q>( + isfinite(x.x), + isfinite(x.y), + isfinite(x.z)); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> isfinite( + vec<4, T, Q> const& x) + { + return vec<4, bool, Q>( + isfinite(x.x), + isfinite(x.y), + isfinite(x.z), + isfinite(x.w)); + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/component_wise.hpp b/Vulkan/ext/include/glm/gtx/component_wise.hpp new file mode 100644 index 0000000..34a2b0a --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/component_wise.hpp @@ -0,0 +1,69 @@ +/// @ref gtx_component_wise +/// @file glm/gtx/component_wise.hpp +/// @date 2007-05-21 / 2011-06-07 +/// @author Christophe Riccio +/// +/// @see core (dependence) +/// +/// @defgroup gtx_component_wise GLM_GTX_component_wise +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Operations between components of a type + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_component_wise is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_component_wise extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_component_wise + /// @{ + + /// Convert an integer vector to a normalized float vector. + /// If the parameter value type is already a floating qualifier type, the value is passed through. + /// @see gtx_component_wise + template + GLM_FUNC_DECL vec compNormalize(vec const& v); + + /// Convert a normalized float vector to an integer vector. + /// If the parameter value type is already a floating qualifier type, the value is passed through. + /// @see gtx_component_wise + template + GLM_FUNC_DECL vec compScale(vec const& v); + + /// Add all vector components together. + /// @see gtx_component_wise + template + GLM_FUNC_DECL typename genType::value_type compAdd(genType const& v); + + /// Multiply all vector components together. + /// @see gtx_component_wise + template + GLM_FUNC_DECL typename genType::value_type compMul(genType const& v); + + /// Find the minimum value between single vector components. + /// @see gtx_component_wise + template + GLM_FUNC_DECL typename genType::value_type compMin(genType const& v); + + /// Find the maximum value between single vector components. + /// @see gtx_component_wise + template + GLM_FUNC_DECL typename genType::value_type compMax(genType const& v); + + /// @} +}//namespace glm + +#include "component_wise.inl" diff --git a/Vulkan/ext/include/glm/gtx/component_wise.inl b/Vulkan/ext/include/glm/gtx/component_wise.inl new file mode 100644 index 0000000..cbbc7d4 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/component_wise.inl @@ -0,0 +1,127 @@ +/// @ref gtx_component_wise + +#include + +namespace glm{ +namespace detail +{ + template + struct compute_compNormalize + {}; + + template + struct compute_compNormalize + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + floatType const Min = static_cast(std::numeric_limits::min()); + floatType const Max = static_cast(std::numeric_limits::max()); + return (vec(v) - Min) / (Max - Min) * static_cast(2) - static_cast(1); + } + }; + + template + struct compute_compNormalize + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + return vec(v) / static_cast(std::numeric_limits::max()); + } + }; + + template + struct compute_compNormalize + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + return v; + } + }; + + template + struct compute_compScale + {}; + + template + struct compute_compScale + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + floatType const Max = static_cast(std::numeric_limits::max()) + static_cast(0.5); + vec const Scaled(v * Max); + vec const Result(Scaled - static_cast(0.5)); + return Result; + } + }; + + template + struct compute_compScale + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + return vec(vec(v) * static_cast(std::numeric_limits::max())); + } + }; + + template + struct compute_compScale + { + GLM_FUNC_QUALIFIER static vec call(vec const& v) + { + return v; + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER vec compNormalize(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'compNormalize' accepts only floating-point types for 'floatType' template parameter"); + + return detail::compute_compNormalize::is_integer, std::numeric_limits::is_signed>::call(v); + } + + template + GLM_FUNC_QUALIFIER vec compScale(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'compScale' accepts only floating-point types for 'floatType' template parameter"); + + return detail::compute_compScale::is_integer, std::numeric_limits::is_signed>::call(v); + } + + template + GLM_FUNC_QUALIFIER T compAdd(vec const& v) + { + T Result(0); + for(length_t i = 0, n = v.length(); i < n; ++i) + Result += v[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER T compMul(vec const& v) + { + T Result(1); + for(length_t i = 0, n = v.length(); i < n; ++i) + Result *= v[i]; + return Result; + } + + template + GLM_FUNC_QUALIFIER T compMin(vec const& v) + { + T Result(v[0]); + for(length_t i = 1, n = v.length(); i < n; ++i) + Result = min(Result, v[i]); + return Result; + } + + template + GLM_FUNC_QUALIFIER T compMax(vec const& v) + { + T Result(v[0]); + for(length_t i = 1, n = v.length(); i < n; ++i) + Result = max(Result, v[i]); + return Result; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/dual_quaternion.hpp b/Vulkan/ext/include/glm/gtx/dual_quaternion.hpp new file mode 100644 index 0000000..6a51ab7 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/dual_quaternion.hpp @@ -0,0 +1,274 @@ +/// @ref gtx_dual_quaternion +/// @file glm/gtx/dual_quaternion.hpp +/// @author Maksim Vorobiev (msomeone@gmail.com) +/// +/// @see core (dependence) +/// @see gtc_constants (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtx_dual_quaternion GLM_GTX_dual_quaternion +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Defines a templated dual-quaternion type and several dual-quaternion operations. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/constants.hpp" +#include "../gtc/quaternion.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_dual_quaternion is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_dual_quaternion extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_dual_quaternion + /// @{ + + template + struct tdualquat + { + // -- Implementation detail -- + + typedef T value_type; + typedef qua part_type; + + // -- Data -- + + qua real, dual; + + // -- Component accesses -- + + typedef length_t length_type; + /// Return the count of components of a dual quaternion + GLM_FUNC_DECL static GLM_CONSTEXPR length_type length(){return 2;} + + GLM_FUNC_DECL part_type & operator[](length_type i); + GLM_FUNC_DECL part_type const& operator[](length_type i) const; + + // -- Implicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR tdualquat() GLM_DEFAULT; + GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(tdualquat const& d) GLM_DEFAULT; + template + GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(tdualquat const& d); + + // -- Explicit basic constructors -- + + GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(qua const& real); + GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(qua const& orientation, vec<3, T, Q> const& translation); + GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(qua const& real, qua const& dual); + + // -- Conversion constructors -- + + template + GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT tdualquat(tdualquat const& q); + + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR tdualquat(mat<2, 4, T, Q> const& holder_mat); + GLM_FUNC_DECL GLM_EXPLICIT GLM_CONSTEXPR tdualquat(mat<3, 4, T, Q> const& aug_mat); + + // -- Unary arithmetic operators -- + + GLM_FUNC_DECL tdualquat & operator=(tdualquat const& m) GLM_DEFAULT; + + template + GLM_FUNC_DECL tdualquat & operator=(tdualquat const& m); + template + GLM_FUNC_DECL tdualquat & operator*=(U s); + template + GLM_FUNC_DECL tdualquat & operator/=(U s); + }; + + // -- Unary bit operators -- + + template + GLM_FUNC_DECL tdualquat operator+(tdualquat const& q); + + template + GLM_FUNC_DECL tdualquat operator-(tdualquat const& q); + + // -- Binary operators -- + + template + GLM_FUNC_DECL tdualquat operator+(tdualquat const& q, tdualquat const& p); + + template + GLM_FUNC_DECL tdualquat operator*(tdualquat const& q, tdualquat const& p); + + template + GLM_FUNC_DECL vec<3, T, Q> operator*(tdualquat const& q, vec<3, T, Q> const& v); + + template + GLM_FUNC_DECL vec<3, T, Q> operator*(vec<3, T, Q> const& v, tdualquat const& q); + + template + GLM_FUNC_DECL vec<4, T, Q> operator*(tdualquat const& q, vec<4, T, Q> const& v); + + template + GLM_FUNC_DECL vec<4, T, Q> operator*(vec<4, T, Q> const& v, tdualquat const& q); + + template + GLM_FUNC_DECL tdualquat operator*(tdualquat const& q, T const& s); + + template + GLM_FUNC_DECL tdualquat operator*(T const& s, tdualquat const& q); + + template + GLM_FUNC_DECL tdualquat operator/(tdualquat const& q, T const& s); + + // -- Boolean operators -- + + template + GLM_FUNC_DECL bool operator==(tdualquat const& q1, tdualquat const& q2); + + template + GLM_FUNC_DECL bool operator!=(tdualquat const& q1, tdualquat const& q2); + + /// Creates an identity dual quaternion. + /// + /// @see gtx_dual_quaternion + template + GLM_FUNC_DECL tdualquat dual_quat_identity(); + + /// Returns the normalized quaternion. + /// + /// @see gtx_dual_quaternion + template + GLM_FUNC_DECL tdualquat normalize(tdualquat const& q); + + /// Returns the linear interpolation of two dual quaternion. + /// + /// @see gtc_dual_quaternion + template + GLM_FUNC_DECL tdualquat lerp(tdualquat const& x, tdualquat const& y, T const& a); + + /// Returns the q inverse. + /// + /// @see gtx_dual_quaternion + template + GLM_FUNC_DECL tdualquat inverse(tdualquat const& q); + + /// Converts a quaternion to a 2 * 4 matrix. + /// + /// @see gtx_dual_quaternion + template + GLM_FUNC_DECL mat<2, 4, T, Q> mat2x4_cast(tdualquat const& x); + + /// Converts a quaternion to a 3 * 4 matrix. + /// + /// @see gtx_dual_quaternion + template + GLM_FUNC_DECL mat<3, 4, T, Q> mat3x4_cast(tdualquat const& x); + + /// Converts a 2 * 4 matrix (matrix which holds real and dual parts) to a quaternion. + /// + /// @see gtx_dual_quaternion + template + GLM_FUNC_DECL tdualquat dualquat_cast(mat<2, 4, T, Q> const& x); + + /// Converts a 3 * 4 matrix (augmented matrix rotation + translation) to a quaternion. + /// + /// @see gtx_dual_quaternion + template + GLM_FUNC_DECL tdualquat dualquat_cast(mat<3, 4, T, Q> const& x); + + + /// Dual-quaternion of low single-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat lowp_dualquat; + + /// Dual-quaternion of medium single-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat mediump_dualquat; + + /// Dual-quaternion of high single-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat highp_dualquat; + + + /// Dual-quaternion of low single-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat lowp_fdualquat; + + /// Dual-quaternion of medium single-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat mediump_fdualquat; + + /// Dual-quaternion of high single-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat highp_fdualquat; + + + /// Dual-quaternion of low double-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat lowp_ddualquat; + + /// Dual-quaternion of medium double-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat mediump_ddualquat; + + /// Dual-quaternion of high double-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef tdualquat highp_ddualquat; + + +#if(!defined(GLM_PRECISION_HIGHP_FLOAT) && !defined(GLM_PRECISION_MEDIUMP_FLOAT) && !defined(GLM_PRECISION_LOWP_FLOAT)) + /// Dual-quaternion of floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef highp_fdualquat dualquat; + + /// Dual-quaternion of single-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef highp_fdualquat fdualquat; +#elif(defined(GLM_PRECISION_HIGHP_FLOAT) && !defined(GLM_PRECISION_MEDIUMP_FLOAT) && !defined(GLM_PRECISION_LOWP_FLOAT)) + typedef highp_fdualquat dualquat; + typedef highp_fdualquat fdualquat; +#elif(!defined(GLM_PRECISION_HIGHP_FLOAT) && defined(GLM_PRECISION_MEDIUMP_FLOAT) && !defined(GLM_PRECISION_LOWP_FLOAT)) + typedef mediump_fdualquat dualquat; + typedef mediump_fdualquat fdualquat; +#elif(!defined(GLM_PRECISION_HIGHP_FLOAT) && !defined(GLM_PRECISION_MEDIUMP_FLOAT) && defined(GLM_PRECISION_LOWP_FLOAT)) + typedef lowp_fdualquat dualquat; + typedef lowp_fdualquat fdualquat; +#else +# error "GLM error: multiple default precision requested for single-precision floating-point types" +#endif + + +#if(!defined(GLM_PRECISION_HIGHP_DOUBLE) && !defined(GLM_PRECISION_MEDIUMP_DOUBLE) && !defined(GLM_PRECISION_LOWP_DOUBLE)) + /// Dual-quaternion of default double-qualifier floating-point numbers. + /// + /// @see gtx_dual_quaternion + typedef highp_ddualquat ddualquat; +#elif(defined(GLM_PRECISION_HIGHP_DOUBLE) && !defined(GLM_PRECISION_MEDIUMP_DOUBLE) && !defined(GLM_PRECISION_LOWP_DOUBLE)) + typedef highp_ddualquat ddualquat; +#elif(!defined(GLM_PRECISION_HIGHP_DOUBLE) && defined(GLM_PRECISION_MEDIUMP_DOUBLE) && !defined(GLM_PRECISION_LOWP_DOUBLE)) + typedef mediump_ddualquat ddualquat; +#elif(!defined(GLM_PRECISION_HIGHP_DOUBLE) && !defined(GLM_PRECISION_MEDIUMP_DOUBLE) && defined(GLM_PRECISION_LOWP_DOUBLE)) + typedef lowp_ddualquat ddualquat; +#else +# error "GLM error: Multiple default precision requested for double-precision floating-point types" +#endif + + /// @} +} //namespace glm + +#include "dual_quaternion.inl" diff --git a/Vulkan/ext/include/glm/gtx/dual_quaternion.inl b/Vulkan/ext/include/glm/gtx/dual_quaternion.inl new file mode 100644 index 0000000..fad07ea --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/dual_quaternion.inl @@ -0,0 +1,352 @@ +/// @ref gtx_dual_quaternion + +#include "../geometric.hpp" +#include + +namespace glm +{ + // -- Component accesses -- + + template + GLM_FUNC_QUALIFIER typename tdualquat::part_type & tdualquat::operator[](typename tdualquat::length_type i) + { + assert(i >= 0 && i < this->length()); + return (&real)[i]; + } + + template + GLM_FUNC_QUALIFIER typename tdualquat::part_type const& tdualquat::operator[](typename tdualquat::length_type i) const + { + assert(i >= 0 && i < this->length()); + return (&real)[i]; + } + + // -- Implicit basic constructors -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat() +# if GLM_CONFIG_DEFAULTED_FUNCTIONS != GLM_DISABLE + : real(qua()) + , dual(qua(0, 0, 0, 0)) +# endif + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(tdualquat const& d) + : real(d.real) + , dual(d.dual) + {} +# endif + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(tdualquat const& d) + : real(d.real) + , dual(d.dual) + {} + + // -- Explicit basic constructors -- + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(qua const& r) + : real(r), dual(qua(0, 0, 0, 0)) + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(qua const& q, vec<3, T, Q> const& p) + : real(q), dual( + T(-0.5) * ( p.x*q.x + p.y*q.y + p.z*q.z), + T(+0.5) * ( p.x*q.w + p.y*q.z - p.z*q.y), + T(+0.5) * (-p.x*q.z + p.y*q.w + p.z*q.x), + T(+0.5) * ( p.x*q.y - p.y*q.x + p.z*q.w)) + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(qua const& r, qua const& d) + : real(r), dual(d) + {} + + // -- Conversion constructors -- + + template + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(tdualquat const& q) + : real(q.real) + , dual(q.dual) + {} + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(mat<2, 4, T, Q> const& m) + { + *this = dualquat_cast(m); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR tdualquat::tdualquat(mat<3, 4, T, Q> const& m) + { + *this = dualquat_cast(m); + } + + // -- Unary arithmetic operators -- + +# if GLM_CONFIG_DEFAULTED_FUNCTIONS == GLM_DISABLE + template + GLM_FUNC_QUALIFIER tdualquat & tdualquat::operator=(tdualquat const& q) + { + this->real = q.real; + this->dual = q.dual; + return *this; + } +# endif + + template + template + GLM_FUNC_QUALIFIER tdualquat & tdualquat::operator=(tdualquat const& q) + { + this->real = q.real; + this->dual = q.dual; + return *this; + } + + template + template + GLM_FUNC_QUALIFIER tdualquat & tdualquat::operator*=(U s) + { + this->real *= static_cast(s); + this->dual *= static_cast(s); + return *this; + } + + template + template + GLM_FUNC_QUALIFIER tdualquat & tdualquat::operator/=(U s) + { + this->real /= static_cast(s); + this->dual /= static_cast(s); + return *this; + } + + // -- Unary bit operators -- + + template + GLM_FUNC_QUALIFIER tdualquat operator+(tdualquat const& q) + { + return q; + } + + template + GLM_FUNC_QUALIFIER tdualquat operator-(tdualquat const& q) + { + return tdualquat(-q.real, -q.dual); + } + + // -- Binary operators -- + + template + GLM_FUNC_QUALIFIER tdualquat operator+(tdualquat const& q, tdualquat const& p) + { + return tdualquat(q.real + p.real,q.dual + p.dual); + } + + template + GLM_FUNC_QUALIFIER tdualquat operator*(tdualquat const& p, tdualquat const& o) + { + return tdualquat(p.real * o.real,p.real * o.dual + p.dual * o.real); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> operator*(tdualquat const& q, vec<3, T, Q> const& v) + { + vec<3, T, Q> const real_v3(q.real.x,q.real.y,q.real.z); + vec<3, T, Q> const dual_v3(q.dual.x,q.dual.y,q.dual.z); + return (cross(real_v3, cross(real_v3,v) + v * q.real.w + dual_v3) + dual_v3 * q.real.w - real_v3 * q.dual.w) * T(2) + v; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> operator*(vec<3, T, Q> const& v, tdualquat const& q) + { + return glm::inverse(q) * v; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> operator*(tdualquat const& q, vec<4, T, Q> const& v) + { + return vec<4, T, Q>(q * vec<3, T, Q>(v), v.w); + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> operator*(vec<4, T, Q> const& v, tdualquat const& q) + { + return glm::inverse(q) * v; + } + + template + GLM_FUNC_QUALIFIER tdualquat operator*(tdualquat const& q, T const& s) + { + return tdualquat(q.real * s, q.dual * s); + } + + template + GLM_FUNC_QUALIFIER tdualquat operator*(T const& s, tdualquat const& q) + { + return q * s; + } + + template + GLM_FUNC_QUALIFIER tdualquat operator/(tdualquat const& q, T const& s) + { + return tdualquat(q.real / s, q.dual / s); + } + + // -- Boolean operators -- + + template + GLM_FUNC_QUALIFIER bool operator==(tdualquat const& q1, tdualquat const& q2) + { + return (q1.real == q2.real) && (q1.dual == q2.dual); + } + + template + GLM_FUNC_QUALIFIER bool operator!=(tdualquat const& q1, tdualquat const& q2) + { + return (q1.real != q2.real) || (q1.dual != q2.dual); + } + + // -- Operations -- + + template + GLM_FUNC_QUALIFIER tdualquat dual_quat_identity() + { + return tdualquat( + qua(static_cast(1), static_cast(0), static_cast(0), static_cast(0)), + qua(static_cast(0), static_cast(0), static_cast(0), static_cast(0))); + } + + template + GLM_FUNC_QUALIFIER tdualquat normalize(tdualquat const& q) + { + return q / length(q.real); + } + + template + GLM_FUNC_QUALIFIER tdualquat lerp(tdualquat const& x, tdualquat const& y, T const& a) + { + // Dual Quaternion Linear blend aka DLB: + // Lerp is only defined in [0, 1] + assert(a >= static_cast(0)); + assert(a <= static_cast(1)); + T const k = dot(x.real,y.real) < static_cast(0) ? -a : a; + T const one(1); + return tdualquat(x * (one - a) + y * k); + } + + template + GLM_FUNC_QUALIFIER tdualquat inverse(tdualquat const& q) + { + const glm::qua real = conjugate(q.real); + const glm::qua dual = conjugate(q.dual); + return tdualquat(real, dual + (real * (-2.0f * dot(real,dual)))); + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> mat2x4_cast(tdualquat const& x) + { + return mat<2, 4, T, Q>( x[0].x, x[0].y, x[0].z, x[0].w, x[1].x, x[1].y, x[1].z, x[1].w ); + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> mat3x4_cast(tdualquat const& x) + { + qua r = x.real / length2(x.real); + + qua const rr(r.w * x.real.w, r.x * x.real.x, r.y * x.real.y, r.z * x.real.z); + r *= static_cast(2); + + T const xy = r.x * x.real.y; + T const xz = r.x * x.real.z; + T const yz = r.y * x.real.z; + T const wx = r.w * x.real.x; + T const wy = r.w * x.real.y; + T const wz = r.w * x.real.z; + + vec<4, T, Q> const a( + rr.w + rr.x - rr.y - rr.z, + xy - wz, + xz + wy, + -(x.dual.w * r.x - x.dual.x * r.w + x.dual.y * r.z - x.dual.z * r.y)); + + vec<4, T, Q> const b( + xy + wz, + rr.w + rr.y - rr.x - rr.z, + yz - wx, + -(x.dual.w * r.y - x.dual.x * r.z - x.dual.y * r.w + x.dual.z * r.x)); + + vec<4, T, Q> const c( + xz - wy, + yz + wx, + rr.w + rr.z - rr.x - rr.y, + -(x.dual.w * r.z + x.dual.x * r.y - x.dual.y * r.x - x.dual.z * r.w)); + + return mat<3, 4, T, Q>(a, b, c); + } + + template + GLM_FUNC_QUALIFIER tdualquat dualquat_cast(mat<2, 4, T, Q> const& x) + { + return tdualquat( + qua( x[0].w, x[0].x, x[0].y, x[0].z ), + qua( x[1].w, x[1].x, x[1].y, x[1].z )); + } + + template + GLM_FUNC_QUALIFIER tdualquat dualquat_cast(mat<3, 4, T, Q> const& x) + { + qua real; + + T const trace = x[0].x + x[1].y + x[2].z; + if(trace > static_cast(0)) + { + T const r = sqrt(T(1) + trace); + T const invr = static_cast(0.5) / r; + real.w = static_cast(0.5) * r; + real.x = (x[2].y - x[1].z) * invr; + real.y = (x[0].z - x[2].x) * invr; + real.z = (x[1].x - x[0].y) * invr; + } + else if(x[0].x > x[1].y && x[0].x > x[2].z) + { + T const r = sqrt(T(1) + x[0].x - x[1].y - x[2].z); + T const invr = static_cast(0.5) / r; + real.x = static_cast(0.5)*r; + real.y = (x[1].x + x[0].y) * invr; + real.z = (x[0].z + x[2].x) * invr; + real.w = (x[2].y - x[1].z) * invr; + } + else if(x[1].y > x[2].z) + { + T const r = sqrt(T(1) + x[1].y - x[0].x - x[2].z); + T const invr = static_cast(0.5) / r; + real.x = (x[1].x + x[0].y) * invr; + real.y = static_cast(0.5) * r; + real.z = (x[2].y + x[1].z) * invr; + real.w = (x[0].z - x[2].x) * invr; + } + else + { + T const r = sqrt(T(1) + x[2].z - x[0].x - x[1].y); + T const invr = static_cast(0.5) / r; + real.x = (x[0].z + x[2].x) * invr; + real.y = (x[2].y + x[1].z) * invr; + real.z = static_cast(0.5) * r; + real.w = (x[1].x - x[0].y) * invr; + } + + qua dual; + dual.x = static_cast(0.5) * ( x[0].w * real.w + x[1].w * real.z - x[2].w * real.y); + dual.y = static_cast(0.5) * (-x[0].w * real.z + x[1].w * real.w + x[2].w * real.x); + dual.z = static_cast(0.5) * ( x[0].w * real.y - x[1].w * real.x + x[2].w * real.w); + dual.w = -static_cast(0.5) * ( x[0].w * real.x + x[1].w * real.y + x[2].w * real.z); + return tdualquat(real, dual); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/easing.hpp b/Vulkan/ext/include/glm/gtx/easing.hpp new file mode 100644 index 0000000..57f3d61 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/easing.hpp @@ -0,0 +1,219 @@ +/// @ref gtx_easing +/// @file glm/gtx/easing.hpp +/// @author Robert Chisholm +/// +/// @see core (dependence) +/// +/// @defgroup gtx_easing GLM_GTX_easing +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Easing functions for animations and transitons +/// All functions take a parameter x in the range [0.0,1.0] +/// +/// Based on the AHEasing project of Warren Moore (https://github.com/warrenm/AHEasing) + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/constants.hpp" +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_easing is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_easing extension included") +# endif +#endif + +namespace glm{ + /// @addtogroup gtx_easing + /// @{ + + /// Modelled after the line y = x + /// @see gtx_easing + template + GLM_FUNC_DECL genType linearInterpolation(genType const & a); + + /// Modelled after the parabola y = x^2 + /// @see gtx_easing + template + GLM_FUNC_DECL genType quadraticEaseIn(genType const & a); + + /// Modelled after the parabola y = -x^2 + 2x + /// @see gtx_easing + template + GLM_FUNC_DECL genType quadraticEaseOut(genType const & a); + + /// Modelled after the piecewise quadratic + /// y = (1/2)((2x)^2) ; [0, 0.5) + /// y = -(1/2)((2x-1)*(2x-3) - 1) ; [0.5, 1] + /// @see gtx_easing + template + GLM_FUNC_DECL genType quadraticEaseInOut(genType const & a); + + /// Modelled after the cubic y = x^3 + template + GLM_FUNC_DECL genType cubicEaseIn(genType const & a); + + /// Modelled after the cubic y = (x - 1)^3 + 1 + /// @see gtx_easing + template + GLM_FUNC_DECL genType cubicEaseOut(genType const & a); + + /// Modelled after the piecewise cubic + /// y = (1/2)((2x)^3) ; [0, 0.5) + /// y = (1/2)((2x-2)^3 + 2) ; [0.5, 1] + /// @see gtx_easing + template + GLM_FUNC_DECL genType cubicEaseInOut(genType const & a); + + /// Modelled after the quartic x^4 + /// @see gtx_easing + template + GLM_FUNC_DECL genType quarticEaseIn(genType const & a); + + /// Modelled after the quartic y = 1 - (x - 1)^4 + /// @see gtx_easing + template + GLM_FUNC_DECL genType quarticEaseOut(genType const & a); + + /// Modelled after the piecewise quartic + /// y = (1/2)((2x)^4) ; [0, 0.5) + /// y = -(1/2)((2x-2)^4 - 2) ; [0.5, 1] + /// @see gtx_easing + template + GLM_FUNC_DECL genType quarticEaseInOut(genType const & a); + + /// Modelled after the quintic y = x^5 + /// @see gtx_easing + template + GLM_FUNC_DECL genType quinticEaseIn(genType const & a); + + /// Modelled after the quintic y = (x - 1)^5 + 1 + /// @see gtx_easing + template + GLM_FUNC_DECL genType quinticEaseOut(genType const & a); + + /// Modelled after the piecewise quintic + /// y = (1/2)((2x)^5) ; [0, 0.5) + /// y = (1/2)((2x-2)^5 + 2) ; [0.5, 1] + /// @see gtx_easing + template + GLM_FUNC_DECL genType quinticEaseInOut(genType const & a); + + /// Modelled after quarter-cycle of sine wave + /// @see gtx_easing + template + GLM_FUNC_DECL genType sineEaseIn(genType const & a); + + /// Modelled after quarter-cycle of sine wave (different phase) + /// @see gtx_easing + template + GLM_FUNC_DECL genType sineEaseOut(genType const & a); + + /// Modelled after half sine wave + /// @see gtx_easing + template + GLM_FUNC_DECL genType sineEaseInOut(genType const & a); + + /// Modelled after shifted quadrant IV of unit circle + /// @see gtx_easing + template + GLM_FUNC_DECL genType circularEaseIn(genType const & a); + + /// Modelled after shifted quadrant II of unit circle + /// @see gtx_easing + template + GLM_FUNC_DECL genType circularEaseOut(genType const & a); + + /// Modelled after the piecewise circular function + /// y = (1/2)(1 - sqrt(1 - 4x^2)) ; [0, 0.5) + /// y = (1/2)(sqrt(-(2x - 3)*(2x - 1)) + 1) ; [0.5, 1] + /// @see gtx_easing + template + GLM_FUNC_DECL genType circularEaseInOut(genType const & a); + + /// Modelled after the exponential function y = 2^(10(x - 1)) + /// @see gtx_easing + template + GLM_FUNC_DECL genType exponentialEaseIn(genType const & a); + + /// Modelled after the exponential function y = -2^(-10x) + 1 + /// @see gtx_easing + template + GLM_FUNC_DECL genType exponentialEaseOut(genType const & a); + + /// Modelled after the piecewise exponential + /// y = (1/2)2^(10(2x - 1)) ; [0,0.5) + /// y = -(1/2)*2^(-10(2x - 1))) + 1 ; [0.5,1] + /// @see gtx_easing + template + GLM_FUNC_DECL genType exponentialEaseInOut(genType const & a); + + /// Modelled after the damped sine wave y = sin(13pi/2*x)*pow(2, 10 * (x - 1)) + /// @see gtx_easing + template + GLM_FUNC_DECL genType elasticEaseIn(genType const & a); + + /// Modelled after the damped sine wave y = sin(-13pi/2*(x + 1))*pow(2, -10x) + 1 + /// @see gtx_easing + template + GLM_FUNC_DECL genType elasticEaseOut(genType const & a); + + /// Modelled after the piecewise exponentially-damped sine wave: + /// y = (1/2)*sin(13pi/2*(2*x))*pow(2, 10 * ((2*x) - 1)) ; [0,0.5) + /// y = (1/2)*(sin(-13pi/2*((2x-1)+1))*pow(2,-10(2*x-1)) + 2) ; [0.5, 1] + /// @see gtx_easing + template + GLM_FUNC_DECL genType elasticEaseInOut(genType const & a); + + /// @see gtx_easing + template + GLM_FUNC_DECL genType backEaseIn(genType const& a); + + /// @see gtx_easing + template + GLM_FUNC_DECL genType backEaseOut(genType const& a); + + /// @see gtx_easing + template + GLM_FUNC_DECL genType backEaseInOut(genType const& a); + + /// @param a parameter + /// @param o Optional overshoot modifier + /// @see gtx_easing + template + GLM_FUNC_DECL genType backEaseIn(genType const& a, genType const& o); + + /// @param a parameter + /// @param o Optional overshoot modifier + /// @see gtx_easing + template + GLM_FUNC_DECL genType backEaseOut(genType const& a, genType const& o); + + /// @param a parameter + /// @param o Optional overshoot modifier + /// @see gtx_easing + template + GLM_FUNC_DECL genType backEaseInOut(genType const& a, genType const& o); + + /// @see gtx_easing + template + GLM_FUNC_DECL genType bounceEaseIn(genType const& a); + + /// @see gtx_easing + template + GLM_FUNC_DECL genType bounceEaseOut(genType const& a); + + /// @see gtx_easing + template + GLM_FUNC_DECL genType bounceEaseInOut(genType const& a); + + /// @} +}//namespace glm + +#include "easing.inl" diff --git a/Vulkan/ext/include/glm/gtx/easing.inl b/Vulkan/ext/include/glm/gtx/easing.inl new file mode 100644 index 0000000..4b7d05b --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/easing.inl @@ -0,0 +1,436 @@ +/// @ref gtx_easing + +#include + +namespace glm{ + + template + GLM_FUNC_QUALIFIER genType linearInterpolation(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return a; + } + + template + GLM_FUNC_QUALIFIER genType quadraticEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return a * a; + } + + template + GLM_FUNC_QUALIFIER genType quadraticEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return -(a * (a - static_cast(2))); + } + + template + GLM_FUNC_QUALIFIER genType quadraticEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(0.5)) + { + return static_cast(2) * a * a; + } + else + { + return (-static_cast(2) * a * a) + (4 * a) - one(); + } + } + + template + GLM_FUNC_QUALIFIER genType cubicEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return a * a * a; + } + + template + GLM_FUNC_QUALIFIER genType cubicEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + genType const f = a - one(); + return f * f * f + one(); + } + + template + GLM_FUNC_QUALIFIER genType cubicEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if (a < static_cast(0.5)) + { + return static_cast(4) * a * a * a; + } + else + { + genType const f = ((static_cast(2) * a) - static_cast(2)); + return static_cast(0.5) * f * f * f + one(); + } + } + + template + GLM_FUNC_QUALIFIER genType quarticEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return a * a * a * a; + } + + template + GLM_FUNC_QUALIFIER genType quarticEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + genType const f = (a - one()); + return f * f * f * (one() - a) + one(); + } + + template + GLM_FUNC_QUALIFIER genType quarticEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(0.5)) + { + return static_cast(8) * a * a * a * a; + } + else + { + genType const f = (a - one()); + return -static_cast(8) * f * f * f * f + one(); + } + } + + template + GLM_FUNC_QUALIFIER genType quinticEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return a * a * a * a * a; + } + + template + GLM_FUNC_QUALIFIER genType quinticEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + genType const f = (a - one()); + return f * f * f * f * f + one(); + } + + template + GLM_FUNC_QUALIFIER genType quinticEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(0.5)) + { + return static_cast(16) * a * a * a * a * a; + } + else + { + genType const f = ((static_cast(2) * a) - static_cast(2)); + return static_cast(0.5) * f * f * f * f * f + one(); + } + } + + template + GLM_FUNC_QUALIFIER genType sineEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return sin((a - one()) * half_pi()) + one(); + } + + template + GLM_FUNC_QUALIFIER genType sineEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return sin(a * half_pi()); + } + + template + GLM_FUNC_QUALIFIER genType sineEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return static_cast(0.5) * (one() - cos(a * pi())); + } + + template + GLM_FUNC_QUALIFIER genType circularEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return one() - sqrt(one() - (a * a)); + } + + template + GLM_FUNC_QUALIFIER genType circularEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return sqrt((static_cast(2) - a) * a); + } + + template + GLM_FUNC_QUALIFIER genType circularEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(0.5)) + { + return static_cast(0.5) * (one() - std::sqrt(one() - static_cast(4) * (a * a))); + } + else + { + return static_cast(0.5) * (std::sqrt(-((static_cast(2) * a) - static_cast(3)) * ((static_cast(2) * a) - one())) + one()); + } + } + + template + GLM_FUNC_QUALIFIER genType exponentialEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a <= zero()) + return a; + else + { + genType const Complementary = a - one(); + genType const Two = static_cast(2); + + return glm::pow(Two, Complementary * static_cast(10)); + } + } + + template + GLM_FUNC_QUALIFIER genType exponentialEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a >= one()) + return a; + else + { + return one() - glm::pow(static_cast(2), -static_cast(10) * a); + } + } + + template + GLM_FUNC_QUALIFIER genType exponentialEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(0.5)) + return static_cast(0.5) * glm::pow(static_cast(2), (static_cast(20) * a) - static_cast(10)); + else + return -static_cast(0.5) * glm::pow(static_cast(2), (-static_cast(20) * a) + static_cast(10)) + one(); + } + + template + GLM_FUNC_QUALIFIER genType elasticEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return std::sin(static_cast(13) * half_pi() * a) * glm::pow(static_cast(2), static_cast(10) * (a - one())); + } + + template + GLM_FUNC_QUALIFIER genType elasticEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return std::sin(-static_cast(13) * half_pi() * (a + one())) * glm::pow(static_cast(2), -static_cast(10) * a) + one(); + } + + template + GLM_FUNC_QUALIFIER genType elasticEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(0.5)) + return static_cast(0.5) * std::sin(static_cast(13) * half_pi() * (static_cast(2) * a)) * glm::pow(static_cast(2), static_cast(10) * ((static_cast(2) * a) - one())); + else + return static_cast(0.5) * (std::sin(-static_cast(13) * half_pi() * ((static_cast(2) * a - one()) + one())) * glm::pow(static_cast(2), -static_cast(10) * (static_cast(2) * a - one())) + static_cast(2)); + } + + template + GLM_FUNC_QUALIFIER genType backEaseIn(genType const& a, genType const& o) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + genType z = ((o + one()) * a) - o; + return (a * a * z); + } + + template + GLM_FUNC_QUALIFIER genType backEaseOut(genType const& a, genType const& o) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + genType n = a - one(); + genType z = ((o + one()) * n) + o; + return (n * n * z) + one(); + } + + template + GLM_FUNC_QUALIFIER genType backEaseInOut(genType const& a, genType const& o) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + genType s = o * static_cast(1.525); + genType x = static_cast(0.5); + genType n = a / static_cast(0.5); + + if (n < static_cast(1)) + { + genType z = ((s + static_cast(1)) * n) - s; + genType m = n * n * z; + return x * m; + } + else + { + n -= static_cast(2); + genType z = ((s + static_cast(1)) * n) + s; + genType m = (n*n*z) + static_cast(2); + return x * m; + } + } + + template + GLM_FUNC_QUALIFIER genType backEaseIn(genType const& a) + { + return backEaseIn(a, static_cast(1.70158)); + } + + template + GLM_FUNC_QUALIFIER genType backEaseOut(genType const& a) + { + return backEaseOut(a, static_cast(1.70158)); + } + + template + GLM_FUNC_QUALIFIER genType backEaseInOut(genType const& a) + { + return backEaseInOut(a, static_cast(1.70158)); + } + + template + GLM_FUNC_QUALIFIER genType bounceEaseOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(4.0 / 11.0)) + { + return (static_cast(121) * a * a) / static_cast(16); + } + else if(a < static_cast(8.0 / 11.0)) + { + return (static_cast(363.0 / 40.0) * a * a) - (static_cast(99.0 / 10.0) * a) + static_cast(17.0 / 5.0); + } + else if(a < static_cast(9.0 / 10.0)) + { + return (static_cast(4356.0 / 361.0) * a * a) - (static_cast(35442.0 / 1805.0) * a) + static_cast(16061.0 / 1805.0); + } + else + { + return (static_cast(54.0 / 5.0) * a * a) - (static_cast(513.0 / 25.0) * a) + static_cast(268.0 / 25.0); + } + } + + template + GLM_FUNC_QUALIFIER genType bounceEaseIn(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + return one() - bounceEaseOut(one() - a); + } + + template + GLM_FUNC_QUALIFIER genType bounceEaseInOut(genType const& a) + { + // Only defined in [0, 1] + assert(a >= zero()); + assert(a <= one()); + + if(a < static_cast(0.5)) + { + return static_cast(0.5) * (one() - bounceEaseOut(a * static_cast(2))); + } + else + { + return static_cast(0.5) * bounceEaseOut(a * static_cast(2) - one()) + static_cast(0.5); + } + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/euler_angles.hpp b/Vulkan/ext/include/glm/gtx/euler_angles.hpp new file mode 100644 index 0000000..2723697 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/euler_angles.hpp @@ -0,0 +1,335 @@ +/// @ref gtx_euler_angles +/// @file glm/gtx/euler_angles.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_euler_angles GLM_GTX_euler_angles +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Build matrices from Euler angles. +/// +/// Extraction of Euler angles from rotation matrix. +/// Based on the original paper 2014 Mike Day - Extracting Euler Angles from a Rotation Matrix. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_euler_angles is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_euler_angles extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_euler_angles + /// @{ + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle X. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleX( + T const& angleX); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle Y. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleY( + T const& angleY); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle Z. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleZ( + T const& angleZ); + + /// Creates a 3D 4 * 4 homogeneous derived matrix from the rotation matrix about X-axis. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> derivedEulerAngleX( + T const & angleX, T const & angularVelocityX); + + /// Creates a 3D 4 * 4 homogeneous derived matrix from the rotation matrix about Y-axis. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> derivedEulerAngleY( + T const & angleY, T const & angularVelocityY); + + /// Creates a 3D 4 * 4 homogeneous derived matrix from the rotation matrix about Z-axis. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> derivedEulerAngleZ( + T const & angleZ, T const & angularVelocityZ); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Y). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleXY( + T const& angleX, + T const& angleY); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleYX( + T const& angleY, + T const& angleX); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleXZ( + T const& angleX, + T const& angleZ); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * X). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleZX( + T const& angle, + T const& angleX); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleYZ( + T const& angleY, + T const& angleZ); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * Y). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleZY( + T const& angleZ, + T const& angleY); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Y * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleXYZ( + T const& t1, + T const& t2, + T const& t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleYXZ( + T const& yaw, + T const& pitch, + T const& roll); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Z * X). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleXZX( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Y * X). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleXYX( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Y). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleYXY( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * Z * Y). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleYZY( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * Y * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleZYZ( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * X * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleZXZ( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Z * Y). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleXZY( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * Z * X). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleYZX( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * Y * X). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleZYX( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * X * Y). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> eulerAngleZXY( + T const & t1, + T const & t2, + T const & t3); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, defaultp> yawPitchRoll( + T const& yaw, + T const& pitch, + T const& roll); + + /// Creates a 2D 2 * 2 rotation matrix from an euler angle. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<2, 2, T, defaultp> orientate2(T const& angle); + + /// Creates a 2D 4 * 4 homogeneous rotation matrix from an euler angle. + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<3, 3, T, defaultp> orientate3(T const& angle); + + /// Creates a 3D 3 * 3 rotation matrix from euler angles (Y * X * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<3, 3, T, Q> orientate3(vec<3, T, Q> const& angles); + + /// Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). + /// @see gtx_euler_angles + template + GLM_FUNC_DECL mat<4, 4, T, Q> orientate4(vec<3, T, Q> const& angles); + + /// Extracts the (X * Y * Z) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleXYZ(mat<4, 4, T, defaultp> const& M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Y * X * Z) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleYXZ(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (X * Z * X) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleXZX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (X * Y * X) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleXYX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Y * X * Y) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleYXY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Y * Z * Y) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleYZY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Z * Y * Z) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleZYZ(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Z * X * Z) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleZXZ(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (X * Z * Y) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleXZY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Y * Z * X) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleYZX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Z * Y * X) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleZYX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// Extracts the (Z * X * Y) Euler angles from the rotation matrix M + /// @see gtx_euler_angles + template + GLM_FUNC_DECL void extractEulerAngleZXY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3); + + /// @} +}//namespace glm + +#include "euler_angles.inl" diff --git a/Vulkan/ext/include/glm/gtx/euler_angles.inl b/Vulkan/ext/include/glm/gtx/euler_angles.inl new file mode 100644 index 0000000..68c5012 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/euler_angles.inl @@ -0,0 +1,899 @@ +/// @ref gtx_euler_angles + +#include "compatibility.hpp" // glm::atan2 + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleX + ( + T const& angleX + ) + { + T cosX = glm::cos(angleX); + T sinX = glm::sin(angleX); + + return mat<4, 4, T, defaultp>( + T(1), T(0), T(0), T(0), + T(0), cosX, sinX, T(0), + T(0),-sinX, cosX, T(0), + T(0), T(0), T(0), T(1)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleY + ( + T const& angleY + ) + { + T cosY = glm::cos(angleY); + T sinY = glm::sin(angleY); + + return mat<4, 4, T, defaultp>( + cosY, T(0), -sinY, T(0), + T(0), T(1), T(0), T(0), + sinY, T(0), cosY, T(0), + T(0), T(0), T(0), T(1)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleZ + ( + T const& angleZ + ) + { + T cosZ = glm::cos(angleZ); + T sinZ = glm::sin(angleZ); + + return mat<4, 4, T, defaultp>( + cosZ, sinZ, T(0), T(0), + -sinZ, cosZ, T(0), T(0), + T(0), T(0), T(1), T(0), + T(0), T(0), T(0), T(1)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> derivedEulerAngleX + ( + T const & angleX, + T const & angularVelocityX + ) + { + T cosX = glm::cos(angleX) * angularVelocityX; + T sinX = glm::sin(angleX) * angularVelocityX; + + return mat<4, 4, T, defaultp>( + T(0), T(0), T(0), T(0), + T(0),-sinX, cosX, T(0), + T(0),-cosX,-sinX, T(0), + T(0), T(0), T(0), T(0)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> derivedEulerAngleY + ( + T const & angleY, + T const & angularVelocityY + ) + { + T cosY = glm::cos(angleY) * angularVelocityY; + T sinY = glm::sin(angleY) * angularVelocityY; + + return mat<4, 4, T, defaultp>( + -sinY, T(0), -cosY, T(0), + T(0), T(0), T(0), T(0), + cosY, T(0), -sinY, T(0), + T(0), T(0), T(0), T(0)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> derivedEulerAngleZ + ( + T const & angleZ, + T const & angularVelocityZ + ) + { + T cosZ = glm::cos(angleZ) * angularVelocityZ; + T sinZ = glm::sin(angleZ) * angularVelocityZ; + + return mat<4, 4, T, defaultp>( + -sinZ, cosZ, T(0), T(0), + -cosZ, -sinZ, T(0), T(0), + T(0), T(0), T(0), T(0), + T(0), T(0), T(0), T(0)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleXY + ( + T const& angleX, + T const& angleY + ) + { + T cosX = glm::cos(angleX); + T sinX = glm::sin(angleX); + T cosY = glm::cos(angleY); + T sinY = glm::sin(angleY); + + return mat<4, 4, T, defaultp>( + cosY, -sinX * -sinY, cosX * -sinY, T(0), + T(0), cosX, sinX, T(0), + sinY, -sinX * cosY, cosX * cosY, T(0), + T(0), T(0), T(0), T(1)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleYX + ( + T const& angleY, + T const& angleX + ) + { + T cosX = glm::cos(angleX); + T sinX = glm::sin(angleX); + T cosY = glm::cos(angleY); + T sinY = glm::sin(angleY); + + return mat<4, 4, T, defaultp>( + cosY, 0, -sinY, T(0), + sinY * sinX, cosX, cosY * sinX, T(0), + sinY * cosX, -sinX, cosY * cosX, T(0), + T(0), T(0), T(0), T(1)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleXZ + ( + T const& angleX, + T const& angleZ + ) + { + return eulerAngleX(angleX) * eulerAngleZ(angleZ); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleZX + ( + T const& angleZ, + T const& angleX + ) + { + return eulerAngleZ(angleZ) * eulerAngleX(angleX); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleYZ + ( + T const& angleY, + T const& angleZ + ) + { + return eulerAngleY(angleY) * eulerAngleZ(angleZ); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleZY + ( + T const& angleZ, + T const& angleY + ) + { + return eulerAngleZ(angleZ) * eulerAngleY(angleY); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleXYZ + ( + T const& t1, + T const& t2, + T const& t3 + ) + { + T c1 = glm::cos(-t1); + T c2 = glm::cos(-t2); + T c3 = glm::cos(-t3); + T s1 = glm::sin(-t1); + T s2 = glm::sin(-t2); + T s3 = glm::sin(-t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c2 * c3; + Result[0][1] =-c1 * s3 + s1 * s2 * c3; + Result[0][2] = s1 * s3 + c1 * s2 * c3; + Result[0][3] = static_cast(0); + Result[1][0] = c2 * s3; + Result[1][1] = c1 * c3 + s1 * s2 * s3; + Result[1][2] =-s1 * c3 + c1 * s2 * s3; + Result[1][3] = static_cast(0); + Result[2][0] =-s2; + Result[2][1] = s1 * c2; + Result[2][2] = c1 * c2; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleYXZ + ( + T const& yaw, + T const& pitch, + T const& roll + ) + { + T tmp_ch = glm::cos(yaw); + T tmp_sh = glm::sin(yaw); + T tmp_cp = glm::cos(pitch); + T tmp_sp = glm::sin(pitch); + T tmp_cb = glm::cos(roll); + T tmp_sb = glm::sin(roll); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = tmp_ch * tmp_cb + tmp_sh * tmp_sp * tmp_sb; + Result[0][1] = tmp_sb * tmp_cp; + Result[0][2] = -tmp_sh * tmp_cb + tmp_ch * tmp_sp * tmp_sb; + Result[0][3] = static_cast(0); + Result[1][0] = -tmp_ch * tmp_sb + tmp_sh * tmp_sp * tmp_cb; + Result[1][1] = tmp_cb * tmp_cp; + Result[1][2] = tmp_sb * tmp_sh + tmp_ch * tmp_sp * tmp_cb; + Result[1][3] = static_cast(0); + Result[2][0] = tmp_sh * tmp_cp; + Result[2][1] = -tmp_sp; + Result[2][2] = tmp_ch * tmp_cp; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleXZX + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c2; + Result[0][1] = c1 * s2; + Result[0][2] = s1 * s2; + Result[0][3] = static_cast(0); + Result[1][0] =-c3 * s2; + Result[1][1] = c1 * c2 * c3 - s1 * s3; + Result[1][2] = c1 * s3 + c2 * c3 * s1; + Result[1][3] = static_cast(0); + Result[2][0] = s2 * s3; + Result[2][1] =-c3 * s1 - c1 * c2 * s3; + Result[2][2] = c1 * c3 - c2 * s1 * s3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleXYX + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c2; + Result[0][1] = s1 * s2; + Result[0][2] =-c1 * s2; + Result[0][3] = static_cast(0); + Result[1][0] = s2 * s3; + Result[1][1] = c1 * c3 - c2 * s1 * s3; + Result[1][2] = c3 * s1 + c1 * c2 * s3; + Result[1][3] = static_cast(0); + Result[2][0] = c3 * s2; + Result[2][1] =-c1 * s3 - c2 * c3 * s1; + Result[2][2] = c1 * c2 * c3 - s1 * s3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleYXY + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c1 * c3 - c2 * s1 * s3; + Result[0][1] = s2* s3; + Result[0][2] =-c3 * s1 - c1 * c2 * s3; + Result[0][3] = static_cast(0); + Result[1][0] = s1 * s2; + Result[1][1] = c2; + Result[1][2] = c1 * s2; + Result[1][3] = static_cast(0); + Result[2][0] = c1 * s3 + c2 * c3 * s1; + Result[2][1] =-c3 * s2; + Result[2][2] = c1 * c2 * c3 - s1 * s3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleYZY + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c1 * c2 * c3 - s1 * s3; + Result[0][1] = c3 * s2; + Result[0][2] =-c1 * s3 - c2 * c3 * s1; + Result[0][3] = static_cast(0); + Result[1][0] =-c1 * s2; + Result[1][1] = c2; + Result[1][2] = s1 * s2; + Result[1][3] = static_cast(0); + Result[2][0] = c3 * s1 + c1 * c2 * s3; + Result[2][1] = s2 * s3; + Result[2][2] = c1 * c3 - c2 * s1 * s3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleZYZ + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c1 * c2 * c3 - s1 * s3; + Result[0][1] = c1 * s3 + c2 * c3 * s1; + Result[0][2] =-c3 * s2; + Result[0][3] = static_cast(0); + Result[1][0] =-c3 * s1 - c1 * c2 * s3; + Result[1][1] = c1 * c3 - c2 * s1 * s3; + Result[1][2] = s2 * s3; + Result[1][3] = static_cast(0); + Result[2][0] = c1 * s2; + Result[2][1] = s1 * s2; + Result[2][2] = c2; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleZXZ + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c1 * c3 - c2 * s1 * s3; + Result[0][1] = c3 * s1 + c1 * c2 * s3; + Result[0][2] = s2 *s3; + Result[0][3] = static_cast(0); + Result[1][0] =-c1 * s3 - c2 * c3 * s1; + Result[1][1] = c1 * c2 * c3 - s1 * s3; + Result[1][2] = c3 * s2; + Result[1][3] = static_cast(0); + Result[2][0] = s1 * s2; + Result[2][1] =-c1 * s2; + Result[2][2] = c2; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleXZY + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c2 * c3; + Result[0][1] = s1 * s3 + c1 * c3 * s2; + Result[0][2] = c3 * s1 * s2 - c1 * s3; + Result[0][3] = static_cast(0); + Result[1][0] =-s2; + Result[1][1] = c1 * c2; + Result[1][2] = c2 * s1; + Result[1][3] = static_cast(0); + Result[2][0] = c2 * s3; + Result[2][1] = c1 * s2 * s3 - c3 * s1; + Result[2][2] = c1 * c3 + s1 * s2 *s3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleYZX + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c1 * c2; + Result[0][1] = s2; + Result[0][2] =-c2 * s1; + Result[0][3] = static_cast(0); + Result[1][0] = s1 * s3 - c1 * c3 * s2; + Result[1][1] = c2 * c3; + Result[1][2] = c1 * s3 + c3 * s1 * s2; + Result[1][3] = static_cast(0); + Result[2][0] = c3 * s1 + c1 * s2 * s3; + Result[2][1] =-c2 * s3; + Result[2][2] = c1 * c3 - s1 * s2 * s3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleZYX + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c1 * c2; + Result[0][1] = c2 * s1; + Result[0][2] =-s2; + Result[0][3] = static_cast(0); + Result[1][0] = c1 * s2 * s3 - c3 * s1; + Result[1][1] = c1 * c3 + s1 * s2 * s3; + Result[1][2] = c2 * s3; + Result[1][3] = static_cast(0); + Result[2][0] = s1 * s3 + c1 * c3 * s2; + Result[2][1] = c3 * s1 * s2 - c1 * s3; + Result[2][2] = c2 * c3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> eulerAngleZXY + ( + T const & t1, + T const & t2, + T const & t3 + ) + { + T c1 = glm::cos(t1); + T s1 = glm::sin(t1); + T c2 = glm::cos(t2); + T s2 = glm::sin(t2); + T c3 = glm::cos(t3); + T s3 = glm::sin(t3); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = c1 * c3 - s1 * s2 * s3; + Result[0][1] = c3 * s1 + c1 * s2 * s3; + Result[0][2] =-c2 * s3; + Result[0][3] = static_cast(0); + Result[1][0] =-c2 * s1; + Result[1][1] = c1 * c2; + Result[1][2] = s2; + Result[1][3] = static_cast(0); + Result[2][0] = c1 * s3 + c3 * s1 * s2; + Result[2][1] = s1 * s3 - c1 * c3 * s2; + Result[2][2] = c2 * c3; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, defaultp> yawPitchRoll + ( + T const& yaw, + T const& pitch, + T const& roll + ) + { + T tmp_ch = glm::cos(yaw); + T tmp_sh = glm::sin(yaw); + T tmp_cp = glm::cos(pitch); + T tmp_sp = glm::sin(pitch); + T tmp_cb = glm::cos(roll); + T tmp_sb = glm::sin(roll); + + mat<4, 4, T, defaultp> Result; + Result[0][0] = tmp_ch * tmp_cb + tmp_sh * tmp_sp * tmp_sb; + Result[0][1] = tmp_sb * tmp_cp; + Result[0][2] = -tmp_sh * tmp_cb + tmp_ch * tmp_sp * tmp_sb; + Result[0][3] = static_cast(0); + Result[1][0] = -tmp_ch * tmp_sb + tmp_sh * tmp_sp * tmp_cb; + Result[1][1] = tmp_cb * tmp_cp; + Result[1][2] = tmp_sb * tmp_sh + tmp_ch * tmp_sp * tmp_cb; + Result[1][3] = static_cast(0); + Result[2][0] = tmp_sh * tmp_cp; + Result[2][1] = -tmp_sp; + Result[2][2] = tmp_ch * tmp_cp; + Result[2][3] = static_cast(0); + Result[3][0] = static_cast(0); + Result[3][1] = static_cast(0); + Result[3][2] = static_cast(0); + Result[3][3] = static_cast(1); + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, defaultp> orientate2 + ( + T const& angle + ) + { + T c = glm::cos(angle); + T s = glm::sin(angle); + + mat<2, 2, T, defaultp> Result; + Result[0][0] = c; + Result[0][1] = s; + Result[1][0] = -s; + Result[1][1] = c; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, defaultp> orientate3 + ( + T const& angle + ) + { + T c = glm::cos(angle); + T s = glm::sin(angle); + + mat<3, 3, T, defaultp> Result; + Result[0][0] = c; + Result[0][1] = s; + Result[0][2] = 0.0f; + Result[1][0] = -s; + Result[1][1] = c; + Result[1][2] = 0.0f; + Result[2][0] = 0.0f; + Result[2][1] = 0.0f; + Result[2][2] = 1.0f; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> orientate3 + ( + vec<3, T, Q> const& angles + ) + { + return mat<3, 3, T, Q>(yawPitchRoll(angles.z, angles.x, angles.y)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> orientate4 + ( + vec<3, T, Q> const& angles + ) + { + return yawPitchRoll(angles.z, angles.x, angles.y); + } + + template + GLM_FUNC_DECL void extractEulerAngleXYZ(mat<4, 4, T, defaultp> const& M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[2][1], M[2][2]); + T C2 = glm::sqrt(M[0][0]*M[0][0] + M[1][0]*M[1][0]); + T T2 = glm::atan2(-M[2][0], C2); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(S1*M[0][2] - C1*M[0][1], C1*M[1][1] - S1*M[1][2 ]); + t1 = -T1; + t2 = -T2; + t3 = -T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleYXZ(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[2][0], M[2][2]); + T C2 = glm::sqrt(M[0][1]*M[0][1] + M[1][1]*M[1][1]); + T T2 = glm::atan2(-M[2][1], C2); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(S1*M[1][2] - C1*M[1][0], C1*M[0][0] - S1*M[0][2]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleXZX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[0][2], M[0][1]); + T S2 = glm::sqrt(M[1][0]*M[1][0] + M[2][0]*M[2][0]); + T T2 = glm::atan2(S2, M[0][0]); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(C1*M[1][2] - S1*M[1][1], C1*M[2][2] - S1*M[2][1]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleXYX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[0][1], -M[0][2]); + T S2 = glm::sqrt(M[1][0]*M[1][0] + M[2][0]*M[2][0]); + T T2 = glm::atan2(S2, M[0][0]); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(-C1*M[2][1] - S1*M[2][2], C1*M[1][1] + S1*M[1][2]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleYXY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[1][0], M[1][2]); + T S2 = glm::sqrt(M[0][1]*M[0][1] + M[2][1]*M[2][1]); + T T2 = glm::atan2(S2, M[1][1]); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(C1*M[2][0] - S1*M[2][2], C1*M[0][0] - S1*M[0][2]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleYZY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[1][2], -M[1][0]); + T S2 = glm::sqrt(M[0][1]*M[0][1] + M[2][1]*M[2][1]); + T T2 = glm::atan2(S2, M[1][1]); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(-S1*M[0][0] - C1*M[0][2], S1*M[2][0] + C1*M[2][2]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleZYZ(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[2][1], M[2][0]); + T S2 = glm::sqrt(M[0][2]*M[0][2] + M[1][2]*M[1][2]); + T T2 = glm::atan2(S2, M[2][2]); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(C1*M[0][1] - S1*M[0][0], C1*M[1][1] - S1*M[1][0]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleZXZ(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[2][0], -M[2][1]); + T S2 = glm::sqrt(M[0][2]*M[0][2] + M[1][2]*M[1][2]); + T T2 = glm::atan2(S2, M[2][2]); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(-C1*M[1][0] - S1*M[1][1], C1*M[0][0] + S1*M[0][1]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleXZY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[1][2], M[1][1]); + T C2 = glm::sqrt(M[0][0]*M[0][0] + M[2][0]*M[2][0]); + T T2 = glm::atan2(-M[1][0], C2); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(S1*M[0][1] - C1*M[0][2], C1*M[2][2] - S1*M[2][1]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleYZX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(-M[0][2], M[0][0]); + T C2 = glm::sqrt(M[1][1]*M[1][1] + M[2][1]*M[2][1]); + T T2 = glm::atan2(M[0][1], C2); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(S1*M[1][0] + C1*M[1][2], S1*M[2][0] + C1*M[2][2]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleZYX(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(M[0][1], M[0][0]); + T C2 = glm::sqrt(M[1][2]*M[1][2] + M[2][2]*M[2][2]); + T T2 = glm::atan2(-M[0][2], C2); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(S1*M[2][0] - C1*M[2][1], C1*M[1][1] - S1*M[1][0]); + t1 = T1; + t2 = T2; + t3 = T3; + } + + template + GLM_FUNC_QUALIFIER void extractEulerAngleZXY(mat<4, 4, T, defaultp> const & M, + T & t1, + T & t2, + T & t3) + { + T T1 = glm::atan2(-M[1][0], M[1][1]); + T C2 = glm::sqrt(M[0][2]*M[0][2] + M[2][2]*M[2][2]); + T T2 = glm::atan2(M[1][2], C2); + T S1 = glm::sin(T1); + T C1 = glm::cos(T1); + T T3 = glm::atan2(C1*M[2][0] + S1*M[2][1], C1*M[0][0] + S1*M[0][1]); + t1 = T1; + t2 = T2; + t3 = T3; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/extend.hpp b/Vulkan/ext/include/glm/gtx/extend.hpp new file mode 100644 index 0000000..28b7c5c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/extend.hpp @@ -0,0 +1,42 @@ +/// @ref gtx_extend +/// @file glm/gtx/extend.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_extend GLM_GTX_extend +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Extend a position from a source to a position at a defined length. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_extend is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_extend extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_extend + /// @{ + + /// Extends of Length the Origin position using the (Source - Origin) direction. + /// @see gtx_extend + template + GLM_FUNC_DECL genType extend( + genType const& Origin, + genType const& Source, + typename genType::value_type const Length); + + /// @} +}//namespace glm + +#include "extend.inl" diff --git a/Vulkan/ext/include/glm/gtx/extend.inl b/Vulkan/ext/include/glm/gtx/extend.inl new file mode 100644 index 0000000..32128eb --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/extend.inl @@ -0,0 +1,48 @@ +/// @ref gtx_extend + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType extend + ( + genType const& Origin, + genType const& Source, + genType const& Distance + ) + { + return Origin + (Source - Origin) * Distance; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> extend + ( + vec<2, T, Q> const& Origin, + vec<2, T, Q> const& Source, + T const& Distance + ) + { + return Origin + (Source - Origin) * Distance; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> extend + ( + vec<3, T, Q> const& Origin, + vec<3, T, Q> const& Source, + T const& Distance + ) + { + return Origin + (Source - Origin) * Distance; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> extend + ( + vec<4, T, Q> const& Origin, + vec<4, T, Q> const& Source, + T const& Distance + ) + { + return Origin + (Source - Origin) * Distance; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/extended_min_max.hpp b/Vulkan/ext/include/glm/gtx/extended_min_max.hpp new file mode 100644 index 0000000..025eda2 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/extended_min_max.hpp @@ -0,0 +1,137 @@ +/// @ref gtx_extended_min_max +/// @file glm/gtx/extended_min_max.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_extended_min_max GLM_GTX_extented_min_max +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Min and max functions for 3 to 4 parameters. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../ext/vector_common.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_extented_min_max is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_extented_min_max extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_extended_min_max + /// @{ + + /// Return the minimum component-wise values of 3 inputs + /// @see gtx_extented_min_max + template + GLM_FUNC_DECL T min( + T const& x, + T const& y, + T const& z); + + /// Return the minimum component-wise values of 3 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C min( + C const& x, + typename C::T const& y, + typename C::T const& z); + + /// Return the minimum component-wise values of 3 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C min( + C const& x, + C const& y, + C const& z); + + /// Return the minimum component-wise values of 4 inputs + /// @see gtx_extented_min_max + template + GLM_FUNC_DECL T min( + T const& x, + T const& y, + T const& z, + T const& w); + + /// Return the minimum component-wise values of 4 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C min( + C const& x, + typename C::T const& y, + typename C::T const& z, + typename C::T const& w); + + /// Return the minimum component-wise values of 4 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C min( + C const& x, + C const& y, + C const& z, + C const& w); + + /// Return the maximum component-wise values of 3 inputs + /// @see gtx_extented_min_max + template + GLM_FUNC_DECL T max( + T const& x, + T const& y, + T const& z); + + /// Return the maximum component-wise values of 3 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C max( + C const& x, + typename C::T const& y, + typename C::T const& z); + + /// Return the maximum component-wise values of 3 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C max( + C const& x, + C const& y, + C const& z); + + /// Return the maximum component-wise values of 4 inputs + /// @see gtx_extented_min_max + template + GLM_FUNC_DECL T max( + T const& x, + T const& y, + T const& z, + T const& w); + + /// Return the maximum component-wise values of 4 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C max( + C const& x, + typename C::T const& y, + typename C::T const& z, + typename C::T const& w); + + /// Return the maximum component-wise values of 4 inputs + /// @see gtx_extented_min_max + template class C> + GLM_FUNC_DECL C max( + C const& x, + C const& y, + C const& z, + C const& w); + + /// @} +}//namespace glm + +#include "extended_min_max.inl" diff --git a/Vulkan/ext/include/glm/gtx/extended_min_max.inl b/Vulkan/ext/include/glm/gtx/extended_min_max.inl new file mode 100644 index 0000000..de5998f --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/extended_min_max.inl @@ -0,0 +1,138 @@ +/// @ref gtx_extended_min_max + +namespace glm +{ + template + GLM_FUNC_QUALIFIER T min( + T const& x, + T const& y, + T const& z) + { + return glm::min(glm::min(x, y), z); + } + + template class C> + GLM_FUNC_QUALIFIER C min + ( + C const& x, + typename C::T const& y, + typename C::T const& z + ) + { + return glm::min(glm::min(x, y), z); + } + + template class C> + GLM_FUNC_QUALIFIER C min + ( + C const& x, + C const& y, + C const& z + ) + { + return glm::min(glm::min(x, y), z); + } + + template + GLM_FUNC_QUALIFIER T min + ( + T const& x, + T const& y, + T const& z, + T const& w + ) + { + return glm::min(glm::min(x, y), glm::min(z, w)); + } + + template class C> + GLM_FUNC_QUALIFIER C min + ( + C const& x, + typename C::T const& y, + typename C::T const& z, + typename C::T const& w + ) + { + return glm::min(glm::min(x, y), glm::min(z, w)); + } + + template class C> + GLM_FUNC_QUALIFIER C min + ( + C const& x, + C const& y, + C const& z, + C const& w + ) + { + return glm::min(glm::min(x, y), glm::min(z, w)); + } + + template + GLM_FUNC_QUALIFIER T max( + T const& x, + T const& y, + T const& z) + { + return glm::max(glm::max(x, y), z); + } + + template class C> + GLM_FUNC_QUALIFIER C max + ( + C const& x, + typename C::T const& y, + typename C::T const& z + ) + { + return glm::max(glm::max(x, y), z); + } + + template class C> + GLM_FUNC_QUALIFIER C max + ( + C const& x, + C const& y, + C const& z + ) + { + return glm::max(glm::max(x, y), z); + } + + template + GLM_FUNC_QUALIFIER T max + ( + T const& x, + T const& y, + T const& z, + T const& w + ) + { + return glm::max(glm::max(x, y), glm::max(z, w)); + } + + template class C> + GLM_FUNC_QUALIFIER C max + ( + C const& x, + typename C::T const& y, + typename C::T const& z, + typename C::T const& w + ) + { + return glm::max(glm::max(x, y), glm::max(z, w)); + } + + template class C> + GLM_FUNC_QUALIFIER C max + ( + C const& x, + C const& y, + C const& z, + C const& w + ) + { + return glm::max(glm::max(x, y), glm::max(z, w)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/exterior_product.hpp b/Vulkan/ext/include/glm/gtx/exterior_product.hpp new file mode 100644 index 0000000..5522df7 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/exterior_product.hpp @@ -0,0 +1,45 @@ +/// @ref gtx_exterior_product +/// @file glm/gtx/exterior_product.hpp +/// +/// @see core (dependence) +/// @see gtx_exterior_product (dependence) +/// +/// @defgroup gtx_exterior_product GLM_GTX_exterior_product +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// @brief Allow to perform bit operations on integer values + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_exterior_product is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_exterior_product extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_exterior_product + /// @{ + + /// Returns the cross product of x and y. + /// + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see Exterior product + template + GLM_FUNC_DECL T cross(vec<2, T, Q> const& v, vec<2, T, Q> const& u); + + /// @} +} //namespace glm + +#include "exterior_product.inl" diff --git a/Vulkan/ext/include/glm/gtx/exterior_product.inl b/Vulkan/ext/include/glm/gtx/exterior_product.inl new file mode 100644 index 0000000..93661fd --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/exterior_product.inl @@ -0,0 +1,26 @@ +/// @ref gtx_exterior_product + +#include + +namespace glm { +namespace detail +{ + template + struct compute_cross_vec2 + { + GLM_FUNC_QUALIFIER static T call(vec<2, T, Q> const& v, vec<2, T, Q> const& u) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'cross' accepts only floating-point inputs"); + + return v.x * u.y - u.x * v.y; + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER T cross(vec<2, T, Q> const& x, vec<2, T, Q> const& y) + { + return detail::compute_cross_vec2::value>::call(x, y); + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/gtx/fast_exponential.hpp b/Vulkan/ext/include/glm/gtx/fast_exponential.hpp new file mode 100644 index 0000000..6fb7286 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/fast_exponential.hpp @@ -0,0 +1,95 @@ +/// @ref gtx_fast_exponential +/// @file glm/gtx/fast_exponential.hpp +/// +/// @see core (dependence) +/// @see gtx_half_float (dependence) +/// +/// @defgroup gtx_fast_exponential GLM_GTX_fast_exponential +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Fast but less accurate implementations of exponential based functions. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_fast_exponential is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_fast_exponential extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_fast_exponential + /// @{ + + /// Faster than the common pow function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL genType fastPow(genType x, genType y); + + /// Faster than the common pow function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL vec fastPow(vec const& x, vec const& y); + + /// Faster than the common pow function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL genTypeT fastPow(genTypeT x, genTypeU y); + + /// Faster than the common pow function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL vec fastPow(vec const& x); + + /// Faster than the common exp function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL T fastExp(T x); + + /// Faster than the common exp function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL vec fastExp(vec const& x); + + /// Faster than the common log function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL T fastLog(T x); + + /// Faster than the common exp2 function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL vec fastLog(vec const& x); + + /// Faster than the common exp2 function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL T fastExp2(T x); + + /// Faster than the common exp2 function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL vec fastExp2(vec const& x); + + /// Faster than the common log2 function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL T fastLog2(T x); + + /// Faster than the common log2 function but less accurate. + /// @see gtx_fast_exponential + template + GLM_FUNC_DECL vec fastLog2(vec const& x); + + /// @} +}//namespace glm + +#include "fast_exponential.inl" diff --git a/Vulkan/ext/include/glm/gtx/fast_exponential.inl b/Vulkan/ext/include/glm/gtx/fast_exponential.inl new file mode 100644 index 0000000..f139e50 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/fast_exponential.inl @@ -0,0 +1,136 @@ +/// @ref gtx_fast_exponential + +namespace glm +{ + // fastPow: + template + GLM_FUNC_QUALIFIER genType fastPow(genType x, genType y) + { + return exp(y * log(x)); + } + + template + GLM_FUNC_QUALIFIER vec fastPow(vec const& x, vec const& y) + { + return exp(y * log(x)); + } + + template + GLM_FUNC_QUALIFIER T fastPow(T x, int y) + { + T f = static_cast(1); + for(int i = 0; i < y; ++i) + f *= x; + return f; + } + + template + GLM_FUNC_QUALIFIER vec fastPow(vec const& x, vec const& y) + { + vec Result; + for(length_t i = 0, n = x.length(); i < n; ++i) + Result[i] = fastPow(x[i], y[i]); + return Result; + } + + // fastExp + // Note: This function provides accurate results only for value between -1 and 1, else avoid it. + template + GLM_FUNC_QUALIFIER T fastExp(T x) + { + // This has a better looking and same performance in release mode than the following code. However, in debug mode it's slower. + // return 1.0f + x * (1.0f + x * 0.5f * (1.0f + x * 0.3333333333f * (1.0f + x * 0.25 * (1.0f + x * 0.2f)))); + T x2 = x * x; + T x3 = x2 * x; + T x4 = x3 * x; + T x5 = x4 * x; + return T(1) + x + (x2 * T(0.5)) + (x3 * T(0.1666666667)) + (x4 * T(0.041666667)) + (x5 * T(0.008333333333)); + } + /* // Try to handle all values of float... but often shower than std::exp, glm::floor and the loop kill the performance + GLM_FUNC_QUALIFIER float fastExp(float x) + { + const float e = 2.718281828f; + const float IntegerPart = floor(x); + const float FloatPart = x - IntegerPart; + float z = 1.f; + + for(int i = 0; i < int(IntegerPart); ++i) + z *= e; + + const float x2 = FloatPart * FloatPart; + const float x3 = x2 * FloatPart; + const float x4 = x3 * FloatPart; + const float x5 = x4 * FloatPart; + return z * (1.0f + FloatPart + (x2 * 0.5f) + (x3 * 0.1666666667f) + (x4 * 0.041666667f) + (x5 * 0.008333333333f)); + } + + // Increase accuracy on number bigger that 1 and smaller than -1 but it's not enough for high and negative numbers + GLM_FUNC_QUALIFIER float fastExp(float x) + { + // This has a better looking and same performance in release mode than the following code. However, in debug mode it's slower. + // return 1.0f + x * (1.0f + x * 0.5f * (1.0f + x * 0.3333333333f * (1.0f + x * 0.25 * (1.0f + x * 0.2f)))); + float x2 = x * x; + float x3 = x2 * x; + float x4 = x3 * x; + float x5 = x4 * x; + float x6 = x5 * x; + float x7 = x6 * x; + float x8 = x7 * x; + return 1.0f + x + (x2 * 0.5f) + (x3 * 0.1666666667f) + (x4 * 0.041666667f) + (x5 * 0.008333333333f)+ (x6 * 0.00138888888888f) + (x7 * 0.000198412698f) + (x8 * 0.0000248015873f);; + } + */ + + template + GLM_FUNC_QUALIFIER vec fastExp(vec const& x) + { + return detail::functor1::call(fastExp, x); + } + + // fastLog + template + GLM_FUNC_QUALIFIER genType fastLog(genType x) + { + return std::log(x); + } + + /* Slower than the VC7.1 function... + GLM_FUNC_QUALIFIER float fastLog(float x) + { + float y1 = (x - 1.0f) / (x + 1.0f); + float y2 = y1 * y1; + return 2.0f * y1 * (1.0f + y2 * (0.3333333333f + y2 * (0.2f + y2 * 0.1428571429f))); + } + */ + + template + GLM_FUNC_QUALIFIER vec fastLog(vec const& x) + { + return detail::functor1::call(fastLog, x); + } + + //fastExp2, ln2 = 0.69314718055994530941723212145818f + template + GLM_FUNC_QUALIFIER genType fastExp2(genType x) + { + return fastExp(0.69314718055994530941723212145818f * x); + } + + template + GLM_FUNC_QUALIFIER vec fastExp2(vec const& x) + { + return detail::functor1::call(fastExp2, x); + } + + // fastLog2, ln2 = 0.69314718055994530941723212145818f + template + GLM_FUNC_QUALIFIER genType fastLog2(genType x) + { + return fastLog(x) / 0.69314718055994530941723212145818f; + } + + template + GLM_FUNC_QUALIFIER vec fastLog2(vec const& x) + { + return detail::functor1::call(fastLog2, x); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/fast_square_root.hpp b/Vulkan/ext/include/glm/gtx/fast_square_root.hpp new file mode 100644 index 0000000..9fb3f2f --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/fast_square_root.hpp @@ -0,0 +1,92 @@ +/// @ref gtx_fast_square_root +/// @file glm/gtx/fast_square_root.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_fast_square_root GLM_GTX_fast_square_root +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Fast but less accurate implementations of square root based functions. +/// - Sqrt optimisation based on Newton's method, +/// www.gamedev.net/community/forums/topic.asp?topic id=139956 + +#pragma once + +// Dependency: +#include "../common.hpp" +#include "../exponential.hpp" +#include "../geometric.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_fast_square_root is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_fast_square_root extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_fast_square_root + /// @{ + + /// Faster than the common sqrt function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL genType fastSqrt(genType x); + + /// Faster than the common sqrt function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL vec fastSqrt(vec const& x); + + /// Faster than the common inversesqrt function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL genType fastInverseSqrt(genType x); + + /// Faster than the common inversesqrt function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL vec fastInverseSqrt(vec const& x); + + /// Faster than the common length function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL genType fastLength(genType x); + + /// Faster than the common length function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL T fastLength(vec const& x); + + /// Faster than the common distance function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL genType fastDistance(genType x, genType y); + + /// Faster than the common distance function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL T fastDistance(vec const& x, vec const& y); + + /// Faster than the common normalize function but less accurate. + /// + /// @see gtx_fast_square_root extension. + template + GLM_FUNC_DECL genType fastNormalize(genType const& x); + + /// @} +}// namespace glm + +#include "fast_square_root.inl" diff --git a/Vulkan/ext/include/glm/gtx/fast_square_root.inl b/Vulkan/ext/include/glm/gtx/fast_square_root.inl new file mode 100644 index 0000000..4e6c6de --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/fast_square_root.inl @@ -0,0 +1,75 @@ +/// @ref gtx_fast_square_root + +namespace glm +{ + // fastSqrt + template + GLM_FUNC_QUALIFIER genType fastSqrt(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fastSqrt' only accept floating-point input"); + + return genType(1) / fastInverseSqrt(x); + } + + template + GLM_FUNC_QUALIFIER vec fastSqrt(vec const& x) + { + return detail::functor1::call(fastSqrt, x); + } + + // fastInversesqrt + template + GLM_FUNC_QUALIFIER genType fastInverseSqrt(genType x) + { + return detail::compute_inversesqrt<1, genType, lowp, detail::is_aligned::value>::call(vec<1, genType, lowp>(x)).x; + } + + template + GLM_FUNC_QUALIFIER vec fastInverseSqrt(vec const& x) + { + return detail::compute_inversesqrt::value>::call(x); + } + + // fastLength + template + GLM_FUNC_QUALIFIER genType fastLength(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fastLength' only accept floating-point inputs"); + + return abs(x); + } + + template + GLM_FUNC_QUALIFIER T fastLength(vec const& x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'fastLength' only accept floating-point inputs"); + + return fastSqrt(dot(x, x)); + } + + // fastDistance + template + GLM_FUNC_QUALIFIER genType fastDistance(genType x, genType y) + { + return fastLength(y - x); + } + + template + GLM_FUNC_QUALIFIER T fastDistance(vec const& x, vec const& y) + { + return fastLength(y - x); + } + + // fastNormalize + template + GLM_FUNC_QUALIFIER genType fastNormalize(genType x) + { + return x > genType(0) ? genType(1) : -genType(1); + } + + template + GLM_FUNC_QUALIFIER vec fastNormalize(vec const& x) + { + return x * fastInverseSqrt(dot(x, x)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/fast_trigonometry.hpp b/Vulkan/ext/include/glm/gtx/fast_trigonometry.hpp new file mode 100644 index 0000000..2650d6e --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/fast_trigonometry.hpp @@ -0,0 +1,79 @@ +/// @ref gtx_fast_trigonometry +/// @file glm/gtx/fast_trigonometry.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_fast_trigonometry GLM_GTX_fast_trigonometry +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Fast but less accurate implementations of trigonometric functions. + +#pragma once + +// Dependency: +#include "../gtc/constants.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_fast_trigonometry is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_fast_trigonometry extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_fast_trigonometry + /// @{ + + /// Wrap an angle to [0 2pi[ + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T wrapAngle(T angle); + + /// Faster than the common sin function but less accurate. + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T fastSin(T angle); + + /// Faster than the common cos function but less accurate. + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T fastCos(T angle); + + /// Faster than the common tan function but less accurate. + /// Defined between -2pi and 2pi. + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T fastTan(T angle); + + /// Faster than the common asin function but less accurate. + /// Defined between -2pi and 2pi. + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T fastAsin(T angle); + + /// Faster than the common acos function but less accurate. + /// Defined between -2pi and 2pi. + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T fastAcos(T angle); + + /// Faster than the common atan function but less accurate. + /// Defined between -2pi and 2pi. + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T fastAtan(T y, T x); + + /// Faster than the common atan function but less accurate. + /// Defined between -2pi and 2pi. + /// From GLM_GTX_fast_trigonometry extension. + template + GLM_FUNC_DECL T fastAtan(T angle); + + /// @} +}//namespace glm + +#include "fast_trigonometry.inl" diff --git a/Vulkan/ext/include/glm/gtx/fast_trigonometry.inl b/Vulkan/ext/include/glm/gtx/fast_trigonometry.inl new file mode 100644 index 0000000..1a710cb --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/fast_trigonometry.inl @@ -0,0 +1,142 @@ +/// @ref gtx_fast_trigonometry + +namespace glm{ +namespace detail +{ + template + GLM_FUNC_QUALIFIER vec taylorCos(vec const& x) + { + return static_cast(1) + - (x * x) * (1.f / 2.f) + + ((x * x) * (x * x)) * (1.f / 24.f) + - (((x * x) * (x * x)) * (x * x)) * (1.f / 720.f) + + (((x * x) * (x * x)) * ((x * x) * (x * x))) * (1.f / 40320.f); + } + + template + GLM_FUNC_QUALIFIER T cos_52s(T x) + { + T const xx(x * x); + return (T(0.9999932946) + xx * (T(-0.4999124376) + xx * (T(0.0414877472) + xx * T(-0.0012712095)))); + } + + template + GLM_FUNC_QUALIFIER vec cos_52s(vec const& x) + { + return detail::functor1::call(cos_52s, x); + } +}//namespace detail + + // wrapAngle + template + GLM_FUNC_QUALIFIER T wrapAngle(T angle) + { + return abs(mod(angle, two_pi())); + } + + template + GLM_FUNC_QUALIFIER vec wrapAngle(vec const& x) + { + return detail::functor1::call(wrapAngle, x); + } + + // cos + template + GLM_FUNC_QUALIFIER T fastCos(T x) + { + T const angle(wrapAngle(x)); + + if(angle < half_pi()) + return detail::cos_52s(angle); + if(angle < pi()) + return -detail::cos_52s(pi() - angle); + if(angle < (T(3) * half_pi())) + return -detail::cos_52s(angle - pi()); + + return detail::cos_52s(two_pi() - angle); + } + + template + GLM_FUNC_QUALIFIER vec fastCos(vec const& x) + { + return detail::functor1::call(fastCos, x); + } + + // sin + template + GLM_FUNC_QUALIFIER T fastSin(T x) + { + return fastCos(half_pi() - x); + } + + template + GLM_FUNC_QUALIFIER vec fastSin(vec const& x) + { + return detail::functor1::call(fastSin, x); + } + + // tan + template + GLM_FUNC_QUALIFIER T fastTan(T x) + { + return x + (x * x * x * T(0.3333333333)) + (x * x * x * x * x * T(0.1333333333333)) + (x * x * x * x * x * x * x * T(0.0539682539)); + } + + template + GLM_FUNC_QUALIFIER vec fastTan(vec const& x) + { + return detail::functor1::call(fastTan, x); + } + + // asin + template + GLM_FUNC_QUALIFIER T fastAsin(T x) + { + return x + (x * x * x * T(0.166666667)) + (x * x * x * x * x * T(0.075)) + (x * x * x * x * x * x * x * T(0.0446428571)) + (x * x * x * x * x * x * x * x * x * T(0.0303819444));// + (x * x * x * x * x * x * x * x * x * x * x * T(0.022372159)); + } + + template + GLM_FUNC_QUALIFIER vec fastAsin(vec const& x) + { + return detail::functor1::call(fastAsin, x); + } + + // acos + template + GLM_FUNC_QUALIFIER T fastAcos(T x) + { + return T(1.5707963267948966192313216916398) - fastAsin(x); //(PI / 2) + } + + template + GLM_FUNC_QUALIFIER vec fastAcos(vec const& x) + { + return detail::functor1::call(fastAcos, x); + } + + // atan + template + GLM_FUNC_QUALIFIER T fastAtan(T y, T x) + { + T sgn = sign(y) * sign(x); + return abs(fastAtan(y / x)) * sgn; + } + + template + GLM_FUNC_QUALIFIER vec fastAtan(vec const& y, vec const& x) + { + return detail::functor2::call(fastAtan, y, x); + } + + template + GLM_FUNC_QUALIFIER T fastAtan(T x) + { + return x - (x * x * x * T(0.333333333333)) + (x * x * x * x * x * T(0.2)) - (x * x * x * x * x * x * x * T(0.1428571429)) + (x * x * x * x * x * x * x * x * x * T(0.111111111111)) - (x * x * x * x * x * x * x * x * x * x * x * T(0.0909090909)); + } + + template + GLM_FUNC_QUALIFIER vec fastAtan(vec const& x) + { + return detail::functor1::call(fastAtan, x); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/float_notmalize.inl b/Vulkan/ext/include/glm/gtx/float_notmalize.inl new file mode 100644 index 0000000..8cdbc5a --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/float_notmalize.inl @@ -0,0 +1,13 @@ +/// @ref gtx_float_normalize + +#include + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec floatNormalize(vec const& v) + { + return vec(v) / static_cast(std::numeric_limits::max()); + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/functions.hpp b/Vulkan/ext/include/glm/gtx/functions.hpp new file mode 100644 index 0000000..9f4166c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/functions.hpp @@ -0,0 +1,56 @@ +/// @ref gtx_functions +/// @file glm/gtx/functions.hpp +/// +/// @see core (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtx_functions GLM_GTX_functions +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// List of useful common functions. + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" +#include "../detail/qualifier.hpp" +#include "../detail/type_vec2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_functions is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_functions extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_functions + /// @{ + + /// 1D gauss function + /// + /// @see gtc_epsilon + template + GLM_FUNC_DECL T gauss( + T x, + T ExpectedValue, + T StandardDeviation); + + /// 2D gauss function + /// + /// @see gtc_epsilon + template + GLM_FUNC_DECL T gauss( + vec<2, T, Q> const& Coord, + vec<2, T, Q> const& ExpectedValue, + vec<2, T, Q> const& StandardDeviation); + + /// @} +}//namespace glm + +#include "functions.inl" + diff --git a/Vulkan/ext/include/glm/gtx/functions.inl b/Vulkan/ext/include/glm/gtx/functions.inl new file mode 100644 index 0000000..29cbb20 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/functions.inl @@ -0,0 +1,30 @@ +/// @ref gtx_functions + +#include "../exponential.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER T gauss + ( + T x, + T ExpectedValue, + T StandardDeviation + ) + { + return exp(-((x - ExpectedValue) * (x - ExpectedValue)) / (static_cast(2) * StandardDeviation * StandardDeviation)) / (StandardDeviation * sqrt(static_cast(6.28318530717958647692528676655900576))); + } + + template + GLM_FUNC_QUALIFIER T gauss + ( + vec<2, T, Q> const& Coord, + vec<2, T, Q> const& ExpectedValue, + vec<2, T, Q> const& StandardDeviation + ) + { + vec<2, T, Q> const Squared = ((Coord - ExpectedValue) * (Coord - ExpectedValue)) / (static_cast(2) * StandardDeviation * StandardDeviation); + return exp(-(Squared.x + Squared.y)); + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/gtx/gradient_paint.hpp b/Vulkan/ext/include/glm/gtx/gradient_paint.hpp new file mode 100644 index 0000000..6f85bf4 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/gradient_paint.hpp @@ -0,0 +1,53 @@ +/// @ref gtx_gradient_paint +/// @file glm/gtx/gradient_paint.hpp +/// +/// @see core (dependence) +/// @see gtx_optimum_pow (dependence) +/// +/// @defgroup gtx_gradient_paint GLM_GTX_gradient_paint +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Functions that return the color of procedural gradient for specific coordinates. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtx/optimum_pow.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_gradient_paint is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_gradient_paint extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_gradient_paint + /// @{ + + /// Return a color from a radial gradient. + /// @see - gtx_gradient_paint + template + GLM_FUNC_DECL T radialGradient( + vec<2, T, Q> const& Center, + T const& Radius, + vec<2, T, Q> const& Focal, + vec<2, T, Q> const& Position); + + /// Return a color from a linear gradient. + /// @see - gtx_gradient_paint + template + GLM_FUNC_DECL T linearGradient( + vec<2, T, Q> const& Point0, + vec<2, T, Q> const& Point1, + vec<2, T, Q> const& Position); + + /// @} +}// namespace glm + +#include "gradient_paint.inl" diff --git a/Vulkan/ext/include/glm/gtx/gradient_paint.inl b/Vulkan/ext/include/glm/gtx/gradient_paint.inl new file mode 100644 index 0000000..4c495e6 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/gradient_paint.inl @@ -0,0 +1,36 @@ +/// @ref gtx_gradient_paint + +namespace glm +{ + template + GLM_FUNC_QUALIFIER T radialGradient + ( + vec<2, T, Q> const& Center, + T const& Radius, + vec<2, T, Q> const& Focal, + vec<2, T, Q> const& Position + ) + { + vec<2, T, Q> F = Focal - Center; + vec<2, T, Q> D = Position - Focal; + T Radius2 = pow2(Radius); + T Fx2 = pow2(F.x); + T Fy2 = pow2(F.y); + + T Numerator = (D.x * F.x + D.y * F.y) + sqrt(Radius2 * (pow2(D.x) + pow2(D.y)) - pow2(D.x * F.y - D.y * F.x)); + T Denominator = Radius2 - (Fx2 + Fy2); + return Numerator / Denominator; + } + + template + GLM_FUNC_QUALIFIER T linearGradient + ( + vec<2, T, Q> const& Point0, + vec<2, T, Q> const& Point1, + vec<2, T, Q> const& Position + ) + { + vec<2, T, Q> Dist = Point1 - Point0; + return (Dist.x * (Position.x - Point0.x) + Dist.y * (Position.y - Point0.y)) / glm::dot(Dist, Dist); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/handed_coordinate_space.hpp b/Vulkan/ext/include/glm/gtx/handed_coordinate_space.hpp new file mode 100644 index 0000000..3c85968 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/handed_coordinate_space.hpp @@ -0,0 +1,50 @@ +/// @ref gtx_handed_coordinate_space +/// @file glm/gtx/handed_coordinate_space.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_handed_coordinate_space GLM_GTX_handed_coordinate_space +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// To know if a set of three basis vectors defines a right or left-handed coordinate system. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_handed_coordinate_space is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_handed_coordinate_space extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_handed_coordinate_space + /// @{ + + //! Return if a trihedron right handed or not. + //! From GLM_GTX_handed_coordinate_space extension. + template + GLM_FUNC_DECL bool rightHanded( + vec<3, T, Q> const& tangent, + vec<3, T, Q> const& binormal, + vec<3, T, Q> const& normal); + + //! Return if a trihedron left handed or not. + //! From GLM_GTX_handed_coordinate_space extension. + template + GLM_FUNC_DECL bool leftHanded( + vec<3, T, Q> const& tangent, + vec<3, T, Q> const& binormal, + vec<3, T, Q> const& normal); + + /// @} +}// namespace glm + +#include "handed_coordinate_space.inl" diff --git a/Vulkan/ext/include/glm/gtx/handed_coordinate_space.inl b/Vulkan/ext/include/glm/gtx/handed_coordinate_space.inl new file mode 100644 index 0000000..e43c17b --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/handed_coordinate_space.inl @@ -0,0 +1,26 @@ +/// @ref gtx_handed_coordinate_space + +namespace glm +{ + template + GLM_FUNC_QUALIFIER bool rightHanded + ( + vec<3, T, Q> const& tangent, + vec<3, T, Q> const& binormal, + vec<3, T, Q> const& normal + ) + { + return dot(cross(normal, tangent), binormal) > T(0); + } + + template + GLM_FUNC_QUALIFIER bool leftHanded + ( + vec<3, T, Q> const& tangent, + vec<3, T, Q> const& binormal, + vec<3, T, Q> const& normal + ) + { + return dot(cross(normal, tangent), binormal) < T(0); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/hash.hpp b/Vulkan/ext/include/glm/gtx/hash.hpp new file mode 100644 index 0000000..05dae9f --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/hash.hpp @@ -0,0 +1,142 @@ +/// @ref gtx_hash +/// @file glm/gtx/hash.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_hash GLM_GTX_hash +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Add std::hash support for glm types + +#pragma once + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_hash is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_hash extension included") +# endif +#endif + +#include + +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include "../gtc/vec1.hpp" + +#include "../gtc/quaternion.hpp" +#include "../gtx/dual_quaternion.hpp" + +#include "../mat2x2.hpp" +#include "../mat2x3.hpp" +#include "../mat2x4.hpp" + +#include "../mat3x2.hpp" +#include "../mat3x3.hpp" +#include "../mat3x4.hpp" + +#include "../mat4x2.hpp" +#include "../mat4x3.hpp" +#include "../mat4x4.hpp" + +#if !GLM_HAS_CXX11_STL +# error "GLM_GTX_hash requires C++11 standard library support" +#endif + +namespace std +{ + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::vec<1, T, Q> const& v) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::vec<2, T, Q> const& v) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::vec<3, T, Q> const& v) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::vec<4, T, Q> const& v) const; + }; + + template + struct hash> + { + GLM_FUNC_DECL size_t operator()(glm::qua const& q) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::tdualquat const& q) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<2, 2, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<2, 3, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<2, 4, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<3, 2, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<3, 3, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<3, 4, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<4, 2, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<4, 3, T,Q> const& m) const; + }; + + template + struct hash > + { + GLM_FUNC_DECL size_t operator()(glm::mat<4, 4, T,Q> const& m) const; + }; +} // namespace std + +#include "hash.inl" diff --git a/Vulkan/ext/include/glm/gtx/hash.inl b/Vulkan/ext/include/glm/gtx/hash.inl new file mode 100644 index 0000000..ff71ca9 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/hash.inl @@ -0,0 +1,184 @@ +/// @ref gtx_hash +/// +/// @see core (dependence) +/// +/// @defgroup gtx_hash GLM_GTX_hash +/// @ingroup gtx +/// +/// @brief Add std::hash support for glm types +/// +/// need to be included to use the features of this extension. + +namespace glm { +namespace detail +{ + GLM_INLINE void hash_combine(size_t &seed, size_t hash) + { + hash += 0x9e3779b9 + (seed << 6) + (seed >> 2); + seed ^= hash; + } +}} + +namespace std +{ + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::vec<1, T, Q> const& v) const + { + hash hasher; + return hasher(v.x); + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::vec<2, T, Q> const& v) const + { + size_t seed = 0; + hash hasher; + glm::detail::hash_combine(seed, hasher(v.x)); + glm::detail::hash_combine(seed, hasher(v.y)); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::vec<3, T, Q> const& v) const + { + size_t seed = 0; + hash hasher; + glm::detail::hash_combine(seed, hasher(v.x)); + glm::detail::hash_combine(seed, hasher(v.y)); + glm::detail::hash_combine(seed, hasher(v.z)); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::vec<4, T, Q> const& v) const + { + size_t seed = 0; + hash hasher; + glm::detail::hash_combine(seed, hasher(v.x)); + glm::detail::hash_combine(seed, hasher(v.y)); + glm::detail::hash_combine(seed, hasher(v.z)); + glm::detail::hash_combine(seed, hasher(v.w)); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::qua const& q) const + { + size_t seed = 0; + hash hasher; + glm::detail::hash_combine(seed, hasher(q.x)); + glm::detail::hash_combine(seed, hasher(q.y)); + glm::detail::hash_combine(seed, hasher(q.z)); + glm::detail::hash_combine(seed, hasher(q.w)); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::tdualquat const& q) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(q.real)); + glm::detail::hash_combine(seed, hasher(q.dual)); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<2, 2, T, Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<2, 3, T, Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<2, 4, T, Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<3, 2, T, Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + glm::detail::hash_combine(seed, hasher(m[2])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<3, 3, T, Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + glm::detail::hash_combine(seed, hasher(m[2])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<3, 4, T, Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + glm::detail::hash_combine(seed, hasher(m[2])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<4, 2, T,Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + glm::detail::hash_combine(seed, hasher(m[2])); + glm::detail::hash_combine(seed, hasher(m[3])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<4, 3, T,Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + glm::detail::hash_combine(seed, hasher(m[2])); + glm::detail::hash_combine(seed, hasher(m[3])); + return seed; + } + + template + GLM_FUNC_QUALIFIER size_t hash>::operator()(glm::mat<4, 4, T, Q> const& m) const + { + size_t seed = 0; + hash> hasher; + glm::detail::hash_combine(seed, hasher(m[0])); + glm::detail::hash_combine(seed, hasher(m[1])); + glm::detail::hash_combine(seed, hasher(m[2])); + glm::detail::hash_combine(seed, hasher(m[3])); + return seed; + } +} diff --git a/Vulkan/ext/include/glm/gtx/integer.hpp b/Vulkan/ext/include/glm/gtx/integer.hpp new file mode 100644 index 0000000..d0b4c61 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/integer.hpp @@ -0,0 +1,76 @@ +/// @ref gtx_integer +/// @file glm/gtx/integer.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_integer GLM_GTX_integer +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Add support for integer for core functions + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/integer.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_integer is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_integer extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_integer + /// @{ + + //! Returns x raised to the y power. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL int pow(int x, uint y); + + //! Returns the positive square root of x. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL int sqrt(int x); + + //! Returns the floor log2 of x. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL unsigned int floor_log2(unsigned int x); + + //! Modulus. Returns x - y * floor(x / y) for each component in x using the floating point value y. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL int mod(int x, int y); + + //! Return the factorial value of a number (!12 max, integer only) + //! From GLM_GTX_integer extension. + template + GLM_FUNC_DECL genType factorial(genType const& x); + + //! 32bit signed integer. + //! From GLM_GTX_integer extension. + typedef signed int sint; + + //! Returns x raised to the y power. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL uint pow(uint x, uint y); + + //! Returns the positive square root of x. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL uint sqrt(uint x); + + //! Modulus. Returns x - y * floor(x / y) for each component in x using the floating point value y. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL uint mod(uint x, uint y); + + //! Returns the number of leading zeros. + //! From GLM_GTX_integer extension. + GLM_FUNC_DECL uint nlz(uint x); + + /// @} +}//namespace glm + +#include "integer.inl" diff --git a/Vulkan/ext/include/glm/gtx/integer.inl b/Vulkan/ext/include/glm/gtx/integer.inl new file mode 100644 index 0000000..956366b --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/integer.inl @@ -0,0 +1,185 @@ +/// @ref gtx_integer + +namespace glm +{ + // pow + GLM_FUNC_QUALIFIER int pow(int x, uint y) + { + if(y == 0) + return x >= 0 ? 1 : -1; + + int result = x; + for(uint i = 1; i < y; ++i) + result *= x; + return result; + } + + // sqrt: From Christopher J. Musial, An integer square root, Graphics Gems, 1990, page 387 + GLM_FUNC_QUALIFIER int sqrt(int x) + { + if(x <= 1) return x; + + int NextTrial = x >> 1; + int CurrentAnswer; + + do + { + CurrentAnswer = NextTrial; + NextTrial = (NextTrial + x / NextTrial) >> 1; + } while(NextTrial < CurrentAnswer); + + return CurrentAnswer; + } + +// Henry Gordon Dietz: http://aggregate.org/MAGIC/ +namespace detail +{ + GLM_FUNC_QUALIFIER unsigned int ones32(unsigned int x) + { + /* 32-bit recursive reduction using SWAR... + but first step is mapping 2-bit values + into sum of 2 1-bit values in sneaky way + */ + x -= ((x >> 1) & 0x55555555); + x = (((x >> 2) & 0x33333333) + (x & 0x33333333)); + x = (((x >> 4) + x) & 0x0f0f0f0f); + x += (x >> 8); + x += (x >> 16); + return(x & 0x0000003f); + } +}//namespace detail + + // Henry Gordon Dietz: http://aggregate.org/MAGIC/ +/* + GLM_FUNC_QUALIFIER unsigned int floor_log2(unsigned int x) + { + x |= (x >> 1); + x |= (x >> 2); + x |= (x >> 4); + x |= (x >> 8); + x |= (x >> 16); + + return _detail::ones32(x) >> 1; + } +*/ + // mod + GLM_FUNC_QUALIFIER int mod(int x, int y) + { + return ((x % y) + y) % y; + } + + // factorial (!12 max, integer only) + template + GLM_FUNC_QUALIFIER genType factorial(genType const& x) + { + genType Temp = x; + genType Result; + for(Result = 1; Temp > 1; --Temp) + Result *= Temp; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> factorial( + vec<2, T, Q> const& x) + { + return vec<2, T, Q>( + factorial(x.x), + factorial(x.y)); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> factorial( + vec<3, T, Q> const& x) + { + return vec<3, T, Q>( + factorial(x.x), + factorial(x.y), + factorial(x.z)); + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> factorial( + vec<4, T, Q> const& x) + { + return vec<4, T, Q>( + factorial(x.x), + factorial(x.y), + factorial(x.z), + factorial(x.w)); + } + + GLM_FUNC_QUALIFIER uint pow(uint x, uint y) + { + if (y == 0) + return 1u; + + uint result = x; + for(uint i = 1; i < y; ++i) + result *= x; + return result; + } + + GLM_FUNC_QUALIFIER uint sqrt(uint x) + { + if(x <= 1) return x; + + uint NextTrial = x >> 1; + uint CurrentAnswer; + + do + { + CurrentAnswer = NextTrial; + NextTrial = (NextTrial + x / NextTrial) >> 1; + } while(NextTrial < CurrentAnswer); + + return CurrentAnswer; + } + + GLM_FUNC_QUALIFIER uint mod(uint x, uint y) + { + return x - y * (x / y); + } + +#if(GLM_COMPILER & (GLM_COMPILER_VC | GLM_COMPILER_GCC)) + + GLM_FUNC_QUALIFIER unsigned int nlz(unsigned int x) + { + return 31u - findMSB(x); + } + +#else + + // Hackers Delight: http://www.hackersdelight.org/HDcode/nlz.c.txt + GLM_FUNC_QUALIFIER unsigned int nlz(unsigned int x) + { + int y, m, n; + + y = -int(x >> 16); // If left half of x is 0, + m = (y >> 16) & 16; // set n = 16. If left half + n = 16 - m; // is nonzero, set n = 0 and + x = x >> m; // shift x right 16. + // Now x is of the form 0000xxxx. + y = x - 0x100; // If positions 8-15 are 0, + m = (y >> 16) & 8; // add 8 to n and shift x left 8. + n = n + m; + x = x << m; + + y = x - 0x1000; // If positions 12-15 are 0, + m = (y >> 16) & 4; // add 4 to n and shift x left 4. + n = n + m; + x = x << m; + + y = x - 0x4000; // If positions 14-15 are 0, + m = (y >> 16) & 2; // add 2 to n and shift x left 2. + n = n + m; + x = x << m; + + y = x >> 14; // Set y = 0, 1, 2, or 3. + m = y & ~(y >> 1); // Set m = 0, 1, 2, or 2 resp. + return unsigned(n + 2 - m); + } + +#endif//(GLM_COMPILER) + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/intersect.hpp b/Vulkan/ext/include/glm/gtx/intersect.hpp new file mode 100644 index 0000000..3c78f2b --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/intersect.hpp @@ -0,0 +1,92 @@ +/// @ref gtx_intersect +/// @file glm/gtx/intersect.hpp +/// +/// @see core (dependence) +/// @see gtx_closest_point (dependence) +/// +/// @defgroup gtx_intersect GLM_GTX_intersect +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Add intersection functions + +#pragma once + +// Dependency: +#include +#include +#include "../glm.hpp" +#include "../geometric.hpp" +#include "../gtx/closest_point.hpp" +#include "../gtx/vector_query.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_closest_point is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_closest_point extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_intersect + /// @{ + + //! Compute the intersection of a ray and a plane. + //! Ray direction and plane normal must be unit length. + //! From GLM_GTX_intersect extension. + template + GLM_FUNC_DECL bool intersectRayPlane( + genType const& orig, genType const& dir, + genType const& planeOrig, genType const& planeNormal, + typename genType::value_type & intersectionDistance); + + //! Compute the intersection of a ray and a triangle. + /// Based om Tomas Möller implementation http://fileadmin.cs.lth.se/cs/Personal/Tomas_Akenine-Moller/raytri/ + //! From GLM_GTX_intersect extension. + template + GLM_FUNC_DECL bool intersectRayTriangle( + vec<3, T, Q> const& orig, vec<3, T, Q> const& dir, + vec<3, T, Q> const& v0, vec<3, T, Q> const& v1, vec<3, T, Q> const& v2, + vec<2, T, Q>& baryPosition, T& distance); + + //! Compute the intersection of a line and a triangle. + //! From GLM_GTX_intersect extension. + template + GLM_FUNC_DECL bool intersectLineTriangle( + genType const& orig, genType const& dir, + genType const& vert0, genType const& vert1, genType const& vert2, + genType & position); + + //! Compute the intersection distance of a ray and a sphere. + //! The ray direction vector is unit length. + //! From GLM_GTX_intersect extension. + template + GLM_FUNC_DECL bool intersectRaySphere( + genType const& rayStarting, genType const& rayNormalizedDirection, + genType const& sphereCenter, typename genType::value_type const sphereRadiusSquered, + typename genType::value_type & intersectionDistance); + + //! Compute the intersection of a ray and a sphere. + //! From GLM_GTX_intersect extension. + template + GLM_FUNC_DECL bool intersectRaySphere( + genType const& rayStarting, genType const& rayNormalizedDirection, + genType const& sphereCenter, const typename genType::value_type sphereRadius, + genType & intersectionPosition, genType & intersectionNormal); + + //! Compute the intersection of a line and a sphere. + //! From GLM_GTX_intersect extension + template + GLM_FUNC_DECL bool intersectLineSphere( + genType const& point0, genType const& point1, + genType const& sphereCenter, typename genType::value_type sphereRadius, + genType & intersectionPosition1, genType & intersectionNormal1, + genType & intersectionPosition2 = genType(), genType & intersectionNormal2 = genType()); + + /// @} +}//namespace glm + +#include "intersect.inl" diff --git a/Vulkan/ext/include/glm/gtx/intersect.inl b/Vulkan/ext/include/glm/gtx/intersect.inl new file mode 100644 index 0000000..54ecb4d --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/intersect.inl @@ -0,0 +1,200 @@ +/// @ref gtx_intersect + +namespace glm +{ + template + GLM_FUNC_QUALIFIER bool intersectRayPlane + ( + genType const& orig, genType const& dir, + genType const& planeOrig, genType const& planeNormal, + typename genType::value_type & intersectionDistance + ) + { + typename genType::value_type d = glm::dot(dir, planeNormal); + typename genType::value_type Epsilon = std::numeric_limits::epsilon(); + + if(glm::abs(d) > Epsilon) // if dir and planeNormal are not perpendicular + { + typename genType::value_type const tmp_intersectionDistance = glm::dot(planeOrig - orig, planeNormal) / d; + if (tmp_intersectionDistance > static_cast(0)) { // allow only intersections + intersectionDistance = tmp_intersectionDistance; + return true; + } + } + + return false; + } + + template + GLM_FUNC_QUALIFIER bool intersectRayTriangle + ( + vec<3, T, Q> const& orig, vec<3, T, Q> const& dir, + vec<3, T, Q> const& vert0, vec<3, T, Q> const& vert1, vec<3, T, Q> const& vert2, + vec<2, T, Q>& baryPosition, T& distance + ) + { + // find vectors for two edges sharing vert0 + vec<3, T, Q> const edge1 = vert1 - vert0; + vec<3, T, Q> const edge2 = vert2 - vert0; + + // begin calculating determinant - also used to calculate U parameter + vec<3, T, Q> const p = glm::cross(dir, edge2); + + // if determinant is near zero, ray lies in plane of triangle + T const det = glm::dot(edge1, p); + + vec<3, T, Q> Perpendicular(0); + + if(det > std::numeric_limits::epsilon()) + { + // calculate distance from vert0 to ray origin + vec<3, T, Q> const dist = orig - vert0; + + // calculate U parameter and test bounds + baryPosition.x = glm::dot(dist, p); + if(baryPosition.x < static_cast(0) || baryPosition.x > det) + return false; + + // prepare to test V parameter + Perpendicular = glm::cross(dist, edge1); + + // calculate V parameter and test bounds + baryPosition.y = glm::dot(dir, Perpendicular); + if((baryPosition.y < static_cast(0)) || ((baryPosition.x + baryPosition.y) > det)) + return false; + } + else if(det < -std::numeric_limits::epsilon()) + { + // calculate distance from vert0 to ray origin + vec<3, T, Q> const dist = orig - vert0; + + // calculate U parameter and test bounds + baryPosition.x = glm::dot(dist, p); + if((baryPosition.x > static_cast(0)) || (baryPosition.x < det)) + return false; + + // prepare to test V parameter + Perpendicular = glm::cross(dist, edge1); + + // calculate V parameter and test bounds + baryPosition.y = glm::dot(dir, Perpendicular); + if((baryPosition.y > static_cast(0)) || (baryPosition.x + baryPosition.y < det)) + return false; + } + else + return false; // ray is parallel to the plane of the triangle + + T inv_det = static_cast(1) / det; + + // calculate distance, ray intersects triangle + distance = glm::dot(edge2, Perpendicular) * inv_det; + baryPosition *= inv_det; + + return true; + } + + template + GLM_FUNC_QUALIFIER bool intersectLineTriangle + ( + genType const& orig, genType const& dir, + genType const& vert0, genType const& vert1, genType const& vert2, + genType & position + ) + { + typename genType::value_type Epsilon = std::numeric_limits::epsilon(); + + genType edge1 = vert1 - vert0; + genType edge2 = vert2 - vert0; + + genType Perpendicular = cross(dir, edge2); + + float det = dot(edge1, Perpendicular); + + if (det > -Epsilon && det < Epsilon) + return false; + typename genType::value_type inv_det = typename genType::value_type(1) / det; + + genType Tengant = orig - vert0; + + position.y = dot(Tengant, Perpendicular) * inv_det; + if (position.y < typename genType::value_type(0) || position.y > typename genType::value_type(1)) + return false; + + genType Cotengant = cross(Tengant, edge1); + + position.z = dot(dir, Cotengant) * inv_det; + if (position.z < typename genType::value_type(0) || position.y + position.z > typename genType::value_type(1)) + return false; + + position.x = dot(edge2, Cotengant) * inv_det; + + return true; + } + + template + GLM_FUNC_QUALIFIER bool intersectRaySphere + ( + genType const& rayStarting, genType const& rayNormalizedDirection, + genType const& sphereCenter, const typename genType::value_type sphereRadiusSquered, + typename genType::value_type & intersectionDistance + ) + { + typename genType::value_type Epsilon = std::numeric_limits::epsilon(); + genType diff = sphereCenter - rayStarting; + typename genType::value_type t0 = dot(diff, rayNormalizedDirection); + typename genType::value_type dSquared = dot(diff, diff) - t0 * t0; + if( dSquared > sphereRadiusSquered ) + { + return false; + } + typename genType::value_type t1 = sqrt( sphereRadiusSquered - dSquared ); + intersectionDistance = t0 > t1 + Epsilon ? t0 - t1 : t0 + t1; + return intersectionDistance > Epsilon; + } + + template + GLM_FUNC_QUALIFIER bool intersectRaySphere + ( + genType const& rayStarting, genType const& rayNormalizedDirection, + genType const& sphereCenter, const typename genType::value_type sphereRadius, + genType & intersectionPosition, genType & intersectionNormal + ) + { + typename genType::value_type distance; + if( intersectRaySphere( rayStarting, rayNormalizedDirection, sphereCenter, sphereRadius * sphereRadius, distance ) ) + { + intersectionPosition = rayStarting + rayNormalizedDirection * distance; + intersectionNormal = (intersectionPosition - sphereCenter) / sphereRadius; + return true; + } + return false; + } + + template + GLM_FUNC_QUALIFIER bool intersectLineSphere + ( + genType const& point0, genType const& point1, + genType const& sphereCenter, typename genType::value_type sphereRadius, + genType & intersectionPoint1, genType & intersectionNormal1, + genType & intersectionPoint2, genType & intersectionNormal2 + ) + { + typename genType::value_type Epsilon = std::numeric_limits::epsilon(); + genType dir = normalize(point1 - point0); + genType diff = sphereCenter - point0; + typename genType::value_type t0 = dot(diff, dir); + typename genType::value_type dSquared = dot(diff, diff) - t0 * t0; + if( dSquared > sphereRadius * sphereRadius ) + { + return false; + } + typename genType::value_type t1 = sqrt( sphereRadius * sphereRadius - dSquared ); + if( t0 < t1 + Epsilon ) + t1 = -t1; + intersectionPoint1 = point0 + dir * (t0 - t1); + intersectionNormal1 = (intersectionPoint1 - sphereCenter) / sphereRadius; + intersectionPoint2 = point0 + dir * (t0 + t1); + intersectionNormal2 = (intersectionPoint2 - sphereCenter) / sphereRadius; + return true; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/io.hpp b/Vulkan/ext/include/glm/gtx/io.hpp new file mode 100644 index 0000000..8d974f0 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/io.hpp @@ -0,0 +1,201 @@ +/// @ref gtx_io +/// @file glm/gtx/io.hpp +/// @author Jan P Springer (regnirpsj@gmail.com) +/// +/// @see core (dependence) +/// @see gtc_matrix_access (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtx_io GLM_GTX_io +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// std::[w]ostream support for glm types +/// +/// std::[w]ostream support for glm types + qualifier/width/etc. manipulators +/// based on howard hinnant's std::chrono io proposal +/// [http://home.roadrunner.com/~hinnant/bloomington/chrono_io.html] + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtx/quaternion.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_io is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_io extension included") +# endif +#endif + +#include // std::basic_ostream<> (fwd) +#include // std::locale, std::locale::facet, std::locale::id +#include // std::pair<> + +namespace glm +{ + /// @addtogroup gtx_io + /// @{ + + namespace io + { + enum order_type { column_major, row_major}; + + template + class format_punct : public std::locale::facet + { + typedef CTy char_type; + + public: + + static std::locale::id id; + + bool formatted; + unsigned precision; + unsigned width; + char_type separator; + char_type delim_left; + char_type delim_right; + char_type space; + char_type newline; + order_type order; + + GLM_FUNC_DECL explicit format_punct(size_t a = 0); + GLM_FUNC_DECL explicit format_punct(format_punct const&); + }; + + template > + class basic_state_saver { + + public: + + GLM_FUNC_DECL explicit basic_state_saver(std::basic_ios&); + GLM_FUNC_DECL ~basic_state_saver(); + + private: + + typedef ::std::basic_ios state_type; + typedef typename state_type::char_type char_type; + typedef ::std::ios_base::fmtflags flags_type; + typedef ::std::streamsize streamsize_type; + typedef ::std::locale const locale_type; + + state_type& state_; + flags_type flags_; + streamsize_type precision_; + streamsize_type width_; + char_type fill_; + locale_type locale_; + + GLM_FUNC_DECL basic_state_saver& operator=(basic_state_saver const&); + }; + + typedef basic_state_saver state_saver; + typedef basic_state_saver wstate_saver; + + template > + class basic_format_saver + { + public: + + GLM_FUNC_DECL explicit basic_format_saver(std::basic_ios&); + GLM_FUNC_DECL ~basic_format_saver(); + + private: + + basic_state_saver const bss_; + + GLM_FUNC_DECL basic_format_saver& operator=(basic_format_saver const&); + }; + + typedef basic_format_saver format_saver; + typedef basic_format_saver wformat_saver; + + struct precision + { + unsigned value; + + GLM_FUNC_DECL explicit precision(unsigned); + }; + + struct width + { + unsigned value; + + GLM_FUNC_DECL explicit width(unsigned); + }; + + template + struct delimeter + { + CTy value[3]; + + GLM_FUNC_DECL explicit delimeter(CTy /* left */, CTy /* right */, CTy /* separator */ = ','); + }; + + struct order + { + order_type value; + + GLM_FUNC_DECL explicit order(order_type); + }; + + // functions, inlined (inline) + + template + FTy const& get_facet(std::basic_ios&); + template + std::basic_ios& formatted(std::basic_ios&); + template + std::basic_ios& unformattet(std::basic_ios&); + + template + std::basic_ostream& operator<<(std::basic_ostream&, precision const&); + template + std::basic_ostream& operator<<(std::basic_ostream&, width const&); + template + std::basic_ostream& operator<<(std::basic_ostream&, delimeter const&); + template + std::basic_ostream& operator<<(std::basic_ostream&, order const&); + }//namespace io + + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, qua const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, vec<1, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, vec<2, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, vec<3, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, vec<4, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<2, 2, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<2, 3, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<2, 4, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<3, 2, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<3, 3, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<3, 4, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<4, 2, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<4, 3, T, Q> const&); + template + GLM_FUNC_DECL std::basic_ostream& operator<<(std::basic_ostream&, mat<4, 4, T, Q> const&); + + template + GLM_FUNC_DECL std::basic_ostream & operator<<(std::basic_ostream &, + std::pair const, mat<4, 4, T, Q> const> const&); + + /// @} +}//namespace glm + +#include "io.inl" diff --git a/Vulkan/ext/include/glm/gtx/io.inl b/Vulkan/ext/include/glm/gtx/io.inl new file mode 100644 index 0000000..a3a1bb6 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/io.inl @@ -0,0 +1,440 @@ +/// @ref gtx_io +/// @author Jan P Springer (regnirpsj@gmail.com) + +#include // std::fixed, std::setfill<>, std::setprecision, std::right, std::setw +#include // std::basic_ostream<> +#include "../gtc/matrix_access.hpp" // glm::col, glm::row +#include "../gtx/type_trait.hpp" // glm::type<> + +namespace glm{ +namespace io +{ + template + GLM_FUNC_QUALIFIER format_punct::format_punct(size_t a) + : std::locale::facet(a) + , formatted(true) + , precision(3) + , width(1 + 4 + 1 + precision) + , separator(',') + , delim_left('[') + , delim_right(']') + , space(' ') + , newline('\n') + , order(column_major) + {} + + template + GLM_FUNC_QUALIFIER format_punct::format_punct(format_punct const& a) + : std::locale::facet(0) + , formatted(a.formatted) + , precision(a.precision) + , width(a.width) + , separator(a.separator) + , delim_left(a.delim_left) + , delim_right(a.delim_right) + , space(a.space) + , newline(a.newline) + , order(a.order) + {} + + template std::locale::id format_punct::id; + + template + GLM_FUNC_QUALIFIER basic_state_saver::basic_state_saver(std::basic_ios& a) + : state_(a) + , flags_(a.flags()) + , precision_(a.precision()) + , width_(a.width()) + , fill_(a.fill()) + , locale_(a.getloc()) + {} + + template + GLM_FUNC_QUALIFIER basic_state_saver::~basic_state_saver() + { + state_.imbue(locale_); + state_.fill(fill_); + state_.width(width_); + state_.precision(precision_); + state_.flags(flags_); + } + + template + GLM_FUNC_QUALIFIER basic_format_saver::basic_format_saver(std::basic_ios& a) + : bss_(a) + { + a.imbue(std::locale(a.getloc(), new format_punct(get_facet >(a)))); + } + + template + GLM_FUNC_QUALIFIER + basic_format_saver::~basic_format_saver() + {} + + GLM_FUNC_QUALIFIER precision::precision(unsigned a) + : value(a) + {} + + GLM_FUNC_QUALIFIER width::width(unsigned a) + : value(a) + {} + + template + GLM_FUNC_QUALIFIER delimeter::delimeter(CTy a, CTy b, CTy c) + : value() + { + value[0] = a; + value[1] = b; + value[2] = c; + } + + GLM_FUNC_QUALIFIER order::order(order_type a) + : value(a) + {} + + template + GLM_FUNC_QUALIFIER FTy const& get_facet(std::basic_ios& ios) + { + if(!std::has_facet(ios.getloc())) + ios.imbue(std::locale(ios.getloc(), new FTy)); + + return std::use_facet(ios.getloc()); + } + + template + GLM_FUNC_QUALIFIER std::basic_ios& formatted(std::basic_ios& ios) + { + const_cast&>(get_facet >(ios)).formatted = true; + return ios; + } + + template + GLM_FUNC_QUALIFIER std::basic_ios& unformatted(std::basic_ios& ios) + { + const_cast&>(get_facet >(ios)).formatted = false; + return ios; + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, precision const& a) + { + const_cast&>(get_facet >(os)).precision = a.value; + return os; + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, width const& a) + { + const_cast&>(get_facet >(os)).width = a.value; + return os; + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, delimeter const& a) + { + format_punct & fmt(const_cast&>(get_facet >(os))); + + fmt.delim_left = a.value[0]; + fmt.delim_right = a.value[1]; + fmt.separator = a.value[2]; + + return os; + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, order const& a) + { + const_cast&>(get_facet >(os)).order = a.value; + return os; + } +} // namespace io + +namespace detail +{ + template + GLM_FUNC_QUALIFIER std::basic_ostream& + print_vector_on(std::basic_ostream& os, V const& a) + { + typename std::basic_ostream::sentry const cerberus(os); + + if(cerberus) + { + io::format_punct const& fmt(io::get_facet >(os)); + + length_t const& components(type::components); + + if(fmt.formatted) + { + io::basic_state_saver const bss(os); + + os << std::fixed << std::right << std::setprecision(fmt.precision) << std::setfill(fmt.space) << fmt.delim_left; + + for(length_t i(0); i < components; ++i) + { + os << std::setw(fmt.width) << a[i]; + if(components-1 != i) + os << fmt.separator; + } + + os << fmt.delim_right; + } + else + { + for(length_t i(0); i < components; ++i) + { + os << a[i]; + + if(components-1 != i) + os << fmt.space; + } + } + } + + return os; + } +}//namespace detail + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, qua const& a) + { + return detail::print_vector_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, vec<1, T, Q> const& a) + { + return detail::print_vector_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, vec<2, T, Q> const& a) + { + return detail::print_vector_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, vec<3, T, Q> const& a) + { + return detail::print_vector_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, vec<4, T, Q> const& a) + { + return detail::print_vector_on(os, a); + } + +namespace detail +{ + template class M, length_t C, length_t R, typename T, qualifier Q> + GLM_FUNC_QUALIFIER std::basic_ostream& print_matrix_on(std::basic_ostream& os, M const& a) + { + typename std::basic_ostream::sentry const cerberus(os); + + if(cerberus) + { + io::format_punct const& fmt(io::get_facet >(os)); + + length_t const& cols(type >::cols); + length_t const& rows(type >::rows); + + if(fmt.formatted) + { + os << fmt.newline << fmt.delim_left; + + switch(fmt.order) + { + case io::column_major: + { + for(length_t i(0); i < rows; ++i) + { + if (0 != i) + os << fmt.space; + + os << row(a, i); + + if(rows-1 != i) + os << fmt.newline; + } + } + break; + + case io::row_major: + { + for(length_t i(0); i < cols; ++i) + { + if(0 != i) + os << fmt.space; + + os << column(a, i); + + if(cols-1 != i) + os << fmt.newline; + } + } + break; + } + + os << fmt.delim_right; + } + else + { + switch (fmt.order) + { + case io::column_major: + { + for(length_t i(0); i < cols; ++i) + { + os << column(a, i); + + if(cols - 1 != i) + os << fmt.space; + } + } + break; + + case io::row_major: + { + for (length_t i(0); i < rows; ++i) + { + os << row(a, i); + + if (rows-1 != i) + os << fmt.space; + } + } + break; + } + } + } + + return os; + } +}//namespace detail + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, mat<2, 2, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, mat<2, 3, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, mat<2, 4, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, mat<3, 2, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<(std::basic_ostream& os, mat<3, 3, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream & operator<<(std::basic_ostream& os, mat<3, 4, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream & operator<<(std::basic_ostream& os, mat<4, 2, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream & operator<<(std::basic_ostream& os, mat<4, 3, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + + template + GLM_FUNC_QUALIFIER std::basic_ostream & operator<<(std::basic_ostream& os, mat<4, 4, T, Q> const& a) + { + return detail::print_matrix_on(os, a); + } + +namespace detail +{ + template class M, length_t C, length_t R, typename T, qualifier Q> + GLM_FUNC_QUALIFIER std::basic_ostream& print_matrix_pair_on(std::basic_ostream& os, std::pair const, M const> const& a) + { + typename std::basic_ostream::sentry const cerberus(os); + + if(cerberus) + { + io::format_punct const& fmt(io::get_facet >(os)); + M const& ml(a.first); + M const& mr(a.second); + length_t const& cols(type >::cols); + length_t const& rows(type >::rows); + + if(fmt.formatted) + { + os << fmt.newline << fmt.delim_left; + + switch(fmt.order) + { + case io::column_major: + { + for(length_t i(0); i < rows; ++i) + { + if(0 != i) + os << fmt.space; + + os << row(ml, i) << ((rows-1 != i) ? fmt.space : fmt.delim_right) << fmt.space << ((0 != i) ? fmt.space : fmt.delim_left) << row(mr, i); + + if(rows-1 != i) + os << fmt.newline; + } + } + break; + case io::row_major: + { + for(length_t i(0); i < cols; ++i) + { + if(0 != i) + os << fmt.space; + + os << column(ml, i) << ((cols-1 != i) ? fmt.space : fmt.delim_right) << fmt.space << ((0 != i) ? fmt.space : fmt.delim_left) << column(mr, i); + + if(cols-1 != i) + os << fmt.newline; + } + } + break; + } + + os << fmt.delim_right; + } + else + { + os << ml << fmt.space << mr; + } + } + + return os; + } +}//namespace detail + + template + GLM_FUNC_QUALIFIER std::basic_ostream& operator<<( + std::basic_ostream & os, + std::pair const, + mat<4, 4, T, Q> const> const& a) + { + return detail::print_matrix_pair_on(os, a); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/log_base.hpp b/Vulkan/ext/include/glm/gtx/log_base.hpp new file mode 100644 index 0000000..ba28c9d --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/log_base.hpp @@ -0,0 +1,48 @@ +/// @ref gtx_log_base +/// @file glm/gtx/log_base.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_log_base GLM_GTX_log_base +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Logarithm for any base. base can be a vector or a scalar. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_log_base is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_log_base extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_log_base + /// @{ + + /// Logarithm for any base. + /// From GLM_GTX_log_base. + template + GLM_FUNC_DECL genType log( + genType const& x, + genType const& base); + + /// Logarithm for any base. + /// From GLM_GTX_log_base. + template + GLM_FUNC_DECL vec sign( + vec const& x, + vec const& base); + + /// @} +}//namespace glm + +#include "log_base.inl" diff --git a/Vulkan/ext/include/glm/gtx/log_base.inl b/Vulkan/ext/include/glm/gtx/log_base.inl new file mode 100644 index 0000000..4bbb8e8 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/log_base.inl @@ -0,0 +1,16 @@ +/// @ref gtx_log_base + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType log(genType const& x, genType const& base) + { + return glm::log(x) / glm::log(base); + } + + template + GLM_FUNC_QUALIFIER vec log(vec const& x, vec const& base) + { + return glm::log(x) / glm::log(base); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_cross_product.hpp b/Vulkan/ext/include/glm/gtx/matrix_cross_product.hpp new file mode 100644 index 0000000..1e585f9 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_cross_product.hpp @@ -0,0 +1,47 @@ +/// @ref gtx_matrix_cross_product +/// @file glm/gtx/matrix_cross_product.hpp +/// +/// @see core (dependence) +/// @see gtx_extented_min_max (dependence) +/// +/// @defgroup gtx_matrix_cross_product GLM_GTX_matrix_cross_product +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Build cross product matrices + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_cross_product is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_cross_product extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_matrix_cross_product + /// @{ + + //! Build a cross product matrix. + //! From GLM_GTX_matrix_cross_product extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> matrixCross3( + vec<3, T, Q> const& x); + + //! Build a cross product matrix. + //! From GLM_GTX_matrix_cross_product extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> matrixCross4( + vec<3, T, Q> const& x); + + /// @} +}//namespace glm + +#include "matrix_cross_product.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_cross_product.inl b/Vulkan/ext/include/glm/gtx/matrix_cross_product.inl new file mode 100644 index 0000000..3a15397 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_cross_product.inl @@ -0,0 +1,37 @@ +/// @ref gtx_matrix_cross_product + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> matrixCross3 + ( + vec<3, T, Q> const& x + ) + { + mat<3, 3, T, Q> Result(T(0)); + Result[0][1] = x.z; + Result[1][0] = -x.z; + Result[0][2] = -x.y; + Result[2][0] = x.y; + Result[1][2] = x.x; + Result[2][1] = -x.x; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> matrixCross4 + ( + vec<3, T, Q> const& x + ) + { + mat<4, 4, T, Q> Result(T(0)); + Result[0][1] = x.z; + Result[1][0] = -x.z; + Result[0][2] = -x.y; + Result[2][0] = x.y; + Result[1][2] = x.x; + Result[2][1] = -x.x; + return Result; + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_decompose.hpp b/Vulkan/ext/include/glm/gtx/matrix_decompose.hpp new file mode 100644 index 0000000..acd7a7f --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_decompose.hpp @@ -0,0 +1,46 @@ +/// @ref gtx_matrix_decompose +/// @file glm/gtx/matrix_decompose.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_matrix_decompose GLM_GTX_matrix_decompose +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Decomposes a model matrix to translations, rotation and scale components + +#pragma once + +// Dependencies +#include "../mat4x4.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include "../geometric.hpp" +#include "../gtc/quaternion.hpp" +#include "../gtc/matrix_transform.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_decompose is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_decompose extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_matrix_decompose + /// @{ + + /// Decomposes a model matrix to translations, rotation and scale components + /// @see gtx_matrix_decompose + template + GLM_FUNC_DECL bool decompose( + mat<4, 4, T, Q> const& modelMatrix, + vec<3, T, Q> & scale, qua & orientation, vec<3, T, Q> & translation, vec<3, T, Q> & skew, vec<4, T, Q> & perspective); + + /// @} +}//namespace glm + +#include "matrix_decompose.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_decompose.inl b/Vulkan/ext/include/glm/gtx/matrix_decompose.inl new file mode 100644 index 0000000..694f5ec --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_decompose.inl @@ -0,0 +1,186 @@ +/// @ref gtx_matrix_decompose + +#include "../gtc/constants.hpp" +#include "../gtc/epsilon.hpp" + +namespace glm{ +namespace detail +{ + /// Make a linear combination of two vectors and return the result. + // result = (a * ascl) + (b * bscl) + template + GLM_FUNC_QUALIFIER vec<3, T, Q> combine( + vec<3, T, Q> const& a, + vec<3, T, Q> const& b, + T ascl, T bscl) + { + return (a * ascl) + (b * bscl); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> scale(vec<3, T, Q> const& v, T desiredLength) + { + return v * desiredLength / length(v); + } +}//namespace detail + + // Matrix decompose + // http://www.opensource.apple.com/source/WebCore/WebCore-514/platform/graphics/transforms/TransformationMatrix.cpp + // Decomposes the mode matrix to translations,rotation scale components + + template + GLM_FUNC_QUALIFIER bool decompose(mat<4, 4, T, Q> const& ModelMatrix, vec<3, T, Q> & Scale, qua & Orientation, vec<3, T, Q> & Translation, vec<3, T, Q> & Skew, vec<4, T, Q> & Perspective) + { + mat<4, 4, T, Q> LocalMatrix(ModelMatrix); + + // Normalize the matrix. + if(epsilonEqual(LocalMatrix[3][3], static_cast(0), epsilon())) + return false; + + for(length_t i = 0; i < 4; ++i) + for(length_t j = 0; j < 4; ++j) + LocalMatrix[i][j] /= LocalMatrix[3][3]; + + // perspectiveMatrix is used to solve for perspective, but it also provides + // an easy way to test for singularity of the upper 3x3 component. + mat<4, 4, T, Q> PerspectiveMatrix(LocalMatrix); + + for(length_t i = 0; i < 3; i++) + PerspectiveMatrix[i][3] = static_cast(0); + PerspectiveMatrix[3][3] = static_cast(1); + + /// TODO: Fixme! + if(epsilonEqual(determinant(PerspectiveMatrix), static_cast(0), epsilon())) + return false; + + // First, isolate perspective. This is the messiest. + if( + epsilonNotEqual(LocalMatrix[0][3], static_cast(0), epsilon()) || + epsilonNotEqual(LocalMatrix[1][3], static_cast(0), epsilon()) || + epsilonNotEqual(LocalMatrix[2][3], static_cast(0), epsilon())) + { + // rightHandSide is the right hand side of the equation. + vec<4, T, Q> RightHandSide; + RightHandSide[0] = LocalMatrix[0][3]; + RightHandSide[1] = LocalMatrix[1][3]; + RightHandSide[2] = LocalMatrix[2][3]; + RightHandSide[3] = LocalMatrix[3][3]; + + // Solve the equation by inverting PerspectiveMatrix and multiplying + // rightHandSide by the inverse. (This is the easiest way, not + // necessarily the best.) + mat<4, 4, T, Q> InversePerspectiveMatrix = glm::inverse(PerspectiveMatrix);// inverse(PerspectiveMatrix, inversePerspectiveMatrix); + mat<4, 4, T, Q> TransposedInversePerspectiveMatrix = glm::transpose(InversePerspectiveMatrix);// transposeMatrix4(inversePerspectiveMatrix, transposedInversePerspectiveMatrix); + + Perspective = TransposedInversePerspectiveMatrix * RightHandSide; + // v4MulPointByMatrix(rightHandSide, transposedInversePerspectiveMatrix, perspectivePoint); + + // Clear the perspective partition + LocalMatrix[0][3] = LocalMatrix[1][3] = LocalMatrix[2][3] = static_cast(0); + LocalMatrix[3][3] = static_cast(1); + } + else + { + // No perspective. + Perspective = vec<4, T, Q>(0, 0, 0, 1); + } + + // Next take care of translation (easy). + Translation = vec<3, T, Q>(LocalMatrix[3]); + LocalMatrix[3] = vec<4, T, Q>(0, 0, 0, LocalMatrix[3].w); + + vec<3, T, Q> Row[3], Pdum3; + + // Now get scale and shear. + for(length_t i = 0; i < 3; ++i) + for(length_t j = 0; j < 3; ++j) + Row[i][j] = LocalMatrix[i][j]; + + // Compute X scale factor and normalize first row. + Scale.x = length(Row[0]);// v3Length(Row[0]); + + Row[0] = detail::scale(Row[0], static_cast(1)); + + // Compute XY shear factor and make 2nd row orthogonal to 1st. + Skew.z = dot(Row[0], Row[1]); + Row[1] = detail::combine(Row[1], Row[0], static_cast(1), -Skew.z); + + // Now, compute Y scale and normalize 2nd row. + Scale.y = length(Row[1]); + Row[1] = detail::scale(Row[1], static_cast(1)); + Skew.z /= Scale.y; + + // Compute XZ and YZ shears, orthogonalize 3rd row. + Skew.y = glm::dot(Row[0], Row[2]); + Row[2] = detail::combine(Row[2], Row[0], static_cast(1), -Skew.y); + Skew.x = glm::dot(Row[1], Row[2]); + Row[2] = detail::combine(Row[2], Row[1], static_cast(1), -Skew.x); + + // Next, get Z scale and normalize 3rd row. + Scale.z = length(Row[2]); + Row[2] = detail::scale(Row[2], static_cast(1)); + Skew.y /= Scale.z; + Skew.x /= Scale.z; + + // At this point, the matrix (in rows[]) is orthonormal. + // Check for a coordinate system flip. If the determinant + // is -1, then negate the matrix and the scaling factors. + Pdum3 = cross(Row[1], Row[2]); // v3Cross(row[1], row[2], Pdum3); + if(dot(Row[0], Pdum3) < 0) + { + for(length_t i = 0; i < 3; i++) + { + Scale[i] *= static_cast(-1); + Row[i] *= static_cast(-1); + } + } + + // Now, get the rotations out, as described in the gem. + + // FIXME - Add the ability to return either quaternions (which are + // easier to recompose with) or Euler angles (rx, ry, rz), which + // are easier for authors to deal with. The latter will only be useful + // when we fix https://bugs.webkit.org/show_bug.cgi?id=23799, so I + // will leave the Euler angle code here for now. + + // ret.rotateY = asin(-Row[0][2]); + // if (cos(ret.rotateY) != 0) { + // ret.rotateX = atan2(Row[1][2], Row[2][2]); + // ret.rotateZ = atan2(Row[0][1], Row[0][0]); + // } else { + // ret.rotateX = atan2(-Row[2][0], Row[1][1]); + // ret.rotateZ = 0; + // } + + int i, j, k = 0; + T root, trace = Row[0].x + Row[1].y + Row[2].z; + if(trace > static_cast(0)) + { + root = sqrt(trace + static_cast(1.0)); + Orientation.w = static_cast(0.5) * root; + root = static_cast(0.5) / root; + Orientation.x = root * (Row[1].z - Row[2].y); + Orientation.y = root * (Row[2].x - Row[0].z); + Orientation.z = root * (Row[0].y - Row[1].x); + } // End if > 0 + else + { + static int Next[3] = {1, 2, 0}; + i = 0; + if(Row[1].y > Row[0].x) i = 1; + if(Row[2].z > Row[i][i]) i = 2; + j = Next[i]; + k = Next[j]; + + root = sqrt(Row[i][i] - Row[j][j] - Row[k][k] + static_cast(1.0)); + + Orientation[i] = static_cast(0.5) * root; + root = static_cast(0.5) / root; + Orientation[j] = root * (Row[i][j] + Row[j][i]); + Orientation[k] = root * (Row[i][k] + Row[k][i]); + Orientation.w = root * (Row[j][k] - Row[k][j]); + } // End if <= 0 + + return true; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_factorisation.hpp b/Vulkan/ext/include/glm/gtx/matrix_factorisation.hpp new file mode 100644 index 0000000..5a975d6 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_factorisation.hpp @@ -0,0 +1,69 @@ +/// @ref gtx_matrix_factorisation +/// @file glm/gtx/matrix_factorisation.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_matrix_factorisation GLM_GTX_matrix_factorisation +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Functions to factor matrices in various forms + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_factorisation is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_factorisation extension included") +# endif +#endif + +/* +Suggestions: + - Move helper functions flipud and fliplr to another file: They may be helpful in more general circumstances. + - Implement other types of matrix factorisation, such as: QL and LQ, L(D)U, eigendecompositions, etc... +*/ + +namespace glm +{ + /// @addtogroup gtx_matrix_factorisation + /// @{ + + /// Flips the matrix rows up and down. + /// + /// From GLM_GTX_matrix_factorisation extension. + template + GLM_FUNC_DECL mat flipud(mat const& in); + + /// Flips the matrix columns right and left. + /// + /// From GLM_GTX_matrix_factorisation extension. + template + GLM_FUNC_DECL mat fliplr(mat const& in); + + /// Performs QR factorisation of a matrix. + /// Returns 2 matrices, q and r, such that the columns of q are orthonormal and span the same subspace than those of the input matrix, r is an upper triangular matrix, and q*r=in. + /// Given an n-by-m input matrix, q has dimensions min(n,m)-by-m, and r has dimensions n-by-min(n,m). + /// + /// From GLM_GTX_matrix_factorisation extension. + template + GLM_FUNC_DECL void qr_decompose(mat const& in, mat<(C < R ? C : R), R, T, Q>& q, mat& r); + + /// Performs RQ factorisation of a matrix. + /// Returns 2 matrices, r and q, such that r is an upper triangular matrix, the rows of q are orthonormal and span the same subspace than those of the input matrix, and r*q=in. + /// Note that in the context of RQ factorisation, the diagonal is seen as starting in the lower-right corner of the matrix, instead of the usual upper-left. + /// Given an n-by-m input matrix, r has dimensions min(n,m)-by-m, and q has dimensions n-by-min(n,m). + /// + /// From GLM_GTX_matrix_factorisation extension. + template + GLM_FUNC_DECL void rq_decompose(mat const& in, mat<(C < R ? C : R), R, T, Q>& r, mat& q); + + /// @} +} + +#include "matrix_factorisation.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_factorisation.inl b/Vulkan/ext/include/glm/gtx/matrix_factorisation.inl new file mode 100644 index 0000000..c479b8a --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_factorisation.inl @@ -0,0 +1,84 @@ +/// @ref gtx_matrix_factorisation + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat flipud(mat const& in) + { + mat tin = transpose(in); + tin = fliplr(tin); + mat out = transpose(tin); + + return out; + } + + template + GLM_FUNC_QUALIFIER mat fliplr(mat const& in) + { + mat out; + for (length_t i = 0; i < C; i++) + { + out[i] = in[(C - i) - 1]; + } + + return out; + } + + template + GLM_FUNC_QUALIFIER void qr_decompose(mat const& in, mat<(C < R ? C : R), R, T, Q>& q, mat& r) + { + // Uses modified Gram-Schmidt method + // Source: https://en.wikipedia.org/wiki/GramSchmidt_process + // And https://en.wikipedia.org/wiki/QR_decomposition + + //For all the linearly independs columns of the input... + // (there can be no more linearly independents columns than there are rows.) + for (length_t i = 0; i < (C < R ? C : R); i++) + { + //Copy in Q the input's i-th column. + q[i] = in[i]; + + //j = [0,i[ + // Make that column orthogonal to all the previous ones by substracting to it the non-orthogonal projection of all the previous columns. + // Also: Fill the zero elements of R + for (length_t j = 0; j < i; j++) + { + q[i] -= dot(q[i], q[j])*q[j]; + r[j][i] = 0; + } + + //Now, Q i-th column is orthogonal to all the previous columns. Normalize it. + q[i] = normalize(q[i]); + + //j = [i,C[ + //Finally, compute the corresponding coefficients of R by computing the projection of the resulting column on the other columns of the input. + for (length_t j = i; j < C; j++) + { + r[j][i] = dot(in[j], q[i]); + } + } + } + + template + GLM_FUNC_QUALIFIER void rq_decompose(mat const& in, mat<(C < R ? C : R), R, T, Q>& r, mat& q) + { + // From https://en.wikipedia.org/wiki/QR_decomposition: + // The RQ decomposition transforms a matrix A into the product of an upper triangular matrix R (also known as right-triangular) and an orthogonal matrix Q. The only difference from QR decomposition is the order of these matrices. + // QR decomposition is GramSchmidt orthogonalization of columns of A, started from the first column. + // RQ decomposition is GramSchmidt orthogonalization of rows of A, started from the last row. + + mat tin = transpose(in); + tin = fliplr(tin); + + mat tr; + mat<(C < R ? C : R), C, T, Q> tq; + qr_decompose(tin, tq, tr); + + tr = fliplr(tr); + r = transpose(tr); + r = fliplr(r); + + tq = fliplr(tq); + q = transpose(tq); + } +} //namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_interpolation.hpp b/Vulkan/ext/include/glm/gtx/matrix_interpolation.hpp new file mode 100644 index 0000000..7d5ad4c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_interpolation.hpp @@ -0,0 +1,60 @@ +/// @ref gtx_matrix_interpolation +/// @file glm/gtx/matrix_interpolation.hpp +/// @author Ghenadii Ursachi (the.asteroth@gmail.com) +/// +/// @see core (dependence) +/// +/// @defgroup gtx_matrix_interpolation GLM_GTX_matrix_interpolation +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Allows to directly interpolate two matrices. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_interpolation is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_interpolation extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_matrix_interpolation + /// @{ + + /// Get the axis and angle of the rotation from a matrix. + /// From GLM_GTX_matrix_interpolation extension. + template + GLM_FUNC_DECL void axisAngle( + mat<4, 4, T, Q> const& Mat, vec<3, T, Q> & Axis, T & Angle); + + /// Build a matrix from axis and angle. + /// From GLM_GTX_matrix_interpolation extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> axisAngleMatrix( + vec<3, T, Q> const& Axis, T const Angle); + + /// Extracts the rotation part of a matrix. + /// From GLM_GTX_matrix_interpolation extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> extractMatrixRotation( + mat<4, 4, T, Q> const& Mat); + + /// Build a interpolation of 4 * 4 matrixes. + /// From GLM_GTX_matrix_interpolation extension. + /// Warning! works only with rotation and/or translation matrixes, scale will generate unexpected results. + template + GLM_FUNC_DECL mat<4, 4, T, Q> interpolate( + mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2, T const Delta); + + /// @} +}//namespace glm + +#include "matrix_interpolation.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_interpolation.inl b/Vulkan/ext/include/glm/gtx/matrix_interpolation.inl new file mode 100644 index 0000000..de40b7d --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_interpolation.inl @@ -0,0 +1,129 @@ +/// @ref gtx_matrix_interpolation + +#include "../gtc/constants.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER void axisAngle(mat<4, 4, T, Q> const& m, vec<3, T, Q> & axis, T& angle) + { + T epsilon = static_cast(0.01); + T epsilon2 = static_cast(0.1); + + if((abs(m[1][0] - m[0][1]) < epsilon) && (abs(m[2][0] - m[0][2]) < epsilon) && (abs(m[2][1] - m[1][2]) < epsilon)) + { + if ((abs(m[1][0] + m[0][1]) < epsilon2) && (abs(m[2][0] + m[0][2]) < epsilon2) && (abs(m[2][1] + m[1][2]) < epsilon2) && (abs(m[0][0] + m[1][1] + m[2][2] - static_cast(3.0)) < epsilon2)) + { + angle = static_cast(0.0); + axis.x = static_cast(1.0); + axis.y = static_cast(0.0); + axis.z = static_cast(0.0); + return; + } + angle = static_cast(3.1415926535897932384626433832795); + T xx = (m[0][0] + static_cast(1.0)) * static_cast(0.5); + T yy = (m[1][1] + static_cast(1.0)) * static_cast(0.5); + T zz = (m[2][2] + static_cast(1.0)) * static_cast(0.5); + T xy = (m[1][0] + m[0][1]) * static_cast(0.25); + T xz = (m[2][0] + m[0][2]) * static_cast(0.25); + T yz = (m[2][1] + m[1][2]) * static_cast(0.25); + if((xx > yy) && (xx > zz)) + { + if(xx < epsilon) + { + axis.x = static_cast(0.0); + axis.y = static_cast(0.7071); + axis.z = static_cast(0.7071); + } + else + { + axis.x = sqrt(xx); + axis.y = xy / axis.x; + axis.z = xz / axis.x; + } + } + else if (yy > zz) + { + if(yy < epsilon) + { + axis.x = static_cast(0.7071); + axis.y = static_cast(0.0); + axis.z = static_cast(0.7071); + } + else + { + axis.y = sqrt(yy); + axis.x = xy / axis.y; + axis.z = yz / axis.y; + } + } + else + { + if (zz < epsilon) + { + axis.x = static_cast(0.7071); + axis.y = static_cast(0.7071); + axis.z = static_cast(0.0); + } + else + { + axis.z = sqrt(zz); + axis.x = xz / axis.z; + axis.y = yz / axis.z; + } + } + return; + } + T s = sqrt((m[2][1] - m[1][2]) * (m[2][1] - m[1][2]) + (m[2][0] - m[0][2]) * (m[2][0] - m[0][2]) + (m[1][0] - m[0][1]) * (m[1][0] - m[0][1])); + if (glm::abs(s) < T(0.001)) + s = static_cast(1); + T const angleCos = (m[0][0] + m[1][1] + m[2][2] - static_cast(1)) * static_cast(0.5); + if(angleCos - static_cast(1) < epsilon) + angle = pi() * static_cast(0.25); + else + angle = acos(angleCos); + axis.x = (m[1][2] - m[2][1]) / s; + axis.y = (m[2][0] - m[0][2]) / s; + axis.z = (m[0][1] - m[1][0]) / s; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> axisAngleMatrix(vec<3, T, Q> const& axis, T const angle) + { + T c = cos(angle); + T s = sin(angle); + T t = static_cast(1) - c; + vec<3, T, Q> n = normalize(axis); + + return mat<4, 4, T, Q>( + t * n.x * n.x + c, t * n.x * n.y + n.z * s, t * n.x * n.z - n.y * s, static_cast(0.0), + t * n.x * n.y - n.z * s, t * n.y * n.y + c, t * n.y * n.z + n.x * s, static_cast(0.0), + t * n.x * n.z + n.y * s, t * n.y * n.z - n.x * s, t * n.z * n.z + c, static_cast(0.0), + static_cast(0.0), static_cast(0.0), static_cast(0.0), static_cast(1.0)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> extractMatrixRotation(mat<4, 4, T, Q> const& m) + { + return mat<4, 4, T, Q>( + m[0][0], m[0][1], m[0][2], static_cast(0.0), + m[1][0], m[1][1], m[1][2], static_cast(0.0), + m[2][0], m[2][1], m[2][2], static_cast(0.0), + static_cast(0.0), static_cast(0.0), static_cast(0.0), static_cast(1.0)); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> interpolate(mat<4, 4, T, Q> const& m1, mat<4, 4, T, Q> const& m2, T const delta) + { + mat<4, 4, T, Q> m1rot = extractMatrixRotation(m1); + mat<4, 4, T, Q> dltRotation = m2 * transpose(m1rot); + vec<3, T, Q> dltAxis; + T dltAngle; + axisAngle(dltRotation, dltAxis, dltAngle); + mat<4, 4, T, Q> out = axisAngleMatrix(dltAxis, dltAngle * delta) * m1rot; + out[3][0] = m1[3][0] + delta * (m2[3][0] - m1[3][0]); + out[3][1] = m1[3][1] + delta * (m2[3][1] - m1[3][1]); + out[3][2] = m1[3][2] + delta * (m2[3][2] - m1[3][2]); + return out; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_major_storage.hpp b/Vulkan/ext/include/glm/gtx/matrix_major_storage.hpp new file mode 100644 index 0000000..8c6bc22 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_major_storage.hpp @@ -0,0 +1,119 @@ +/// @ref gtx_matrix_major_storage +/// @file glm/gtx/matrix_major_storage.hpp +/// +/// @see core (dependence) +/// @see gtx_extented_min_max (dependence) +/// +/// @defgroup gtx_matrix_major_storage GLM_GTX_matrix_major_storage +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Build matrices with specific matrix order, row or column + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_major_storage is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_major_storage extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_matrix_major_storage + /// @{ + + //! Build a row major matrix from row vectors. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<2, 2, T, Q> rowMajor2( + vec<2, T, Q> const& v1, + vec<2, T, Q> const& v2); + + //! Build a row major matrix from other matrix. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<2, 2, T, Q> rowMajor2( + mat<2, 2, T, Q> const& m); + + //! Build a row major matrix from row vectors. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> rowMajor3( + vec<3, T, Q> const& v1, + vec<3, T, Q> const& v2, + vec<3, T, Q> const& v3); + + //! Build a row major matrix from other matrix. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> rowMajor3( + mat<3, 3, T, Q> const& m); + + //! Build a row major matrix from row vectors. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> rowMajor4( + vec<4, T, Q> const& v1, + vec<4, T, Q> const& v2, + vec<4, T, Q> const& v3, + vec<4, T, Q> const& v4); + + //! Build a row major matrix from other matrix. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> rowMajor4( + mat<4, 4, T, Q> const& m); + + //! Build a column major matrix from column vectors. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<2, 2, T, Q> colMajor2( + vec<2, T, Q> const& v1, + vec<2, T, Q> const& v2); + + //! Build a column major matrix from other matrix. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<2, 2, T, Q> colMajor2( + mat<2, 2, T, Q> const& m); + + //! Build a column major matrix from column vectors. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> colMajor3( + vec<3, T, Q> const& v1, + vec<3, T, Q> const& v2, + vec<3, T, Q> const& v3); + + //! Build a column major matrix from other matrix. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> colMajor3( + mat<3, 3, T, Q> const& m); + + //! Build a column major matrix from column vectors. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> colMajor4( + vec<4, T, Q> const& v1, + vec<4, T, Q> const& v2, + vec<4, T, Q> const& v3, + vec<4, T, Q> const& v4); + + //! Build a column major matrix from other matrix. + //! From GLM_GTX_matrix_major_storage extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> colMajor4( + mat<4, 4, T, Q> const& m); + + /// @} +}//namespace glm + +#include "matrix_major_storage.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_major_storage.inl b/Vulkan/ext/include/glm/gtx/matrix_major_storage.inl new file mode 100644 index 0000000..279dd34 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_major_storage.inl @@ -0,0 +1,166 @@ +/// @ref gtx_matrix_major_storage + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> rowMajor2 + ( + vec<2, T, Q> const& v1, + vec<2, T, Q> const& v2 + ) + { + mat<2, 2, T, Q> Result; + Result[0][0] = v1.x; + Result[1][0] = v1.y; + Result[0][1] = v2.x; + Result[1][1] = v2.y; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> rowMajor2( + const mat<2, 2, T, Q>& m) + { + mat<2, 2, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> rowMajor3( + const vec<3, T, Q>& v1, + const vec<3, T, Q>& v2, + const vec<3, T, Q>& v3) + { + mat<3, 3, T, Q> Result; + Result[0][0] = v1.x; + Result[1][0] = v1.y; + Result[2][0] = v1.z; + Result[0][1] = v2.x; + Result[1][1] = v2.y; + Result[2][1] = v2.z; + Result[0][2] = v3.x; + Result[1][2] = v3.y; + Result[2][2] = v3.z; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> rowMajor3( + const mat<3, 3, T, Q>& m) + { + mat<3, 3, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + Result[2][2] = m[2][2]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> rowMajor4( + const vec<4, T, Q>& v1, + const vec<4, T, Q>& v2, + const vec<4, T, Q>& v3, + const vec<4, T, Q>& v4) + { + mat<4, 4, T, Q> Result; + Result[0][0] = v1.x; + Result[1][0] = v1.y; + Result[2][0] = v1.z; + Result[3][0] = v1.w; + Result[0][1] = v2.x; + Result[1][1] = v2.y; + Result[2][1] = v2.z; + Result[3][1] = v2.w; + Result[0][2] = v3.x; + Result[1][2] = v3.y; + Result[2][2] = v3.z; + Result[3][2] = v3.w; + Result[0][3] = v4.x; + Result[1][3] = v4.y; + Result[2][3] = v4.z; + Result[3][3] = v4.w; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> rowMajor4( + const mat<4, 4, T, Q>& m) + { + mat<4, 4, T, Q> Result; + Result[0][0] = m[0][0]; + Result[0][1] = m[1][0]; + Result[0][2] = m[2][0]; + Result[0][3] = m[3][0]; + Result[1][0] = m[0][1]; + Result[1][1] = m[1][1]; + Result[1][2] = m[2][1]; + Result[1][3] = m[3][1]; + Result[2][0] = m[0][2]; + Result[2][1] = m[1][2]; + Result[2][2] = m[2][2]; + Result[2][3] = m[3][2]; + Result[3][0] = m[0][3]; + Result[3][1] = m[1][3]; + Result[3][2] = m[2][3]; + Result[3][3] = m[3][3]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> colMajor2( + const vec<2, T, Q>& v1, + const vec<2, T, Q>& v2) + { + return mat<2, 2, T, Q>(v1, v2); + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> colMajor2( + const mat<2, 2, T, Q>& m) + { + return mat<2, 2, T, Q>(m); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> colMajor3( + const vec<3, T, Q>& v1, + const vec<3, T, Q>& v2, + const vec<3, T, Q>& v3) + { + return mat<3, 3, T, Q>(v1, v2, v3); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> colMajor3( + const mat<3, 3, T, Q>& m) + { + return mat<3, 3, T, Q>(m); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> colMajor4( + const vec<4, T, Q>& v1, + const vec<4, T, Q>& v2, + const vec<4, T, Q>& v3, + const vec<4, T, Q>& v4) + { + return mat<4, 4, T, Q>(v1, v2, v3, v4); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> colMajor4( + const mat<4, 4, T, Q>& m) + { + return mat<4, 4, T, Q>(m); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_operation.hpp b/Vulkan/ext/include/glm/gtx/matrix_operation.hpp new file mode 100644 index 0000000..de6ff1f --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_operation.hpp @@ -0,0 +1,103 @@ +/// @ref gtx_matrix_operation +/// @file glm/gtx/matrix_operation.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_matrix_operation GLM_GTX_matrix_operation +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Build diagonal matrices from vectors. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_operation is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_operation extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_matrix_operation + /// @{ + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<2, 2, T, Q> diagonal2x2( + vec<2, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<2, 3, T, Q> diagonal2x3( + vec<2, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<2, 4, T, Q> diagonal2x4( + vec<2, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<3, 2, T, Q> diagonal3x2( + vec<2, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> diagonal3x3( + vec<3, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<3, 4, T, Q> diagonal3x4( + vec<3, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<4, 2, T, Q> diagonal4x2( + vec<2, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<4, 3, T, Q> diagonal4x3( + vec<3, T, Q> const& v); + + //! Build a diagonal matrix. + //! From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> diagonal4x4( + vec<4, T, Q> const& v); + + /// Build an adjugate matrix. + /// From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<2, 2, T, Q> adjugate(mat<2, 2, T, Q> const& m); + + /// Build an adjugate matrix. + /// From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> adjugate(mat<3, 3, T, Q> const& m); + + /// Build an adjugate matrix. + /// From GLM_GTX_matrix_operation extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> adjugate(mat<4, 4, T, Q> const& m); + + /// @} +}//namespace glm + +#include "matrix_operation.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_operation.inl b/Vulkan/ext/include/glm/gtx/matrix_operation.inl new file mode 100644 index 0000000..9de83f8 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_operation.inl @@ -0,0 +1,176 @@ +/// @ref gtx_matrix_operation + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> diagonal2x2 + ( + vec<2, T, Q> const& v + ) + { + mat<2, 2, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 3, T, Q> diagonal2x3 + ( + vec<2, T, Q> const& v + ) + { + mat<2, 3, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 4, T, Q> diagonal2x4 + ( + vec<2, T, Q> const& v + ) + { + mat<2, 4, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 2, T, Q> diagonal3x2 + ( + vec<2, T, Q> const& v + ) + { + mat<3, 2, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> diagonal3x3 + ( + vec<3, T, Q> const& v + ) + { + mat<3, 3, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + Result[2][2] = v[2]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 4, T, Q> diagonal3x4 + ( + vec<3, T, Q> const& v + ) + { + mat<3, 4, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + Result[2][2] = v[2]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> diagonal4x4 + ( + vec<4, T, Q> const& v + ) + { + mat<4, 4, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + Result[2][2] = v[2]; + Result[3][3] = v[3]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 3, T, Q> diagonal4x3 + ( + vec<3, T, Q> const& v + ) + { + mat<4, 3, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + Result[2][2] = v[2]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 2, T, Q> diagonal4x2 + ( + vec<2, T, Q> const& v + ) + { + mat<4, 2, T, Q> Result(static_cast(1)); + Result[0][0] = v[0]; + Result[1][1] = v[1]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<2, 2, T, Q> adjugate(mat<2, 2, T, Q> const& m) + { + return mat<2, 2, T, Q>( + +m[1][1], -m[1][0], + -m[0][1], +m[0][0]); + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> adjugate(mat<3, 3, T, Q> const& m) + { + T const m00 = determinant(mat<2, 2, T, Q>(m[1][1], m[2][1], m[1][2], m[2][2])); + T const m01 = determinant(mat<2, 2, T, Q>(m[0][1], m[2][1], m[0][2], m[2][2])); + T const m02 = determinant(mat<2, 2, T, Q>(m[0][1], m[1][1], m[0][2], m[1][2])); + + T const m10 = determinant(mat<2, 2, T, Q>(m[1][0], m[2][0], m[1][2], m[2][2])); + T const m11 = determinant(mat<2, 2, T, Q>(m[0][0], m[2][0], m[0][2], m[2][2])); + T const m12 = determinant(mat<2, 2, T, Q>(m[0][0], m[1][0], m[0][2], m[1][2])); + + T const m20 = determinant(mat<2, 2, T, Q>(m[1][0], m[2][0], m[1][1], m[2][1])); + T const m21 = determinant(mat<2, 2, T, Q>(m[0][0], m[2][0], m[0][1], m[2][1])); + T const m22 = determinant(mat<2, 2, T, Q>(m[0][0], m[1][0], m[0][1], m[1][1])); + + return mat<3, 3, T, Q>( + +m00, -m01, +m02, + -m10, +m11, -m12, + +m20, -m21, +m22); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> adjugate(mat<4, 4, T, Q> const& m) + { + T const m00 = determinant(mat<3, 3, T, Q>(m[1][1], m[1][2], m[1][3], m[2][1], m[2][2], m[2][3], m[3][1], m[3][2], m[3][3])); + T const m01 = determinant(mat<3, 3, T, Q>(m[1][0], m[1][2], m[1][3], m[2][0], m[2][2], m[2][3], m[3][0], m[3][2], m[3][3])); + T const m02 = determinant(mat<3, 3, T, Q>(m[1][0], m[1][1], m[1][3], m[2][0], m[2][2], m[2][3], m[3][0], m[3][1], m[3][3])); + T const m03 = determinant(mat<3, 3, T, Q>(m[1][0], m[1][1], m[1][2], m[2][0], m[2][1], m[2][2], m[3][0], m[3][1], m[3][2])); + + T const m10 = determinant(mat<3, 3, T, Q>(m[0][1], m[0][2], m[0][3], m[2][1], m[2][2], m[2][3], m[3][1], m[3][2], m[3][3])); + T const m11 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][2], m[0][3], m[2][0], m[2][2], m[2][3], m[3][0], m[3][2], m[3][3])); + T const m12 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][1], m[0][3], m[2][0], m[2][1], m[2][3], m[3][0], m[3][1], m[3][3])); + T const m13 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][1], m[0][2], m[2][0], m[2][1], m[2][2], m[3][0], m[3][1], m[3][2])); + + T const m20 = determinant(mat<3, 3, T, Q>(m[0][1], m[0][2], m[0][3], m[1][1], m[1][2], m[1][3], m[3][1], m[3][2], m[3][3])); + T const m21 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][2], m[0][3], m[1][0], m[1][2], m[1][3], m[3][0], m[3][2], m[3][3])); + T const m22 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][1], m[0][3], m[1][0], m[1][1], m[1][3], m[3][0], m[3][1], m[3][3])); + T const m23 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][1], m[0][2], m[1][0], m[1][1], m[1][2], m[3][0], m[3][1], m[3][2])); + + T const m30 = determinant(mat<3, 3, T, Q>(m[0][1], m[0][2], m[0][3], m[1][1], m[1][2], m[1][3], m[2][1], m[2][2], m[2][3])); + T const m31 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][2], m[0][3], m[1][0], m[1][2], m[1][3], m[2][0], m[2][2], m[2][3])); + T const m32 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][1], m[0][3], m[1][0], m[1][1], m[1][3], m[2][0], m[2][1], m[2][3])); + T const m33 = determinant(mat<3, 3, T, Q>(m[0][0], m[0][1], m[0][2], m[1][0], m[1][1], m[1][2], m[2][0], m[2][1], m[2][2])); + + return mat<4, 4, T, Q>( + +m00, -m01, +m02, -m03, + -m10, +m11, -m12, +m13, + +m20, -m21, +m22, -m23, + -m30, +m31, -m32, +m33); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_query.hpp b/Vulkan/ext/include/glm/gtx/matrix_query.hpp new file mode 100644 index 0000000..8011b2b --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_query.hpp @@ -0,0 +1,77 @@ +/// @ref gtx_matrix_query +/// @file glm/gtx/matrix_query.hpp +/// +/// @see core (dependence) +/// @see gtx_vector_query (dependence) +/// +/// @defgroup gtx_matrix_query GLM_GTX_matrix_query +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Query to evaluate matrix properties + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtx/vector_query.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_query is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_query extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_matrix_query + /// @{ + + /// Return whether a matrix a null matrix. + /// From GLM_GTX_matrix_query extension. + template + GLM_FUNC_DECL bool isNull(mat<2, 2, T, Q> const& m, T const& epsilon); + + /// Return whether a matrix a null matrix. + /// From GLM_GTX_matrix_query extension. + template + GLM_FUNC_DECL bool isNull(mat<3, 3, T, Q> const& m, T const& epsilon); + + /// Return whether a matrix is a null matrix. + /// From GLM_GTX_matrix_query extension. + template + GLM_FUNC_DECL bool isNull(mat<4, 4, T, Q> const& m, T const& epsilon); + + /// Return whether a matrix is an identity matrix. + /// From GLM_GTX_matrix_query extension. + template class matType> + GLM_FUNC_DECL bool isIdentity(matType const& m, T const& epsilon); + + /// Return whether a matrix is a normalized matrix. + /// From GLM_GTX_matrix_query extension. + template + GLM_FUNC_DECL bool isNormalized(mat<2, 2, T, Q> const& m, T const& epsilon); + + /// Return whether a matrix is a normalized matrix. + /// From GLM_GTX_matrix_query extension. + template + GLM_FUNC_DECL bool isNormalized(mat<3, 3, T, Q> const& m, T const& epsilon); + + /// Return whether a matrix is a normalized matrix. + /// From GLM_GTX_matrix_query extension. + template + GLM_FUNC_DECL bool isNormalized(mat<4, 4, T, Q> const& m, T const& epsilon); + + /// Return whether a matrix is an orthonormalized matrix. + /// From GLM_GTX_matrix_query extension. + template class matType> + GLM_FUNC_DECL bool isOrthogonal(matType const& m, T const& epsilon); + + /// @} +}//namespace glm + +#include "matrix_query.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_query.inl b/Vulkan/ext/include/glm/gtx/matrix_query.inl new file mode 100644 index 0000000..77bd231 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_query.inl @@ -0,0 +1,113 @@ +/// @ref gtx_matrix_query + +namespace glm +{ + template + GLM_FUNC_QUALIFIER bool isNull(mat<2, 2, T, Q> const& m, T const& epsilon) + { + bool result = true; + for(length_t i = 0; result && i < m.length() ; ++i) + result = isNull(m[i], epsilon); + return result; + } + + template + GLM_FUNC_QUALIFIER bool isNull(mat<3, 3, T, Q> const& m, T const& epsilon) + { + bool result = true; + for(length_t i = 0; result && i < m.length() ; ++i) + result = isNull(m[i], epsilon); + return result; + } + + template + GLM_FUNC_QUALIFIER bool isNull(mat<4, 4, T, Q> const& m, T const& epsilon) + { + bool result = true; + for(length_t i = 0; result && i < m.length() ; ++i) + result = isNull(m[i], epsilon); + return result; + } + + template + GLM_FUNC_QUALIFIER bool isIdentity(mat const& m, T const& epsilon) + { + bool result = true; + for(length_t i = 0; result && i < m[0].length() ; ++i) + { + for(length_t j = 0; result && j < i ; ++j) + result = abs(m[i][j]) <= epsilon; + if(result) + result = abs(m[i][i] - 1) <= epsilon; + for(length_t j = i + 1; result && j < m.length(); ++j) + result = abs(m[i][j]) <= epsilon; + } + return result; + } + + template + GLM_FUNC_QUALIFIER bool isNormalized(mat<2, 2, T, Q> const& m, T const& epsilon) + { + bool result(true); + for(length_t i = 0; result && i < m.length(); ++i) + result = isNormalized(m[i], epsilon); + for(length_t i = 0; result && i < m.length(); ++i) + { + typename mat<2, 2, T, Q>::col_type v; + for(length_t j = 0; j < m.length(); ++j) + v[j] = m[j][i]; + result = isNormalized(v, epsilon); + } + return result; + } + + template + GLM_FUNC_QUALIFIER bool isNormalized(mat<3, 3, T, Q> const& m, T const& epsilon) + { + bool result(true); + for(length_t i = 0; result && i < m.length(); ++i) + result = isNormalized(m[i], epsilon); + for(length_t i = 0; result && i < m.length(); ++i) + { + typename mat<3, 3, T, Q>::col_type v; + for(length_t j = 0; j < m.length(); ++j) + v[j] = m[j][i]; + result = isNormalized(v, epsilon); + } + return result; + } + + template + GLM_FUNC_QUALIFIER bool isNormalized(mat<4, 4, T, Q> const& m, T const& epsilon) + { + bool result(true); + for(length_t i = 0; result && i < m.length(); ++i) + result = isNormalized(m[i], epsilon); + for(length_t i = 0; result && i < m.length(); ++i) + { + typename mat<4, 4, T, Q>::col_type v; + for(length_t j = 0; j < m.length(); ++j) + v[j] = m[j][i]; + result = isNormalized(v, epsilon); + } + return result; + } + + template + GLM_FUNC_QUALIFIER bool isOrthogonal(mat const& m, T const& epsilon) + { + bool result = true; + for(length_t i(0); result && i < m.length() - 1; ++i) + for(length_t j(i + 1); result && j < m.length(); ++j) + result = areOrthogonal(m[i], m[j], epsilon); + + if(result) + { + mat tmp = transpose(m); + for(length_t i(0); result && i < m.length() - 1 ; ++i) + for(length_t j(i + 1); result && j < m.length(); ++j) + result = areOrthogonal(tmp[i], tmp[j], epsilon); + } + return result; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/matrix_transform_2d.hpp b/Vulkan/ext/include/glm/gtx/matrix_transform_2d.hpp new file mode 100644 index 0000000..5f9c540 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_transform_2d.hpp @@ -0,0 +1,81 @@ +/// @ref gtx_matrix_transform_2d +/// @file glm/gtx/matrix_transform_2d.hpp +/// @author Miguel Ángel Pérez Martínez +/// +/// @see core (dependence) +/// +/// @defgroup gtx_matrix_transform_2d GLM_GTX_matrix_transform_2d +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Defines functions that generate common 2d transformation matrices. + +#pragma once + +// Dependency: +#include "../mat3x3.hpp" +#include "../vec2.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_matrix_transform_2d is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_matrix_transform_2d extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_matrix_transform_2d + /// @{ + + /// Builds a translation 3 * 3 matrix created from a vector of 2 components. + /// + /// @param m Input matrix multiplied by this translation matrix. + /// @param v Coordinates of a translation vector. + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> translate( + mat<3, 3, T, Q> const& m, + vec<2, T, Q> const& v); + + /// Builds a rotation 3 * 3 matrix created from an angle. + /// + /// @param m Input matrix multiplied by this translation matrix. + /// @param angle Rotation angle expressed in radians. + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> rotate( + mat<3, 3, T, Q> const& m, + T angle); + + /// Builds a scale 3 * 3 matrix created from a vector of 2 components. + /// + /// @param m Input matrix multiplied by this translation matrix. + /// @param v Coordinates of a scale vector. + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> scale( + mat<3, 3, T, Q> const& m, + vec<2, T, Q> const& v); + + /// Builds an horizontal (parallel to the x axis) shear 3 * 3 matrix. + /// + /// @param m Input matrix multiplied by this translation matrix. + /// @param y Shear factor. + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> shearX( + mat<3, 3, T, Q> const& m, + T y); + + /// Builds a vertical (parallel to the y axis) shear 3 * 3 matrix. + /// + /// @param m Input matrix multiplied by this translation matrix. + /// @param x Shear factor. + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> shearY( + mat<3, 3, T, Q> const& m, + T x); + + /// @} +}//namespace glm + +#include "matrix_transform_2d.inl" diff --git a/Vulkan/ext/include/glm/gtx/matrix_transform_2d.inl b/Vulkan/ext/include/glm/gtx/matrix_transform_2d.inl new file mode 100644 index 0000000..a68d24d --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/matrix_transform_2d.inl @@ -0,0 +1,68 @@ +/// @ref gtx_matrix_transform_2d +/// @author Miguel Ángel Pérez Martínez + +#include "../trigonometric.hpp" + +namespace glm +{ + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> translate( + mat<3, 3, T, Q> const& m, + vec<2, T, Q> const& v) + { + mat<3, 3, T, Q> Result(m); + Result[2] = m[0] * v[0] + m[1] * v[1] + m[2]; + return Result; + } + + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> rotate( + mat<3, 3, T, Q> const& m, + T angle) + { + T const a = angle; + T const c = cos(a); + T const s = sin(a); + + mat<3, 3, T, Q> Result; + Result[0] = m[0] * c + m[1] * s; + Result[1] = m[0] * -s + m[1] * c; + Result[2] = m[2]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> scale( + mat<3, 3, T, Q> const& m, + vec<2, T, Q> const& v) + { + mat<3, 3, T, Q> Result; + Result[0] = m[0] * v[0]; + Result[1] = m[1] * v[1]; + Result[2] = m[2]; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> shearX( + mat<3, 3, T, Q> const& m, + T y) + { + mat<3, 3, T, Q> Result(1); + Result[0][1] = y; + return m * Result; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> shearY( + mat<3, 3, T, Q> const& m, + T x) + { + mat<3, 3, T, Q> Result(1); + Result[1][0] = x; + return m * Result; + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/mixed_product.hpp b/Vulkan/ext/include/glm/gtx/mixed_product.hpp new file mode 100644 index 0000000..b242e35 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/mixed_product.hpp @@ -0,0 +1,41 @@ +/// @ref gtx_mixed_product +/// @file glm/gtx/mixed_product.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_mixed_product GLM_GTX_mixed_producte +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Mixed product of 3 vectors. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_mixed_product is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_mixed_product extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_mixed_product + /// @{ + + /// @brief Mixed product of 3 vectors (from GLM_GTX_mixed_product extension) + template + GLM_FUNC_DECL T mixedProduct( + vec<3, T, Q> const& v1, + vec<3, T, Q> const& v2, + vec<3, T, Q> const& v3); + + /// @} +}// namespace glm + +#include "mixed_product.inl" diff --git a/Vulkan/ext/include/glm/gtx/mixed_product.inl b/Vulkan/ext/include/glm/gtx/mixed_product.inl new file mode 100644 index 0000000..e5cdbdb --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/mixed_product.inl @@ -0,0 +1,15 @@ +/// @ref gtx_mixed_product + +namespace glm +{ + template + GLM_FUNC_QUALIFIER T mixedProduct + ( + vec<3, T, Q> const& v1, + vec<3, T, Q> const& v2, + vec<3, T, Q> const& v3 + ) + { + return dot(cross(v1, v2), v3); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/norm.hpp b/Vulkan/ext/include/glm/gtx/norm.hpp new file mode 100644 index 0000000..dfaebb7 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/norm.hpp @@ -0,0 +1,88 @@ +/// @ref gtx_norm +/// @file glm/gtx/norm.hpp +/// +/// @see core (dependence) +/// @see gtx_quaternion (dependence) +/// @see gtx_component_wise (dependence) +/// +/// @defgroup gtx_norm GLM_GTX_norm +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Various ways to compute vector norms. + +#pragma once + +// Dependency: +#include "../geometric.hpp" +#include "../gtx/quaternion.hpp" +#include "../gtx/component_wise.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_norm is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_norm extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_norm + /// @{ + + /// Returns the squared length of x. + /// From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T length2(vec const& x); + + /// Returns the squared distance between p0 and p1, i.e., length2(p0 - p1). + /// From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T distance2(vec const& p0, vec const& p1); + + //! Returns the L1 norm between x and y. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T l1Norm(vec<3, T, Q> const& x, vec<3, T, Q> const& y); + + //! Returns the L1 norm of v. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T l1Norm(vec<3, T, Q> const& v); + + //! Returns the L2 norm between x and y. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T l2Norm(vec<3, T, Q> const& x, vec<3, T, Q> const& y); + + //! Returns the L2 norm of v. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T l2Norm(vec<3, T, Q> const& x); + + //! Returns the L norm between x and y. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T lxNorm(vec<3, T, Q> const& x, vec<3, T, Q> const& y, unsigned int Depth); + + //! Returns the L norm of v. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T lxNorm(vec<3, T, Q> const& x, unsigned int Depth); + + //! Returns the LMax norm between x and y. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T lMaxNorm(vec<3, T, Q> const& x, vec<3, T, Q> const& y); + + //! Returns the LMax norm of v. + //! From GLM_GTX_norm extension. + template + GLM_FUNC_DECL T lMaxNorm(vec<3, T, Q> const& x); + + /// @} +}//namespace glm + +#include "norm.inl" diff --git a/Vulkan/ext/include/glm/gtx/norm.inl b/Vulkan/ext/include/glm/gtx/norm.inl new file mode 100644 index 0000000..6db561b --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/norm.inl @@ -0,0 +1,95 @@ +/// @ref gtx_norm + +#include "../detail/qualifier.hpp" + +namespace glm{ +namespace detail +{ + template + struct compute_length2 + { + GLM_FUNC_QUALIFIER static T call(vec const& v) + { + return dot(v, v); + } + }; +}//namespace detail + + template + GLM_FUNC_QUALIFIER genType length2(genType x) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'length2' accepts only floating-point inputs"); + return x * x; + } + + template + GLM_FUNC_QUALIFIER T length2(vec const& v) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'length2' accepts only floating-point inputs"); + return detail::compute_length2::value>::call(v); + } + + template + GLM_FUNC_QUALIFIER T distance2(T p0, T p1) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'distance2' accepts only floating-point inputs"); + return length2(p1 - p0); + } + + template + GLM_FUNC_QUALIFIER T distance2(vec const& p0, vec const& p1) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'distance2' accepts only floating-point inputs"); + return length2(p1 - p0); + } + + template + GLM_FUNC_QUALIFIER T l1Norm(vec<3, T, Q> const& a, vec<3, T, Q> const& b) + { + return abs(b.x - a.x) + abs(b.y - a.y) + abs(b.z - a.z); + } + + template + GLM_FUNC_QUALIFIER T l1Norm(vec<3, T, Q> const& v) + { + return abs(v.x) + abs(v.y) + abs(v.z); + } + + template + GLM_FUNC_QUALIFIER T l2Norm(vec<3, T, Q> const& a, vec<3, T, Q> const& b + ) + { + return length(b - a); + } + + template + GLM_FUNC_QUALIFIER T l2Norm(vec<3, T, Q> const& v) + { + return length(v); + } + + template + GLM_FUNC_QUALIFIER T lxNorm(vec<3, T, Q> const& x, vec<3, T, Q> const& y, unsigned int Depth) + { + return pow(pow(abs(y.x - x.x), T(Depth)) + pow(abs(y.y - x.y), T(Depth)) + pow(abs(y.z - x.z), T(Depth)), T(1) / T(Depth)); + } + + template + GLM_FUNC_QUALIFIER T lxNorm(vec<3, T, Q> const& v, unsigned int Depth) + { + return pow(pow(abs(v.x), T(Depth)) + pow(abs(v.y), T(Depth)) + pow(abs(v.z), T(Depth)), T(1) / T(Depth)); + } + + template + GLM_FUNC_QUALIFIER T lMaxNorm(vec<3, T, Q> const& a, vec<3, T, Q> const& b) + { + return compMax(abs(b - a)); + } + + template + GLM_FUNC_QUALIFIER T lMaxNorm(vec<3, T, Q> const& v) + { + return compMax(abs(v)); + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/normal.hpp b/Vulkan/ext/include/glm/gtx/normal.hpp new file mode 100644 index 0000000..068682f --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/normal.hpp @@ -0,0 +1,41 @@ +/// @ref gtx_normal +/// @file glm/gtx/normal.hpp +/// +/// @see core (dependence) +/// @see gtx_extented_min_max (dependence) +/// +/// @defgroup gtx_normal GLM_GTX_normal +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Compute the normal of a triangle. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_normal is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_normal extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_normal + /// @{ + + /// Computes triangle normal from triangle points. + /// + /// @see gtx_normal + template + GLM_FUNC_DECL vec<3, T, Q> triangleNormal(vec<3, T, Q> const& p1, vec<3, T, Q> const& p2, vec<3, T, Q> const& p3); + + /// @} +}//namespace glm + +#include "normal.inl" diff --git a/Vulkan/ext/include/glm/gtx/normal.inl b/Vulkan/ext/include/glm/gtx/normal.inl new file mode 100644 index 0000000..74f9fc9 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/normal.inl @@ -0,0 +1,15 @@ +/// @ref gtx_normal + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> triangleNormal + ( + vec<3, T, Q> const& p1, + vec<3, T, Q> const& p2, + vec<3, T, Q> const& p3 + ) + { + return normalize(cross(p1 - p2, p1 - p3)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/normalize_dot.hpp b/Vulkan/ext/include/glm/gtx/normalize_dot.hpp new file mode 100644 index 0000000..5195802 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/normalize_dot.hpp @@ -0,0 +1,49 @@ +/// @ref gtx_normalize_dot +/// @file glm/gtx/normalize_dot.hpp +/// +/// @see core (dependence) +/// @see gtx_fast_square_root (dependence) +/// +/// @defgroup gtx_normalize_dot GLM_GTX_normalize_dot +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Dot product of vectors that need to be normalize with a single square root. + +#pragma once + +// Dependency: +#include "../gtx/fast_square_root.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_normalize_dot is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_normalize_dot extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_normalize_dot + /// @{ + + /// Normalize parameters and returns the dot product of x and y. + /// It's faster that dot(normalize(x), normalize(y)). + /// + /// @see gtx_normalize_dot extension. + template + GLM_FUNC_DECL T normalizeDot(vec const& x, vec const& y); + + /// Normalize parameters and returns the dot product of x and y. + /// Faster that dot(fastNormalize(x), fastNormalize(y)). + /// + /// @see gtx_normalize_dot extension. + template + GLM_FUNC_DECL T fastNormalizeDot(vec const& x, vec const& y); + + /// @} +}//namespace glm + +#include "normalize_dot.inl" diff --git a/Vulkan/ext/include/glm/gtx/normalize_dot.inl b/Vulkan/ext/include/glm/gtx/normalize_dot.inl new file mode 100644 index 0000000..7bcd9a5 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/normalize_dot.inl @@ -0,0 +1,16 @@ +/// @ref gtx_normalize_dot + +namespace glm +{ + template + GLM_FUNC_QUALIFIER T normalizeDot(vec const& x, vec const& y) + { + return glm::dot(x, y) * glm::inversesqrt(glm::dot(x, x) * glm::dot(y, y)); + } + + template + GLM_FUNC_QUALIFIER T fastNormalizeDot(vec const& x, vec const& y) + { + return glm::dot(x, y) * glm::fastInverseSqrt(glm::dot(x, x) * glm::dot(y, y)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/number_precision.hpp b/Vulkan/ext/include/glm/gtx/number_precision.hpp new file mode 100644 index 0000000..3a606bd --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/number_precision.hpp @@ -0,0 +1,61 @@ +/// @ref gtx_number_precision +/// @file glm/gtx/number_precision.hpp +/// +/// @see core (dependence) +/// @see gtc_type_precision (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtx_number_precision GLM_GTX_number_precision +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Defined size types. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/type_precision.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_number_precision is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_number_precision extension included") +# endif +#endif + +namespace glm{ +namespace gtx +{ + ///////////////////////////// + // Unsigned int vector types + + /// @addtogroup gtx_number_precision + /// @{ + + typedef u8 u8vec1; //!< \brief 8bit unsigned integer scalar. (from GLM_GTX_number_precision extension) + typedef u16 u16vec1; //!< \brief 16bit unsigned integer scalar. (from GLM_GTX_number_precision extension) + typedef u32 u32vec1; //!< \brief 32bit unsigned integer scalar. (from GLM_GTX_number_precision extension) + typedef u64 u64vec1; //!< \brief 64bit unsigned integer scalar. (from GLM_GTX_number_precision extension) + + ////////////////////// + // Float vector types + + typedef f32 f32vec1; //!< \brief Single-qualifier floating-point scalar. (from GLM_GTX_number_precision extension) + typedef f64 f64vec1; //!< \brief Single-qualifier floating-point scalar. (from GLM_GTX_number_precision extension) + + ////////////////////// + // Float matrix types + + typedef f32 f32mat1; //!< \brief Single-qualifier floating-point scalar. (from GLM_GTX_number_precision extension) + typedef f32 f32mat1x1; //!< \brief Single-qualifier floating-point scalar. (from GLM_GTX_number_precision extension) + typedef f64 f64mat1; //!< \brief Double-qualifier floating-point scalar. (from GLM_GTX_number_precision extension) + typedef f64 f64mat1x1; //!< \brief Double-qualifier floating-point scalar. (from GLM_GTX_number_precision extension) + + /// @} +}//namespace gtx +}//namespace glm + +#include "number_precision.inl" diff --git a/Vulkan/ext/include/glm/gtx/number_precision.inl b/Vulkan/ext/include/glm/gtx/number_precision.inl new file mode 100644 index 0000000..b39d71c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/number_precision.inl @@ -0,0 +1,6 @@ +/// @ref gtx_number_precision + +namespace glm +{ + +} diff --git a/Vulkan/ext/include/glm/gtx/optimum_pow.hpp b/Vulkan/ext/include/glm/gtx/optimum_pow.hpp new file mode 100644 index 0000000..9284a47 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/optimum_pow.hpp @@ -0,0 +1,54 @@ +/// @ref gtx_optimum_pow +/// @file glm/gtx/optimum_pow.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_optimum_pow GLM_GTX_optimum_pow +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Integer exponentiation of power functions. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_optimum_pow is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_optimum_pow extension included") +# endif +#endif + +namespace glm{ +namespace gtx +{ + /// @addtogroup gtx_optimum_pow + /// @{ + + /// Returns x raised to the power of 2. + /// + /// @see gtx_optimum_pow + template + GLM_FUNC_DECL genType pow2(genType const& x); + + /// Returns x raised to the power of 3. + /// + /// @see gtx_optimum_pow + template + GLM_FUNC_DECL genType pow3(genType const& x); + + /// Returns x raised to the power of 4. + /// + /// @see gtx_optimum_pow + template + GLM_FUNC_DECL genType pow4(genType const& x); + + /// @} +}//namespace gtx +}//namespace glm + +#include "optimum_pow.inl" diff --git a/Vulkan/ext/include/glm/gtx/optimum_pow.inl b/Vulkan/ext/include/glm/gtx/optimum_pow.inl new file mode 100644 index 0000000..a26c19c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/optimum_pow.inl @@ -0,0 +1,22 @@ +/// @ref gtx_optimum_pow + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType pow2(genType const& x) + { + return x * x; + } + + template + GLM_FUNC_QUALIFIER genType pow3(genType const& x) + { + return x * x * x; + } + + template + GLM_FUNC_QUALIFIER genType pow4(genType const& x) + { + return (x * x) * (x * x); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/orthonormalize.hpp b/Vulkan/ext/include/glm/gtx/orthonormalize.hpp new file mode 100644 index 0000000..3e004fb --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/orthonormalize.hpp @@ -0,0 +1,49 @@ +/// @ref gtx_orthonormalize +/// @file glm/gtx/orthonormalize.hpp +/// +/// @see core (dependence) +/// @see gtx_extented_min_max (dependence) +/// +/// @defgroup gtx_orthonormalize GLM_GTX_orthonormalize +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Orthonormalize matrices. + +#pragma once + +// Dependency: +#include "../vec3.hpp" +#include "../mat3x3.hpp" +#include "../geometric.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_orthonormalize is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_orthonormalize extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_orthonormalize + /// @{ + + /// Returns the orthonormalized matrix of m. + /// + /// @see gtx_orthonormalize + template + GLM_FUNC_DECL mat<3, 3, T, Q> orthonormalize(mat<3, 3, T, Q> const& m); + + /// Orthonormalizes x according y. + /// + /// @see gtx_orthonormalize + template + GLM_FUNC_DECL vec<3, T, Q> orthonormalize(vec<3, T, Q> const& x, vec<3, T, Q> const& y); + + /// @} +}//namespace glm + +#include "orthonormalize.inl" diff --git a/Vulkan/ext/include/glm/gtx/orthonormalize.inl b/Vulkan/ext/include/glm/gtx/orthonormalize.inl new file mode 100644 index 0000000..cb553ba --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/orthonormalize.inl @@ -0,0 +1,29 @@ +/// @ref gtx_orthonormalize + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> orthonormalize(mat<3, 3, T, Q> const& m) + { + mat<3, 3, T, Q> r = m; + + r[0] = normalize(r[0]); + + T d0 = dot(r[0], r[1]); + r[1] -= r[0] * d0; + r[1] = normalize(r[1]); + + T d1 = dot(r[1], r[2]); + d0 = dot(r[0], r[2]); + r[2] -= r[0] * d0 + r[1] * d1; + r[2] = normalize(r[2]); + + return r; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> orthonormalize(vec<3, T, Q> const& x, vec<3, T, Q> const& y) + { + return normalize(x - y * dot(y, x)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/perpendicular.hpp b/Vulkan/ext/include/glm/gtx/perpendicular.hpp new file mode 100644 index 0000000..72b77b6 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/perpendicular.hpp @@ -0,0 +1,41 @@ +/// @ref gtx_perpendicular +/// @file glm/gtx/perpendicular.hpp +/// +/// @see core (dependence) +/// @see gtx_projection (dependence) +/// +/// @defgroup gtx_perpendicular GLM_GTX_perpendicular +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Perpendicular of a vector from other one + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtx/projection.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_perpendicular is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_perpendicular extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_perpendicular + /// @{ + + //! Projects x a perpendicular axis of Normal. + //! From GLM_GTX_perpendicular extension. + template + GLM_FUNC_DECL genType perp(genType const& x, genType const& Normal); + + /// @} +}//namespace glm + +#include "perpendicular.inl" diff --git a/Vulkan/ext/include/glm/gtx/perpendicular.inl b/Vulkan/ext/include/glm/gtx/perpendicular.inl new file mode 100644 index 0000000..1e72f33 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/perpendicular.inl @@ -0,0 +1,10 @@ +/// @ref gtx_perpendicular + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType perp(genType const& x, genType const& Normal) + { + return x - proj(x, Normal); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/polar_coordinates.hpp b/Vulkan/ext/include/glm/gtx/polar_coordinates.hpp new file mode 100644 index 0000000..76beb82 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/polar_coordinates.hpp @@ -0,0 +1,48 @@ +/// @ref gtx_polar_coordinates +/// @file glm/gtx/polar_coordinates.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_polar_coordinates GLM_GTX_polar_coordinates +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Conversion from Euclidean space to polar space and revert. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_polar_coordinates is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_polar_coordinates extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_polar_coordinates + /// @{ + + /// Convert Euclidean to Polar coordinates, x is the latitude, y the longitude and z the xz distance. + /// + /// @see gtx_polar_coordinates + template + GLM_FUNC_DECL vec<3, T, Q> polar( + vec<3, T, Q> const& euclidean); + + /// Convert Polar to Euclidean coordinates. + /// + /// @see gtx_polar_coordinates + template + GLM_FUNC_DECL vec<3, T, Q> euclidean( + vec<2, T, Q> const& polar); + + /// @} +}//namespace glm + +#include "polar_coordinates.inl" diff --git a/Vulkan/ext/include/glm/gtx/polar_coordinates.inl b/Vulkan/ext/include/glm/gtx/polar_coordinates.inl new file mode 100644 index 0000000..371c8dd --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/polar_coordinates.inl @@ -0,0 +1,36 @@ +/// @ref gtx_polar_coordinates + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> polar + ( + vec<3, T, Q> const& euclidean + ) + { + T const Length(length(euclidean)); + vec<3, T, Q> const tmp(euclidean / Length); + T const xz_dist(sqrt(tmp.x * tmp.x + tmp.z * tmp.z)); + + return vec<3, T, Q>( + asin(tmp.y), // latitude + atan(tmp.x, tmp.z), // longitude + xz_dist); // xz distance + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> euclidean + ( + vec<2, T, Q> const& polar + ) + { + T const latitude(polar.x); + T const longitude(polar.y); + + return vec<3, T, Q>( + cos(latitude) * sin(longitude), + sin(latitude), + cos(latitude) * cos(longitude)); + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/projection.hpp b/Vulkan/ext/include/glm/gtx/projection.hpp new file mode 100644 index 0000000..678f3ad --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/projection.hpp @@ -0,0 +1,43 @@ +/// @ref gtx_projection +/// @file glm/gtx/projection.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_projection GLM_GTX_projection +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Projection of a vector to other one + +#pragma once + +// Dependency: +#include "../geometric.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_projection is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_projection extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_projection + /// @{ + + /// Projects x on Normal. + /// + /// @param[in] x A vector to project + /// @param[in] Normal A normal that doesn't need to be of unit length. + /// + /// @see gtx_projection + template + GLM_FUNC_DECL genType proj(genType const& x, genType const& Normal); + + /// @} +}//namespace glm + +#include "projection.inl" diff --git a/Vulkan/ext/include/glm/gtx/projection.inl b/Vulkan/ext/include/glm/gtx/projection.inl new file mode 100644 index 0000000..f23f884 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/projection.inl @@ -0,0 +1,10 @@ +/// @ref gtx_projection + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType proj(genType const& x, genType const& Normal) + { + return glm::dot(x, Normal) / glm::dot(Normal, Normal) * Normal; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/quaternion.hpp b/Vulkan/ext/include/glm/gtx/quaternion.hpp new file mode 100644 index 0000000..5c2b5ad --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/quaternion.hpp @@ -0,0 +1,174 @@ +/// @ref gtx_quaternion +/// @file glm/gtx/quaternion.hpp +/// +/// @see core (dependence) +/// @see gtx_extented_min_max (dependence) +/// +/// @defgroup gtx_quaternion GLM_GTX_quaternion +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Extented quaternion types and functions + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/constants.hpp" +#include "../gtc/quaternion.hpp" +#include "../ext/quaternion_exponential.hpp" +#include "../gtx/norm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_quaternion is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_quaternion extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_quaternion + /// @{ + + /// Create an identity quaternion. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL GLM_CONSTEXPR qua quat_identity(); + + /// Compute a cross product between a quaternion and a vector. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL vec<3, T, Q> cross( + qua const& q, + vec<3, T, Q> const& v); + + //! Compute a cross product between a vector and a quaternion. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL vec<3, T, Q> cross( + vec<3, T, Q> const& v, + qua const& q); + + //! Compute a point on a path according squad equation. + //! q1 and q2 are control points; s1 and s2 are intermediate control points. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL qua squad( + qua const& q1, + qua const& q2, + qua const& s1, + qua const& s2, + T const& h); + + //! Returns an intermediate control point for squad interpolation. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL qua intermediate( + qua const& prev, + qua const& curr, + qua const& next); + + //! Returns quarternion square root. + /// + /// @see gtx_quaternion + //template + //qua sqrt( + // qua const& q); + + //! Rotates a 3 components vector by a quaternion. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL vec<3, T, Q> rotate( + qua const& q, + vec<3, T, Q> const& v); + + /// Rotates a 4 components vector by a quaternion. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL vec<4, T, Q> rotate( + qua const& q, + vec<4, T, Q> const& v); + + /// Extract the real component of a quaternion. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL T extractRealComponent( + qua const& q); + + /// Converts a quaternion to a 3 * 3 matrix. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL mat<3, 3, T, Q> toMat3( + qua const& x){return mat3_cast(x);} + + /// Converts a quaternion to a 4 * 4 matrix. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL mat<4, 4, T, Q> toMat4( + qua const& x){return mat4_cast(x);} + + /// Converts a 3 * 3 matrix to a quaternion. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL qua toQuat( + mat<3, 3, T, Q> const& x){return quat_cast(x);} + + /// Converts a 4 * 4 matrix to a quaternion. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL qua toQuat( + mat<4, 4, T, Q> const& x){return quat_cast(x);} + + /// Quaternion interpolation using the rotation short path. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL qua shortMix( + qua const& x, + qua const& y, + T const& a); + + /// Quaternion normalized linear interpolation. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL qua fastMix( + qua const& x, + qua const& y, + T const& a); + + /// Compute the rotation between two vectors. + /// @param orig vector, needs to be normalized + /// @param dest vector, needs to be normalized + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL qua rotation( + vec<3, T, Q> const& orig, + vec<3, T, Q> const& dest); + + /// Returns the squared length of x. + /// + /// @see gtx_quaternion + template + GLM_FUNC_DECL GLM_CONSTEXPR T length2(qua const& q); + + /// @} +}//namespace glm + +#include "quaternion.inl" diff --git a/Vulkan/ext/include/glm/gtx/quaternion.inl b/Vulkan/ext/include/glm/gtx/quaternion.inl new file mode 100644 index 0000000..d125bcc --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/quaternion.inl @@ -0,0 +1,159 @@ +/// @ref gtx_quaternion + +#include +#include "../gtc/constants.hpp" + +namespace glm +{ + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR qua quat_identity() + { + return qua(static_cast(1), static_cast(0), static_cast(0), static_cast(0)); + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> cross(vec<3, T, Q> const& v, qua const& q) + { + return inverse(q) * v; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> cross(qua const& q, vec<3, T, Q> const& v) + { + return q * v; + } + + template + GLM_FUNC_QUALIFIER qua squad + ( + qua const& q1, + qua const& q2, + qua const& s1, + qua const& s2, + T const& h) + { + return mix(mix(q1, q2, h), mix(s1, s2, h), static_cast(2) * (static_cast(1) - h) * h); + } + + template + GLM_FUNC_QUALIFIER qua intermediate + ( + qua const& prev, + qua const& curr, + qua const& next + ) + { + qua invQuat = inverse(curr); + return exp((log(next * invQuat) + log(prev * invQuat)) / static_cast(-4)) * curr; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rotate(qua const& q, vec<3, T, Q> const& v) + { + return q * v; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> rotate(qua const& q, vec<4, T, Q> const& v) + { + return q * v; + } + + template + GLM_FUNC_QUALIFIER T extractRealComponent(qua const& q) + { + T w = static_cast(1) - q.x * q.x - q.y * q.y - q.z * q.z; + if(w < T(0)) + return T(0); + else + return -sqrt(w); + } + + template + GLM_FUNC_QUALIFIER GLM_CONSTEXPR T length2(qua const& q) + { + return q.x * q.x + q.y * q.y + q.z * q.z + q.w * q.w; + } + + template + GLM_FUNC_QUALIFIER qua shortMix(qua const& x, qua const& y, T const& a) + { + if(a <= static_cast(0)) return x; + if(a >= static_cast(1)) return y; + + T fCos = dot(x, y); + qua y2(y); //BUG!!! qua y2; + if(fCos < static_cast(0)) + { + y2 = -y; + fCos = -fCos; + } + + //if(fCos > 1.0f) // problem + T k0, k1; + if(fCos > (static_cast(1) - epsilon())) + { + k0 = static_cast(1) - a; + k1 = static_cast(0) + a; //BUG!!! 1.0f + a; + } + else + { + T fSin = sqrt(T(1) - fCos * fCos); + T fAngle = atan(fSin, fCos); + T fOneOverSin = static_cast(1) / fSin; + k0 = sin((static_cast(1) - a) * fAngle) * fOneOverSin; + k1 = sin((static_cast(0) + a) * fAngle) * fOneOverSin; + } + + return qua( + k0 * x.w + k1 * y2.w, + k0 * x.x + k1 * y2.x, + k0 * x.y + k1 * y2.y, + k0 * x.z + k1 * y2.z); + } + + template + GLM_FUNC_QUALIFIER qua fastMix(qua const& x, qua const& y, T const& a) + { + return glm::normalize(x * (static_cast(1) - a) + (y * a)); + } + + template + GLM_FUNC_QUALIFIER qua rotation(vec<3, T, Q> const& orig, vec<3, T, Q> const& dest) + { + T cosTheta = dot(orig, dest); + vec<3, T, Q> rotationAxis; + + if(cosTheta >= static_cast(1) - epsilon()) { + // orig and dest point in the same direction + return quat_identity(); + } + + if(cosTheta < static_cast(-1) + epsilon()) + { + // special case when vectors in opposite directions : + // there is no "ideal" rotation axis + // So guess one; any will do as long as it's perpendicular to start + // This implementation favors a rotation around the Up axis (Y), + // since it's often what you want to do. + rotationAxis = cross(vec<3, T, Q>(0, 0, 1), orig); + if(length2(rotationAxis) < epsilon()) // bad luck, they were parallel, try again! + rotationAxis = cross(vec<3, T, Q>(1, 0, 0), orig); + + rotationAxis = normalize(rotationAxis); + return angleAxis(pi(), rotationAxis); + } + + // Implementation from Stan Melax's Game Programming Gems 1 article + rotationAxis = cross(orig, dest); + + T s = sqrt((T(1) + cosTheta) * static_cast(2)); + T invs = static_cast(1) / s; + + return qua( + s * static_cast(0.5f), + rotationAxis.x * invs, + rotationAxis.y * invs, + rotationAxis.z * invs); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/range.hpp b/Vulkan/ext/include/glm/gtx/range.hpp new file mode 100644 index 0000000..93bcb9a --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/range.hpp @@ -0,0 +1,98 @@ +/// @ref gtx_range +/// @file glm/gtx/range.hpp +/// @author Joshua Moerman +/// +/// @defgroup gtx_range GLM_GTX_range +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Defines begin and end for vectors and matrices. Useful for range-based for loop. +/// The range is defined over the elements, not over columns or rows (e.g. mat4 has 16 elements). + +#pragma once + +// Dependencies +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_range is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_range extension included") +# endif +#endif + +#include "../gtc/type_ptr.hpp" +#include "../gtc/vec1.hpp" + +namespace glm +{ + /// @addtogroup gtx_range + /// @{ + +# if GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(push) +# pragma warning(disable : 4100) // unreferenced formal parameter +# endif + + template + inline length_t components(vec<1, T, Q> const& v) + { + return v.length(); + } + + template + inline length_t components(vec<2, T, Q> const& v) + { + return v.length(); + } + + template + inline length_t components(vec<3, T, Q> const& v) + { + return v.length(); + } + + template + inline length_t components(vec<4, T, Q> const& v) + { + return v.length(); + } + + template + inline length_t components(genType const& m) + { + return m.length() * m[0].length(); + } + + template + inline typename genType::value_type const * begin(genType const& v) + { + return value_ptr(v); + } + + template + inline typename genType::value_type const * end(genType const& v) + { + return begin(v) + components(v); + } + + template + inline typename genType::value_type * begin(genType& v) + { + return value_ptr(v); + } + + template + inline typename genType::value_type * end(genType& v) + { + return begin(v) + components(v); + } + +# if GLM_COMPILER & GLM_COMPILER_VC +# pragma warning(pop) +# endif + + /// @} +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/raw_data.hpp b/Vulkan/ext/include/glm/gtx/raw_data.hpp new file mode 100644 index 0000000..86cbe77 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/raw_data.hpp @@ -0,0 +1,51 @@ +/// @ref gtx_raw_data +/// @file glm/gtx/raw_data.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_raw_data GLM_GTX_raw_data +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Projection of a vector to other one + +#pragma once + +// Dependencies +#include "../ext/scalar_uint_sized.hpp" +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_raw_data is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_raw_data extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_raw_data + /// @{ + + //! Type for byte numbers. + //! From GLM_GTX_raw_data extension. + typedef detail::uint8 byte; + + //! Type for word numbers. + //! From GLM_GTX_raw_data extension. + typedef detail::uint16 word; + + //! Type for dword numbers. + //! From GLM_GTX_raw_data extension. + typedef detail::uint32 dword; + + //! Type for qword numbers. + //! From GLM_GTX_raw_data extension. + typedef detail::uint64 qword; + + /// @} +}// namespace glm + +#include "raw_data.inl" diff --git a/Vulkan/ext/include/glm/gtx/raw_data.inl b/Vulkan/ext/include/glm/gtx/raw_data.inl new file mode 100644 index 0000000..c740317 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/raw_data.inl @@ -0,0 +1,2 @@ +/// @ref gtx_raw_data + diff --git a/Vulkan/ext/include/glm/gtx/rotate_normalized_axis.hpp b/Vulkan/ext/include/glm/gtx/rotate_normalized_axis.hpp new file mode 100644 index 0000000..2103ca0 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/rotate_normalized_axis.hpp @@ -0,0 +1,68 @@ +/// @ref gtx_rotate_normalized_axis +/// @file glm/gtx/rotate_normalized_axis.hpp +/// +/// @see core (dependence) +/// @see gtc_matrix_transform +/// @see gtc_quaternion +/// +/// @defgroup gtx_rotate_normalized_axis GLM_GTX_rotate_normalized_axis +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Quaternions and matrices rotations around normalized axis. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/epsilon.hpp" +#include "../gtc/quaternion.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_rotate_normalized_axis is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_rotate_normalized_axis extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_rotate_normalized_axis + /// @{ + + /// Builds a rotation 4 * 4 matrix created from a normalized axis and an angle. + /// + /// @param m Input matrix multiplied by this rotation matrix. + /// @param angle Rotation angle expressed in radians. + /// @param axis Rotation axis, must be normalized. + /// @tparam T Value type used to build the matrix. Currently supported: half (not recommended), float or double. + /// + /// @see gtx_rotate_normalized_axis + /// @see - rotate(T angle, T x, T y, T z) + /// @see - rotate(mat<4, 4, T, Q> const& m, T angle, T x, T y, T z) + /// @see - rotate(T angle, vec<3, T, Q> const& v) + template + GLM_FUNC_DECL mat<4, 4, T, Q> rotateNormalizedAxis( + mat<4, 4, T, Q> const& m, + T const& angle, + vec<3, T, Q> const& axis); + + /// Rotates a quaternion from a vector of 3 components normalized axis and an angle. + /// + /// @param q Source orientation + /// @param angle Angle expressed in radians. + /// @param axis Normalized axis of the rotation, must be normalized. + /// + /// @see gtx_rotate_normalized_axis + template + GLM_FUNC_DECL qua rotateNormalizedAxis( + qua const& q, + T const& angle, + vec<3, T, Q> const& axis); + + /// @} +}//namespace glm + +#include "rotate_normalized_axis.inl" diff --git a/Vulkan/ext/include/glm/gtx/rotate_normalized_axis.inl b/Vulkan/ext/include/glm/gtx/rotate_normalized_axis.inl new file mode 100644 index 0000000..b2e9278 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/rotate_normalized_axis.inl @@ -0,0 +1,58 @@ +/// @ref gtx_rotate_normalized_axis + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> rotateNormalizedAxis + ( + mat<4, 4, T, Q> const& m, + T const& angle, + vec<3, T, Q> const& v + ) + { + T const a = angle; + T const c = cos(a); + T const s = sin(a); + + vec<3, T, Q> const axis(v); + + vec<3, T, Q> const temp((static_cast(1) - c) * axis); + + mat<4, 4, T, Q> Rotate; + Rotate[0][0] = c + temp[0] * axis[0]; + Rotate[0][1] = 0 + temp[0] * axis[1] + s * axis[2]; + Rotate[0][2] = 0 + temp[0] * axis[2] - s * axis[1]; + + Rotate[1][0] = 0 + temp[1] * axis[0] - s * axis[2]; + Rotate[1][1] = c + temp[1] * axis[1]; + Rotate[1][2] = 0 + temp[1] * axis[2] + s * axis[0]; + + Rotate[2][0] = 0 + temp[2] * axis[0] + s * axis[1]; + Rotate[2][1] = 0 + temp[2] * axis[1] - s * axis[0]; + Rotate[2][2] = c + temp[2] * axis[2]; + + mat<4, 4, T, Q> Result; + Result[0] = m[0] * Rotate[0][0] + m[1] * Rotate[0][1] + m[2] * Rotate[0][2]; + Result[1] = m[0] * Rotate[1][0] + m[1] * Rotate[1][1] + m[2] * Rotate[1][2]; + Result[2] = m[0] * Rotate[2][0] + m[1] * Rotate[2][1] + m[2] * Rotate[2][2]; + Result[3] = m[3]; + return Result; + } + + template + GLM_FUNC_QUALIFIER qua rotateNormalizedAxis + ( + qua const& q, + T const& angle, + vec<3, T, Q> const& v + ) + { + vec<3, T, Q> const Tmp(v); + + T const AngleRad(angle); + T const Sin = sin(AngleRad * T(0.5)); + + return q * qua(cos(AngleRad * static_cast(0.5)), Tmp.x * Sin, Tmp.y * Sin, Tmp.z * Sin); + //return gtc::quaternion::cross(q, tquat(cos(AngleRad * T(0.5)), Tmp.x * fSin, Tmp.y * fSin, Tmp.z * fSin)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/rotate_vector.hpp b/Vulkan/ext/include/glm/gtx/rotate_vector.hpp new file mode 100644 index 0000000..dcd5b95 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/rotate_vector.hpp @@ -0,0 +1,123 @@ +/// @ref gtx_rotate_vector +/// @file glm/gtx/rotate_vector.hpp +/// +/// @see core (dependence) +/// @see gtx_transform (dependence) +/// +/// @defgroup gtx_rotate_vector GLM_GTX_rotate_vector +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Function to directly rotate a vector + +#pragma once + +// Dependency: +#include "../gtx/transform.hpp" +#include "../gtc/epsilon.hpp" +#include "../ext/vector_relational.hpp" +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_rotate_vector is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_rotate_vector extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_rotate_vector + /// @{ + + /// Returns Spherical interpolation between two vectors + /// + /// @param x A first vector + /// @param y A second vector + /// @param a Interpolation factor. The interpolation is defined beyond the range [0, 1]. + /// + /// @see gtx_rotate_vector + template + GLM_FUNC_DECL vec<3, T, Q> slerp( + vec<3, T, Q> const& x, + vec<3, T, Q> const& y, + T const& a); + + //! Rotate a two dimensional vector. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<2, T, Q> rotate( + vec<2, T, Q> const& v, + T const& angle); + + //! Rotate a three dimensional vector around an axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<3, T, Q> rotate( + vec<3, T, Q> const& v, + T const& angle, + vec<3, T, Q> const& normal); + + //! Rotate a four dimensional vector around an axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<4, T, Q> rotate( + vec<4, T, Q> const& v, + T const& angle, + vec<3, T, Q> const& normal); + + //! Rotate a three dimensional vector around the X axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<3, T, Q> rotateX( + vec<3, T, Q> const& v, + T const& angle); + + //! Rotate a three dimensional vector around the Y axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<3, T, Q> rotateY( + vec<3, T, Q> const& v, + T const& angle); + + //! Rotate a three dimensional vector around the Z axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<3, T, Q> rotateZ( + vec<3, T, Q> const& v, + T const& angle); + + //! Rotate a four dimensional vector around the X axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<4, T, Q> rotateX( + vec<4, T, Q> const& v, + T const& angle); + + //! Rotate a four dimensional vector around the Y axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<4, T, Q> rotateY( + vec<4, T, Q> const& v, + T const& angle); + + //! Rotate a four dimensional vector around the Z axis. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL vec<4, T, Q> rotateZ( + vec<4, T, Q> const& v, + T const& angle); + + //! Build a rotation matrix from a normal and a up vector. + //! From GLM_GTX_rotate_vector extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> orientation( + vec<3, T, Q> const& Normal, + vec<3, T, Q> const& Up); + + /// @} +}//namespace glm + +#include "rotate_vector.inl" diff --git a/Vulkan/ext/include/glm/gtx/rotate_vector.inl b/Vulkan/ext/include/glm/gtx/rotate_vector.inl new file mode 100644 index 0000000..f8136e7 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/rotate_vector.inl @@ -0,0 +1,187 @@ +/// @ref gtx_rotate_vector + +namespace glm +{ + template + GLM_FUNC_QUALIFIER vec<3, T, Q> slerp + ( + vec<3, T, Q> const& x, + vec<3, T, Q> const& y, + T const& a + ) + { + // get cosine of angle between vectors (-1 -> 1) + T CosAlpha = dot(x, y); + // get angle (0 -> pi) + T Alpha = acos(CosAlpha); + // get sine of angle between vectors (0 -> 1) + T SinAlpha = sin(Alpha); + // this breaks down when SinAlpha = 0, i.e. Alpha = 0 or pi + T t1 = sin((static_cast(1) - a) * Alpha) / SinAlpha; + T t2 = sin(a * Alpha) / SinAlpha; + + // interpolate src vectors + return x * t1 + y * t2; + } + + template + GLM_FUNC_QUALIFIER vec<2, T, Q> rotate + ( + vec<2, T, Q> const& v, + T const& angle + ) + { + vec<2, T, Q> Result; + T const Cos(cos(angle)); + T const Sin(sin(angle)); + + Result.x = v.x * Cos - v.y * Sin; + Result.y = v.x * Sin + v.y * Cos; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rotate + ( + vec<3, T, Q> const& v, + T const& angle, + vec<3, T, Q> const& normal + ) + { + return mat<3, 3, T, Q>(glm::rotate(angle, normal)) * v; + } + /* + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rotateGTX( + const vec<3, T, Q>& x, + T angle, + const vec<3, T, Q>& normal) + { + const T Cos = cos(radians(angle)); + const T Sin = sin(radians(angle)); + return x * Cos + ((x * normal) * (T(1) - Cos)) * normal + cross(x, normal) * Sin; + } + */ + template + GLM_FUNC_QUALIFIER vec<4, T, Q> rotate + ( + vec<4, T, Q> const& v, + T const& angle, + vec<3, T, Q> const& normal + ) + { + return rotate(angle, normal) * v; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rotateX + ( + vec<3, T, Q> const& v, + T const& angle + ) + { + vec<3, T, Q> Result(v); + T const Cos(cos(angle)); + T const Sin(sin(angle)); + + Result.y = v.y * Cos - v.z * Sin; + Result.z = v.y * Sin + v.z * Cos; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rotateY + ( + vec<3, T, Q> const& v, + T const& angle + ) + { + vec<3, T, Q> Result = v; + T const Cos(cos(angle)); + T const Sin(sin(angle)); + + Result.x = v.x * Cos + v.z * Sin; + Result.z = -v.x * Sin + v.z * Cos; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<3, T, Q> rotateZ + ( + vec<3, T, Q> const& v, + T const& angle + ) + { + vec<3, T, Q> Result = v; + T const Cos(cos(angle)); + T const Sin(sin(angle)); + + Result.x = v.x * Cos - v.y * Sin; + Result.y = v.x * Sin + v.y * Cos; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> rotateX + ( + vec<4, T, Q> const& v, + T const& angle + ) + { + vec<4, T, Q> Result = v; + T const Cos(cos(angle)); + T const Sin(sin(angle)); + + Result.y = v.y * Cos - v.z * Sin; + Result.z = v.y * Sin + v.z * Cos; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> rotateY + ( + vec<4, T, Q> const& v, + T const& angle + ) + { + vec<4, T, Q> Result = v; + T const Cos(cos(angle)); + T const Sin(sin(angle)); + + Result.x = v.x * Cos + v.z * Sin; + Result.z = -v.x * Sin + v.z * Cos; + return Result; + } + + template + GLM_FUNC_QUALIFIER vec<4, T, Q> rotateZ + ( + vec<4, T, Q> const& v, + T const& angle + ) + { + vec<4, T, Q> Result = v; + T const Cos(cos(angle)); + T const Sin(sin(angle)); + + Result.x = v.x * Cos - v.y * Sin; + Result.y = v.x * Sin + v.y * Cos; + return Result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> orientation + ( + vec<3, T, Q> const& Normal, + vec<3, T, Q> const& Up + ) + { + if(all(equal(Normal, Up, epsilon()))) + return mat<4, 4, T, Q>(static_cast(1)); + + vec<3, T, Q> RotationAxis = cross(Up, Normal); + T Angle = acos(dot(Normal, Up)); + + return rotate(Angle, RotationAxis); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/scalar_multiplication.hpp b/Vulkan/ext/include/glm/gtx/scalar_multiplication.hpp new file mode 100644 index 0000000..496ba19 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/scalar_multiplication.hpp @@ -0,0 +1,75 @@ +/// @ref gtx +/// @file glm/gtx/scalar_multiplication.hpp +/// @author Joshua Moerman +/// +/// Include to use the features of this extension. +/// +/// Enables scalar multiplication for all types +/// +/// Since GLSL is very strict about types, the following (often used) combinations do not work: +/// double * vec4 +/// int * vec4 +/// vec4 / int +/// So we'll fix that! Of course "float * vec4" should remain the same (hence the enable_if magic) + +#pragma once + +#include "../detail/setup.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_scalar_multiplication is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_scalar_multiplication extension included") +# endif +#endif + +#include "../vec2.hpp" +#include "../vec3.hpp" +#include "../vec4.hpp" +#include "../mat2x2.hpp" +#include + +namespace glm +{ + template + using return_type_scalar_multiplication = typename std::enable_if< + !std::is_same::value // T may not be a float + && std::is_arithmetic::value, Vec // But it may be an int or double (no vec3 or mat3, ...) + >::type; + +#define GLM_IMPLEMENT_SCAL_MULT(Vec) \ + template \ + return_type_scalar_multiplication \ + operator*(T const& s, Vec rh){ \ + return rh *= static_cast(s); \ + } \ + \ + template \ + return_type_scalar_multiplication \ + operator*(Vec lh, T const& s){ \ + return lh *= static_cast(s); \ + } \ + \ + template \ + return_type_scalar_multiplication \ + operator/(Vec lh, T const& s){ \ + return lh *= 1.0f / static_cast(s); \ + } + +GLM_IMPLEMENT_SCAL_MULT(vec2) +GLM_IMPLEMENT_SCAL_MULT(vec3) +GLM_IMPLEMENT_SCAL_MULT(vec4) + +GLM_IMPLEMENT_SCAL_MULT(mat2) +GLM_IMPLEMENT_SCAL_MULT(mat2x3) +GLM_IMPLEMENT_SCAL_MULT(mat2x4) +GLM_IMPLEMENT_SCAL_MULT(mat3x2) +GLM_IMPLEMENT_SCAL_MULT(mat3) +GLM_IMPLEMENT_SCAL_MULT(mat3x4) +GLM_IMPLEMENT_SCAL_MULT(mat4x2) +GLM_IMPLEMENT_SCAL_MULT(mat4x3) +GLM_IMPLEMENT_SCAL_MULT(mat4) + +#undef GLM_IMPLEMENT_SCAL_MULT +} // namespace glm diff --git a/Vulkan/ext/include/glm/gtx/scalar_relational.hpp b/Vulkan/ext/include/glm/gtx/scalar_relational.hpp new file mode 100644 index 0000000..8be9c57 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/scalar_relational.hpp @@ -0,0 +1,36 @@ +/// @ref gtx_scalar_relational +/// @file glm/gtx/scalar_relational.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_scalar_relational GLM_GTX_scalar_relational +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Extend a position from a source to a position at a defined length. + +#pragma once + +// Dependency: +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_extend is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_extend extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_scalar_relational + /// @{ + + + + /// @} +}//namespace glm + +#include "scalar_relational.inl" diff --git a/Vulkan/ext/include/glm/gtx/scalar_relational.inl b/Vulkan/ext/include/glm/gtx/scalar_relational.inl new file mode 100644 index 0000000..c2a121c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/scalar_relational.inl @@ -0,0 +1,88 @@ +/// @ref gtx_scalar_relational + +namespace glm +{ + template + GLM_FUNC_QUALIFIER bool lessThan + ( + T const& x, + T const& y + ) + { + return x < y; + } + + template + GLM_FUNC_QUALIFIER bool lessThanEqual + ( + T const& x, + T const& y + ) + { + return x <= y; + } + + template + GLM_FUNC_QUALIFIER bool greaterThan + ( + T const& x, + T const& y + ) + { + return x > y; + } + + template + GLM_FUNC_QUALIFIER bool greaterThanEqual + ( + T const& x, + T const& y + ) + { + return x >= y; + } + + template + GLM_FUNC_QUALIFIER bool equal + ( + T const& x, + T const& y + ) + { + return detail::compute_equal::is_iec559>::call(x, y); + } + + template + GLM_FUNC_QUALIFIER bool notEqual + ( + T const& x, + T const& y + ) + { + return !detail::compute_equal::is_iec559>::call(x, y); + } + + GLM_FUNC_QUALIFIER bool any + ( + bool const& x + ) + { + return x; + } + + GLM_FUNC_QUALIFIER bool all + ( + bool const& x + ) + { + return x; + } + + GLM_FUNC_QUALIFIER bool not_ + ( + bool const& x + ) + { + return !x; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/spline.hpp b/Vulkan/ext/include/glm/gtx/spline.hpp new file mode 100644 index 0000000..731c979 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/spline.hpp @@ -0,0 +1,65 @@ +/// @ref gtx_spline +/// @file glm/gtx/spline.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_spline GLM_GTX_spline +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Spline functions + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtx/optimum_pow.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_spline is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_spline extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_spline + /// @{ + + /// Return a point from a catmull rom curve. + /// @see gtx_spline extension. + template + GLM_FUNC_DECL genType catmullRom( + genType const& v1, + genType const& v2, + genType const& v3, + genType const& v4, + typename genType::value_type const& s); + + /// Return a point from a hermite curve. + /// @see gtx_spline extension. + template + GLM_FUNC_DECL genType hermite( + genType const& v1, + genType const& t1, + genType const& v2, + genType const& t2, + typename genType::value_type const& s); + + /// Return a point from a cubic curve. + /// @see gtx_spline extension. + template + GLM_FUNC_DECL genType cubic( + genType const& v1, + genType const& v2, + genType const& v3, + genType const& v4, + typename genType::value_type const& s); + + /// @} +}//namespace glm + +#include "spline.inl" diff --git a/Vulkan/ext/include/glm/gtx/spline.inl b/Vulkan/ext/include/glm/gtx/spline.inl new file mode 100644 index 0000000..c3fd056 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/spline.inl @@ -0,0 +1,60 @@ +/// @ref gtx_spline + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType catmullRom + ( + genType const& v1, + genType const& v2, + genType const& v3, + genType const& v4, + typename genType::value_type const& s + ) + { + typename genType::value_type s2 = pow2(s); + typename genType::value_type s3 = pow3(s); + + typename genType::value_type f1 = -s3 + typename genType::value_type(2) * s2 - s; + typename genType::value_type f2 = typename genType::value_type(3) * s3 - typename genType::value_type(5) * s2 + typename genType::value_type(2); + typename genType::value_type f3 = typename genType::value_type(-3) * s3 + typename genType::value_type(4) * s2 + s; + typename genType::value_type f4 = s3 - s2; + + return (f1 * v1 + f2 * v2 + f3 * v3 + f4 * v4) / typename genType::value_type(2); + + } + + template + GLM_FUNC_QUALIFIER genType hermite + ( + genType const& v1, + genType const& t1, + genType const& v2, + genType const& t2, + typename genType::value_type const& s + ) + { + typename genType::value_type s2 = pow2(s); + typename genType::value_type s3 = pow3(s); + + typename genType::value_type f1 = typename genType::value_type(2) * s3 - typename genType::value_type(3) * s2 + typename genType::value_type(1); + typename genType::value_type f2 = typename genType::value_type(-2) * s3 + typename genType::value_type(3) * s2; + typename genType::value_type f3 = s3 - typename genType::value_type(2) * s2 + s; + typename genType::value_type f4 = s3 - s2; + + return f1 * v1 + f2 * v2 + f3 * t1 + f4 * t2; + } + + template + GLM_FUNC_QUALIFIER genType cubic + ( + genType const& v1, + genType const& v2, + genType const& v3, + genType const& v4, + typename genType::value_type const& s + ) + { + return ((v1 * s + v2) * s + v3) * s + v4; + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/std_based_type.hpp b/Vulkan/ext/include/glm/gtx/std_based_type.hpp new file mode 100644 index 0000000..cd3be8c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/std_based_type.hpp @@ -0,0 +1,68 @@ +/// @ref gtx_std_based_type +/// @file glm/gtx/std_based_type.hpp +/// +/// @see core (dependence) +/// @see gtx_extented_min_max (dependence) +/// +/// @defgroup gtx_std_based_type GLM_GTX_std_based_type +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Adds vector types based on STL value types. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_std_based_type is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_std_based_type extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_std_based_type + /// @{ + + /// Vector type based of one std::size_t component. + /// @see GLM_GTX_std_based_type + typedef vec<1, std::size_t, defaultp> size1; + + /// Vector type based of two std::size_t components. + /// @see GLM_GTX_std_based_type + typedef vec<2, std::size_t, defaultp> size2; + + /// Vector type based of three std::size_t components. + /// @see GLM_GTX_std_based_type + typedef vec<3, std::size_t, defaultp> size3; + + /// Vector type based of four std::size_t components. + /// @see GLM_GTX_std_based_type + typedef vec<4, std::size_t, defaultp> size4; + + /// Vector type based of one std::size_t component. + /// @see GLM_GTX_std_based_type + typedef vec<1, std::size_t, defaultp> size1_t; + + /// Vector type based of two std::size_t components. + /// @see GLM_GTX_std_based_type + typedef vec<2, std::size_t, defaultp> size2_t; + + /// Vector type based of three std::size_t components. + /// @see GLM_GTX_std_based_type + typedef vec<3, std::size_t, defaultp> size3_t; + + /// Vector type based of four std::size_t components. + /// @see GLM_GTX_std_based_type + typedef vec<4, std::size_t, defaultp> size4_t; + + /// @} +}//namespace glm + +#include "std_based_type.inl" diff --git a/Vulkan/ext/include/glm/gtx/std_based_type.inl b/Vulkan/ext/include/glm/gtx/std_based_type.inl new file mode 100644 index 0000000..9c34bdb --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/std_based_type.inl @@ -0,0 +1,6 @@ +/// @ref gtx_std_based_type + +namespace glm +{ + +} diff --git a/Vulkan/ext/include/glm/gtx/string_cast.hpp b/Vulkan/ext/include/glm/gtx/string_cast.hpp new file mode 100644 index 0000000..27846bf --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/string_cast.hpp @@ -0,0 +1,52 @@ +/// @ref gtx_string_cast +/// @file glm/gtx/string_cast.hpp +/// +/// @see core (dependence) +/// @see gtx_integer (dependence) +/// @see gtx_quaternion (dependence) +/// +/// @defgroup gtx_string_cast GLM_GTX_string_cast +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Setup strings for GLM type values +/// +/// This extension is not supported with CUDA + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/type_precision.hpp" +#include "../gtc/quaternion.hpp" +#include "../gtx/dual_quaternion.hpp" +#include +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_string_cast is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_string_cast extension included") +# endif +#endif + +#if(GLM_COMPILER & GLM_COMPILER_CUDA) +# error "GLM_GTX_string_cast is not supported on CUDA compiler" +#endif + +namespace glm +{ + /// @addtogroup gtx_string_cast + /// @{ + + /// Create a string from a GLM vector or matrix typed variable. + /// @see gtx_string_cast extension. + template + GLM_FUNC_DECL std::string to_string(genType const& x); + + /// @} +}//namespace glm + +#include "string_cast.inl" diff --git a/Vulkan/ext/include/glm/gtx/string_cast.inl b/Vulkan/ext/include/glm/gtx/string_cast.inl new file mode 100644 index 0000000..f67751d --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/string_cast.inl @@ -0,0 +1,492 @@ +/// @ref gtx_string_cast + +#include +#include + +namespace glm{ +namespace detail +{ + template + struct cast + { + typedef T value_type; + }; + + template <> + struct cast + { + typedef double value_type; + }; + + GLM_FUNC_QUALIFIER std::string format(const char* msg, ...) + { + std::size_t const STRING_BUFFER(4096); + char text[STRING_BUFFER]; + va_list list; + + if(msg == GLM_NULLPTR) + return std::string(); + + va_start(list, msg); +# if (GLM_COMPILER & GLM_COMPILER_VC) + vsprintf_s(text, STRING_BUFFER, msg, list); +# else// + std::vsprintf(text, msg, list); +# endif// + va_end(list); + + return std::string(text); + } + + static const char* LabelTrue = "true"; + static const char* LabelFalse = "false"; + + template + struct literal + { + GLM_FUNC_QUALIFIER static char const * value() {return "%d";} + }; + + template + struct literal + { + GLM_FUNC_QUALIFIER static char const * value() {return "%f";} + }; + +# if GLM_MODEL == GLM_MODEL_32 && GLM_COMPILER && GLM_COMPILER_VC + template<> + struct literal + { + GLM_FUNC_QUALIFIER static char const * value() {return "%lld";} + }; + + template<> + struct literal + { + GLM_FUNC_QUALIFIER static char const * value() {return "%lld";} + }; +# endif//GLM_MODEL == GLM_MODEL_32 && GLM_COMPILER && GLM_COMPILER_VC + + template + struct prefix{}; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "d";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "b";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "u8";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "i8";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "u16";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "i16";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "u";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "i";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "u64";} + }; + + template<> + struct prefix + { + GLM_FUNC_QUALIFIER static char const * value() {return "i64";} + }; + + template + struct compute_to_string + {}; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<1, bool, Q> const& x) + { + return detail::format("bvec1(%s)", + x[0] ? detail::LabelTrue : detail::LabelFalse); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<2, bool, Q> const& x) + { + return detail::format("bvec2(%s, %s)", + x[0] ? detail::LabelTrue : detail::LabelFalse, + x[1] ? detail::LabelTrue : detail::LabelFalse); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<3, bool, Q> const& x) + { + return detail::format("bvec3(%s, %s, %s)", + x[0] ? detail::LabelTrue : detail::LabelFalse, + x[1] ? detail::LabelTrue : detail::LabelFalse, + x[2] ? detail::LabelTrue : detail::LabelFalse); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<4, bool, Q> const& x) + { + return detail::format("bvec4(%s, %s, %s, %s)", + x[0] ? detail::LabelTrue : detail::LabelFalse, + x[1] ? detail::LabelTrue : detail::LabelFalse, + x[2] ? detail::LabelTrue : detail::LabelFalse, + x[3] ? detail::LabelTrue : detail::LabelFalse); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<1, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%svec1(%s)", + PrefixStr, + LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<2, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%svec2(%s, %s)", + PrefixStr, + LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0]), + static_cast::value_type>(x[1])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<3, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%svec3(%s, %s, %s)", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0]), + static_cast::value_type>(x[1]), + static_cast::value_type>(x[2])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(vec<4, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%svec4(%s, %s, %s, %s)", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0]), + static_cast::value_type>(x[1]), + static_cast::value_type>(x[2]), + static_cast::value_type>(x[3])); + } + }; + + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<2, 2, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat2x2((%s, %s), (%s, %s))", + PrefixStr, + LiteralStr, LiteralStr, + LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<2, 3, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat2x3((%s, %s, %s), (%s, %s, %s))", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), static_cast::value_type>(x[0][2]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), static_cast::value_type>(x[1][2])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<2, 4, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat2x4((%s, %s, %s, %s), (%s, %s, %s, %s))", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), static_cast::value_type>(x[0][2]), static_cast::value_type>(x[0][3]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), static_cast::value_type>(x[1][2]), static_cast::value_type>(x[1][3])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<3, 2, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat3x2((%s, %s), (%s, %s), (%s, %s))", + PrefixStr, + LiteralStr, LiteralStr, + LiteralStr, LiteralStr, + LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), + static_cast::value_type>(x[2][0]), static_cast::value_type>(x[2][1])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<3, 3, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat3x3((%s, %s, %s), (%s, %s, %s), (%s, %s, %s))", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), static_cast::value_type>(x[0][2]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), static_cast::value_type>(x[1][2]), + static_cast::value_type>(x[2][0]), static_cast::value_type>(x[2][1]), static_cast::value_type>(x[2][2])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<3, 4, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat3x4((%s, %s, %s, %s), (%s, %s, %s, %s), (%s, %s, %s, %s))", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), static_cast::value_type>(x[0][2]), static_cast::value_type>(x[0][3]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), static_cast::value_type>(x[1][2]), static_cast::value_type>(x[1][3]), + static_cast::value_type>(x[2][0]), static_cast::value_type>(x[2][1]), static_cast::value_type>(x[2][2]), static_cast::value_type>(x[2][3])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<4, 2, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat4x2((%s, %s), (%s, %s), (%s, %s), (%s, %s))", + PrefixStr, + LiteralStr, LiteralStr, + LiteralStr, LiteralStr, + LiteralStr, LiteralStr, + LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), + static_cast::value_type>(x[2][0]), static_cast::value_type>(x[2][1]), + static_cast::value_type>(x[3][0]), static_cast::value_type>(x[3][1])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<4, 3, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat4x3((%s, %s, %s), (%s, %s, %s), (%s, %s, %s), (%s, %s, %s))", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), static_cast::value_type>(x[0][2]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), static_cast::value_type>(x[1][2]), + static_cast::value_type>(x[2][0]), static_cast::value_type>(x[2][1]), static_cast::value_type>(x[2][2]), + static_cast::value_type>(x[3][0]), static_cast::value_type>(x[3][1]), static_cast::value_type>(x[3][2])); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(mat<4, 4, T, Q> const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%smat4x4((%s, %s, %s, %s), (%s, %s, %s, %s), (%s, %s, %s, %s), (%s, %s, %s, %s))", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x[0][0]), static_cast::value_type>(x[0][1]), static_cast::value_type>(x[0][2]), static_cast::value_type>(x[0][3]), + static_cast::value_type>(x[1][0]), static_cast::value_type>(x[1][1]), static_cast::value_type>(x[1][2]), static_cast::value_type>(x[1][3]), + static_cast::value_type>(x[2][0]), static_cast::value_type>(x[2][1]), static_cast::value_type>(x[2][2]), static_cast::value_type>(x[2][3]), + static_cast::value_type>(x[3][0]), static_cast::value_type>(x[3][1]), static_cast::value_type>(x[3][2]), static_cast::value_type>(x[3][3])); + } + }; + + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(qua const& q) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%squat(%s, {%s, %s, %s})", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(q.w), + static_cast::value_type>(q.x), + static_cast::value_type>(q.y), + static_cast::value_type>(q.z)); + } + }; + + template + struct compute_to_string > + { + GLM_FUNC_QUALIFIER static std::string call(tdualquat const& x) + { + char const * PrefixStr = prefix::value(); + char const * LiteralStr = literal::is_iec559>::value(); + std::string FormatStr(detail::format("%sdualquat((%s, {%s, %s, %s}), (%s, {%s, %s, %s}))", + PrefixStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr, + LiteralStr, LiteralStr, LiteralStr, LiteralStr)); + + return detail::format(FormatStr.c_str(), + static_cast::value_type>(x.real.w), + static_cast::value_type>(x.real.x), + static_cast::value_type>(x.real.y), + static_cast::value_type>(x.real.z), + static_cast::value_type>(x.dual.w), + static_cast::value_type>(x.dual.x), + static_cast::value_type>(x.dual.y), + static_cast::value_type>(x.dual.z)); + } + }; + +}//namespace detail + +template +GLM_FUNC_QUALIFIER std::string to_string(matType const& x) +{ + return detail::compute_to_string::call(x); +} + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/texture.hpp b/Vulkan/ext/include/glm/gtx/texture.hpp new file mode 100644 index 0000000..20585e6 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/texture.hpp @@ -0,0 +1,46 @@ +/// @ref gtx_texture +/// @file glm/gtx/texture.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_texture GLM_GTX_texture +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Wrapping mode of texture coordinates. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/integer.hpp" +#include "../gtx/component_wise.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_texture is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_texture extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_texture + /// @{ + + /// Compute the number of mipmaps levels necessary to create a mipmap complete texture + /// + /// @param Extent Extent of the texture base level mipmap + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point or signed integer scalar types + /// @tparam Q Value from qualifier enum + template + T levels(vec const& Extent); + + /// @} +}// namespace glm + +#include "texture.inl" + diff --git a/Vulkan/ext/include/glm/gtx/texture.inl b/Vulkan/ext/include/glm/gtx/texture.inl new file mode 100644 index 0000000..593c826 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/texture.inl @@ -0,0 +1,17 @@ +/// @ref gtx_texture + +namespace glm +{ + template + inline T levels(vec const& Extent) + { + return glm::log2(compMax(Extent)) + static_cast(1); + } + + template + inline T levels(T Extent) + { + return vec<1, T, defaultp>(Extent).x; + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/gtx/transform.hpp b/Vulkan/ext/include/glm/gtx/transform.hpp new file mode 100644 index 0000000..0279fc8 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/transform.hpp @@ -0,0 +1,60 @@ +/// @ref gtx_transform +/// @file glm/gtx/transform.hpp +/// +/// @see core (dependence) +/// @see gtc_matrix_transform (dependence) +/// @see gtx_transform +/// @see gtx_transform2 +/// +/// @defgroup gtx_transform GLM_GTX_transform +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Add transformation matrices + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/matrix_transform.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_transform is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_transform extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_transform + /// @{ + + /// Transforms a matrix with a translation 4 * 4 matrix created from 3 scalars. + /// @see gtc_matrix_transform + /// @see gtx_transform + template + GLM_FUNC_DECL mat<4, 4, T, Q> translate( + vec<3, T, Q> const& v); + + /// Builds a rotation 4 * 4 matrix created from an axis of 3 scalars and an angle expressed in radians. + /// @see gtc_matrix_transform + /// @see gtx_transform + template + GLM_FUNC_DECL mat<4, 4, T, Q> rotate( + T angle, + vec<3, T, Q> const& v); + + /// Transforms a matrix with a scale 4 * 4 matrix created from a vector of 3 components. + /// @see gtc_matrix_transform + /// @see gtx_transform + template + GLM_FUNC_DECL mat<4, 4, T, Q> scale( + vec<3, T, Q> const& v); + + /// @} +}// namespace glm + +#include "transform.inl" diff --git a/Vulkan/ext/include/glm/gtx/transform.inl b/Vulkan/ext/include/glm/gtx/transform.inl new file mode 100644 index 0000000..48ee680 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/transform.inl @@ -0,0 +1,23 @@ +/// @ref gtx_transform + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> translate(vec<3, T, Q> const& v) + { + return translate(mat<4, 4, T, Q>(static_cast(1)), v); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> rotate(T angle, vec<3, T, Q> const& v) + { + return rotate(mat<4, 4, T, Q>(static_cast(1)), angle, v); + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> scale(vec<3, T, Q> const& v) + { + return scale(mat<4, 4, T, Q>(static_cast(1)), v); + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/transform2.hpp b/Vulkan/ext/include/glm/gtx/transform2.hpp new file mode 100644 index 0000000..0d8ba9d --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/transform2.hpp @@ -0,0 +1,89 @@ +/// @ref gtx_transform2 +/// @file glm/gtx/transform2.hpp +/// +/// @see core (dependence) +/// @see gtx_transform (dependence) +/// +/// @defgroup gtx_transform2 GLM_GTX_transform2 +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Add extra transformation matrices + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtx/transform.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_transform2 is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_transform2 extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_transform2 + /// @{ + + //! Transforms a matrix with a shearing on X axis. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> shearX2D(mat<3, 3, T, Q> const& m, T y); + + //! Transforms a matrix with a shearing on Y axis. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> shearY2D(mat<3, 3, T, Q> const& m, T x); + + //! Transforms a matrix with a shearing on X axis + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> shearX3D(mat<4, 4, T, Q> const& m, T y, T z); + + //! Transforms a matrix with a shearing on Y axis. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> shearY3D(mat<4, 4, T, Q> const& m, T x, T z); + + //! Transforms a matrix with a shearing on Z axis. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> shearZ3D(mat<4, 4, T, Q> const& m, T x, T y); + + //template GLM_FUNC_QUALIFIER mat<4, 4, T, Q> shear(const mat<4, 4, T, Q> & m, shearPlane, planePoint, angle) + // Identity + tan(angle) * cross(Normal, OnPlaneVector) 0 + // - dot(PointOnPlane, normal) * OnPlaneVector 1 + + // Reflect functions seem to don't work + //template mat<3, 3, T, Q> reflect2D(const mat<3, 3, T, Q> & m, const vec<3, T, Q>& normal){return reflect2DGTX(m, normal);} //!< \brief Build a reflection matrix (from GLM_GTX_transform2 extension) + //template mat<4, 4, T, Q> reflect3D(const mat<4, 4, T, Q> & m, const vec<3, T, Q>& normal){return reflect3DGTX(m, normal);} //!< \brief Build a reflection matrix (from GLM_GTX_transform2 extension) + + //! Build planar projection matrix along normal axis. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<3, 3, T, Q> proj2D(mat<3, 3, T, Q> const& m, vec<3, T, Q> const& normal); + + //! Build planar projection matrix along normal axis. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> proj3D(mat<4, 4, T, Q> const & m, vec<3, T, Q> const& normal); + + //! Build a scale bias matrix. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> scaleBias(T scale, T bias); + + //! Build a scale bias matrix. + //! From GLM_GTX_transform2 extension. + template + GLM_FUNC_DECL mat<4, 4, T, Q> scaleBias(mat<4, 4, T, Q> const& m, T scale, T bias); + + /// @} +}// namespace glm + +#include "transform2.inl" diff --git a/Vulkan/ext/include/glm/gtx/transform2.inl b/Vulkan/ext/include/glm/gtx/transform2.inl new file mode 100644 index 0000000..2b53198 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/transform2.inl @@ -0,0 +1,125 @@ +/// @ref gtx_transform2 + +namespace glm +{ + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> shearX2D(mat<3, 3, T, Q> const& m, T s) + { + mat<3, 3, T, Q> r(1); + r[1][0] = s; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> shearY2D(mat<3, 3, T, Q> const& m, T s) + { + mat<3, 3, T, Q> r(1); + r[0][1] = s; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> shearX3D(mat<4, 4, T, Q> const& m, T s, T t) + { + mat<4, 4, T, Q> r(1); + r[0][1] = s; + r[0][2] = t; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> shearY3D(mat<4, 4, T, Q> const& m, T s, T t) + { + mat<4, 4, T, Q> r(1); + r[1][0] = s; + r[1][2] = t; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> shearZ3D(mat<4, 4, T, Q> const& m, T s, T t) + { + mat<4, 4, T, Q> r(1); + r[2][0] = s; + r[2][1] = t; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> reflect2D(mat<3, 3, T, Q> const& m, vec<3, T, Q> const& normal) + { + mat<3, 3, T, Q> r(static_cast(1)); + r[0][0] = static_cast(1) - static_cast(2) * normal.x * normal.x; + r[0][1] = -static_cast(2) * normal.x * normal.y; + r[1][0] = -static_cast(2) * normal.x * normal.y; + r[1][1] = static_cast(1) - static_cast(2) * normal.y * normal.y; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> reflect3D(mat<4, 4, T, Q> const& m, vec<3, T, Q> const& normal) + { + mat<4, 4, T, Q> r(static_cast(1)); + r[0][0] = static_cast(1) - static_cast(2) * normal.x * normal.x; + r[0][1] = -static_cast(2) * normal.x * normal.y; + r[0][2] = -static_cast(2) * normal.x * normal.z; + + r[1][0] = -static_cast(2) * normal.x * normal.y; + r[1][1] = static_cast(1) - static_cast(2) * normal.y * normal.y; + r[1][2] = -static_cast(2) * normal.y * normal.z; + + r[2][0] = -static_cast(2) * normal.x * normal.z; + r[2][1] = -static_cast(2) * normal.y * normal.z; + r[2][2] = static_cast(1) - static_cast(2) * normal.z * normal.z; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<3, 3, T, Q> proj2D( + const mat<3, 3, T, Q>& m, + const vec<3, T, Q>& normal) + { + mat<3, 3, T, Q> r(static_cast(1)); + r[0][0] = static_cast(1) - normal.x * normal.x; + r[0][1] = - normal.x * normal.y; + r[1][0] = - normal.x * normal.y; + r[1][1] = static_cast(1) - normal.y * normal.y; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> proj3D( + const mat<4, 4, T, Q>& m, + const vec<3, T, Q>& normal) + { + mat<4, 4, T, Q> r(static_cast(1)); + r[0][0] = static_cast(1) - normal.x * normal.x; + r[0][1] = - normal.x * normal.y; + r[0][2] = - normal.x * normal.z; + r[1][0] = - normal.x * normal.y; + r[1][1] = static_cast(1) - normal.y * normal.y; + r[1][2] = - normal.y * normal.z; + r[2][0] = - normal.x * normal.z; + r[2][1] = - normal.y * normal.z; + r[2][2] = static_cast(1) - normal.z * normal.z; + return m * r; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> scaleBias(T scale, T bias) + { + mat<4, 4, T, Q> result; + result[3] = vec<4, T, Q>(vec<3, T, Q>(bias), static_cast(1)); + result[0][0] = scale; + result[1][1] = scale; + result[2][2] = scale; + return result; + } + + template + GLM_FUNC_QUALIFIER mat<4, 4, T, Q> scaleBias(mat<4, 4, T, Q> const& m, T scale, T bias) + { + return m * scaleBias(scale, bias); + } +}//namespace glm + diff --git a/Vulkan/ext/include/glm/gtx/type_aligned.hpp b/Vulkan/ext/include/glm/gtx/type_aligned.hpp new file mode 100644 index 0000000..2ae522c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/type_aligned.hpp @@ -0,0 +1,982 @@ +/// @ref gtx_type_aligned +/// @file glm/gtx/type_aligned.hpp +/// +/// @see core (dependence) +/// @see gtc_quaternion (dependence) +/// +/// @defgroup gtx_type_aligned GLM_GTX_type_aligned +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Defines aligned types. + +#pragma once + +// Dependency: +#include "../gtc/type_precision.hpp" +#include "../gtc/quaternion.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_type_aligned is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_type_aligned extension included") +# endif +#endif + +namespace glm +{ + /////////////////////////// + // Signed int vector types + + /// @addtogroup gtx_type_aligned + /// @{ + + /// Low qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int8, aligned_lowp_int8, 1); + + /// Low qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int16, aligned_lowp_int16, 2); + + /// Low qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int32, aligned_lowp_int32, 4); + + /// Low qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int64, aligned_lowp_int64, 8); + + + /// Low qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int8_t, aligned_lowp_int8_t, 1); + + /// Low qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int16_t, aligned_lowp_int16_t, 2); + + /// Low qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int32_t, aligned_lowp_int32_t, 4); + + /// Low qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_int64_t, aligned_lowp_int64_t, 8); + + + /// Low qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_i8, aligned_lowp_i8, 1); + + /// Low qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_i16, aligned_lowp_i16, 2); + + /// Low qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_i32, aligned_lowp_i32, 4); + + /// Low qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_i64, aligned_lowp_i64, 8); + + + /// Medium qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int8, aligned_mediump_int8, 1); + + /// Medium qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int16, aligned_mediump_int16, 2); + + /// Medium qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int32, aligned_mediump_int32, 4); + + /// Medium qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int64, aligned_mediump_int64, 8); + + + /// Medium qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int8_t, aligned_mediump_int8_t, 1); + + /// Medium qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int16_t, aligned_mediump_int16_t, 2); + + /// Medium qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int32_t, aligned_mediump_int32_t, 4); + + /// Medium qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_int64_t, aligned_mediump_int64_t, 8); + + + /// Medium qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_i8, aligned_mediump_i8, 1); + + /// Medium qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_i16, aligned_mediump_i16, 2); + + /// Medium qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_i32, aligned_mediump_i32, 4); + + /// Medium qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_i64, aligned_mediump_i64, 8); + + + /// High qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int8, aligned_highp_int8, 1); + + /// High qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int16, aligned_highp_int16, 2); + + /// High qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int32, aligned_highp_int32, 4); + + /// High qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int64, aligned_highp_int64, 8); + + + /// High qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int8_t, aligned_highp_int8_t, 1); + + /// High qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int16_t, aligned_highp_int16_t, 2); + + /// High qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int32_t, aligned_highp_int32_t, 4); + + /// High qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_int64_t, aligned_highp_int64_t, 8); + + + /// High qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_i8, aligned_highp_i8, 1); + + /// High qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_i16, aligned_highp_i16, 2); + + /// High qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_i32, aligned_highp_i32, 4); + + /// High qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_i64, aligned_highp_i64, 8); + + + /// Default qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int8, aligned_int8, 1); + + /// Default qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int16, aligned_int16, 2); + + /// Default qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int32, aligned_int32, 4); + + /// Default qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int64, aligned_int64, 8); + + + /// Default qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int8_t, aligned_int8_t, 1); + + /// Default qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int16_t, aligned_int16_t, 2); + + /// Default qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int32_t, aligned_int32_t, 4); + + /// Default qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(int64_t, aligned_int64_t, 8); + + + /// Default qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i8, aligned_i8, 1); + + /// Default qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i16, aligned_i16, 2); + + /// Default qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i32, aligned_i32, 4); + + /// Default qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i64, aligned_i64, 8); + + + /// Default qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(ivec1, aligned_ivec1, 4); + + /// Default qualifier 32 bit signed integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(ivec2, aligned_ivec2, 8); + + /// Default qualifier 32 bit signed integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(ivec3, aligned_ivec3, 16); + + /// Default qualifier 32 bit signed integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(ivec4, aligned_ivec4, 16); + + + /// Default qualifier 8 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i8vec1, aligned_i8vec1, 1); + + /// Default qualifier 8 bit signed integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i8vec2, aligned_i8vec2, 2); + + /// Default qualifier 8 bit signed integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i8vec3, aligned_i8vec3, 4); + + /// Default qualifier 8 bit signed integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i8vec4, aligned_i8vec4, 4); + + + /// Default qualifier 16 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i16vec1, aligned_i16vec1, 2); + + /// Default qualifier 16 bit signed integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i16vec2, aligned_i16vec2, 4); + + /// Default qualifier 16 bit signed integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i16vec3, aligned_i16vec3, 8); + + /// Default qualifier 16 bit signed integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i16vec4, aligned_i16vec4, 8); + + + /// Default qualifier 32 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i32vec1, aligned_i32vec1, 4); + + /// Default qualifier 32 bit signed integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i32vec2, aligned_i32vec2, 8); + + /// Default qualifier 32 bit signed integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i32vec3, aligned_i32vec3, 16); + + /// Default qualifier 32 bit signed integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i32vec4, aligned_i32vec4, 16); + + + /// Default qualifier 64 bit signed integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i64vec1, aligned_i64vec1, 8); + + /// Default qualifier 64 bit signed integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i64vec2, aligned_i64vec2, 16); + + /// Default qualifier 64 bit signed integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i64vec3, aligned_i64vec3, 32); + + /// Default qualifier 64 bit signed integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(i64vec4, aligned_i64vec4, 32); + + + ///////////////////////////// + // Unsigned int vector types + + /// Low qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint8, aligned_lowp_uint8, 1); + + /// Low qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint16, aligned_lowp_uint16, 2); + + /// Low qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint32, aligned_lowp_uint32, 4); + + /// Low qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint64, aligned_lowp_uint64, 8); + + + /// Low qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint8_t, aligned_lowp_uint8_t, 1); + + /// Low qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint16_t, aligned_lowp_uint16_t, 2); + + /// Low qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint32_t, aligned_lowp_uint32_t, 4); + + /// Low qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_uint64_t, aligned_lowp_uint64_t, 8); + + + /// Low qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_u8, aligned_lowp_u8, 1); + + /// Low qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_u16, aligned_lowp_u16, 2); + + /// Low qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_u32, aligned_lowp_u32, 4); + + /// Low qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(lowp_u64, aligned_lowp_u64, 8); + + + /// Medium qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint8, aligned_mediump_uint8, 1); + + /// Medium qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint16, aligned_mediump_uint16, 2); + + /// Medium qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint32, aligned_mediump_uint32, 4); + + /// Medium qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint64, aligned_mediump_uint64, 8); + + + /// Medium qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint8_t, aligned_mediump_uint8_t, 1); + + /// Medium qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint16_t, aligned_mediump_uint16_t, 2); + + /// Medium qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint32_t, aligned_mediump_uint32_t, 4); + + /// Medium qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_uint64_t, aligned_mediump_uint64_t, 8); + + + /// Medium qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_u8, aligned_mediump_u8, 1); + + /// Medium qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_u16, aligned_mediump_u16, 2); + + /// Medium qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_u32, aligned_mediump_u32, 4); + + /// Medium qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mediump_u64, aligned_mediump_u64, 8); + + + /// High qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint8, aligned_highp_uint8, 1); + + /// High qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint16, aligned_highp_uint16, 2); + + /// High qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint32, aligned_highp_uint32, 4); + + /// High qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint64, aligned_highp_uint64, 8); + + + /// High qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint8_t, aligned_highp_uint8_t, 1); + + /// High qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint16_t, aligned_highp_uint16_t, 2); + + /// High qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint32_t, aligned_highp_uint32_t, 4); + + /// High qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_uint64_t, aligned_highp_uint64_t, 8); + + + /// High qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_u8, aligned_highp_u8, 1); + + /// High qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_u16, aligned_highp_u16, 2); + + /// High qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_u32, aligned_highp_u32, 4); + + /// High qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(highp_u64, aligned_highp_u64, 8); + + + /// Default qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint8, aligned_uint8, 1); + + /// Default qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint16, aligned_uint16, 2); + + /// Default qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint32, aligned_uint32, 4); + + /// Default qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint64, aligned_uint64, 8); + + + /// Default qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint8_t, aligned_uint8_t, 1); + + /// Default qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint16_t, aligned_uint16_t, 2); + + /// Default qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint32_t, aligned_uint32_t, 4); + + /// Default qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uint64_t, aligned_uint64_t, 8); + + + /// Default qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u8, aligned_u8, 1); + + /// Default qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u16, aligned_u16, 2); + + /// Default qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u32, aligned_u32, 4); + + /// Default qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u64, aligned_u64, 8); + + + /// Default qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uvec1, aligned_uvec1, 4); + + /// Default qualifier 32 bit unsigned integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uvec2, aligned_uvec2, 8); + + /// Default qualifier 32 bit unsigned integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uvec3, aligned_uvec3, 16); + + /// Default qualifier 32 bit unsigned integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(uvec4, aligned_uvec4, 16); + + + /// Default qualifier 8 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u8vec1, aligned_u8vec1, 1); + + /// Default qualifier 8 bit unsigned integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u8vec2, aligned_u8vec2, 2); + + /// Default qualifier 8 bit unsigned integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u8vec3, aligned_u8vec3, 4); + + /// Default qualifier 8 bit unsigned integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u8vec4, aligned_u8vec4, 4); + + + /// Default qualifier 16 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u16vec1, aligned_u16vec1, 2); + + /// Default qualifier 16 bit unsigned integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u16vec2, aligned_u16vec2, 4); + + /// Default qualifier 16 bit unsigned integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u16vec3, aligned_u16vec3, 8); + + /// Default qualifier 16 bit unsigned integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u16vec4, aligned_u16vec4, 8); + + + /// Default qualifier 32 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u32vec1, aligned_u32vec1, 4); + + /// Default qualifier 32 bit unsigned integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u32vec2, aligned_u32vec2, 8); + + /// Default qualifier 32 bit unsigned integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u32vec3, aligned_u32vec3, 16); + + /// Default qualifier 32 bit unsigned integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u32vec4, aligned_u32vec4, 16); + + + /// Default qualifier 64 bit unsigned integer aligned scalar type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u64vec1, aligned_u64vec1, 8); + + /// Default qualifier 64 bit unsigned integer aligned vector of 2 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u64vec2, aligned_u64vec2, 16); + + /// Default qualifier 64 bit unsigned integer aligned vector of 3 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u64vec3, aligned_u64vec3, 32); + + /// Default qualifier 64 bit unsigned integer aligned vector of 4 components type. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(u64vec4, aligned_u64vec4, 32); + + + ////////////////////// + // Float vector types + + /// 32 bit single-qualifier floating-point aligned scalar. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(float32, aligned_float32, 4); + + /// 32 bit single-qualifier floating-point aligned scalar. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(float32_t, aligned_float32_t, 4); + + /// 32 bit single-qualifier floating-point aligned scalar. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(float32, aligned_f32, 4); + +# ifndef GLM_FORCE_SINGLE_ONLY + + /// 64 bit double-qualifier floating-point aligned scalar. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(float64, aligned_float64, 8); + + /// 64 bit double-qualifier floating-point aligned scalar. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(float64_t, aligned_float64_t, 8); + + /// 64 bit double-qualifier floating-point aligned scalar. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(float64, aligned_f64, 8); + +# endif//GLM_FORCE_SINGLE_ONLY + + + /// Single-qualifier floating-point aligned vector of 1 component. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(vec1, aligned_vec1, 4); + + /// Single-qualifier floating-point aligned vector of 2 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(vec2, aligned_vec2, 8); + + /// Single-qualifier floating-point aligned vector of 3 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(vec3, aligned_vec3, 16); + + /// Single-qualifier floating-point aligned vector of 4 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(vec4, aligned_vec4, 16); + + + /// Single-qualifier floating-point aligned vector of 1 component. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fvec1, aligned_fvec1, 4); + + /// Single-qualifier floating-point aligned vector of 2 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fvec2, aligned_fvec2, 8); + + /// Single-qualifier floating-point aligned vector of 3 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fvec3, aligned_fvec3, 16); + + /// Single-qualifier floating-point aligned vector of 4 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fvec4, aligned_fvec4, 16); + + + /// Single-qualifier floating-point aligned vector of 1 component. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32vec1, aligned_f32vec1, 4); + + /// Single-qualifier floating-point aligned vector of 2 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32vec2, aligned_f32vec2, 8); + + /// Single-qualifier floating-point aligned vector of 3 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32vec3, aligned_f32vec3, 16); + + /// Single-qualifier floating-point aligned vector of 4 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32vec4, aligned_f32vec4, 16); + + + /// Double-qualifier floating-point aligned vector of 1 component. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(dvec1, aligned_dvec1, 8); + + /// Double-qualifier floating-point aligned vector of 2 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(dvec2, aligned_dvec2, 16); + + /// Double-qualifier floating-point aligned vector of 3 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(dvec3, aligned_dvec3, 32); + + /// Double-qualifier floating-point aligned vector of 4 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(dvec4, aligned_dvec4, 32); + + +# ifndef GLM_FORCE_SINGLE_ONLY + + /// Double-qualifier floating-point aligned vector of 1 component. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64vec1, aligned_f64vec1, 8); + + /// Double-qualifier floating-point aligned vector of 2 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64vec2, aligned_f64vec2, 16); + + /// Double-qualifier floating-point aligned vector of 3 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64vec3, aligned_f64vec3, 32); + + /// Double-qualifier floating-point aligned vector of 4 components. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64vec4, aligned_f64vec4, 32); + +# endif//GLM_FORCE_SINGLE_ONLY + + ////////////////////// + // Float matrix types + + /// Single-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef detail::tmat1 mat1; + + /// Single-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mat2, aligned_mat2, 16); + + /// Single-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mat3, aligned_mat3, 16); + + /// Single-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mat4, aligned_mat4, 16); + + + /// Single-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef detail::tmat1x1 mat1; + + /// Single-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mat2x2, aligned_mat2x2, 16); + + /// Single-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mat3x3, aligned_mat3x3, 16); + + /// Single-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(mat4x4, aligned_mat4x4, 16); + + + /// Single-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef detail::tmat1x1 fmat1; + + /// Single-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat2x2, aligned_fmat2, 16); + + /// Single-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat3x3, aligned_fmat3, 16); + + /// Single-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat4x4, aligned_fmat4, 16); + + + /// Single-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef f32 fmat1x1; + + /// Single-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat2x2, aligned_fmat2x2, 16); + + /// Single-qualifier floating-point aligned 2x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat2x3, aligned_fmat2x3, 16); + + /// Single-qualifier floating-point aligned 2x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat2x4, aligned_fmat2x4, 16); + + /// Single-qualifier floating-point aligned 3x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat3x2, aligned_fmat3x2, 16); + + /// Single-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat3x3, aligned_fmat3x3, 16); + + /// Single-qualifier floating-point aligned 3x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat3x4, aligned_fmat3x4, 16); + + /// Single-qualifier floating-point aligned 4x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat4x2, aligned_fmat4x2, 16); + + /// Single-qualifier floating-point aligned 4x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat4x3, aligned_fmat4x3, 16); + + /// Single-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(fmat4x4, aligned_fmat4x4, 16); + + + /// Single-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef detail::tmat1x1 f32mat1; + + /// Single-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat2x2, aligned_f32mat2, 16); + + /// Single-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat3x3, aligned_f32mat3, 16); + + /// Single-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat4x4, aligned_f32mat4, 16); + + + /// Single-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef f32 f32mat1x1; + + /// Single-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat2x2, aligned_f32mat2x2, 16); + + /// Single-qualifier floating-point aligned 2x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat2x3, aligned_f32mat2x3, 16); + + /// Single-qualifier floating-point aligned 2x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat2x4, aligned_f32mat2x4, 16); + + /// Single-qualifier floating-point aligned 3x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat3x2, aligned_f32mat3x2, 16); + + /// Single-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat3x3, aligned_f32mat3x3, 16); + + /// Single-qualifier floating-point aligned 3x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat3x4, aligned_f32mat3x4, 16); + + /// Single-qualifier floating-point aligned 4x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat4x2, aligned_f32mat4x2, 16); + + /// Single-qualifier floating-point aligned 4x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat4x3, aligned_f32mat4x3, 16); + + /// Single-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32mat4x4, aligned_f32mat4x4, 16); + + +# ifndef GLM_FORCE_SINGLE_ONLY + + /// Double-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef detail::tmat1x1 f64mat1; + + /// Double-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat2x2, aligned_f64mat2, 32); + + /// Double-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat3x3, aligned_f64mat3, 32); + + /// Double-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat4x4, aligned_f64mat4, 32); + + + /// Double-qualifier floating-point aligned 1x1 matrix. + /// @see gtx_type_aligned + //typedef f64 f64mat1x1; + + /// Double-qualifier floating-point aligned 2x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat2x2, aligned_f64mat2x2, 32); + + /// Double-qualifier floating-point aligned 2x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat2x3, aligned_f64mat2x3, 32); + + /// Double-qualifier floating-point aligned 2x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat2x4, aligned_f64mat2x4, 32); + + /// Double-qualifier floating-point aligned 3x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat3x2, aligned_f64mat3x2, 32); + + /// Double-qualifier floating-point aligned 3x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat3x3, aligned_f64mat3x3, 32); + + /// Double-qualifier floating-point aligned 3x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat3x4, aligned_f64mat3x4, 32); + + /// Double-qualifier floating-point aligned 4x2 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat4x2, aligned_f64mat4x2, 32); + + /// Double-qualifier floating-point aligned 4x3 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat4x3, aligned_f64mat4x3, 32); + + /// Double-qualifier floating-point aligned 4x4 matrix. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64mat4x4, aligned_f64mat4x4, 32); + +# endif//GLM_FORCE_SINGLE_ONLY + + + ////////////////////////// + // Quaternion types + + /// Single-qualifier floating-point aligned quaternion. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(quat, aligned_quat, 16); + + /// Single-qualifier floating-point aligned quaternion. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(quat, aligned_fquat, 16); + + /// Double-qualifier floating-point aligned quaternion. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(dquat, aligned_dquat, 32); + + /// Single-qualifier floating-point aligned quaternion. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f32quat, aligned_f32quat, 16); + +# ifndef GLM_FORCE_SINGLE_ONLY + + /// Double-qualifier floating-point aligned quaternion. + /// @see gtx_type_aligned + GLM_ALIGNED_TYPEDEF(f64quat, aligned_f64quat, 32); + +# endif//GLM_FORCE_SINGLE_ONLY + + /// @} +}//namespace glm + +#include "type_aligned.inl" diff --git a/Vulkan/ext/include/glm/gtx/type_aligned.inl b/Vulkan/ext/include/glm/gtx/type_aligned.inl new file mode 100644 index 0000000..54c1b81 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/type_aligned.inl @@ -0,0 +1,6 @@ +/// @ref gtc_type_aligned + +namespace glm +{ + +} diff --git a/Vulkan/ext/include/glm/gtx/type_trait.hpp b/Vulkan/ext/include/glm/gtx/type_trait.hpp new file mode 100644 index 0000000..56685c8 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/type_trait.hpp @@ -0,0 +1,85 @@ +/// @ref gtx_type_trait +/// @file glm/gtx/type_trait.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_type_trait GLM_GTX_type_trait +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Defines traits for each type. + +#pragma once + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_type_trait is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_type_trait extension included") +# endif +#endif + +// Dependency: +#include "../detail/qualifier.hpp" +#include "../gtc/quaternion.hpp" +#include "../gtx/dual_quaternion.hpp" + +namespace glm +{ + /// @addtogroup gtx_type_trait + /// @{ + + template + struct type + { + static bool const is_vec = false; + static bool const is_mat = false; + static bool const is_quat = false; + static length_t const components = 0; + static length_t const cols = 0; + static length_t const rows = 0; + }; + + template + struct type > + { + static bool const is_vec = true; + static bool const is_mat = false; + static bool const is_quat = false; + static length_t const components = L; + }; + + template + struct type > + { + static bool const is_vec = false; + static bool const is_mat = true; + static bool const is_quat = false; + static length_t const components = C; + static length_t const cols = C; + static length_t const rows = R; + }; + + template + struct type > + { + static bool const is_vec = false; + static bool const is_mat = false; + static bool const is_quat = true; + static length_t const components = 4; + }; + + template + struct type > + { + static bool const is_vec = false; + static bool const is_mat = false; + static bool const is_quat = true; + static length_t const components = 8; + }; + + /// @} +}//namespace glm + +#include "type_trait.inl" diff --git a/Vulkan/ext/include/glm/gtx/type_trait.inl b/Vulkan/ext/include/glm/gtx/type_trait.inl new file mode 100644 index 0000000..045de95 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/type_trait.inl @@ -0,0 +1,61 @@ +/// @ref gtx_type_trait + +namespace glm +{ + template + bool const type::is_vec; + template + bool const type::is_mat; + template + bool const type::is_quat; + template + length_t const type::components; + template + length_t const type::cols; + template + length_t const type::rows; + + // vec + template + bool const type >::is_vec; + template + bool const type >::is_mat; + template + bool const type >::is_quat; + template + length_t const type >::components; + + // mat + template + bool const type >::is_vec; + template + bool const type >::is_mat; + template + bool const type >::is_quat; + template + length_t const type >::components; + template + length_t const type >::cols; + template + length_t const type >::rows; + + // tquat + template + bool const type >::is_vec; + template + bool const type >::is_mat; + template + bool const type >::is_quat; + template + length_t const type >::components; + + // tdualquat + template + bool const type >::is_vec; + template + bool const type >::is_mat; + template + bool const type >::is_quat; + template + length_t const type >::components; +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/vec_swizzle.hpp b/Vulkan/ext/include/glm/gtx/vec_swizzle.hpp new file mode 100644 index 0000000..1c49abc --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/vec_swizzle.hpp @@ -0,0 +1,2782 @@ +/// @ref gtx_vec_swizzle +/// @file glm/gtx/vec_swizzle.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_vec_swizzle GLM_GTX_vec_swizzle +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Functions to perform swizzle operation. + +#pragma once + +#include "../glm.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_vec_swizzle is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_vec_swizzle extension included") +# endif +#endif + +namespace glm { + // xx + template + GLM_INLINE glm::vec<2, T, Q> xx(const glm::vec<1, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.x); + } + + template + GLM_INLINE glm::vec<2, T, Q> xx(const glm::vec<2, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.x); + } + + template + GLM_INLINE glm::vec<2, T, Q> xx(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.x); + } + + template + GLM_INLINE glm::vec<2, T, Q> xx(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.x); + } + + // xy + template + GLM_INLINE glm::vec<2, T, Q> xy(const glm::vec<2, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.y); + } + + template + GLM_INLINE glm::vec<2, T, Q> xy(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.y); + } + + template + GLM_INLINE glm::vec<2, T, Q> xy(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.y); + } + + // xz + template + GLM_INLINE glm::vec<2, T, Q> xz(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.z); + } + + template + GLM_INLINE glm::vec<2, T, Q> xz(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.z); + } + + // xw + template + GLM_INLINE glm::vec<2, T, Q> xw(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.x, v.w); + } + + // yx + template + GLM_INLINE glm::vec<2, T, Q> yx(const glm::vec<2, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.x); + } + + template + GLM_INLINE glm::vec<2, T, Q> yx(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.x); + } + + template + GLM_INLINE glm::vec<2, T, Q> yx(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.x); + } + + // yy + template + GLM_INLINE glm::vec<2, T, Q> yy(const glm::vec<2, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.y); + } + + template + GLM_INLINE glm::vec<2, T, Q> yy(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.y); + } + + template + GLM_INLINE glm::vec<2, T, Q> yy(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.y); + } + + // yz + template + GLM_INLINE glm::vec<2, T, Q> yz(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.z); + } + + template + GLM_INLINE glm::vec<2, T, Q> yz(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.z); + } + + // yw + template + GLM_INLINE glm::vec<2, T, Q> yw(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.y, v.w); + } + + // zx + template + GLM_INLINE glm::vec<2, T, Q> zx(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.z, v.x); + } + + template + GLM_INLINE glm::vec<2, T, Q> zx(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.z, v.x); + } + + // zy + template + GLM_INLINE glm::vec<2, T, Q> zy(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.z, v.y); + } + + template + GLM_INLINE glm::vec<2, T, Q> zy(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.z, v.y); + } + + // zz + template + GLM_INLINE glm::vec<2, T, Q> zz(const glm::vec<3, T, Q> &v) { + return glm::vec<2, T, Q>(v.z, v.z); + } + + template + GLM_INLINE glm::vec<2, T, Q> zz(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.z, v.z); + } + + // zw + template + GLM_INLINE glm::vec<2, T, Q> zw(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.z, v.w); + } + + // wx + template + GLM_INLINE glm::vec<2, T, Q> wx(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.w, v.x); + } + + // wy + template + GLM_INLINE glm::vec<2, T, Q> wy(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.w, v.y); + } + + // wz + template + GLM_INLINE glm::vec<2, T, Q> wz(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.w, v.z); + } + + // ww + template + GLM_INLINE glm::vec<2, T, Q> ww(const glm::vec<4, T, Q> &v) { + return glm::vec<2, T, Q>(v.w, v.w); + } + + // xxx + template + GLM_INLINE glm::vec<3, T, Q> xxx(const glm::vec<1, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> xxx(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> xxx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> xxx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.x); + } + + // xxy + template + GLM_INLINE glm::vec<3, T, Q> xxy(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> xxy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> xxy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.y); + } + + // xxz + template + GLM_INLINE glm::vec<3, T, Q> xxz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> xxz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.z); + } + + // xxw + template + GLM_INLINE glm::vec<3, T, Q> xxw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.x, v.w); + } + + // xyx + template + GLM_INLINE glm::vec<3, T, Q> xyx(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> xyx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> xyx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.x); + } + + // xyy + template + GLM_INLINE glm::vec<3, T, Q> xyy(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> xyy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> xyy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.y); + } + + // xyz + template + GLM_INLINE glm::vec<3, T, Q> xyz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> xyz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.z); + } + + // xyw + template + GLM_INLINE glm::vec<3, T, Q> xyw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.y, v.w); + } + + // xzx + template + GLM_INLINE glm::vec<3, T, Q> xzx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.z, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> xzx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.z, v.x); + } + + // xzy + template + GLM_INLINE glm::vec<3, T, Q> xzy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.z, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> xzy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.z, v.y); + } + + // xzz + template + GLM_INLINE glm::vec<3, T, Q> xzz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.z, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> xzz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.z, v.z); + } + + // xzw + template + GLM_INLINE glm::vec<3, T, Q> xzw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.z, v.w); + } + + // xwx + template + GLM_INLINE glm::vec<3, T, Q> xwx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.w, v.x); + } + + // xwy + template + GLM_INLINE glm::vec<3, T, Q> xwy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.w, v.y); + } + + // xwz + template + GLM_INLINE glm::vec<3, T, Q> xwz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.w, v.z); + } + + // xww + template + GLM_INLINE glm::vec<3, T, Q> xww(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.x, v.w, v.w); + } + + // yxx + template + GLM_INLINE glm::vec<3, T, Q> yxx(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> yxx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> yxx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.x); + } + + // yxy + template + GLM_INLINE glm::vec<3, T, Q> yxy(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> yxy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> yxy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.y); + } + + // yxz + template + GLM_INLINE glm::vec<3, T, Q> yxz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> yxz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.z); + } + + // yxw + template + GLM_INLINE glm::vec<3, T, Q> yxw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.x, v.w); + } + + // yyx + template + GLM_INLINE glm::vec<3, T, Q> yyx(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> yyx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> yyx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.x); + } + + // yyy + template + GLM_INLINE glm::vec<3, T, Q> yyy(const glm::vec<2, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> yyy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> yyy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.y); + } + + // yyz + template + GLM_INLINE glm::vec<3, T, Q> yyz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> yyz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.z); + } + + // yyw + template + GLM_INLINE glm::vec<3, T, Q> yyw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.y, v.w); + } + + // yzx + template + GLM_INLINE glm::vec<3, T, Q> yzx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.z, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> yzx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.z, v.x); + } + + // yzy + template + GLM_INLINE glm::vec<3, T, Q> yzy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.z, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> yzy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.z, v.y); + } + + // yzz + template + GLM_INLINE glm::vec<3, T, Q> yzz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.z, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> yzz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.z, v.z); + } + + // yzw + template + GLM_INLINE glm::vec<3, T, Q> yzw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.z, v.w); + } + + // ywx + template + GLM_INLINE glm::vec<3, T, Q> ywx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.w, v.x); + } + + // ywy + template + GLM_INLINE glm::vec<3, T, Q> ywy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.w, v.y); + } + + // ywz + template + GLM_INLINE glm::vec<3, T, Q> ywz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.w, v.z); + } + + // yww + template + GLM_INLINE glm::vec<3, T, Q> yww(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.y, v.w, v.w); + } + + // zxx + template + GLM_INLINE glm::vec<3, T, Q> zxx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.x, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> zxx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.x, v.x); + } + + // zxy + template + GLM_INLINE glm::vec<3, T, Q> zxy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.x, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> zxy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.x, v.y); + } + + // zxz + template + GLM_INLINE glm::vec<3, T, Q> zxz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.x, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> zxz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.x, v.z); + } + + // zxw + template + GLM_INLINE glm::vec<3, T, Q> zxw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.x, v.w); + } + + // zyx + template + GLM_INLINE glm::vec<3, T, Q> zyx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.y, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> zyx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.y, v.x); + } + + // zyy + template + GLM_INLINE glm::vec<3, T, Q> zyy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.y, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> zyy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.y, v.y); + } + + // zyz + template + GLM_INLINE glm::vec<3, T, Q> zyz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.y, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> zyz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.y, v.z); + } + + // zyw + template + GLM_INLINE glm::vec<3, T, Q> zyw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.y, v.w); + } + + // zzx + template + GLM_INLINE glm::vec<3, T, Q> zzx(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.z, v.x); + } + + template + GLM_INLINE glm::vec<3, T, Q> zzx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.z, v.x); + } + + // zzy + template + GLM_INLINE glm::vec<3, T, Q> zzy(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.z, v.y); + } + + template + GLM_INLINE glm::vec<3, T, Q> zzy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.z, v.y); + } + + // zzz + template + GLM_INLINE glm::vec<3, T, Q> zzz(const glm::vec<3, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.z, v.z); + } + + template + GLM_INLINE glm::vec<3, T, Q> zzz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.z, v.z); + } + + // zzw + template + GLM_INLINE glm::vec<3, T, Q> zzw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.z, v.w); + } + + // zwx + template + GLM_INLINE glm::vec<3, T, Q> zwx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.w, v.x); + } + + // zwy + template + GLM_INLINE glm::vec<3, T, Q> zwy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.w, v.y); + } + + // zwz + template + GLM_INLINE glm::vec<3, T, Q> zwz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.w, v.z); + } + + // zww + template + GLM_INLINE glm::vec<3, T, Q> zww(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.z, v.w, v.w); + } + + // wxx + template + GLM_INLINE glm::vec<3, T, Q> wxx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.x, v.x); + } + + // wxy + template + GLM_INLINE glm::vec<3, T, Q> wxy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.x, v.y); + } + + // wxz + template + GLM_INLINE glm::vec<3, T, Q> wxz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.x, v.z); + } + + // wxw + template + GLM_INLINE glm::vec<3, T, Q> wxw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.x, v.w); + } + + // wyx + template + GLM_INLINE glm::vec<3, T, Q> wyx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.y, v.x); + } + + // wyy + template + GLM_INLINE glm::vec<3, T, Q> wyy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.y, v.y); + } + + // wyz + template + GLM_INLINE glm::vec<3, T, Q> wyz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.y, v.z); + } + + // wyw + template + GLM_INLINE glm::vec<3, T, Q> wyw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.y, v.w); + } + + // wzx + template + GLM_INLINE glm::vec<3, T, Q> wzx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.z, v.x); + } + + // wzy + template + GLM_INLINE glm::vec<3, T, Q> wzy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.z, v.y); + } + + // wzz + template + GLM_INLINE glm::vec<3, T, Q> wzz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.z, v.z); + } + + // wzw + template + GLM_INLINE glm::vec<3, T, Q> wzw(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.z, v.w); + } + + // wwx + template + GLM_INLINE glm::vec<3, T, Q> wwx(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.w, v.x); + } + + // wwy + template + GLM_INLINE glm::vec<3, T, Q> wwy(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.w, v.y); + } + + // wwz + template + GLM_INLINE glm::vec<3, T, Q> wwz(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.w, v.z); + } + + // www + template + GLM_INLINE glm::vec<3, T, Q> www(const glm::vec<4, T, Q> &v) { + return glm::vec<3, T, Q>(v.w, v.w, v.w); + } + + // xxxx + template + GLM_INLINE glm::vec<4, T, Q> xxxx(const glm::vec<1, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxxx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.x); + } + + // xxxy + template + GLM_INLINE glm::vec<4, T, Q> xxxy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.y); + } + + // xxxz + template + GLM_INLINE glm::vec<4, T, Q> xxxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.z); + } + + // xxxw + template + GLM_INLINE glm::vec<4, T, Q> xxxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.x, v.w); + } + + // xxyx + template + GLM_INLINE glm::vec<4, T, Q> xxyx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.x); + } + + // xxyy + template + GLM_INLINE glm::vec<4, T, Q> xxyy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.y); + } + + // xxyz + template + GLM_INLINE glm::vec<4, T, Q> xxyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.z); + } + + // xxyw + template + GLM_INLINE glm::vec<4, T, Q> xxyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.y, v.w); + } + + // xxzx + template + GLM_INLINE glm::vec<4, T, Q> xxzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.z, v.x); + } + + // xxzy + template + GLM_INLINE glm::vec<4, T, Q> xxzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.z, v.y); + } + + // xxzz + template + GLM_INLINE glm::vec<4, T, Q> xxzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xxzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.z, v.z); + } + + // xxzw + template + GLM_INLINE glm::vec<4, T, Q> xxzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.z, v.w); + } + + // xxwx + template + GLM_INLINE glm::vec<4, T, Q> xxwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.w, v.x); + } + + // xxwy + template + GLM_INLINE glm::vec<4, T, Q> xxwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.w, v.y); + } + + // xxwz + template + GLM_INLINE glm::vec<4, T, Q> xxwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.w, v.z); + } + + // xxww + template + GLM_INLINE glm::vec<4, T, Q> xxww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.x, v.w, v.w); + } + + // xyxx + template + GLM_INLINE glm::vec<4, T, Q> xyxx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.x); + } + + // xyxy + template + GLM_INLINE glm::vec<4, T, Q> xyxy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.y); + } + + // xyxz + template + GLM_INLINE glm::vec<4, T, Q> xyxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.z); + } + + // xyxw + template + GLM_INLINE glm::vec<4, T, Q> xyxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.x, v.w); + } + + // xyyx + template + GLM_INLINE glm::vec<4, T, Q> xyyx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.x); + } + + // xyyy + template + GLM_INLINE glm::vec<4, T, Q> xyyy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.y); + } + + // xyyz + template + GLM_INLINE glm::vec<4, T, Q> xyyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.z); + } + + // xyyw + template + GLM_INLINE glm::vec<4, T, Q> xyyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.y, v.w); + } + + // xyzx + template + GLM_INLINE glm::vec<4, T, Q> xyzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.z, v.x); + } + + // xyzy + template + GLM_INLINE glm::vec<4, T, Q> xyzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.z, v.y); + } + + // xyzz + template + GLM_INLINE glm::vec<4, T, Q> xyzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xyzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.z, v.z); + } + + // xyzw + template + GLM_INLINE glm::vec<4, T, Q> xyzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.z, v.w); + } + + // xywx + template + GLM_INLINE glm::vec<4, T, Q> xywx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.w, v.x); + } + + // xywy + template + GLM_INLINE glm::vec<4, T, Q> xywy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.w, v.y); + } + + // xywz + template + GLM_INLINE glm::vec<4, T, Q> xywz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.w, v.z); + } + + // xyww + template + GLM_INLINE glm::vec<4, T, Q> xyww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.y, v.w, v.w); + } + + // xzxx + template + GLM_INLINE glm::vec<4, T, Q> xzxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.x, v.x); + } + + // xzxy + template + GLM_INLINE glm::vec<4, T, Q> xzxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.x, v.y); + } + + // xzxz + template + GLM_INLINE glm::vec<4, T, Q> xzxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.x, v.z); + } + + // xzxw + template + GLM_INLINE glm::vec<4, T, Q> xzxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.x, v.w); + } + + // xzyx + template + GLM_INLINE glm::vec<4, T, Q> xzyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.y, v.x); + } + + // xzyy + template + GLM_INLINE glm::vec<4, T, Q> xzyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.y, v.y); + } + + // xzyz + template + GLM_INLINE glm::vec<4, T, Q> xzyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.y, v.z); + } + + // xzyw + template + GLM_INLINE glm::vec<4, T, Q> xzyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.y, v.w); + } + + // xzzx + template + GLM_INLINE glm::vec<4, T, Q> xzzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.z, v.x); + } + + // xzzy + template + GLM_INLINE glm::vec<4, T, Q> xzzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.z, v.y); + } + + // xzzz + template + GLM_INLINE glm::vec<4, T, Q> xzzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> xzzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.z, v.z); + } + + // xzzw + template + GLM_INLINE glm::vec<4, T, Q> xzzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.z, v.w); + } + + // xzwx + template + GLM_INLINE glm::vec<4, T, Q> xzwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.w, v.x); + } + + // xzwy + template + GLM_INLINE glm::vec<4, T, Q> xzwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.w, v.y); + } + + // xzwz + template + GLM_INLINE glm::vec<4, T, Q> xzwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.w, v.z); + } + + // xzww + template + GLM_INLINE glm::vec<4, T, Q> xzww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.z, v.w, v.w); + } + + // xwxx + template + GLM_INLINE glm::vec<4, T, Q> xwxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.x, v.x); + } + + // xwxy + template + GLM_INLINE glm::vec<4, T, Q> xwxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.x, v.y); + } + + // xwxz + template + GLM_INLINE glm::vec<4, T, Q> xwxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.x, v.z); + } + + // xwxw + template + GLM_INLINE glm::vec<4, T, Q> xwxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.x, v.w); + } + + // xwyx + template + GLM_INLINE glm::vec<4, T, Q> xwyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.y, v.x); + } + + // xwyy + template + GLM_INLINE glm::vec<4, T, Q> xwyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.y, v.y); + } + + // xwyz + template + GLM_INLINE glm::vec<4, T, Q> xwyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.y, v.z); + } + + // xwyw + template + GLM_INLINE glm::vec<4, T, Q> xwyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.y, v.w); + } + + // xwzx + template + GLM_INLINE glm::vec<4, T, Q> xwzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.z, v.x); + } + + // xwzy + template + GLM_INLINE glm::vec<4, T, Q> xwzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.z, v.y); + } + + // xwzz + template + GLM_INLINE glm::vec<4, T, Q> xwzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.z, v.z); + } + + // xwzw + template + GLM_INLINE glm::vec<4, T, Q> xwzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.z, v.w); + } + + // xwwx + template + GLM_INLINE glm::vec<4, T, Q> xwwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.w, v.x); + } + + // xwwy + template + GLM_INLINE glm::vec<4, T, Q> xwwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.w, v.y); + } + + // xwwz + template + GLM_INLINE glm::vec<4, T, Q> xwwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.w, v.z); + } + + // xwww + template + GLM_INLINE glm::vec<4, T, Q> xwww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.x, v.w, v.w, v.w); + } + + // yxxx + template + GLM_INLINE glm::vec<4, T, Q> yxxx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.x); + } + + // yxxy + template + GLM_INLINE glm::vec<4, T, Q> yxxy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.y); + } + + // yxxz + template + GLM_INLINE glm::vec<4, T, Q> yxxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.z); + } + + // yxxw + template + GLM_INLINE glm::vec<4, T, Q> yxxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.x, v.w); + } + + // yxyx + template + GLM_INLINE glm::vec<4, T, Q> yxyx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.x); + } + + // yxyy + template + GLM_INLINE glm::vec<4, T, Q> yxyy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.y); + } + + // yxyz + template + GLM_INLINE glm::vec<4, T, Q> yxyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.z); + } + + // yxyw + template + GLM_INLINE glm::vec<4, T, Q> yxyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.y, v.w); + } + + // yxzx + template + GLM_INLINE glm::vec<4, T, Q> yxzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.z, v.x); + } + + // yxzy + template + GLM_INLINE glm::vec<4, T, Q> yxzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.z, v.y); + } + + // yxzz + template + GLM_INLINE glm::vec<4, T, Q> yxzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yxzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.z, v.z); + } + + // yxzw + template + GLM_INLINE glm::vec<4, T, Q> yxzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.z, v.w); + } + + // yxwx + template + GLM_INLINE glm::vec<4, T, Q> yxwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.w, v.x); + } + + // yxwy + template + GLM_INLINE glm::vec<4, T, Q> yxwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.w, v.y); + } + + // yxwz + template + GLM_INLINE glm::vec<4, T, Q> yxwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.w, v.z); + } + + // yxww + template + GLM_INLINE glm::vec<4, T, Q> yxww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.x, v.w, v.w); + } + + // yyxx + template + GLM_INLINE glm::vec<4, T, Q> yyxx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.x); + } + + // yyxy + template + GLM_INLINE glm::vec<4, T, Q> yyxy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.y); + } + + // yyxz + template + GLM_INLINE glm::vec<4, T, Q> yyxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.z); + } + + // yyxw + template + GLM_INLINE glm::vec<4, T, Q> yyxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.x, v.w); + } + + // yyyx + template + GLM_INLINE glm::vec<4, T, Q> yyyx(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.x); + } + + // yyyy + template + GLM_INLINE glm::vec<4, T, Q> yyyy(const glm::vec<2, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.y); + } + + // yyyz + template + GLM_INLINE glm::vec<4, T, Q> yyyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.z); + } + + // yyyw + template + GLM_INLINE glm::vec<4, T, Q> yyyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.y, v.w); + } + + // yyzx + template + GLM_INLINE glm::vec<4, T, Q> yyzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.z, v.x); + } + + // yyzy + template + GLM_INLINE glm::vec<4, T, Q> yyzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.z, v.y); + } + + // yyzz + template + GLM_INLINE glm::vec<4, T, Q> yyzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yyzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.z, v.z); + } + + // yyzw + template + GLM_INLINE glm::vec<4, T, Q> yyzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.z, v.w); + } + + // yywx + template + GLM_INLINE glm::vec<4, T, Q> yywx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.w, v.x); + } + + // yywy + template + GLM_INLINE glm::vec<4, T, Q> yywy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.w, v.y); + } + + // yywz + template + GLM_INLINE glm::vec<4, T, Q> yywz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.w, v.z); + } + + // yyww + template + GLM_INLINE glm::vec<4, T, Q> yyww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.y, v.w, v.w); + } + + // yzxx + template + GLM_INLINE glm::vec<4, T, Q> yzxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.x, v.x); + } + + // yzxy + template + GLM_INLINE glm::vec<4, T, Q> yzxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.x, v.y); + } + + // yzxz + template + GLM_INLINE glm::vec<4, T, Q> yzxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.x, v.z); + } + + // yzxw + template + GLM_INLINE glm::vec<4, T, Q> yzxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.x, v.w); + } + + // yzyx + template + GLM_INLINE glm::vec<4, T, Q> yzyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.y, v.x); + } + + // yzyy + template + GLM_INLINE glm::vec<4, T, Q> yzyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.y, v.y); + } + + // yzyz + template + GLM_INLINE glm::vec<4, T, Q> yzyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.y, v.z); + } + + // yzyw + template + GLM_INLINE glm::vec<4, T, Q> yzyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.y, v.w); + } + + // yzzx + template + GLM_INLINE glm::vec<4, T, Q> yzzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.z, v.x); + } + + // yzzy + template + GLM_INLINE glm::vec<4, T, Q> yzzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.z, v.y); + } + + // yzzz + template + GLM_INLINE glm::vec<4, T, Q> yzzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> yzzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.z, v.z); + } + + // yzzw + template + GLM_INLINE glm::vec<4, T, Q> yzzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.z, v.w); + } + + // yzwx + template + GLM_INLINE glm::vec<4, T, Q> yzwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.w, v.x); + } + + // yzwy + template + GLM_INLINE glm::vec<4, T, Q> yzwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.w, v.y); + } + + // yzwz + template + GLM_INLINE glm::vec<4, T, Q> yzwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.w, v.z); + } + + // yzww + template + GLM_INLINE glm::vec<4, T, Q> yzww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.z, v.w, v.w); + } + + // ywxx + template + GLM_INLINE glm::vec<4, T, Q> ywxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.x, v.x); + } + + // ywxy + template + GLM_INLINE glm::vec<4, T, Q> ywxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.x, v.y); + } + + // ywxz + template + GLM_INLINE glm::vec<4, T, Q> ywxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.x, v.z); + } + + // ywxw + template + GLM_INLINE glm::vec<4, T, Q> ywxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.x, v.w); + } + + // ywyx + template + GLM_INLINE glm::vec<4, T, Q> ywyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.y, v.x); + } + + // ywyy + template + GLM_INLINE glm::vec<4, T, Q> ywyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.y, v.y); + } + + // ywyz + template + GLM_INLINE glm::vec<4, T, Q> ywyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.y, v.z); + } + + // ywyw + template + GLM_INLINE glm::vec<4, T, Q> ywyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.y, v.w); + } + + // ywzx + template + GLM_INLINE glm::vec<4, T, Q> ywzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.z, v.x); + } + + // ywzy + template + GLM_INLINE glm::vec<4, T, Q> ywzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.z, v.y); + } + + // ywzz + template + GLM_INLINE glm::vec<4, T, Q> ywzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.z, v.z); + } + + // ywzw + template + GLM_INLINE glm::vec<4, T, Q> ywzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.z, v.w); + } + + // ywwx + template + GLM_INLINE glm::vec<4, T, Q> ywwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.w, v.x); + } + + // ywwy + template + GLM_INLINE glm::vec<4, T, Q> ywwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.w, v.y); + } + + // ywwz + template + GLM_INLINE glm::vec<4, T, Q> ywwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.w, v.z); + } + + // ywww + template + GLM_INLINE glm::vec<4, T, Q> ywww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.y, v.w, v.w, v.w); + } + + // zxxx + template + GLM_INLINE glm::vec<4, T, Q> zxxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.x, v.x); + } + + // zxxy + template + GLM_INLINE glm::vec<4, T, Q> zxxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.x, v.y); + } + + // zxxz + template + GLM_INLINE glm::vec<4, T, Q> zxxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.x, v.z); + } + + // zxxw + template + GLM_INLINE glm::vec<4, T, Q> zxxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.x, v.w); + } + + // zxyx + template + GLM_INLINE glm::vec<4, T, Q> zxyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.y, v.x); + } + + // zxyy + template + GLM_INLINE glm::vec<4, T, Q> zxyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.y, v.y); + } + + // zxyz + template + GLM_INLINE glm::vec<4, T, Q> zxyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.y, v.z); + } + + // zxyw + template + GLM_INLINE glm::vec<4, T, Q> zxyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.y, v.w); + } + + // zxzx + template + GLM_INLINE glm::vec<4, T, Q> zxzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.z, v.x); + } + + // zxzy + template + GLM_INLINE glm::vec<4, T, Q> zxzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.z, v.y); + } + + // zxzz + template + GLM_INLINE glm::vec<4, T, Q> zxzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zxzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.z, v.z); + } + + // zxzw + template + GLM_INLINE glm::vec<4, T, Q> zxzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.z, v.w); + } + + // zxwx + template + GLM_INLINE glm::vec<4, T, Q> zxwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.w, v.x); + } + + // zxwy + template + GLM_INLINE glm::vec<4, T, Q> zxwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.w, v.y); + } + + // zxwz + template + GLM_INLINE glm::vec<4, T, Q> zxwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.w, v.z); + } + + // zxww + template + GLM_INLINE glm::vec<4, T, Q> zxww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.x, v.w, v.w); + } + + // zyxx + template + GLM_INLINE glm::vec<4, T, Q> zyxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.x, v.x); + } + + // zyxy + template + GLM_INLINE glm::vec<4, T, Q> zyxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.x, v.y); + } + + // zyxz + template + GLM_INLINE glm::vec<4, T, Q> zyxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.x, v.z); + } + + // zyxw + template + GLM_INLINE glm::vec<4, T, Q> zyxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.x, v.w); + } + + // zyyx + template + GLM_INLINE glm::vec<4, T, Q> zyyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.y, v.x); + } + + // zyyy + template + GLM_INLINE glm::vec<4, T, Q> zyyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.y, v.y); + } + + // zyyz + template + GLM_INLINE glm::vec<4, T, Q> zyyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.y, v.z); + } + + // zyyw + template + GLM_INLINE glm::vec<4, T, Q> zyyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.y, v.w); + } + + // zyzx + template + GLM_INLINE glm::vec<4, T, Q> zyzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.z, v.x); + } + + // zyzy + template + GLM_INLINE glm::vec<4, T, Q> zyzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.z, v.y); + } + + // zyzz + template + GLM_INLINE glm::vec<4, T, Q> zyzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zyzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.z, v.z); + } + + // zyzw + template + GLM_INLINE glm::vec<4, T, Q> zyzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.z, v.w); + } + + // zywx + template + GLM_INLINE glm::vec<4, T, Q> zywx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.w, v.x); + } + + // zywy + template + GLM_INLINE glm::vec<4, T, Q> zywy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.w, v.y); + } + + // zywz + template + GLM_INLINE glm::vec<4, T, Q> zywz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.w, v.z); + } + + // zyww + template + GLM_INLINE glm::vec<4, T, Q> zyww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.y, v.w, v.w); + } + + // zzxx + template + GLM_INLINE glm::vec<4, T, Q> zzxx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.x, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.x, v.x); + } + + // zzxy + template + GLM_INLINE glm::vec<4, T, Q> zzxy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.x, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.x, v.y); + } + + // zzxz + template + GLM_INLINE glm::vec<4, T, Q> zzxz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.x, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.x, v.z); + } + + // zzxw + template + GLM_INLINE glm::vec<4, T, Q> zzxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.x, v.w); + } + + // zzyx + template + GLM_INLINE glm::vec<4, T, Q> zzyx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.y, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.y, v.x); + } + + // zzyy + template + GLM_INLINE glm::vec<4, T, Q> zzyy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.y, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.y, v.y); + } + + // zzyz + template + GLM_INLINE glm::vec<4, T, Q> zzyz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.y, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.y, v.z); + } + + // zzyw + template + GLM_INLINE glm::vec<4, T, Q> zzyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.y, v.w); + } + + // zzzx + template + GLM_INLINE glm::vec<4, T, Q> zzzx(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.z, v.x); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.z, v.x); + } + + // zzzy + template + GLM_INLINE glm::vec<4, T, Q> zzzy(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.z, v.y); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.z, v.y); + } + + // zzzz + template + GLM_INLINE glm::vec<4, T, Q> zzzz(const glm::vec<3, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.z, v.z); + } + + template + GLM_INLINE glm::vec<4, T, Q> zzzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.z, v.z); + } + + // zzzw + template + GLM_INLINE glm::vec<4, T, Q> zzzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.z, v.w); + } + + // zzwx + template + GLM_INLINE glm::vec<4, T, Q> zzwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.w, v.x); + } + + // zzwy + template + GLM_INLINE glm::vec<4, T, Q> zzwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.w, v.y); + } + + // zzwz + template + GLM_INLINE glm::vec<4, T, Q> zzwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.w, v.z); + } + + // zzww + template + GLM_INLINE glm::vec<4, T, Q> zzww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.z, v.w, v.w); + } + + // zwxx + template + GLM_INLINE glm::vec<4, T, Q> zwxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.x, v.x); + } + + // zwxy + template + GLM_INLINE glm::vec<4, T, Q> zwxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.x, v.y); + } + + // zwxz + template + GLM_INLINE glm::vec<4, T, Q> zwxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.x, v.z); + } + + // zwxw + template + GLM_INLINE glm::vec<4, T, Q> zwxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.x, v.w); + } + + // zwyx + template + GLM_INLINE glm::vec<4, T, Q> zwyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.y, v.x); + } + + // zwyy + template + GLM_INLINE glm::vec<4, T, Q> zwyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.y, v.y); + } + + // zwyz + template + GLM_INLINE glm::vec<4, T, Q> zwyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.y, v.z); + } + + // zwyw + template + GLM_INLINE glm::vec<4, T, Q> zwyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.y, v.w); + } + + // zwzx + template + GLM_INLINE glm::vec<4, T, Q> zwzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.z, v.x); + } + + // zwzy + template + GLM_INLINE glm::vec<4, T, Q> zwzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.z, v.y); + } + + // zwzz + template + GLM_INLINE glm::vec<4, T, Q> zwzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.z, v.z); + } + + // zwzw + template + GLM_INLINE glm::vec<4, T, Q> zwzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.z, v.w); + } + + // zwwx + template + GLM_INLINE glm::vec<4, T, Q> zwwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.w, v.x); + } + + // zwwy + template + GLM_INLINE glm::vec<4, T, Q> zwwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.w, v.y); + } + + // zwwz + template + GLM_INLINE glm::vec<4, T, Q> zwwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.w, v.z); + } + + // zwww + template + GLM_INLINE glm::vec<4, T, Q> zwww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.z, v.w, v.w, v.w); + } + + // wxxx + template + GLM_INLINE glm::vec<4, T, Q> wxxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.x, v.x); + } + + // wxxy + template + GLM_INLINE glm::vec<4, T, Q> wxxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.x, v.y); + } + + // wxxz + template + GLM_INLINE glm::vec<4, T, Q> wxxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.x, v.z); + } + + // wxxw + template + GLM_INLINE glm::vec<4, T, Q> wxxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.x, v.w); + } + + // wxyx + template + GLM_INLINE glm::vec<4, T, Q> wxyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.y, v.x); + } + + // wxyy + template + GLM_INLINE glm::vec<4, T, Q> wxyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.y, v.y); + } + + // wxyz + template + GLM_INLINE glm::vec<4, T, Q> wxyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.y, v.z); + } + + // wxyw + template + GLM_INLINE glm::vec<4, T, Q> wxyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.y, v.w); + } + + // wxzx + template + GLM_INLINE glm::vec<4, T, Q> wxzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.z, v.x); + } + + // wxzy + template + GLM_INLINE glm::vec<4, T, Q> wxzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.z, v.y); + } + + // wxzz + template + GLM_INLINE glm::vec<4, T, Q> wxzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.z, v.z); + } + + // wxzw + template + GLM_INLINE glm::vec<4, T, Q> wxzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.z, v.w); + } + + // wxwx + template + GLM_INLINE glm::vec<4, T, Q> wxwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.w, v.x); + } + + // wxwy + template + GLM_INLINE glm::vec<4, T, Q> wxwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.w, v.y); + } + + // wxwz + template + GLM_INLINE glm::vec<4, T, Q> wxwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.w, v.z); + } + + // wxww + template + GLM_INLINE glm::vec<4, T, Q> wxww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.x, v.w, v.w); + } + + // wyxx + template + GLM_INLINE glm::vec<4, T, Q> wyxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.x, v.x); + } + + // wyxy + template + GLM_INLINE glm::vec<4, T, Q> wyxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.x, v.y); + } + + // wyxz + template + GLM_INLINE glm::vec<4, T, Q> wyxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.x, v.z); + } + + // wyxw + template + GLM_INLINE glm::vec<4, T, Q> wyxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.x, v.w); + } + + // wyyx + template + GLM_INLINE glm::vec<4, T, Q> wyyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.y, v.x); + } + + // wyyy + template + GLM_INLINE glm::vec<4, T, Q> wyyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.y, v.y); + } + + // wyyz + template + GLM_INLINE glm::vec<4, T, Q> wyyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.y, v.z); + } + + // wyyw + template + GLM_INLINE glm::vec<4, T, Q> wyyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.y, v.w); + } + + // wyzx + template + GLM_INLINE glm::vec<4, T, Q> wyzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.z, v.x); + } + + // wyzy + template + GLM_INLINE glm::vec<4, T, Q> wyzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.z, v.y); + } + + // wyzz + template + GLM_INLINE glm::vec<4, T, Q> wyzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.z, v.z); + } + + // wyzw + template + GLM_INLINE glm::vec<4, T, Q> wyzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.z, v.w); + } + + // wywx + template + GLM_INLINE glm::vec<4, T, Q> wywx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.w, v.x); + } + + // wywy + template + GLM_INLINE glm::vec<4, T, Q> wywy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.w, v.y); + } + + // wywz + template + GLM_INLINE glm::vec<4, T, Q> wywz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.w, v.z); + } + + // wyww + template + GLM_INLINE glm::vec<4, T, Q> wyww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.y, v.w, v.w); + } + + // wzxx + template + GLM_INLINE glm::vec<4, T, Q> wzxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.x, v.x); + } + + // wzxy + template + GLM_INLINE glm::vec<4, T, Q> wzxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.x, v.y); + } + + // wzxz + template + GLM_INLINE glm::vec<4, T, Q> wzxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.x, v.z); + } + + // wzxw + template + GLM_INLINE glm::vec<4, T, Q> wzxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.x, v.w); + } + + // wzyx + template + GLM_INLINE glm::vec<4, T, Q> wzyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.y, v.x); + } + + // wzyy + template + GLM_INLINE glm::vec<4, T, Q> wzyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.y, v.y); + } + + // wzyz + template + GLM_INLINE glm::vec<4, T, Q> wzyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.y, v.z); + } + + // wzyw + template + GLM_INLINE glm::vec<4, T, Q> wzyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.y, v.w); + } + + // wzzx + template + GLM_INLINE glm::vec<4, T, Q> wzzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.z, v.x); + } + + // wzzy + template + GLM_INLINE glm::vec<4, T, Q> wzzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.z, v.y); + } + + // wzzz + template + GLM_INLINE glm::vec<4, T, Q> wzzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.z, v.z); + } + + // wzzw + template + GLM_INLINE glm::vec<4, T, Q> wzzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.z, v.w); + } + + // wzwx + template + GLM_INLINE glm::vec<4, T, Q> wzwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.w, v.x); + } + + // wzwy + template + GLM_INLINE glm::vec<4, T, Q> wzwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.w, v.y); + } + + // wzwz + template + GLM_INLINE glm::vec<4, T, Q> wzwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.w, v.z); + } + + // wzww + template + GLM_INLINE glm::vec<4, T, Q> wzww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.z, v.w, v.w); + } + + // wwxx + template + GLM_INLINE glm::vec<4, T, Q> wwxx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.x, v.x); + } + + // wwxy + template + GLM_INLINE glm::vec<4, T, Q> wwxy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.x, v.y); + } + + // wwxz + template + GLM_INLINE glm::vec<4, T, Q> wwxz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.x, v.z); + } + + // wwxw + template + GLM_INLINE glm::vec<4, T, Q> wwxw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.x, v.w); + } + + // wwyx + template + GLM_INLINE glm::vec<4, T, Q> wwyx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.y, v.x); + } + + // wwyy + template + GLM_INLINE glm::vec<4, T, Q> wwyy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.y, v.y); + } + + // wwyz + template + GLM_INLINE glm::vec<4, T, Q> wwyz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.y, v.z); + } + + // wwyw + template + GLM_INLINE glm::vec<4, T, Q> wwyw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.y, v.w); + } + + // wwzx + template + GLM_INLINE glm::vec<4, T, Q> wwzx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.z, v.x); + } + + // wwzy + template + GLM_INLINE glm::vec<4, T, Q> wwzy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.z, v.y); + } + + // wwzz + template + GLM_INLINE glm::vec<4, T, Q> wwzz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.z, v.z); + } + + // wwzw + template + GLM_INLINE glm::vec<4, T, Q> wwzw(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.z, v.w); + } + + // wwwx + template + GLM_INLINE glm::vec<4, T, Q> wwwx(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.w, v.x); + } + + // wwwy + template + GLM_INLINE glm::vec<4, T, Q> wwwy(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.w, v.y); + } + + // wwwz + template + GLM_INLINE glm::vec<4, T, Q> wwwz(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.w, v.z); + } + + // wwww + template + GLM_INLINE glm::vec<4, T, Q> wwww(const glm::vec<4, T, Q> &v) { + return glm::vec<4, T, Q>(v.w, v.w, v.w, v.w); + } + +} diff --git a/Vulkan/ext/include/glm/gtx/vector_angle.hpp b/Vulkan/ext/include/glm/gtx/vector_angle.hpp new file mode 100644 index 0000000..9ae4371 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/vector_angle.hpp @@ -0,0 +1,57 @@ +/// @ref gtx_vector_angle +/// @file glm/gtx/vector_angle.hpp +/// +/// @see core (dependence) +/// @see gtx_quaternion (dependence) +/// @see gtx_epsilon (dependence) +/// +/// @defgroup gtx_vector_angle GLM_GTX_vector_angle +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Compute angle between vectors + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../gtc/epsilon.hpp" +#include "../gtx/quaternion.hpp" +#include "../gtx/rotate_vector.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_vector_angle is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_vector_angle extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_vector_angle + /// @{ + + //! Returns the absolute angle between two vectors. + //! Parameters need to be normalized. + /// @see gtx_vector_angle extension. + template + GLM_FUNC_DECL T angle(vec const& x, vec const& y); + + //! Returns the oriented angle between two 2d vectors. + //! Parameters need to be normalized. + /// @see gtx_vector_angle extension. + template + GLM_FUNC_DECL T orientedAngle(vec<2, T, Q> const& x, vec<2, T, Q> const& y); + + //! Returns the oriented angle between two 3d vectors based from a reference axis. + //! Parameters need to be normalized. + /// @see gtx_vector_angle extension. + template + GLM_FUNC_DECL T orientedAngle(vec<3, T, Q> const& x, vec<3, T, Q> const& y, vec<3, T, Q> const& ref); + + /// @} +}// namespace glm + +#include "vector_angle.inl" diff --git a/Vulkan/ext/include/glm/gtx/vector_angle.inl b/Vulkan/ext/include/glm/gtx/vector_angle.inl new file mode 100644 index 0000000..a1f957a --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/vector_angle.inl @@ -0,0 +1,44 @@ +/// @ref gtx_vector_angle + +namespace glm +{ + template + GLM_FUNC_QUALIFIER genType angle + ( + genType const& x, + genType const& y + ) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'angle' only accept floating-point inputs"); + return acos(clamp(dot(x, y), genType(-1), genType(1))); + } + + template + GLM_FUNC_QUALIFIER T angle(vec const& x, vec const& y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'angle' only accept floating-point inputs"); + return acos(clamp(dot(x, y), T(-1), T(1))); + } + + //! \todo epsilon is hard coded to 0.01 + template + GLM_FUNC_QUALIFIER T orientedAngle(vec<2, T, Q> const& x, vec<2, T, Q> const& y) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'orientedAngle' only accept floating-point inputs"); + T const Angle(acos(clamp(dot(x, y), T(-1), T(1)))); + + if(all(epsilonEqual(y, glm::rotate(x, Angle), T(0.0001)))) + return Angle; + else + return -Angle; + } + + template + GLM_FUNC_QUALIFIER T orientedAngle(vec<3, T, Q> const& x, vec<3, T, Q> const& y, vec<3, T, Q> const& ref) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'orientedAngle' only accept floating-point inputs"); + + T const Angle(acos(clamp(dot(x, y), T(-1), T(1)))); + return mix(Angle, -Angle, dot(ref, cross(x, y)) < T(0)); + } +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/vector_query.hpp b/Vulkan/ext/include/glm/gtx/vector_query.hpp new file mode 100644 index 0000000..77c7b97 --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/vector_query.hpp @@ -0,0 +1,66 @@ +/// @ref gtx_vector_query +/// @file glm/gtx/vector_query.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_vector_query GLM_GTX_vector_query +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Query informations of vector types + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include +#include + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_vector_query is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_vector_query extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_vector_query + /// @{ + + //! Check whether two vectors are collinears. + /// @see gtx_vector_query extensions. + template + GLM_FUNC_DECL bool areCollinear(vec const& v0, vec const& v1, T const& epsilon); + + //! Check whether two vectors are orthogonals. + /// @see gtx_vector_query extensions. + template + GLM_FUNC_DECL bool areOrthogonal(vec const& v0, vec const& v1, T const& epsilon); + + //! Check whether a vector is normalized. + /// @see gtx_vector_query extensions. + template + GLM_FUNC_DECL bool isNormalized(vec const& v, T const& epsilon); + + //! Check whether a vector is null. + /// @see gtx_vector_query extensions. + template + GLM_FUNC_DECL bool isNull(vec const& v, T const& epsilon); + + //! Check whether a each component of a vector is null. + /// @see gtx_vector_query extensions. + template + GLM_FUNC_DECL vec isCompNull(vec const& v, T const& epsilon); + + //! Check whether two vectors are orthonormal. + /// @see gtx_vector_query extensions. + template + GLM_FUNC_DECL bool areOrthonormal(vec const& v0, vec const& v1, T const& epsilon); + + /// @} +}// namespace glm + +#include "vector_query.inl" diff --git a/Vulkan/ext/include/glm/gtx/vector_query.inl b/Vulkan/ext/include/glm/gtx/vector_query.inl new file mode 100644 index 0000000..d1a5c9b --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/vector_query.inl @@ -0,0 +1,154 @@ +/// @ref gtx_vector_query + +#include + +namespace glm{ +namespace detail +{ + template + struct compute_areCollinear{}; + + template + struct compute_areCollinear<2, T, Q> + { + GLM_FUNC_QUALIFIER static bool call(vec<2, T, Q> const& v0, vec<2, T, Q> const& v1, T const& epsilon) + { + return length(cross(vec<3, T, Q>(v0, static_cast(0)), vec<3, T, Q>(v1, static_cast(0)))) < epsilon; + } + }; + + template + struct compute_areCollinear<3, T, Q> + { + GLM_FUNC_QUALIFIER static bool call(vec<3, T, Q> const& v0, vec<3, T, Q> const& v1, T const& epsilon) + { + return length(cross(v0, v1)) < epsilon; + } + }; + + template + struct compute_areCollinear<4, T, Q> + { + GLM_FUNC_QUALIFIER static bool call(vec<4, T, Q> const& v0, vec<4, T, Q> const& v1, T const& epsilon) + { + return length(cross(vec<3, T, Q>(v0), vec<3, T, Q>(v1))) < epsilon; + } + }; + + template + struct compute_isCompNull{}; + + template + struct compute_isCompNull<2, T, Q> + { + GLM_FUNC_QUALIFIER static vec<2, bool, Q> call(vec<2, T, Q> const& v, T const& epsilon) + { + return vec<2, bool, Q>( + (abs(v.x) < epsilon), + (abs(v.y) < epsilon)); + } + }; + + template + struct compute_isCompNull<3, T, Q> + { + GLM_FUNC_QUALIFIER static vec<3, bool, Q> call(vec<3, T, Q> const& v, T const& epsilon) + { + return vec<3, bool, Q>( + (abs(v.x) < epsilon), + (abs(v.y) < epsilon), + (abs(v.z) < epsilon)); + } + }; + + template + struct compute_isCompNull<4, T, Q> + { + GLM_FUNC_QUALIFIER static vec<4, bool, Q> call(vec<4, T, Q> const& v, T const& epsilon) + { + return vec<4, bool, Q>( + (abs(v.x) < epsilon), + (abs(v.y) < epsilon), + (abs(v.z) < epsilon), + (abs(v.w) < epsilon)); + } + }; + +}//namespace detail + + template + GLM_FUNC_QUALIFIER bool areCollinear(vec const& v0, vec const& v1, T const& epsilon) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'areCollinear' only accept floating-point inputs"); + + return detail::compute_areCollinear::call(v0, v1, epsilon); + } + + template + GLM_FUNC_QUALIFIER bool areOrthogonal(vec const& v0, vec const& v1, T const& epsilon) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'areOrthogonal' only accept floating-point inputs"); + + return abs(dot(v0, v1)) <= max( + static_cast(1), + length(v0)) * max(static_cast(1), length(v1)) * epsilon; + } + + template + GLM_FUNC_QUALIFIER bool isNormalized(vec const& v, T const& epsilon) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isNormalized' only accept floating-point inputs"); + + return abs(length(v) - static_cast(1)) <= static_cast(2) * epsilon; + } + + template + GLM_FUNC_QUALIFIER bool isNull(vec const& v, T const& epsilon) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isNull' only accept floating-point inputs"); + + return length(v) <= epsilon; + } + + template + GLM_FUNC_QUALIFIER vec isCompNull(vec const& v, T const& epsilon) + { + GLM_STATIC_ASSERT(std::numeric_limits::is_iec559, "'isCompNull' only accept floating-point inputs"); + + return detail::compute_isCompNull::call(v, epsilon); + } + + template + GLM_FUNC_QUALIFIER vec<2, bool, Q> isCompNull(vec<2, T, Q> const& v, T const& epsilon) + { + return vec<2, bool, Q>( + abs(v.x) < epsilon, + abs(v.y) < epsilon); + } + + template + GLM_FUNC_QUALIFIER vec<3, bool, Q> isCompNull(vec<3, T, Q> const& v, T const& epsilon) + { + return vec<3, bool, Q>( + abs(v.x) < epsilon, + abs(v.y) < epsilon, + abs(v.z) < epsilon); + } + + template + GLM_FUNC_QUALIFIER vec<4, bool, Q> isCompNull(vec<4, T, Q> const& v, T const& epsilon) + { + return vec<4, bool, Q>( + abs(v.x) < epsilon, + abs(v.y) < epsilon, + abs(v.z) < epsilon, + abs(v.w) < epsilon); + } + + template + GLM_FUNC_QUALIFIER bool areOrthonormal(vec const& v0, vec const& v1, T const& epsilon) + { + return isNormalized(v0, epsilon) && isNormalized(v1, epsilon) && (abs(dot(v0, v1)) <= epsilon); + } + +}//namespace glm diff --git a/Vulkan/ext/include/glm/gtx/wrap.hpp b/Vulkan/ext/include/glm/gtx/wrap.hpp new file mode 100644 index 0000000..ad4eb3f --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/wrap.hpp @@ -0,0 +1,37 @@ +/// @ref gtx_wrap +/// @file glm/gtx/wrap.hpp +/// +/// @see core (dependence) +/// +/// @defgroup gtx_wrap GLM_GTX_wrap +/// @ingroup gtx +/// +/// Include to use the features of this extension. +/// +/// Wrapping mode of texture coordinates. + +#pragma once + +// Dependency: +#include "../glm.hpp" +#include "../ext/scalar_common.hpp" +#include "../ext/vector_common.hpp" +#include "../gtc/vec1.hpp" + +#if GLM_MESSAGES == GLM_ENABLE && !defined(GLM_EXT_INCLUDED) +# ifndef GLM_ENABLE_EXPERIMENTAL +# pragma message("GLM: GLM_GTX_wrap is an experimental extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.") +# else +# pragma message("GLM: GLM_GTX_wrap extension included") +# endif +#endif + +namespace glm +{ + /// @addtogroup gtx_wrap + /// @{ + + /// @} +}// namespace glm + +#include "wrap.inl" diff --git a/Vulkan/ext/include/glm/gtx/wrap.inl b/Vulkan/ext/include/glm/gtx/wrap.inl new file mode 100644 index 0000000..4be3b4c --- /dev/null +++ b/Vulkan/ext/include/glm/gtx/wrap.inl @@ -0,0 +1,6 @@ +/// @ref gtx_wrap + +namespace glm +{ + +}//namespace glm diff --git a/Vulkan/ext/include/glm/integer.hpp b/Vulkan/ext/include/glm/integer.hpp new file mode 100644 index 0000000..8817db3 --- /dev/null +++ b/Vulkan/ext/include/glm/integer.hpp @@ -0,0 +1,212 @@ +/// @ref core +/// @file glm/integer.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.8 Integer Functions +/// +/// @defgroup core_func_integer Integer functions +/// @ingroup core +/// +/// Provides GLSL functions on integer types +/// +/// These all operate component-wise. The description is per component. +/// The notation [a, b] means the set of bits from bit-number a through bit-number +/// b, inclusive. The lowest-order bit is bit 0. +/// +/// Include to use these core features. + +#pragma once + +#include "detail/qualifier.hpp" +#include "common.hpp" +#include "vector_relational.hpp" + +namespace glm +{ + /// @addtogroup core_func_integer + /// @{ + + /// Adds 32-bit unsigned integer x and y, returning the sum + /// modulo pow(2, 32). The value carry is set to 0 if the sum was + /// less than pow(2, 32), or to 1 otherwise. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// + /// @see GLSL uaddCarry man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec uaddCarry( + vec const& x, + vec const& y, + vec & carry); + + /// Subtracts the 32-bit unsigned integer y from x, returning + /// the difference if non-negative, or pow(2, 32) plus the difference + /// otherwise. The value borrow is set to 0 if x >= y, or to 1 otherwise. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// + /// @see GLSL usubBorrow man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec usubBorrow( + vec const& x, + vec const& y, + vec & borrow); + + /// Multiplies 32-bit integers x and y, producing a 64-bit + /// result. The 32 least-significant bits are returned in lsb. + /// The 32 most-significant bits are returned in msb. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// + /// @see GLSL umulExtended man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL void umulExtended( + vec const& x, + vec const& y, + vec & msb, + vec & lsb); + + /// Multiplies 32-bit integers x and y, producing a 64-bit + /// result. The 32 least-significant bits are returned in lsb. + /// The 32 most-significant bits are returned in msb. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// + /// @see GLSL imulExtended man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL void imulExtended( + vec const& x, + vec const& y, + vec & msb, + vec & lsb); + + /// Extracts bits [offset, offset + bits - 1] from value, + /// returning them in the least significant bits of the result. + /// For unsigned data types, the most significant bits of the + /// result will be set to zero. For signed data types, the + /// most significant bits will be set to the value of bit offset + base - 1. + /// + /// If bits is zero, the result will be zero. The result will be + /// undefined if offset or bits is negative, or if the sum of + /// offset and bits is greater than the number of bits used + /// to store the operand. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Signed or unsigned integer scalar types. + /// + /// @see GLSL bitfieldExtract man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec bitfieldExtract( + vec const& Value, + int Offset, + int Bits); + + /// Returns the insertion the bits least-significant bits of insert into base. + /// + /// The result will have bits [offset, offset + bits - 1] taken + /// from bits [0, bits - 1] of insert, and all other bits taken + /// directly from the corresponding bits of base. If bits is + /// zero, the result will simply be base. The result will be + /// undefined if offset or bits is negative, or if the sum of + /// offset and bits is greater than the number of bits used to + /// store the operand. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Signed or unsigned integer scalar or vector types. + /// + /// @see GLSL bitfieldInsert man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec bitfieldInsert( + vec const& Base, + vec const& Insert, + int Offset, + int Bits); + + /// Returns the reversal of the bits of value. + /// The bit numbered n of the result will be taken from bit (bits - 1) - n of value, + /// where bits is the total number of bits used to represent value. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Signed or unsigned integer scalar or vector types. + /// + /// @see GLSL bitfieldReverse man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec bitfieldReverse(vec const& v); + + /// Returns the number of bits set to 1 in the binary representation of value. + /// + /// @tparam genType Signed or unsigned integer scalar or vector types. + /// + /// @see GLSL bitCount man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL int bitCount(genType v); + + /// Returns the number of bits set to 1 in the binary representation of value. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Signed or unsigned integer scalar or vector types. + /// + /// @see GLSL bitCount man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec bitCount(vec const& v); + + /// Returns the bit number of the least significant bit set to + /// 1 in the binary representation of value. + /// If value is zero, -1 will be returned. + /// + /// @tparam genIUType Signed or unsigned integer scalar types. + /// + /// @see GLSL findLSB man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL int findLSB(genIUType x); + + /// Returns the bit number of the least significant bit set to + /// 1 in the binary representation of value. + /// If value is zero, -1 will be returned. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Signed or unsigned integer scalar types. + /// + /// @see GLSL findLSB man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec findLSB(vec const& v); + + /// Returns the bit number of the most significant bit in the binary representation of value. + /// For positive integers, the result will be the bit number of the most significant bit set to 1. + /// For negative integers, the result will be the bit number of the most significant + /// bit set to 0. For a value of zero or negative one, -1 will be returned. + /// + /// @tparam genIUType Signed or unsigned integer scalar types. + /// + /// @see GLSL findMSB man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL int findMSB(genIUType x); + + /// Returns the bit number of the most significant bit in the binary representation of value. + /// For positive integers, the result will be the bit number of the most significant bit set to 1. + /// For negative integers, the result will be the bit number of the most significant + /// bit set to 0. For a value of zero or negative one, -1 will be returned. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T Signed or unsigned integer scalar types. + /// + /// @see GLSL findMSB man page + /// @see GLSL 4.20.8 specification, section 8.8 Integer Functions + template + GLM_FUNC_DECL vec findMSB(vec const& v); + + /// @} +}//namespace glm + +#include "detail/func_integer.inl" diff --git a/Vulkan/ext/include/glm/mat2x2.hpp b/Vulkan/ext/include/glm/mat2x2.hpp new file mode 100644 index 0000000..96bec96 --- /dev/null +++ b/Vulkan/ext/include/glm/mat2x2.hpp @@ -0,0 +1,9 @@ +/// @ref core +/// @file glm/mat2x2.hpp + +#pragma once +#include "./ext/matrix_double2x2.hpp" +#include "./ext/matrix_double2x2_precision.hpp" +#include "./ext/matrix_float2x2.hpp" +#include "./ext/matrix_float2x2_precision.hpp" + diff --git a/Vulkan/ext/include/glm/mat2x3.hpp b/Vulkan/ext/include/glm/mat2x3.hpp new file mode 100644 index 0000000..d68dc25 --- /dev/null +++ b/Vulkan/ext/include/glm/mat2x3.hpp @@ -0,0 +1,9 @@ +/// @ref core +/// @file glm/mat2x3.hpp + +#pragma once +#include "./ext/matrix_double2x3.hpp" +#include "./ext/matrix_double2x3_precision.hpp" +#include "./ext/matrix_float2x3.hpp" +#include "./ext/matrix_float2x3_precision.hpp" + diff --git a/Vulkan/ext/include/glm/mat2x4.hpp b/Vulkan/ext/include/glm/mat2x4.hpp new file mode 100644 index 0000000..b04b738 --- /dev/null +++ b/Vulkan/ext/include/glm/mat2x4.hpp @@ -0,0 +1,9 @@ +/// @ref core +/// @file glm/mat2x4.hpp + +#pragma once +#include "./ext/matrix_double2x4.hpp" +#include "./ext/matrix_double2x4_precision.hpp" +#include "./ext/matrix_float2x4.hpp" +#include "./ext/matrix_float2x4_precision.hpp" + diff --git a/Vulkan/ext/include/glm/mat3x2.hpp b/Vulkan/ext/include/glm/mat3x2.hpp new file mode 100644 index 0000000..c853153 --- /dev/null +++ b/Vulkan/ext/include/glm/mat3x2.hpp @@ -0,0 +1,9 @@ +/// @ref core +/// @file glm/mat3x2.hpp + +#pragma once +#include "./ext/matrix_double3x2.hpp" +#include "./ext/matrix_double3x2_precision.hpp" +#include "./ext/matrix_float3x2.hpp" +#include "./ext/matrix_float3x2_precision.hpp" + diff --git a/Vulkan/ext/include/glm/mat3x3.hpp b/Vulkan/ext/include/glm/mat3x3.hpp new file mode 100644 index 0000000..fd4fa31 --- /dev/null +++ b/Vulkan/ext/include/glm/mat3x3.hpp @@ -0,0 +1,8 @@ +/// @ref core +/// @file glm/mat3x3.hpp + +#pragma once +#include "./ext/matrix_double3x3.hpp" +#include "./ext/matrix_double3x3_precision.hpp" +#include "./ext/matrix_float3x3.hpp" +#include "./ext/matrix_float3x3_precision.hpp" diff --git a/Vulkan/ext/include/glm/mat3x4.hpp b/Vulkan/ext/include/glm/mat3x4.hpp new file mode 100644 index 0000000..6342bf5 --- /dev/null +++ b/Vulkan/ext/include/glm/mat3x4.hpp @@ -0,0 +1,8 @@ +/// @ref core +/// @file glm/mat3x4.hpp + +#pragma once +#include "./ext/matrix_double3x4.hpp" +#include "./ext/matrix_double3x4_precision.hpp" +#include "./ext/matrix_float3x4.hpp" +#include "./ext/matrix_float3x4_precision.hpp" diff --git a/Vulkan/ext/include/glm/mat4x2.hpp b/Vulkan/ext/include/glm/mat4x2.hpp new file mode 100644 index 0000000..e013e46 --- /dev/null +++ b/Vulkan/ext/include/glm/mat4x2.hpp @@ -0,0 +1,9 @@ +/// @ref core +/// @file glm/mat4x2.hpp + +#pragma once +#include "./ext/matrix_double4x2.hpp" +#include "./ext/matrix_double4x2_precision.hpp" +#include "./ext/matrix_float4x2.hpp" +#include "./ext/matrix_float4x2_precision.hpp" + diff --git a/Vulkan/ext/include/glm/mat4x3.hpp b/Vulkan/ext/include/glm/mat4x3.hpp new file mode 100644 index 0000000..205725a --- /dev/null +++ b/Vulkan/ext/include/glm/mat4x3.hpp @@ -0,0 +1,8 @@ +/// @ref core +/// @file glm/mat4x3.hpp + +#pragma once +#include "./ext/matrix_double4x3.hpp" +#include "./ext/matrix_double4x3_precision.hpp" +#include "./ext/matrix_float4x3.hpp" +#include "./ext/matrix_float4x3_precision.hpp" diff --git a/Vulkan/ext/include/glm/mat4x4.hpp b/Vulkan/ext/include/glm/mat4x4.hpp new file mode 100644 index 0000000..3515f7f --- /dev/null +++ b/Vulkan/ext/include/glm/mat4x4.hpp @@ -0,0 +1,9 @@ +/// @ref core +/// @file glm/mat4x4.hpp + +#pragma once +#include "./ext/matrix_double4x4.hpp" +#include "./ext/matrix_double4x4_precision.hpp" +#include "./ext/matrix_float4x4.hpp" +#include "./ext/matrix_float4x4_precision.hpp" + diff --git a/Vulkan/ext/include/glm/matrix.hpp b/Vulkan/ext/include/glm/matrix.hpp new file mode 100644 index 0000000..6badf53 --- /dev/null +++ b/Vulkan/ext/include/glm/matrix.hpp @@ -0,0 +1,161 @@ +/// @ref core +/// @file glm/matrix.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.6 Matrix Functions +/// +/// @defgroup core_func_matrix Matrix functions +/// @ingroup core +/// +/// Provides GLSL matrix functions. +/// +/// Include to use these core features. + +#pragma once + +// Dependencies +#include "detail/qualifier.hpp" +#include "detail/setup.hpp" +#include "vec2.hpp" +#include "vec3.hpp" +#include "vec4.hpp" +#include "mat2x2.hpp" +#include "mat2x3.hpp" +#include "mat2x4.hpp" +#include "mat3x2.hpp" +#include "mat3x3.hpp" +#include "mat3x4.hpp" +#include "mat4x2.hpp" +#include "mat4x3.hpp" +#include "mat4x4.hpp" + +namespace glm { +namespace detail +{ + template + struct outerProduct_trait{}; + + template + struct outerProduct_trait<2, 2, T, Q> + { + typedef mat<2, 2, T, Q> type; + }; + + template + struct outerProduct_trait<2, 3, T, Q> + { + typedef mat<3, 2, T, Q> type; + }; + + template + struct outerProduct_trait<2, 4, T, Q> + { + typedef mat<4, 2, T, Q> type; + }; + + template + struct outerProduct_trait<3, 2, T, Q> + { + typedef mat<2, 3, T, Q> type; + }; + + template + struct outerProduct_trait<3, 3, T, Q> + { + typedef mat<3, 3, T, Q> type; + }; + + template + struct outerProduct_trait<3, 4, T, Q> + { + typedef mat<4, 3, T, Q> type; + }; + + template + struct outerProduct_trait<4, 2, T, Q> + { + typedef mat<2, 4, T, Q> type; + }; + + template + struct outerProduct_trait<4, 3, T, Q> + { + typedef mat<3, 4, T, Q> type; + }; + + template + struct outerProduct_trait<4, 4, T, Q> + { + typedef mat<4, 4, T, Q> type; + }; +}//namespace detail + + /// @addtogroup core_func_matrix + /// @{ + + /// Multiply matrix x by matrix y component-wise, i.e., + /// result[i][j] is the scalar product of x[i][j] and y[i][j]. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number a column + /// @tparam R Integer between 1 and 4 included that qualify the number a row + /// @tparam T Floating-point or signed integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL matrixCompMult man page + /// @see GLSL 4.20.8 specification, section 8.6 Matrix Functions + template + GLM_FUNC_DECL mat matrixCompMult(mat const& x, mat const& y); + + /// Treats the first parameter c as a column vector + /// and the second parameter r as a row vector + /// and does a linear algebraic matrix multiply c * r. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number a column + /// @tparam R Integer between 1 and 4 included that qualify the number a row + /// @tparam T Floating-point or signed integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL outerProduct man page + /// @see GLSL 4.20.8 specification, section 8.6 Matrix Functions + template + GLM_FUNC_DECL typename detail::outerProduct_trait::type outerProduct(vec const& c, vec const& r); + + /// Returns the transposed matrix of x + /// + /// @tparam C Integer between 1 and 4 included that qualify the number a column + /// @tparam R Integer between 1 and 4 included that qualify the number a row + /// @tparam T Floating-point or signed integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL transpose man page + /// @see GLSL 4.20.8 specification, section 8.6 Matrix Functions + template + GLM_FUNC_DECL typename mat::transpose_type transpose(mat const& x); + + /// Return the determinant of a squared matrix. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number a column + /// @tparam R Integer between 1 and 4 included that qualify the number a row + /// @tparam T Floating-point or signed integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL determinant man page + /// @see GLSL 4.20.8 specification, section 8.6 Matrix Functions + template + GLM_FUNC_DECL T determinant(mat const& m); + + /// Return the inverse of a squared matrix. + /// + /// @tparam C Integer between 1 and 4 included that qualify the number a column + /// @tparam R Integer between 1 and 4 included that qualify the number a row + /// @tparam T Floating-point or signed integer scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL inverse man page + /// @see GLSL 4.20.8 specification, section 8.6 Matrix Functions + template + GLM_FUNC_DECL mat inverse(mat const& m); + + /// @} +}//namespace glm + +#include "detail/func_matrix.inl" diff --git a/Vulkan/ext/include/glm/packing.hpp b/Vulkan/ext/include/glm/packing.hpp new file mode 100644 index 0000000..ca83ac1 --- /dev/null +++ b/Vulkan/ext/include/glm/packing.hpp @@ -0,0 +1,173 @@ +/// @ref core +/// @file glm/packing.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions +/// @see gtc_packing +/// +/// @defgroup core_func_packing Floating-Point Pack and Unpack Functions +/// @ingroup core +/// +/// Provides GLSL functions to pack and unpack half, single and double-precision floating point values into more compact integer types. +/// +/// These functions do not operate component-wise, rather as described in each case. +/// +/// Include to use these core features. + +#pragma once + +#include "./ext/vector_uint2.hpp" +#include "./ext/vector_float2.hpp" +#include "./ext/vector_float4.hpp" + +namespace glm +{ + /// @addtogroup core_func_packing + /// @{ + + /// First, converts each component of the normalized floating-point value v into 8- or 16-bit integer values. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packUnorm2x16: round(clamp(c, 0, +1) * 65535.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see GLSL packUnorm2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint packUnorm2x16(vec2 const& v); + + /// First, converts each component of the normalized floating-point value v into 8- or 16-bit integer values. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packSnorm2x16: round(clamp(v, -1, +1) * 32767.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see GLSL packSnorm2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint packSnorm2x16(vec2 const& v); + + /// First, converts each component of the normalized floating-point value v into 8- or 16-bit integer values. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packUnorm4x8: round(clamp(c, 0, +1) * 255.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see GLSL packUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint packUnorm4x8(vec4 const& v); + + /// First, converts each component of the normalized floating-point value v into 8- or 16-bit integer values. + /// Then, the results are packed into the returned 32-bit unsigned integer. + /// + /// The conversion for component c of v to fixed point is done as follows: + /// packSnorm4x8: round(clamp(c, -1, +1) * 127.0) + /// + /// The first component of the vector will be written to the least significant bits of the output; + /// the last component will be written to the most significant bits. + /// + /// @see GLSL packSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint packSnorm4x8(vec4 const& v); + + /// First, unpacks a single 32-bit unsigned integer p into a pair of 16-bit unsigned integers, four 8-bit unsigned integers, or four 8-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned two- or four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackUnorm2x16: f / 65535.0 + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see GLSL unpackUnorm2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec2 unpackUnorm2x16(uint p); + + /// First, unpacks a single 32-bit unsigned integer p into a pair of 16-bit unsigned integers, four 8-bit unsigned integers, or four 8-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned two- or four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm2x16: clamp(f / 32767.0, -1, +1) + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see GLSL unpackSnorm2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec2 unpackSnorm2x16(uint p); + + /// First, unpacks a single 32-bit unsigned integer p into a pair of 16-bit unsigned integers, four 8-bit unsigned integers, or four 8-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned two- or four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackUnorm4x8: f / 255.0 + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see GLSL unpackUnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec4 unpackUnorm4x8(uint p); + + /// First, unpacks a single 32-bit unsigned integer p into a pair of 16-bit unsigned integers, four 8-bit unsigned integers, or four 8-bit signed integers. + /// Then, each component is converted to a normalized floating-point value to generate the returned two- or four-component vector. + /// + /// The conversion for unpacked fixed-point value f to floating point is done as follows: + /// unpackSnorm4x8: clamp(f / 127.0, -1, +1) + /// + /// The first component of the returned vector will be extracted from the least significant bits of the input; + /// the last component will be extracted from the most significant bits. + /// + /// @see GLSL unpackSnorm4x8 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec4 unpackSnorm4x8(uint p); + + /// Returns a double-qualifier value obtained by packing the components of v into a 64-bit value. + /// If an IEEE 754 Inf or NaN is created, it will not signal, and the resulting floating point value is unspecified. + /// Otherwise, the bit- level representation of v is preserved. + /// The first vector component specifies the 32 least significant bits; + /// the second component specifies the 32 most significant bits. + /// + /// @see GLSL packDouble2x32 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL double packDouble2x32(uvec2 const& v); + + /// Returns a two-component unsigned integer vector representation of v. + /// The bit-level representation of v is preserved. + /// The first component of the vector contains the 32 least significant bits of the double; + /// the second component consists the 32 most significant bits. + /// + /// @see GLSL unpackDouble2x32 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uvec2 unpackDouble2x32(double v); + + /// Returns an unsigned integer obtained by converting the components of a two-component floating-point vector + /// to the 16-bit floating-point representation found in the OpenGL Specification, + /// and then packing these two 16- bit integers into a 32-bit unsigned integer. + /// The first vector component specifies the 16 least-significant bits of the result; + /// the second component specifies the 16 most-significant bits. + /// + /// @see GLSL packHalf2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL uint packHalf2x16(vec2 const& v); + + /// Returns a two-component floating-point vector with components obtained by unpacking a 32-bit unsigned integer into a pair of 16-bit values, + /// interpreting those values as 16-bit floating-point numbers according to the OpenGL Specification, + /// and converting them to 32-bit floating-point values. + /// The first component of the vector is obtained from the 16 least-significant bits of v; + /// the second component is obtained from the 16 most-significant bits of v. + /// + /// @see GLSL unpackHalf2x16 man page + /// @see GLSL 4.20.8 specification, section 8.4 Floating-Point Pack and Unpack Functions + GLM_FUNC_DECL vec2 unpackHalf2x16(uint v); + + /// @} +}//namespace glm + +#include "detail/func_packing.inl" diff --git a/Vulkan/ext/include/glm/simd/common.h b/Vulkan/ext/include/glm/simd/common.h new file mode 100644 index 0000000..9b017cb --- /dev/null +++ b/Vulkan/ext/include/glm/simd/common.h @@ -0,0 +1,240 @@ +/// @ref simd +/// @file glm/simd/common.h + +#pragma once + +#include "platform.h" + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_add(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_add_ps(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec1_add(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_add_ss(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_sub(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_sub_ps(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec1_sub(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_sub_ss(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_mul(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_mul_ps(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec1_mul(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_mul_ss(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_div(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_div_ps(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec1_div(glm_f32vec4 a, glm_f32vec4 b) +{ + return _mm_div_ss(a, b); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_div_lowp(glm_f32vec4 a, glm_f32vec4 b) +{ + return glm_vec4_mul(a, _mm_rcp_ps(b)); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_swizzle_xyzw(glm_f32vec4 a) +{ +# if GLM_ARCH & GLM_ARCH_AVX2_BIT + return _mm_permute_ps(a, _MM_SHUFFLE(3, 2, 1, 0)); +# else + return _mm_shuffle_ps(a, a, _MM_SHUFFLE(3, 2, 1, 0)); +# endif +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec1_fma(glm_f32vec4 a, glm_f32vec4 b, glm_f32vec4 c) +{ +# if (GLM_ARCH & GLM_ARCH_AVX2_BIT) && !(GLM_COMPILER & GLM_COMPILER_CLANG) + return _mm_fmadd_ss(a, b, c); +# else + return _mm_add_ss(_mm_mul_ss(a, b), c); +# endif +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_fma(glm_f32vec4 a, glm_f32vec4 b, glm_f32vec4 c) +{ +# if (GLM_ARCH & GLM_ARCH_AVX2_BIT) && !(GLM_COMPILER & GLM_COMPILER_CLANG) + return _mm_fmadd_ps(a, b, c); +# else + return glm_vec4_add(glm_vec4_mul(a, b), c); +# endif +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_abs(glm_f32vec4 x) +{ + return _mm_and_ps(x, _mm_castsi128_ps(_mm_set1_epi32(0x7FFFFFFF))); +} + +GLM_FUNC_QUALIFIER glm_ivec4 glm_ivec4_abs(glm_ivec4 x) +{ +# if GLM_ARCH & GLM_ARCH_SSSE3_BIT + return _mm_sign_epi32(x, x); +# else + glm_ivec4 const sgn0 = _mm_srai_epi32(x, 31); + glm_ivec4 const inv0 = _mm_xor_si128(x, sgn0); + glm_ivec4 const sub0 = _mm_sub_epi32(inv0, sgn0); + return sub0; +# endif +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_sign(glm_vec4 x) +{ + glm_vec4 const zro0 = _mm_setzero_ps(); + glm_vec4 const cmp0 = _mm_cmplt_ps(x, zro0); + glm_vec4 const cmp1 = _mm_cmpgt_ps(x, zro0); + glm_vec4 const and0 = _mm_and_ps(cmp0, _mm_set1_ps(-1.0f)); + glm_vec4 const and1 = _mm_and_ps(cmp1, _mm_set1_ps(1.0f)); + glm_vec4 const or0 = _mm_or_ps(and0, and1); + return or0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_round(glm_vec4 x) +{ +# if GLM_ARCH & GLM_ARCH_SSE41_BIT + return _mm_round_ps(x, _MM_FROUND_TO_NEAREST_INT); +# else + glm_vec4 const sgn0 = _mm_castsi128_ps(_mm_set1_epi32(int(0x80000000))); + glm_vec4 const and0 = _mm_and_ps(sgn0, x); + glm_vec4 const or0 = _mm_or_ps(and0, _mm_set_ps1(8388608.0f)); + glm_vec4 const add0 = glm_vec4_add(x, or0); + glm_vec4 const sub0 = glm_vec4_sub(add0, or0); + return sub0; +# endif +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_floor(glm_vec4 x) +{ +# if GLM_ARCH & GLM_ARCH_SSE41_BIT + return _mm_floor_ps(x); +# else + glm_vec4 const rnd0 = glm_vec4_round(x); + glm_vec4 const cmp0 = _mm_cmplt_ps(x, rnd0); + glm_vec4 const and0 = _mm_and_ps(cmp0, _mm_set1_ps(1.0f)); + glm_vec4 const sub0 = glm_vec4_sub(rnd0, and0); + return sub0; +# endif +} + +/* trunc TODO +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_trunc(glm_vec4 x) +{ + return glm_vec4(); +} +*/ + +//roundEven +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_roundEven(glm_vec4 x) +{ + glm_vec4 const sgn0 = _mm_castsi128_ps(_mm_set1_epi32(int(0x80000000))); + glm_vec4 const and0 = _mm_and_ps(sgn0, x); + glm_vec4 const or0 = _mm_or_ps(and0, _mm_set_ps1(8388608.0f)); + glm_vec4 const add0 = glm_vec4_add(x, or0); + glm_vec4 const sub0 = glm_vec4_sub(add0, or0); + return sub0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_ceil(glm_vec4 x) +{ +# if GLM_ARCH & GLM_ARCH_SSE41_BIT + return _mm_ceil_ps(x); +# else + glm_vec4 const rnd0 = glm_vec4_round(x); + glm_vec4 const cmp0 = _mm_cmpgt_ps(x, rnd0); + glm_vec4 const and0 = _mm_and_ps(cmp0, _mm_set1_ps(1.0f)); + glm_vec4 const add0 = glm_vec4_add(rnd0, and0); + return add0; +# endif +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_fract(glm_vec4 x) +{ + glm_vec4 const flr0 = glm_vec4_floor(x); + glm_vec4 const sub0 = glm_vec4_sub(x, flr0); + return sub0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_mod(glm_vec4 x, glm_vec4 y) +{ + glm_vec4 const div0 = glm_vec4_div(x, y); + glm_vec4 const flr0 = glm_vec4_floor(div0); + glm_vec4 const mul0 = glm_vec4_mul(y, flr0); + glm_vec4 const sub0 = glm_vec4_sub(x, mul0); + return sub0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_clamp(glm_vec4 v, glm_vec4 minVal, glm_vec4 maxVal) +{ + glm_vec4 const min0 = _mm_min_ps(v, maxVal); + glm_vec4 const max0 = _mm_max_ps(min0, minVal); + return max0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_mix(glm_vec4 v1, glm_vec4 v2, glm_vec4 a) +{ + glm_vec4 const sub0 = glm_vec4_sub(_mm_set1_ps(1.0f), a); + glm_vec4 const mul0 = glm_vec4_mul(v1, sub0); + glm_vec4 const mad0 = glm_vec4_fma(v2, a, mul0); + return mad0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_step(glm_vec4 edge, glm_vec4 x) +{ + glm_vec4 const cmp = _mm_cmple_ps(x, edge); + return _mm_movemask_ps(cmp) == 0 ? _mm_set1_ps(1.0f) : _mm_setzero_ps(); +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_smoothstep(glm_vec4 edge0, glm_vec4 edge1, glm_vec4 x) +{ + glm_vec4 const sub0 = glm_vec4_sub(x, edge0); + glm_vec4 const sub1 = glm_vec4_sub(edge1, edge0); + glm_vec4 const div0 = glm_vec4_sub(sub0, sub1); + glm_vec4 const clp0 = glm_vec4_clamp(div0, _mm_setzero_ps(), _mm_set1_ps(1.0f)); + glm_vec4 const mul0 = glm_vec4_mul(_mm_set1_ps(2.0f), clp0); + glm_vec4 const sub2 = glm_vec4_sub(_mm_set1_ps(3.0f), mul0); + glm_vec4 const mul1 = glm_vec4_mul(clp0, clp0); + glm_vec4 const mul2 = glm_vec4_mul(mul1, sub2); + return mul2; +} + +// Agner Fog method +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_nan(glm_vec4 x) +{ + glm_ivec4 const t1 = _mm_castps_si128(x); // reinterpret as 32-bit integer + glm_ivec4 const t2 = _mm_sll_epi32(t1, _mm_cvtsi32_si128(1)); // shift out sign bit + glm_ivec4 const t3 = _mm_set1_epi32(int(0xFF000000)); // exponent mask + glm_ivec4 const t4 = _mm_and_si128(t2, t3); // exponent + glm_ivec4 const t5 = _mm_andnot_si128(t3, t2); // fraction + glm_ivec4 const Equal = _mm_cmpeq_epi32(t3, t4); + glm_ivec4 const Nequal = _mm_cmpeq_epi32(t5, _mm_setzero_si128()); + glm_ivec4 const And = _mm_and_si128(Equal, Nequal); + return _mm_castsi128_ps(And); // exponent = all 1s and fraction != 0 +} + +// Agner Fog method +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_inf(glm_vec4 x) +{ + glm_ivec4 const t1 = _mm_castps_si128(x); // reinterpret as 32-bit integer + glm_ivec4 const t2 = _mm_sll_epi32(t1, _mm_cvtsi32_si128(1)); // shift out sign bit + return _mm_castsi128_ps(_mm_cmpeq_epi32(t2, _mm_set1_epi32(int(0xFF000000)))); // exponent is all 1s, fraction is 0 +} + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/simd/exponential.h b/Vulkan/ext/include/glm/simd/exponential.h new file mode 100644 index 0000000..bc351d0 --- /dev/null +++ b/Vulkan/ext/include/glm/simd/exponential.h @@ -0,0 +1,20 @@ +/// @ref simd +/// @file glm/simd/experimental.h + +#pragma once + +#include "platform.h" + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec1_sqrt_lowp(glm_f32vec4 x) +{ + return _mm_mul_ss(_mm_rsqrt_ss(x), x); +} + +GLM_FUNC_QUALIFIER glm_f32vec4 glm_vec4_sqrt_lowp(glm_f32vec4 x) +{ + return _mm_mul_ps(_mm_rsqrt_ps(x), x); +} + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/simd/geometric.h b/Vulkan/ext/include/glm/simd/geometric.h new file mode 100644 index 0000000..07d7cbc --- /dev/null +++ b/Vulkan/ext/include/glm/simd/geometric.h @@ -0,0 +1,124 @@ +/// @ref simd +/// @file glm/simd/geometric.h + +#pragma once + +#include "common.h" + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +GLM_FUNC_DECL glm_vec4 glm_vec4_dot(glm_vec4 v1, glm_vec4 v2); +GLM_FUNC_DECL glm_vec4 glm_vec1_dot(glm_vec4 v1, glm_vec4 v2); + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_length(glm_vec4 x) +{ + glm_vec4 const dot0 = glm_vec4_dot(x, x); + glm_vec4 const sqt0 = _mm_sqrt_ps(dot0); + return sqt0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_distance(glm_vec4 p0, glm_vec4 p1) +{ + glm_vec4 const sub0 = _mm_sub_ps(p0, p1); + glm_vec4 const len0 = glm_vec4_length(sub0); + return len0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_dot(glm_vec4 v1, glm_vec4 v2) +{ +# if GLM_ARCH & GLM_ARCH_AVX_BIT + return _mm_dp_ps(v1, v2, 0xff); +# elif GLM_ARCH & GLM_ARCH_SSE3_BIT + glm_vec4 const mul0 = _mm_mul_ps(v1, v2); + glm_vec4 const hadd0 = _mm_hadd_ps(mul0, mul0); + glm_vec4 const hadd1 = _mm_hadd_ps(hadd0, hadd0); + return hadd1; +# else + glm_vec4 const mul0 = _mm_mul_ps(v1, v2); + glm_vec4 const swp0 = _mm_shuffle_ps(mul0, mul0, _MM_SHUFFLE(2, 3, 0, 1)); + glm_vec4 const add0 = _mm_add_ps(mul0, swp0); + glm_vec4 const swp1 = _mm_shuffle_ps(add0, add0, _MM_SHUFFLE(0, 1, 2, 3)); + glm_vec4 const add1 = _mm_add_ps(add0, swp1); + return add1; +# endif +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec1_dot(glm_vec4 v1, glm_vec4 v2) +{ +# if GLM_ARCH & GLM_ARCH_AVX_BIT + return _mm_dp_ps(v1, v2, 0xff); +# elif GLM_ARCH & GLM_ARCH_SSE3_BIT + glm_vec4 const mul0 = _mm_mul_ps(v1, v2); + glm_vec4 const had0 = _mm_hadd_ps(mul0, mul0); + glm_vec4 const had1 = _mm_hadd_ps(had0, had0); + return had1; +# else + glm_vec4 const mul0 = _mm_mul_ps(v1, v2); + glm_vec4 const mov0 = _mm_movehl_ps(mul0, mul0); + glm_vec4 const add0 = _mm_add_ps(mov0, mul0); + glm_vec4 const swp1 = _mm_shuffle_ps(add0, add0, 1); + glm_vec4 const add1 = _mm_add_ss(add0, swp1); + return add1; +# endif +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_cross(glm_vec4 v1, glm_vec4 v2) +{ + glm_vec4 const swp0 = _mm_shuffle_ps(v1, v1, _MM_SHUFFLE(3, 0, 2, 1)); + glm_vec4 const swp1 = _mm_shuffle_ps(v1, v1, _MM_SHUFFLE(3, 1, 0, 2)); + glm_vec4 const swp2 = _mm_shuffle_ps(v2, v2, _MM_SHUFFLE(3, 0, 2, 1)); + glm_vec4 const swp3 = _mm_shuffle_ps(v2, v2, _MM_SHUFFLE(3, 1, 0, 2)); + glm_vec4 const mul0 = _mm_mul_ps(swp0, swp3); + glm_vec4 const mul1 = _mm_mul_ps(swp1, swp2); + glm_vec4 const sub0 = _mm_sub_ps(mul0, mul1); + return sub0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_normalize(glm_vec4 v) +{ + glm_vec4 const dot0 = glm_vec4_dot(v, v); + glm_vec4 const isr0 = _mm_rsqrt_ps(dot0); + glm_vec4 const mul0 = _mm_mul_ps(v, isr0); + return mul0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_faceforward(glm_vec4 N, glm_vec4 I, glm_vec4 Nref) +{ + glm_vec4 const dot0 = glm_vec4_dot(Nref, I); + glm_vec4 const sgn0 = glm_vec4_sign(dot0); + glm_vec4 const mul0 = _mm_mul_ps(sgn0, _mm_set1_ps(-1.0f)); + glm_vec4 const mul1 = _mm_mul_ps(N, mul0); + return mul1; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_vec4_reflect(glm_vec4 I, glm_vec4 N) +{ + glm_vec4 const dot0 = glm_vec4_dot(N, I); + glm_vec4 const mul0 = _mm_mul_ps(N, dot0); + glm_vec4 const mul1 = _mm_mul_ps(mul0, _mm_set1_ps(2.0f)); + glm_vec4 const sub0 = _mm_sub_ps(I, mul1); + return sub0; +} + +GLM_FUNC_QUALIFIER __m128 glm_vec4_refract(glm_vec4 I, glm_vec4 N, glm_vec4 eta) +{ + glm_vec4 const dot0 = glm_vec4_dot(N, I); + glm_vec4 const mul0 = _mm_mul_ps(eta, eta); + glm_vec4 const mul1 = _mm_mul_ps(dot0, dot0); + glm_vec4 const sub0 = _mm_sub_ps(_mm_set1_ps(1.0f), mul0); + glm_vec4 const sub1 = _mm_sub_ps(_mm_set1_ps(1.0f), mul1); + glm_vec4 const mul2 = _mm_mul_ps(sub0, sub1); + + if(_mm_movemask_ps(_mm_cmplt_ss(mul2, _mm_set1_ps(0.0f))) == 0) + return _mm_set1_ps(0.0f); + + glm_vec4 const sqt0 = _mm_sqrt_ps(mul2); + glm_vec4 const mad0 = glm_vec4_fma(eta, dot0, sqt0); + glm_vec4 const mul4 = _mm_mul_ps(mad0, N); + glm_vec4 const mul5 = _mm_mul_ps(eta, I); + glm_vec4 const sub2 = _mm_sub_ps(mul5, mul4); + + return sub2; +} + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/simd/integer.h b/Vulkan/ext/include/glm/simd/integer.h new file mode 100644 index 0000000..9381418 --- /dev/null +++ b/Vulkan/ext/include/glm/simd/integer.h @@ -0,0 +1,115 @@ +/// @ref simd +/// @file glm/simd/integer.h + +#pragma once + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +GLM_FUNC_QUALIFIER glm_uvec4 glm_i128_interleave(glm_uvec4 x) +{ + glm_uvec4 const Mask4 = _mm_set1_epi32(0x0000FFFF); + glm_uvec4 const Mask3 = _mm_set1_epi32(0x00FF00FF); + glm_uvec4 const Mask2 = _mm_set1_epi32(0x0F0F0F0F); + glm_uvec4 const Mask1 = _mm_set1_epi32(0x33333333); + glm_uvec4 const Mask0 = _mm_set1_epi32(0x55555555); + + glm_uvec4 Reg1; + glm_uvec4 Reg2; + + // REG1 = x; + // REG2 = y; + //Reg1 = _mm_unpacklo_epi64(x, y); + Reg1 = x; + + //REG1 = ((REG1 << 16) | REG1) & glm::uint64(0x0000FFFF0000FFFF); + //REG2 = ((REG2 << 16) | REG2) & glm::uint64(0x0000FFFF0000FFFF); + Reg2 = _mm_slli_si128(Reg1, 2); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask4); + + //REG1 = ((REG1 << 8) | REG1) & glm::uint64(0x00FF00FF00FF00FF); + //REG2 = ((REG2 << 8) | REG2) & glm::uint64(0x00FF00FF00FF00FF); + Reg2 = _mm_slli_si128(Reg1, 1); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask3); + + //REG1 = ((REG1 << 4) | REG1) & glm::uint64(0x0F0F0F0F0F0F0F0F); + //REG2 = ((REG2 << 4) | REG2) & glm::uint64(0x0F0F0F0F0F0F0F0F); + Reg2 = _mm_slli_epi32(Reg1, 4); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask2); + + //REG1 = ((REG1 << 2) | REG1) & glm::uint64(0x3333333333333333); + //REG2 = ((REG2 << 2) | REG2) & glm::uint64(0x3333333333333333); + Reg2 = _mm_slli_epi32(Reg1, 2); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask1); + + //REG1 = ((REG1 << 1) | REG1) & glm::uint64(0x5555555555555555); + //REG2 = ((REG2 << 1) | REG2) & glm::uint64(0x5555555555555555); + Reg2 = _mm_slli_epi32(Reg1, 1); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask0); + + //return REG1 | (REG2 << 1); + Reg2 = _mm_slli_epi32(Reg1, 1); + Reg2 = _mm_srli_si128(Reg2, 8); + Reg1 = _mm_or_si128(Reg1, Reg2); + + return Reg1; +} + +GLM_FUNC_QUALIFIER glm_uvec4 glm_i128_interleave2(glm_uvec4 x, glm_uvec4 y) +{ + glm_uvec4 const Mask4 = _mm_set1_epi32(0x0000FFFF); + glm_uvec4 const Mask3 = _mm_set1_epi32(0x00FF00FF); + glm_uvec4 const Mask2 = _mm_set1_epi32(0x0F0F0F0F); + glm_uvec4 const Mask1 = _mm_set1_epi32(0x33333333); + glm_uvec4 const Mask0 = _mm_set1_epi32(0x55555555); + + glm_uvec4 Reg1; + glm_uvec4 Reg2; + + // REG1 = x; + // REG2 = y; + Reg1 = _mm_unpacklo_epi64(x, y); + + //REG1 = ((REG1 << 16) | REG1) & glm::uint64(0x0000FFFF0000FFFF); + //REG2 = ((REG2 << 16) | REG2) & glm::uint64(0x0000FFFF0000FFFF); + Reg2 = _mm_slli_si128(Reg1, 2); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask4); + + //REG1 = ((REG1 << 8) | REG1) & glm::uint64(0x00FF00FF00FF00FF); + //REG2 = ((REG2 << 8) | REG2) & glm::uint64(0x00FF00FF00FF00FF); + Reg2 = _mm_slli_si128(Reg1, 1); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask3); + + //REG1 = ((REG1 << 4) | REG1) & glm::uint64(0x0F0F0F0F0F0F0F0F); + //REG2 = ((REG2 << 4) | REG2) & glm::uint64(0x0F0F0F0F0F0F0F0F); + Reg2 = _mm_slli_epi32(Reg1, 4); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask2); + + //REG1 = ((REG1 << 2) | REG1) & glm::uint64(0x3333333333333333); + //REG2 = ((REG2 << 2) | REG2) & glm::uint64(0x3333333333333333); + Reg2 = _mm_slli_epi32(Reg1, 2); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask1); + + //REG1 = ((REG1 << 1) | REG1) & glm::uint64(0x5555555555555555); + //REG2 = ((REG2 << 1) | REG2) & glm::uint64(0x5555555555555555); + Reg2 = _mm_slli_epi32(Reg1, 1); + Reg1 = _mm_or_si128(Reg2, Reg1); + Reg1 = _mm_and_si128(Reg1, Mask0); + + //return REG1 | (REG2 << 1); + Reg2 = _mm_slli_epi32(Reg1, 1); + Reg2 = _mm_srli_si128(Reg2, 8); + Reg1 = _mm_or_si128(Reg1, Reg2); + + return Reg1; +} + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/simd/matrix.h b/Vulkan/ext/include/glm/simd/matrix.h new file mode 100644 index 0000000..b6c42ea --- /dev/null +++ b/Vulkan/ext/include/glm/simd/matrix.h @@ -0,0 +1,1028 @@ +/// @ref simd +/// @file glm/simd/matrix.h + +#pragma once + +#include "geometric.h" + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +GLM_FUNC_QUALIFIER void glm_mat4_matrixCompMult(glm_vec4 const in1[4], glm_vec4 const in2[4], glm_vec4 out[4]) +{ + out[0] = _mm_mul_ps(in1[0], in2[0]); + out[1] = _mm_mul_ps(in1[1], in2[1]); + out[2] = _mm_mul_ps(in1[2], in2[2]); + out[3] = _mm_mul_ps(in1[3], in2[3]); +} + +GLM_FUNC_QUALIFIER void glm_mat4_add(glm_vec4 const in1[4], glm_vec4 const in2[4], glm_vec4 out[4]) +{ + out[0] = _mm_add_ps(in1[0], in2[0]); + out[1] = _mm_add_ps(in1[1], in2[1]); + out[2] = _mm_add_ps(in1[2], in2[2]); + out[3] = _mm_add_ps(in1[3], in2[3]); +} + +GLM_FUNC_QUALIFIER void glm_mat4_sub(glm_vec4 const in1[4], glm_vec4 const in2[4], glm_vec4 out[4]) +{ + out[0] = _mm_sub_ps(in1[0], in2[0]); + out[1] = _mm_sub_ps(in1[1], in2[1]); + out[2] = _mm_sub_ps(in1[2], in2[2]); + out[3] = _mm_sub_ps(in1[3], in2[3]); +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_mat4_mul_vec4(glm_vec4 const m[4], glm_vec4 v) +{ + __m128 v0 = _mm_shuffle_ps(v, v, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 v1 = _mm_shuffle_ps(v, v, _MM_SHUFFLE(1, 1, 1, 1)); + __m128 v2 = _mm_shuffle_ps(v, v, _MM_SHUFFLE(2, 2, 2, 2)); + __m128 v3 = _mm_shuffle_ps(v, v, _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 m0 = _mm_mul_ps(m[0], v0); + __m128 m1 = _mm_mul_ps(m[1], v1); + __m128 m2 = _mm_mul_ps(m[2], v2); + __m128 m3 = _mm_mul_ps(m[3], v3); + + __m128 a0 = _mm_add_ps(m0, m1); + __m128 a1 = _mm_add_ps(m2, m3); + __m128 a2 = _mm_add_ps(a0, a1); + + return a2; +} + +GLM_FUNC_QUALIFIER __m128 glm_vec4_mul_mat4(glm_vec4 v, glm_vec4 const m[4]) +{ + __m128 i0 = m[0]; + __m128 i1 = m[1]; + __m128 i2 = m[2]; + __m128 i3 = m[3]; + + __m128 m0 = _mm_mul_ps(v, i0); + __m128 m1 = _mm_mul_ps(v, i1); + __m128 m2 = _mm_mul_ps(v, i2); + __m128 m3 = _mm_mul_ps(v, i3); + + __m128 u0 = _mm_unpacklo_ps(m0, m1); + __m128 u1 = _mm_unpackhi_ps(m0, m1); + __m128 a0 = _mm_add_ps(u0, u1); + + __m128 u2 = _mm_unpacklo_ps(m2, m3); + __m128 u3 = _mm_unpackhi_ps(m2, m3); + __m128 a1 = _mm_add_ps(u2, u3); + + __m128 f0 = _mm_movelh_ps(a0, a1); + __m128 f1 = _mm_movehl_ps(a1, a0); + __m128 f2 = _mm_add_ps(f0, f1); + + return f2; +} + +GLM_FUNC_QUALIFIER void glm_mat4_mul(glm_vec4 const in1[4], glm_vec4 const in2[4], glm_vec4 out[4]) +{ + { + __m128 e0 = _mm_shuffle_ps(in2[0], in2[0], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 e1 = _mm_shuffle_ps(in2[0], in2[0], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 e2 = _mm_shuffle_ps(in2[0], in2[0], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 e3 = _mm_shuffle_ps(in2[0], in2[0], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 m0 = _mm_mul_ps(in1[0], e0); + __m128 m1 = _mm_mul_ps(in1[1], e1); + __m128 m2 = _mm_mul_ps(in1[2], e2); + __m128 m3 = _mm_mul_ps(in1[3], e3); + + __m128 a0 = _mm_add_ps(m0, m1); + __m128 a1 = _mm_add_ps(m2, m3); + __m128 a2 = _mm_add_ps(a0, a1); + + out[0] = a2; + } + + { + __m128 e0 = _mm_shuffle_ps(in2[1], in2[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 e1 = _mm_shuffle_ps(in2[1], in2[1], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 e2 = _mm_shuffle_ps(in2[1], in2[1], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 e3 = _mm_shuffle_ps(in2[1], in2[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 m0 = _mm_mul_ps(in1[0], e0); + __m128 m1 = _mm_mul_ps(in1[1], e1); + __m128 m2 = _mm_mul_ps(in1[2], e2); + __m128 m3 = _mm_mul_ps(in1[3], e3); + + __m128 a0 = _mm_add_ps(m0, m1); + __m128 a1 = _mm_add_ps(m2, m3); + __m128 a2 = _mm_add_ps(a0, a1); + + out[1] = a2; + } + + { + __m128 e0 = _mm_shuffle_ps(in2[2], in2[2], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 e1 = _mm_shuffle_ps(in2[2], in2[2], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 e2 = _mm_shuffle_ps(in2[2], in2[2], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 e3 = _mm_shuffle_ps(in2[2], in2[2], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 m0 = _mm_mul_ps(in1[0], e0); + __m128 m1 = _mm_mul_ps(in1[1], e1); + __m128 m2 = _mm_mul_ps(in1[2], e2); + __m128 m3 = _mm_mul_ps(in1[3], e3); + + __m128 a0 = _mm_add_ps(m0, m1); + __m128 a1 = _mm_add_ps(m2, m3); + __m128 a2 = _mm_add_ps(a0, a1); + + out[2] = a2; + } + + { + //(__m128&)_mm_shuffle_epi32(__m128i&)in2[0], _MM_SHUFFLE(3, 3, 3, 3)) + __m128 e0 = _mm_shuffle_ps(in2[3], in2[3], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 e1 = _mm_shuffle_ps(in2[3], in2[3], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 e2 = _mm_shuffle_ps(in2[3], in2[3], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 e3 = _mm_shuffle_ps(in2[3], in2[3], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 m0 = _mm_mul_ps(in1[0], e0); + __m128 m1 = _mm_mul_ps(in1[1], e1); + __m128 m2 = _mm_mul_ps(in1[2], e2); + __m128 m3 = _mm_mul_ps(in1[3], e3); + + __m128 a0 = _mm_add_ps(m0, m1); + __m128 a1 = _mm_add_ps(m2, m3); + __m128 a2 = _mm_add_ps(a0, a1); + + out[3] = a2; + } +} + +GLM_FUNC_QUALIFIER void glm_mat4_transpose(glm_vec4 const in[4], glm_vec4 out[4]) +{ + __m128 tmp0 = _mm_shuffle_ps(in[0], in[1], 0x44); + __m128 tmp2 = _mm_shuffle_ps(in[0], in[1], 0xEE); + __m128 tmp1 = _mm_shuffle_ps(in[2], in[3], 0x44); + __m128 tmp3 = _mm_shuffle_ps(in[2], in[3], 0xEE); + + out[0] = _mm_shuffle_ps(tmp0, tmp1, 0x88); + out[1] = _mm_shuffle_ps(tmp0, tmp1, 0xDD); + out[2] = _mm_shuffle_ps(tmp2, tmp3, 0x88); + out[3] = _mm_shuffle_ps(tmp2, tmp3, 0xDD); +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_mat4_determinant_highp(glm_vec4 const in[4]) +{ + __m128 Fac0; + { + // valType SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // valType SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // valType SubFactor06 = m[1][2] * m[3][3] - m[3][2] * m[1][3]; + // valType SubFactor13 = m[1][2] * m[2][3] - m[2][2] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac0 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac1; + { + // valType SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // valType SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // valType SubFactor07 = m[1][1] * m[3][3] - m[3][1] * m[1][3]; + // valType SubFactor14 = m[1][1] * m[2][3] - m[2][1] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac1 = _mm_sub_ps(Mul00, Mul01); + } + + + __m128 Fac2; + { + // valType SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // valType SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // valType SubFactor08 = m[1][1] * m[3][2] - m[3][1] * m[1][2]; + // valType SubFactor15 = m[1][1] * m[2][2] - m[2][1] * m[1][2]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac2 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac3; + { + // valType SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // valType SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // valType SubFactor09 = m[1][0] * m[3][3] - m[3][0] * m[1][3]; + // valType SubFactor16 = m[1][0] * m[2][3] - m[2][0] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac3 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac4; + { + // valType SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // valType SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // valType SubFactor10 = m[1][0] * m[3][2] - m[3][0] * m[1][2]; + // valType SubFactor17 = m[1][0] * m[2][2] - m[2][0] * m[1][2]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac4 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac5; + { + // valType SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // valType SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // valType SubFactor12 = m[1][0] * m[3][1] - m[3][0] * m[1][1]; + // valType SubFactor18 = m[1][0] * m[2][1] - m[2][0] * m[1][1]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac5 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 SignA = _mm_set_ps( 1.0f,-1.0f, 1.0f,-1.0f); + __m128 SignB = _mm_set_ps(-1.0f, 1.0f,-1.0f, 1.0f); + + // m[1][0] + // m[0][0] + // m[0][0] + // m[0][0] + __m128 Temp0 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Vec0 = _mm_shuffle_ps(Temp0, Temp0, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][1] + // m[0][1] + // m[0][1] + // m[0][1] + __m128 Temp1 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Vec1 = _mm_shuffle_ps(Temp1, Temp1, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][2] + // m[0][2] + // m[0][2] + // m[0][2] + __m128 Temp2 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Vec2 = _mm_shuffle_ps(Temp2, Temp2, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][3] + // m[0][3] + // m[0][3] + // m[0][3] + __m128 Temp3 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Vec3 = _mm_shuffle_ps(Temp3, Temp3, _MM_SHUFFLE(2, 2, 2, 0)); + + // col0 + // + (Vec1[0] * Fac0[0] - Vec2[0] * Fac1[0] + Vec3[0] * Fac2[0]), + // - (Vec1[1] * Fac0[1] - Vec2[1] * Fac1[1] + Vec3[1] * Fac2[1]), + // + (Vec1[2] * Fac0[2] - Vec2[2] * Fac1[2] + Vec3[2] * Fac2[2]), + // - (Vec1[3] * Fac0[3] - Vec2[3] * Fac1[3] + Vec3[3] * Fac2[3]), + __m128 Mul00 = _mm_mul_ps(Vec1, Fac0); + __m128 Mul01 = _mm_mul_ps(Vec2, Fac1); + __m128 Mul02 = _mm_mul_ps(Vec3, Fac2); + __m128 Sub00 = _mm_sub_ps(Mul00, Mul01); + __m128 Add00 = _mm_add_ps(Sub00, Mul02); + __m128 Inv0 = _mm_mul_ps(SignB, Add00); + + // col1 + // - (Vec0[0] * Fac0[0] - Vec2[0] * Fac3[0] + Vec3[0] * Fac4[0]), + // + (Vec0[0] * Fac0[1] - Vec2[1] * Fac3[1] + Vec3[1] * Fac4[1]), + // - (Vec0[0] * Fac0[2] - Vec2[2] * Fac3[2] + Vec3[2] * Fac4[2]), + // + (Vec0[0] * Fac0[3] - Vec2[3] * Fac3[3] + Vec3[3] * Fac4[3]), + __m128 Mul03 = _mm_mul_ps(Vec0, Fac0); + __m128 Mul04 = _mm_mul_ps(Vec2, Fac3); + __m128 Mul05 = _mm_mul_ps(Vec3, Fac4); + __m128 Sub01 = _mm_sub_ps(Mul03, Mul04); + __m128 Add01 = _mm_add_ps(Sub01, Mul05); + __m128 Inv1 = _mm_mul_ps(SignA, Add01); + + // col2 + // + (Vec0[0] * Fac1[0] - Vec1[0] * Fac3[0] + Vec3[0] * Fac5[0]), + // - (Vec0[0] * Fac1[1] - Vec1[1] * Fac3[1] + Vec3[1] * Fac5[1]), + // + (Vec0[0] * Fac1[2] - Vec1[2] * Fac3[2] + Vec3[2] * Fac5[2]), + // - (Vec0[0] * Fac1[3] - Vec1[3] * Fac3[3] + Vec3[3] * Fac5[3]), + __m128 Mul06 = _mm_mul_ps(Vec0, Fac1); + __m128 Mul07 = _mm_mul_ps(Vec1, Fac3); + __m128 Mul08 = _mm_mul_ps(Vec3, Fac5); + __m128 Sub02 = _mm_sub_ps(Mul06, Mul07); + __m128 Add02 = _mm_add_ps(Sub02, Mul08); + __m128 Inv2 = _mm_mul_ps(SignB, Add02); + + // col3 + // - (Vec1[0] * Fac2[0] - Vec1[0] * Fac4[0] + Vec2[0] * Fac5[0]), + // + (Vec1[0] * Fac2[1] - Vec1[1] * Fac4[1] + Vec2[1] * Fac5[1]), + // - (Vec1[0] * Fac2[2] - Vec1[2] * Fac4[2] + Vec2[2] * Fac5[2]), + // + (Vec1[0] * Fac2[3] - Vec1[3] * Fac4[3] + Vec2[3] * Fac5[3])); + __m128 Mul09 = _mm_mul_ps(Vec0, Fac2); + __m128 Mul10 = _mm_mul_ps(Vec1, Fac4); + __m128 Mul11 = _mm_mul_ps(Vec2, Fac5); + __m128 Sub03 = _mm_sub_ps(Mul09, Mul10); + __m128 Add03 = _mm_add_ps(Sub03, Mul11); + __m128 Inv3 = _mm_mul_ps(SignA, Add03); + + __m128 Row0 = _mm_shuffle_ps(Inv0, Inv1, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Row1 = _mm_shuffle_ps(Inv2, Inv3, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Row2 = _mm_shuffle_ps(Row0, Row1, _MM_SHUFFLE(2, 0, 2, 0)); + + // valType Determinant = m[0][0] * Inverse[0][0] + // + m[0][1] * Inverse[1][0] + // + m[0][2] * Inverse[2][0] + // + m[0][3] * Inverse[3][0]; + __m128 Det0 = glm_vec4_dot(in[0], Row2); + return Det0; +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_mat4_determinant_lowp(glm_vec4 const m[4]) +{ + // _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128( + + //T SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + //T SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + //T SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + //T SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + //T SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + //T SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + + // First 2 columns + __m128 Swp2A = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[2]), _MM_SHUFFLE(0, 1, 1, 2))); + __m128 Swp3A = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[3]), _MM_SHUFFLE(3, 2, 3, 3))); + __m128 MulA = _mm_mul_ps(Swp2A, Swp3A); + + // Second 2 columns + __m128 Swp2B = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[2]), _MM_SHUFFLE(3, 2, 3, 3))); + __m128 Swp3B = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[3]), _MM_SHUFFLE(0, 1, 1, 2))); + __m128 MulB = _mm_mul_ps(Swp2B, Swp3B); + + // Columns subtraction + __m128 SubE = _mm_sub_ps(MulA, MulB); + + // Last 2 rows + __m128 Swp2C = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[2]), _MM_SHUFFLE(0, 0, 1, 2))); + __m128 Swp3C = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[3]), _MM_SHUFFLE(1, 2, 0, 0))); + __m128 MulC = _mm_mul_ps(Swp2C, Swp3C); + __m128 SubF = _mm_sub_ps(_mm_movehl_ps(MulC, MulC), MulC); + + //vec<4, T, Q> DetCof( + // + (m[1][1] * SubFactor00 - m[1][2] * SubFactor01 + m[1][3] * SubFactor02), + // - (m[1][0] * SubFactor00 - m[1][2] * SubFactor03 + m[1][3] * SubFactor04), + // + (m[1][0] * SubFactor01 - m[1][1] * SubFactor03 + m[1][3] * SubFactor05), + // - (m[1][0] * SubFactor02 - m[1][1] * SubFactor04 + m[1][2] * SubFactor05)); + + __m128 SubFacA = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(SubE), _MM_SHUFFLE(2, 1, 0, 0))); + __m128 SwpFacA = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[1]), _MM_SHUFFLE(0, 0, 0, 1))); + __m128 MulFacA = _mm_mul_ps(SwpFacA, SubFacA); + + __m128 SubTmpB = _mm_shuffle_ps(SubE, SubF, _MM_SHUFFLE(0, 0, 3, 1)); + __m128 SubFacB = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(SubTmpB), _MM_SHUFFLE(3, 1, 1, 0)));//SubF[0], SubE[3], SubE[3], SubE[1]; + __m128 SwpFacB = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[1]), _MM_SHUFFLE(1, 1, 2, 2))); + __m128 MulFacB = _mm_mul_ps(SwpFacB, SubFacB); + + __m128 SubRes = _mm_sub_ps(MulFacA, MulFacB); + + __m128 SubTmpC = _mm_shuffle_ps(SubE, SubF, _MM_SHUFFLE(1, 0, 2, 2)); + __m128 SubFacC = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(SubTmpC), _MM_SHUFFLE(3, 3, 2, 0))); + __m128 SwpFacC = _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(m[1]), _MM_SHUFFLE(2, 3, 3, 3))); + __m128 MulFacC = _mm_mul_ps(SwpFacC, SubFacC); + + __m128 AddRes = _mm_add_ps(SubRes, MulFacC); + __m128 DetCof = _mm_mul_ps(AddRes, _mm_setr_ps( 1.0f,-1.0f, 1.0f,-1.0f)); + + //return m[0][0] * DetCof[0] + // + m[0][1] * DetCof[1] + // + m[0][2] * DetCof[2] + // + m[0][3] * DetCof[3]; + + return glm_vec4_dot(m[0], DetCof); +} + +GLM_FUNC_QUALIFIER glm_vec4 glm_mat4_determinant(glm_vec4 const m[4]) +{ + // _mm_castsi128_ps(_mm_shuffle_epi32(_mm_castps_si128(add) + + //T SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + //T SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + //T SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + //T SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + //T SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + //T SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + + // First 2 columns + __m128 Swp2A = _mm_shuffle_ps(m[2], m[2], _MM_SHUFFLE(0, 1, 1, 2)); + __m128 Swp3A = _mm_shuffle_ps(m[3], m[3], _MM_SHUFFLE(3, 2, 3, 3)); + __m128 MulA = _mm_mul_ps(Swp2A, Swp3A); + + // Second 2 columns + __m128 Swp2B = _mm_shuffle_ps(m[2], m[2], _MM_SHUFFLE(3, 2, 3, 3)); + __m128 Swp3B = _mm_shuffle_ps(m[3], m[3], _MM_SHUFFLE(0, 1, 1, 2)); + __m128 MulB = _mm_mul_ps(Swp2B, Swp3B); + + // Columns subtraction + __m128 SubE = _mm_sub_ps(MulA, MulB); + + // Last 2 rows + __m128 Swp2C = _mm_shuffle_ps(m[2], m[2], _MM_SHUFFLE(0, 0, 1, 2)); + __m128 Swp3C = _mm_shuffle_ps(m[3], m[3], _MM_SHUFFLE(1, 2, 0, 0)); + __m128 MulC = _mm_mul_ps(Swp2C, Swp3C); + __m128 SubF = _mm_sub_ps(_mm_movehl_ps(MulC, MulC), MulC); + + //vec<4, T, Q> DetCof( + // + (m[1][1] * SubFactor00 - m[1][2] * SubFactor01 + m[1][3] * SubFactor02), + // - (m[1][0] * SubFactor00 - m[1][2] * SubFactor03 + m[1][3] * SubFactor04), + // + (m[1][0] * SubFactor01 - m[1][1] * SubFactor03 + m[1][3] * SubFactor05), + // - (m[1][0] * SubFactor02 - m[1][1] * SubFactor04 + m[1][2] * SubFactor05)); + + __m128 SubFacA = _mm_shuffle_ps(SubE, SubE, _MM_SHUFFLE(2, 1, 0, 0)); + __m128 SwpFacA = _mm_shuffle_ps(m[1], m[1], _MM_SHUFFLE(0, 0, 0, 1)); + __m128 MulFacA = _mm_mul_ps(SwpFacA, SubFacA); + + __m128 SubTmpB = _mm_shuffle_ps(SubE, SubF, _MM_SHUFFLE(0, 0, 3, 1)); + __m128 SubFacB = _mm_shuffle_ps(SubTmpB, SubTmpB, _MM_SHUFFLE(3, 1, 1, 0));//SubF[0], SubE[3], SubE[3], SubE[1]; + __m128 SwpFacB = _mm_shuffle_ps(m[1], m[1], _MM_SHUFFLE(1, 1, 2, 2)); + __m128 MulFacB = _mm_mul_ps(SwpFacB, SubFacB); + + __m128 SubRes = _mm_sub_ps(MulFacA, MulFacB); + + __m128 SubTmpC = _mm_shuffle_ps(SubE, SubF, _MM_SHUFFLE(1, 0, 2, 2)); + __m128 SubFacC = _mm_shuffle_ps(SubTmpC, SubTmpC, _MM_SHUFFLE(3, 3, 2, 0)); + __m128 SwpFacC = _mm_shuffle_ps(m[1], m[1], _MM_SHUFFLE(2, 3, 3, 3)); + __m128 MulFacC = _mm_mul_ps(SwpFacC, SubFacC); + + __m128 AddRes = _mm_add_ps(SubRes, MulFacC); + __m128 DetCof = _mm_mul_ps(AddRes, _mm_setr_ps( 1.0f,-1.0f, 1.0f,-1.0f)); + + //return m[0][0] * DetCof[0] + // + m[0][1] * DetCof[1] + // + m[0][2] * DetCof[2] + // + m[0][3] * DetCof[3]; + + return glm_vec4_dot(m[0], DetCof); +} + +GLM_FUNC_QUALIFIER void glm_mat4_inverse(glm_vec4 const in[4], glm_vec4 out[4]) +{ + __m128 Fac0; + { + // valType SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // valType SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // valType SubFactor06 = m[1][2] * m[3][3] - m[3][2] * m[1][3]; + // valType SubFactor13 = m[1][2] * m[2][3] - m[2][2] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac0 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac1; + { + // valType SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // valType SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // valType SubFactor07 = m[1][1] * m[3][3] - m[3][1] * m[1][3]; + // valType SubFactor14 = m[1][1] * m[2][3] - m[2][1] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac1 = _mm_sub_ps(Mul00, Mul01); + } + + + __m128 Fac2; + { + // valType SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // valType SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // valType SubFactor08 = m[1][1] * m[3][2] - m[3][1] * m[1][2]; + // valType SubFactor15 = m[1][1] * m[2][2] - m[2][1] * m[1][2]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac2 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac3; + { + // valType SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // valType SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // valType SubFactor09 = m[1][0] * m[3][3] - m[3][0] * m[1][3]; + // valType SubFactor16 = m[1][0] * m[2][3] - m[2][0] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac3 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac4; + { + // valType SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // valType SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // valType SubFactor10 = m[1][0] * m[3][2] - m[3][0] * m[1][2]; + // valType SubFactor17 = m[1][0] * m[2][2] - m[2][0] * m[1][2]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac4 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac5; + { + // valType SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // valType SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // valType SubFactor12 = m[1][0] * m[3][1] - m[3][0] * m[1][1]; + // valType SubFactor18 = m[1][0] * m[2][1] - m[2][0] * m[1][1]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac5 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 SignA = _mm_set_ps( 1.0f,-1.0f, 1.0f,-1.0f); + __m128 SignB = _mm_set_ps(-1.0f, 1.0f,-1.0f, 1.0f); + + // m[1][0] + // m[0][0] + // m[0][0] + // m[0][0] + __m128 Temp0 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Vec0 = _mm_shuffle_ps(Temp0, Temp0, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][1] + // m[0][1] + // m[0][1] + // m[0][1] + __m128 Temp1 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Vec1 = _mm_shuffle_ps(Temp1, Temp1, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][2] + // m[0][2] + // m[0][2] + // m[0][2] + __m128 Temp2 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Vec2 = _mm_shuffle_ps(Temp2, Temp2, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][3] + // m[0][3] + // m[0][3] + // m[0][3] + __m128 Temp3 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Vec3 = _mm_shuffle_ps(Temp3, Temp3, _MM_SHUFFLE(2, 2, 2, 0)); + + // col0 + // + (Vec1[0] * Fac0[0] - Vec2[0] * Fac1[0] + Vec3[0] * Fac2[0]), + // - (Vec1[1] * Fac0[1] - Vec2[1] * Fac1[1] + Vec3[1] * Fac2[1]), + // + (Vec1[2] * Fac0[2] - Vec2[2] * Fac1[2] + Vec3[2] * Fac2[2]), + // - (Vec1[3] * Fac0[3] - Vec2[3] * Fac1[3] + Vec3[3] * Fac2[3]), + __m128 Mul00 = _mm_mul_ps(Vec1, Fac0); + __m128 Mul01 = _mm_mul_ps(Vec2, Fac1); + __m128 Mul02 = _mm_mul_ps(Vec3, Fac2); + __m128 Sub00 = _mm_sub_ps(Mul00, Mul01); + __m128 Add00 = _mm_add_ps(Sub00, Mul02); + __m128 Inv0 = _mm_mul_ps(SignB, Add00); + + // col1 + // - (Vec0[0] * Fac0[0] - Vec2[0] * Fac3[0] + Vec3[0] * Fac4[0]), + // + (Vec0[0] * Fac0[1] - Vec2[1] * Fac3[1] + Vec3[1] * Fac4[1]), + // - (Vec0[0] * Fac0[2] - Vec2[2] * Fac3[2] + Vec3[2] * Fac4[2]), + // + (Vec0[0] * Fac0[3] - Vec2[3] * Fac3[3] + Vec3[3] * Fac4[3]), + __m128 Mul03 = _mm_mul_ps(Vec0, Fac0); + __m128 Mul04 = _mm_mul_ps(Vec2, Fac3); + __m128 Mul05 = _mm_mul_ps(Vec3, Fac4); + __m128 Sub01 = _mm_sub_ps(Mul03, Mul04); + __m128 Add01 = _mm_add_ps(Sub01, Mul05); + __m128 Inv1 = _mm_mul_ps(SignA, Add01); + + // col2 + // + (Vec0[0] * Fac1[0] - Vec1[0] * Fac3[0] + Vec3[0] * Fac5[0]), + // - (Vec0[0] * Fac1[1] - Vec1[1] * Fac3[1] + Vec3[1] * Fac5[1]), + // + (Vec0[0] * Fac1[2] - Vec1[2] * Fac3[2] + Vec3[2] * Fac5[2]), + // - (Vec0[0] * Fac1[3] - Vec1[3] * Fac3[3] + Vec3[3] * Fac5[3]), + __m128 Mul06 = _mm_mul_ps(Vec0, Fac1); + __m128 Mul07 = _mm_mul_ps(Vec1, Fac3); + __m128 Mul08 = _mm_mul_ps(Vec3, Fac5); + __m128 Sub02 = _mm_sub_ps(Mul06, Mul07); + __m128 Add02 = _mm_add_ps(Sub02, Mul08); + __m128 Inv2 = _mm_mul_ps(SignB, Add02); + + // col3 + // - (Vec1[0] * Fac2[0] - Vec1[0] * Fac4[0] + Vec2[0] * Fac5[0]), + // + (Vec1[0] * Fac2[1] - Vec1[1] * Fac4[1] + Vec2[1] * Fac5[1]), + // - (Vec1[0] * Fac2[2] - Vec1[2] * Fac4[2] + Vec2[2] * Fac5[2]), + // + (Vec1[0] * Fac2[3] - Vec1[3] * Fac4[3] + Vec2[3] * Fac5[3])); + __m128 Mul09 = _mm_mul_ps(Vec0, Fac2); + __m128 Mul10 = _mm_mul_ps(Vec1, Fac4); + __m128 Mul11 = _mm_mul_ps(Vec2, Fac5); + __m128 Sub03 = _mm_sub_ps(Mul09, Mul10); + __m128 Add03 = _mm_add_ps(Sub03, Mul11); + __m128 Inv3 = _mm_mul_ps(SignA, Add03); + + __m128 Row0 = _mm_shuffle_ps(Inv0, Inv1, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Row1 = _mm_shuffle_ps(Inv2, Inv3, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Row2 = _mm_shuffle_ps(Row0, Row1, _MM_SHUFFLE(2, 0, 2, 0)); + + // valType Determinant = m[0][0] * Inverse[0][0] + // + m[0][1] * Inverse[1][0] + // + m[0][2] * Inverse[2][0] + // + m[0][3] * Inverse[3][0]; + __m128 Det0 = glm_vec4_dot(in[0], Row2); + __m128 Rcp0 = _mm_div_ps(_mm_set1_ps(1.0f), Det0); + //__m128 Rcp0 = _mm_rcp_ps(Det0); + + // Inverse /= Determinant; + out[0] = _mm_mul_ps(Inv0, Rcp0); + out[1] = _mm_mul_ps(Inv1, Rcp0); + out[2] = _mm_mul_ps(Inv2, Rcp0); + out[3] = _mm_mul_ps(Inv3, Rcp0); +} + +GLM_FUNC_QUALIFIER void glm_mat4_inverse_lowp(glm_vec4 const in[4], glm_vec4 out[4]) +{ + __m128 Fac0; + { + // valType SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // valType SubFactor00 = m[2][2] * m[3][3] - m[3][2] * m[2][3]; + // valType SubFactor06 = m[1][2] * m[3][3] - m[3][2] * m[1][3]; + // valType SubFactor13 = m[1][2] * m[2][3] - m[2][2] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac0 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac1; + { + // valType SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // valType SubFactor01 = m[2][1] * m[3][3] - m[3][1] * m[2][3]; + // valType SubFactor07 = m[1][1] * m[3][3] - m[3][1] * m[1][3]; + // valType SubFactor14 = m[1][1] * m[2][3] - m[2][1] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac1 = _mm_sub_ps(Mul00, Mul01); + } + + + __m128 Fac2; + { + // valType SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // valType SubFactor02 = m[2][1] * m[3][2] - m[3][1] * m[2][2]; + // valType SubFactor08 = m[1][1] * m[3][2] - m[3][1] * m[1][2]; + // valType SubFactor15 = m[1][1] * m[2][2] - m[2][1] * m[1][2]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac2 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac3; + { + // valType SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // valType SubFactor03 = m[2][0] * m[3][3] - m[3][0] * m[2][3]; + // valType SubFactor09 = m[1][0] * m[3][3] - m[3][0] * m[1][3]; + // valType SubFactor16 = m[1][0] * m[2][3] - m[2][0] * m[1][3]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(3, 3, 3, 3)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac3 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac4; + { + // valType SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // valType SubFactor04 = m[2][0] * m[3][2] - m[3][0] * m[2][2]; + // valType SubFactor10 = m[1][0] * m[3][2] - m[3][0] * m[1][2]; + // valType SubFactor17 = m[1][0] * m[2][2] - m[2][0] * m[1][2]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(2, 2, 2, 2)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac4 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 Fac5; + { + // valType SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // valType SubFactor05 = m[2][0] * m[3][1] - m[3][0] * m[2][1]; + // valType SubFactor12 = m[1][0] * m[3][1] - m[3][0] * m[1][1]; + // valType SubFactor18 = m[1][0] * m[2][1] - m[2][0] * m[1][1]; + + __m128 Swp0a = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Swp0b = _mm_shuffle_ps(in[3], in[2], _MM_SHUFFLE(0, 0, 0, 0)); + + __m128 Swp00 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Swp01 = _mm_shuffle_ps(Swp0a, Swp0a, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp02 = _mm_shuffle_ps(Swp0b, Swp0b, _MM_SHUFFLE(2, 0, 0, 0)); + __m128 Swp03 = _mm_shuffle_ps(in[2], in[1], _MM_SHUFFLE(1, 1, 1, 1)); + + __m128 Mul00 = _mm_mul_ps(Swp00, Swp01); + __m128 Mul01 = _mm_mul_ps(Swp02, Swp03); + Fac5 = _mm_sub_ps(Mul00, Mul01); + } + + __m128 SignA = _mm_set_ps( 1.0f,-1.0f, 1.0f,-1.0f); + __m128 SignB = _mm_set_ps(-1.0f, 1.0f,-1.0f, 1.0f); + + // m[1][0] + // m[0][0] + // m[0][0] + // m[0][0] + __m128 Temp0 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Vec0 = _mm_shuffle_ps(Temp0, Temp0, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][1] + // m[0][1] + // m[0][1] + // m[0][1] + __m128 Temp1 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(1, 1, 1, 1)); + __m128 Vec1 = _mm_shuffle_ps(Temp1, Temp1, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][2] + // m[0][2] + // m[0][2] + // m[0][2] + __m128 Temp2 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(2, 2, 2, 2)); + __m128 Vec2 = _mm_shuffle_ps(Temp2, Temp2, _MM_SHUFFLE(2, 2, 2, 0)); + + // m[1][3] + // m[0][3] + // m[0][3] + // m[0][3] + __m128 Temp3 = _mm_shuffle_ps(in[1], in[0], _MM_SHUFFLE(3, 3, 3, 3)); + __m128 Vec3 = _mm_shuffle_ps(Temp3, Temp3, _MM_SHUFFLE(2, 2, 2, 0)); + + // col0 + // + (Vec1[0] * Fac0[0] - Vec2[0] * Fac1[0] + Vec3[0] * Fac2[0]), + // - (Vec1[1] * Fac0[1] - Vec2[1] * Fac1[1] + Vec3[1] * Fac2[1]), + // + (Vec1[2] * Fac0[2] - Vec2[2] * Fac1[2] + Vec3[2] * Fac2[2]), + // - (Vec1[3] * Fac0[3] - Vec2[3] * Fac1[3] + Vec3[3] * Fac2[3]), + __m128 Mul00 = _mm_mul_ps(Vec1, Fac0); + __m128 Mul01 = _mm_mul_ps(Vec2, Fac1); + __m128 Mul02 = _mm_mul_ps(Vec3, Fac2); + __m128 Sub00 = _mm_sub_ps(Mul00, Mul01); + __m128 Add00 = _mm_add_ps(Sub00, Mul02); + __m128 Inv0 = _mm_mul_ps(SignB, Add00); + + // col1 + // - (Vec0[0] * Fac0[0] - Vec2[0] * Fac3[0] + Vec3[0] * Fac4[0]), + // + (Vec0[0] * Fac0[1] - Vec2[1] * Fac3[1] + Vec3[1] * Fac4[1]), + // - (Vec0[0] * Fac0[2] - Vec2[2] * Fac3[2] + Vec3[2] * Fac4[2]), + // + (Vec0[0] * Fac0[3] - Vec2[3] * Fac3[3] + Vec3[3] * Fac4[3]), + __m128 Mul03 = _mm_mul_ps(Vec0, Fac0); + __m128 Mul04 = _mm_mul_ps(Vec2, Fac3); + __m128 Mul05 = _mm_mul_ps(Vec3, Fac4); + __m128 Sub01 = _mm_sub_ps(Mul03, Mul04); + __m128 Add01 = _mm_add_ps(Sub01, Mul05); + __m128 Inv1 = _mm_mul_ps(SignA, Add01); + + // col2 + // + (Vec0[0] * Fac1[0] - Vec1[0] * Fac3[0] + Vec3[0] * Fac5[0]), + // - (Vec0[0] * Fac1[1] - Vec1[1] * Fac3[1] + Vec3[1] * Fac5[1]), + // + (Vec0[0] * Fac1[2] - Vec1[2] * Fac3[2] + Vec3[2] * Fac5[2]), + // - (Vec0[0] * Fac1[3] - Vec1[3] * Fac3[3] + Vec3[3] * Fac5[3]), + __m128 Mul06 = _mm_mul_ps(Vec0, Fac1); + __m128 Mul07 = _mm_mul_ps(Vec1, Fac3); + __m128 Mul08 = _mm_mul_ps(Vec3, Fac5); + __m128 Sub02 = _mm_sub_ps(Mul06, Mul07); + __m128 Add02 = _mm_add_ps(Sub02, Mul08); + __m128 Inv2 = _mm_mul_ps(SignB, Add02); + + // col3 + // - (Vec1[0] * Fac2[0] - Vec1[0] * Fac4[0] + Vec2[0] * Fac5[0]), + // + (Vec1[0] * Fac2[1] - Vec1[1] * Fac4[1] + Vec2[1] * Fac5[1]), + // - (Vec1[0] * Fac2[2] - Vec1[2] * Fac4[2] + Vec2[2] * Fac5[2]), + // + (Vec1[0] * Fac2[3] - Vec1[3] * Fac4[3] + Vec2[3] * Fac5[3])); + __m128 Mul09 = _mm_mul_ps(Vec0, Fac2); + __m128 Mul10 = _mm_mul_ps(Vec1, Fac4); + __m128 Mul11 = _mm_mul_ps(Vec2, Fac5); + __m128 Sub03 = _mm_sub_ps(Mul09, Mul10); + __m128 Add03 = _mm_add_ps(Sub03, Mul11); + __m128 Inv3 = _mm_mul_ps(SignA, Add03); + + __m128 Row0 = _mm_shuffle_ps(Inv0, Inv1, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Row1 = _mm_shuffle_ps(Inv2, Inv3, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Row2 = _mm_shuffle_ps(Row0, Row1, _MM_SHUFFLE(2, 0, 2, 0)); + + // valType Determinant = m[0][0] * Inverse[0][0] + // + m[0][1] * Inverse[1][0] + // + m[0][2] * Inverse[2][0] + // + m[0][3] * Inverse[3][0]; + __m128 Det0 = glm_vec4_dot(in[0], Row2); + __m128 Rcp0 = _mm_rcp_ps(Det0); + //__m128 Rcp0 = _mm_div_ps(one, Det0); + // Inverse /= Determinant; + out[0] = _mm_mul_ps(Inv0, Rcp0); + out[1] = _mm_mul_ps(Inv1, Rcp0); + out[2] = _mm_mul_ps(Inv2, Rcp0); + out[3] = _mm_mul_ps(Inv3, Rcp0); +} +/* +GLM_FUNC_QUALIFIER void glm_mat4_rotate(__m128 const in[4], float Angle, float const v[3], __m128 out[4]) +{ + float a = glm::radians(Angle); + float c = cos(a); + float s = sin(a); + + glm::vec4 AxisA(v[0], v[1], v[2], float(0)); + __m128 AxisB = _mm_set_ps(AxisA.w, AxisA.z, AxisA.y, AxisA.x); + __m128 AxisC = detail::sse_nrm_ps(AxisB); + + __m128 Cos0 = _mm_set_ss(c); + __m128 CosA = _mm_shuffle_ps(Cos0, Cos0, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 Sin0 = _mm_set_ss(s); + __m128 SinA = _mm_shuffle_ps(Sin0, Sin0, _MM_SHUFFLE(0, 0, 0, 0)); + + // vec<3, T, Q> temp = (valType(1) - c) * axis; + __m128 Temp0 = _mm_sub_ps(one, CosA); + __m128 Temp1 = _mm_mul_ps(Temp0, AxisC); + + //Rotate[0][0] = c + temp[0] * axis[0]; + //Rotate[0][1] = 0 + temp[0] * axis[1] + s * axis[2]; + //Rotate[0][2] = 0 + temp[0] * axis[2] - s * axis[1]; + __m128 Axis0 = _mm_shuffle_ps(AxisC, AxisC, _MM_SHUFFLE(0, 0, 0, 0)); + __m128 TmpA0 = _mm_mul_ps(Axis0, AxisC); + __m128 CosA0 = _mm_shuffle_ps(Cos0, Cos0, _MM_SHUFFLE(1, 1, 1, 0)); + __m128 TmpA1 = _mm_add_ps(CosA0, TmpA0); + __m128 SinA0 = SinA;//_mm_set_ps(0.0f, s, -s, 0.0f); + __m128 TmpA2 = _mm_shuffle_ps(AxisC, AxisC, _MM_SHUFFLE(3, 1, 2, 3)); + __m128 TmpA3 = _mm_mul_ps(SinA0, TmpA2); + __m128 TmpA4 = _mm_add_ps(TmpA1, TmpA3); + + //Rotate[1][0] = 0 + temp[1] * axis[0] - s * axis[2]; + //Rotate[1][1] = c + temp[1] * axis[1]; + //Rotate[1][2] = 0 + temp[1] * axis[2] + s * axis[0]; + __m128 Axis1 = _mm_shuffle_ps(AxisC, AxisC, _MM_SHUFFLE(1, 1, 1, 1)); + __m128 TmpB0 = _mm_mul_ps(Axis1, AxisC); + __m128 CosA1 = _mm_shuffle_ps(Cos0, Cos0, _MM_SHUFFLE(1, 1, 0, 1)); + __m128 TmpB1 = _mm_add_ps(CosA1, TmpB0); + __m128 SinB0 = SinA;//_mm_set_ps(-s, 0.0f, s, 0.0f); + __m128 TmpB2 = _mm_shuffle_ps(AxisC, AxisC, _MM_SHUFFLE(3, 0, 3, 2)); + __m128 TmpB3 = _mm_mul_ps(SinA0, TmpB2); + __m128 TmpB4 = _mm_add_ps(TmpB1, TmpB3); + + //Rotate[2][0] = 0 + temp[2] * axis[0] + s * axis[1]; + //Rotate[2][1] = 0 + temp[2] * axis[1] - s * axis[0]; + //Rotate[2][2] = c + temp[2] * axis[2]; + __m128 Axis2 = _mm_shuffle_ps(AxisC, AxisC, _MM_SHUFFLE(2, 2, 2, 2)); + __m128 TmpC0 = _mm_mul_ps(Axis2, AxisC); + __m128 CosA2 = _mm_shuffle_ps(Cos0, Cos0, _MM_SHUFFLE(1, 0, 1, 1)); + __m128 TmpC1 = _mm_add_ps(CosA2, TmpC0); + __m128 SinC0 = SinA;//_mm_set_ps(s, -s, 0.0f, 0.0f); + __m128 TmpC2 = _mm_shuffle_ps(AxisC, AxisC, _MM_SHUFFLE(3, 3, 0, 1)); + __m128 TmpC3 = _mm_mul_ps(SinA0, TmpC2); + __m128 TmpC4 = _mm_add_ps(TmpC1, TmpC3); + + __m128 Result[4]; + Result[0] = TmpA4; + Result[1] = TmpB4; + Result[2] = TmpC4; + Result[3] = _mm_set_ps(1, 0, 0, 0); + + //mat<4, 4, valType> Result; + //Result[0] = m[0] * Rotate[0][0] + m[1] * Rotate[0][1] + m[2] * Rotate[0][2]; + //Result[1] = m[0] * Rotate[1][0] + m[1] * Rotate[1][1] + m[2] * Rotate[1][2]; + //Result[2] = m[0] * Rotate[2][0] + m[1] * Rotate[2][1] + m[2] * Rotate[2][2]; + //Result[3] = m[3]; + //return Result; + sse_mul_ps(in, Result, out); +} +*/ +GLM_FUNC_QUALIFIER void glm_mat4_outerProduct(__m128 const& c, __m128 const& r, __m128 out[4]) +{ + out[0] = _mm_mul_ps(c, _mm_shuffle_ps(r, r, _MM_SHUFFLE(0, 0, 0, 0))); + out[1] = _mm_mul_ps(c, _mm_shuffle_ps(r, r, _MM_SHUFFLE(1, 1, 1, 1))); + out[2] = _mm_mul_ps(c, _mm_shuffle_ps(r, r, _MM_SHUFFLE(2, 2, 2, 2))); + out[3] = _mm_mul_ps(c, _mm_shuffle_ps(r, r, _MM_SHUFFLE(3, 3, 3, 3))); +} + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/simd/neon.h b/Vulkan/ext/include/glm/simd/neon.h new file mode 100644 index 0000000..6c38b06 --- /dev/null +++ b/Vulkan/ext/include/glm/simd/neon.h @@ -0,0 +1,155 @@ +/// @ref simd_neon +/// @file glm/simd/neon.h + +#pragma once + +#if GLM_ARCH & GLM_ARCH_NEON_BIT +#include + +namespace glm { + namespace neon { + static float32x4_t dupq_lane(float32x4_t vsrc, int lane) { + switch(lane) { +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + case 0: return vdupq_laneq_f32(vsrc, 0); + case 1: return vdupq_laneq_f32(vsrc, 1); + case 2: return vdupq_laneq_f32(vsrc, 2); + case 3: return vdupq_laneq_f32(vsrc, 3); +#else + case 0: return vdupq_n_f32(vgetq_lane_f32(vsrc, 0)); + case 1: return vdupq_n_f32(vgetq_lane_f32(vsrc, 1)); + case 2: return vdupq_n_f32(vgetq_lane_f32(vsrc, 2)); + case 3: return vdupq_n_f32(vgetq_lane_f32(vsrc, 3)); +#endif + } + assert(!"Unreachable code executed!"); + return vdupq_n_f32(0.0f); + } + + static float32x2_t dup_lane(float32x4_t vsrc, int lane) { + switch(lane) { +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + case 0: return vdup_laneq_f32(vsrc, 0); + case 1: return vdup_laneq_f32(vsrc, 1); + case 2: return vdup_laneq_f32(vsrc, 2); + case 3: return vdup_laneq_f32(vsrc, 3); +#else + case 0: return vdup_n_f32(vgetq_lane_f32(vsrc, 0)); + case 1: return vdup_n_f32(vgetq_lane_f32(vsrc, 1)); + case 2: return vdup_n_f32(vgetq_lane_f32(vsrc, 2)); + case 3: return vdup_n_f32(vgetq_lane_f32(vsrc, 3)); +#endif + } + assert(!"Unreachable code executed!"); + return vdup_n_f32(0.0f); + } + + static float32x4_t copy_lane(float32x4_t vdst, int dlane, float32x4_t vsrc, int slane) { +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + switch(dlane) { + case 0: + switch(slane) { + case 0: return vcopyq_laneq_f32(vdst, 0, vsrc, 0); + case 1: return vcopyq_laneq_f32(vdst, 0, vsrc, 1); + case 2: return vcopyq_laneq_f32(vdst, 0, vsrc, 2); + case 3: return vcopyq_laneq_f32(vdst, 0, vsrc, 3); + } + assert(!"Unreachable code executed!"); + case 1: + switch(slane) { + case 0: return vcopyq_laneq_f32(vdst, 1, vsrc, 0); + case 1: return vcopyq_laneq_f32(vdst, 1, vsrc, 1); + case 2: return vcopyq_laneq_f32(vdst, 1, vsrc, 2); + case 3: return vcopyq_laneq_f32(vdst, 1, vsrc, 3); + } + assert(!"Unreachable code executed!"); + case 2: + switch(slane) { + case 0: return vcopyq_laneq_f32(vdst, 2, vsrc, 0); + case 1: return vcopyq_laneq_f32(vdst, 2, vsrc, 1); + case 2: return vcopyq_laneq_f32(vdst, 2, vsrc, 2); + case 3: return vcopyq_laneq_f32(vdst, 2, vsrc, 3); + } + assert(!"Unreachable code executed!"); + case 3: + switch(slane) { + case 0: return vcopyq_laneq_f32(vdst, 3, vsrc, 0); + case 1: return vcopyq_laneq_f32(vdst, 3, vsrc, 1); + case 2: return vcopyq_laneq_f32(vdst, 3, vsrc, 2); + case 3: return vcopyq_laneq_f32(vdst, 3, vsrc, 3); + } + assert(!"Unreachable code executed!"); + } +#else + + float l; + switch(slane) { + case 0: l = vgetq_lane_f32(vsrc, 0); break; + case 1: l = vgetq_lane_f32(vsrc, 1); break; + case 2: l = vgetq_lane_f32(vsrc, 2); break; + case 3: l = vgetq_lane_f32(vsrc, 3); break; + default: + assert(!"Unreachable code executed!"); + } + switch(dlane) { + case 0: return vsetq_lane_f32(l, vdst, 0); + case 1: return vsetq_lane_f32(l, vdst, 1); + case 2: return vsetq_lane_f32(l, vdst, 2); + case 3: return vsetq_lane_f32(l, vdst, 3); + } +#endif + assert(!"Unreachable code executed!"); + return vdupq_n_f32(0.0f); + } + + static float32x4_t mul_lane(float32x4_t v, float32x4_t vlane, int lane) { +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT + switch(lane) { + case 0: return vmulq_laneq_f32(v, vlane, 0); break; + case 1: return vmulq_laneq_f32(v, vlane, 1); break; + case 2: return vmulq_laneq_f32(v, vlane, 2); break; + case 3: return vmulq_laneq_f32(v, vlane, 3); break; + default: + assert(!"Unreachable code executed!"); + } + assert(!"Unreachable code executed!"); + return vdupq_n_f32(0.0f); +#else + return vmulq_f32(v, dupq_lane(vlane, lane)); +#endif + } + + static float32x4_t madd_lane(float32x4_t acc, float32x4_t v, float32x4_t vlane, int lane) { +#if GLM_ARCH & GLM_ARCH_ARMV8_BIT +#ifdef GLM_CONFIG_FORCE_FMA +# define FMADD_LANE(acc, x, y, L) do { asm volatile ("fmla %0.4s, %1.4s, %2.4s" : "+w"(acc) : "w"(x), "w"(dup_lane(y, L))); } while(0) +#else +# define FMADD_LANE(acc, x, y, L) do { acc = vmlaq_laneq_f32(acc, x, y, L); } while(0) +#endif + + switch(lane) { + case 0: + FMADD_LANE(acc, v, vlane, 0); + return acc; + case 1: + FMADD_LANE(acc, v, vlane, 1); + return acc; + case 2: + FMADD_LANE(acc, v, vlane, 2); + return acc; + case 3: + FMADD_LANE(acc, v, vlane, 3); + return acc; + default: + assert(!"Unreachable code executed!"); + } + assert(!"Unreachable code executed!"); + return vdupq_n_f32(0.0f); +# undef FMADD_LANE +#else + return vaddq_f32(acc, vmulq_f32(v, dupq_lane(vlane, lane))); +#endif + } + } //namespace neon +} // namespace glm +#endif // GLM_ARCH & GLM_ARCH_NEON_BIT diff --git a/Vulkan/ext/include/glm/simd/packing.h b/Vulkan/ext/include/glm/simd/packing.h new file mode 100644 index 0000000..609163e --- /dev/null +++ b/Vulkan/ext/include/glm/simd/packing.h @@ -0,0 +1,8 @@ +/// @ref simd +/// @file glm/simd/packing.h + +#pragma once + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/simd/platform.h b/Vulkan/ext/include/glm/simd/platform.h new file mode 100644 index 0000000..ad25cc1 --- /dev/null +++ b/Vulkan/ext/include/glm/simd/platform.h @@ -0,0 +1,398 @@ +#pragma once + +/////////////////////////////////////////////////////////////////////////////////// +// Platform + +#define GLM_PLATFORM_UNKNOWN 0x00000000 +#define GLM_PLATFORM_WINDOWS 0x00010000 +#define GLM_PLATFORM_LINUX 0x00020000 +#define GLM_PLATFORM_APPLE 0x00040000 +//#define GLM_PLATFORM_IOS 0x00080000 +#define GLM_PLATFORM_ANDROID 0x00100000 +#define GLM_PLATFORM_CHROME_NACL 0x00200000 +#define GLM_PLATFORM_UNIX 0x00400000 +#define GLM_PLATFORM_QNXNTO 0x00800000 +#define GLM_PLATFORM_WINCE 0x01000000 +#define GLM_PLATFORM_CYGWIN 0x02000000 + +#ifdef GLM_FORCE_PLATFORM_UNKNOWN +# define GLM_PLATFORM GLM_PLATFORM_UNKNOWN +#elif defined(__CYGWIN__) +# define GLM_PLATFORM GLM_PLATFORM_CYGWIN +#elif defined(__QNXNTO__) +# define GLM_PLATFORM GLM_PLATFORM_QNXNTO +#elif defined(__APPLE__) +# define GLM_PLATFORM GLM_PLATFORM_APPLE +#elif defined(WINCE) +# define GLM_PLATFORM GLM_PLATFORM_WINCE +#elif defined(_WIN32) +# define GLM_PLATFORM GLM_PLATFORM_WINDOWS +#elif defined(__native_client__) +# define GLM_PLATFORM GLM_PLATFORM_CHROME_NACL +#elif defined(__ANDROID__) +# define GLM_PLATFORM GLM_PLATFORM_ANDROID +#elif defined(__linux) +# define GLM_PLATFORM GLM_PLATFORM_LINUX +#elif defined(__unix) +# define GLM_PLATFORM GLM_PLATFORM_UNIX +#else +# define GLM_PLATFORM GLM_PLATFORM_UNKNOWN +#endif// + +/////////////////////////////////////////////////////////////////////////////////// +// Compiler + +#define GLM_COMPILER_UNKNOWN 0x00000000 + +// Intel +#define GLM_COMPILER_INTEL 0x00100000 +#define GLM_COMPILER_INTEL14 0x00100040 +#define GLM_COMPILER_INTEL15 0x00100050 +#define GLM_COMPILER_INTEL16 0x00100060 +#define GLM_COMPILER_INTEL17 0x00100070 + +// Visual C++ defines +#define GLM_COMPILER_VC 0x01000000 +#define GLM_COMPILER_VC12 0x01000001 +#define GLM_COMPILER_VC14 0x01000002 +#define GLM_COMPILER_VC15 0x01000003 +#define GLM_COMPILER_VC15_3 0x01000004 +#define GLM_COMPILER_VC15_5 0x01000005 +#define GLM_COMPILER_VC15_6 0x01000006 +#define GLM_COMPILER_VC15_7 0x01000007 +#define GLM_COMPILER_VC15_8 0x01000008 +#define GLM_COMPILER_VC15_9 0x01000009 +#define GLM_COMPILER_VC16 0x0100000A + +// GCC defines +#define GLM_COMPILER_GCC 0x02000000 +#define GLM_COMPILER_GCC46 0x020000D0 +#define GLM_COMPILER_GCC47 0x020000E0 +#define GLM_COMPILER_GCC48 0x020000F0 +#define GLM_COMPILER_GCC49 0x02000100 +#define GLM_COMPILER_GCC5 0x02000200 +#define GLM_COMPILER_GCC6 0x02000300 +#define GLM_COMPILER_GCC7 0x02000400 +#define GLM_COMPILER_GCC8 0x02000500 + +// CUDA +#define GLM_COMPILER_CUDA 0x10000000 +#define GLM_COMPILER_CUDA75 0x10000001 +#define GLM_COMPILER_CUDA80 0x10000002 +#define GLM_COMPILER_CUDA90 0x10000004 + +// SYCL +#define GLM_COMPILER_SYCL 0x00300000 + +// Clang +#define GLM_COMPILER_CLANG 0x20000000 +#define GLM_COMPILER_CLANG34 0x20000050 +#define GLM_COMPILER_CLANG35 0x20000060 +#define GLM_COMPILER_CLANG36 0x20000070 +#define GLM_COMPILER_CLANG37 0x20000080 +#define GLM_COMPILER_CLANG38 0x20000090 +#define GLM_COMPILER_CLANG39 0x200000A0 +#define GLM_COMPILER_CLANG40 0x200000B0 +#define GLM_COMPILER_CLANG41 0x200000C0 +#define GLM_COMPILER_CLANG42 0x200000D0 + +// Build model +#define GLM_MODEL_32 0x00000010 +#define GLM_MODEL_64 0x00000020 + +// Force generic C++ compiler +#ifdef GLM_FORCE_COMPILER_UNKNOWN +# define GLM_COMPILER GLM_COMPILER_UNKNOWN + +#elif defined(__INTEL_COMPILER) +# if __INTEL_COMPILER >= 1700 +# define GLM_COMPILER GLM_COMPILER_INTEL17 +# elif __INTEL_COMPILER >= 1600 +# define GLM_COMPILER GLM_COMPILER_INTEL16 +# elif __INTEL_COMPILER >= 1500 +# define GLM_COMPILER GLM_COMPILER_INTEL15 +# elif __INTEL_COMPILER >= 1400 +# define GLM_COMPILER GLM_COMPILER_INTEL14 +# elif __INTEL_COMPILER < 1400 +# error "GLM requires ICC 2013 SP1 or newer" +# endif + +// CUDA +#elif defined(__CUDACC__) +# if !defined(CUDA_VERSION) && !defined(GLM_FORCE_CUDA) +# include // make sure version is defined since nvcc does not define it itself! +# endif +# if CUDA_VERSION >= 8000 +# define GLM_COMPILER GLM_COMPILER_CUDA80 +# elif CUDA_VERSION >= 7500 +# define GLM_COMPILER GLM_COMPILER_CUDA75 +# elif CUDA_VERSION >= 7000 +# define GLM_COMPILER GLM_COMPILER_CUDA70 +# elif CUDA_VERSION < 7000 +# error "GLM requires CUDA 7.0 or higher" +# endif + +// SYCL +#elif defined(__SYCL_DEVICE_ONLY__) +# define GLM_COMPILER GLM_COMPILER_SYCL + +// Clang +#elif defined(__clang__) +# if defined(__apple_build_version__) +# if (__clang_major__ < 6) +# error "GLM requires Clang 3.4 / Apple Clang 6.0 or higher" +# elif __clang_major__ == 6 && __clang_minor__ == 0 +# define GLM_COMPILER GLM_COMPILER_CLANG35 +# elif __clang_major__ == 6 && __clang_minor__ >= 1 +# define GLM_COMPILER GLM_COMPILER_CLANG36 +# elif __clang_major__ >= 7 +# define GLM_COMPILER GLM_COMPILER_CLANG37 +# endif +# else +# if ((__clang_major__ == 3) && (__clang_minor__ < 4)) || (__clang_major__ < 3) +# error "GLM requires Clang 3.4 or higher" +# elif __clang_major__ == 3 && __clang_minor__ == 4 +# define GLM_COMPILER GLM_COMPILER_CLANG34 +# elif __clang_major__ == 3 && __clang_minor__ == 5 +# define GLM_COMPILER GLM_COMPILER_CLANG35 +# elif __clang_major__ == 3 && __clang_minor__ == 6 +# define GLM_COMPILER GLM_COMPILER_CLANG36 +# elif __clang_major__ == 3 && __clang_minor__ == 7 +# define GLM_COMPILER GLM_COMPILER_CLANG37 +# elif __clang_major__ == 3 && __clang_minor__ == 8 +# define GLM_COMPILER GLM_COMPILER_CLANG38 +# elif __clang_major__ == 3 && __clang_minor__ >= 9 +# define GLM_COMPILER GLM_COMPILER_CLANG39 +# elif __clang_major__ == 4 && __clang_minor__ == 0 +# define GLM_COMPILER GLM_COMPILER_CLANG40 +# elif __clang_major__ == 4 && __clang_minor__ == 1 +# define GLM_COMPILER GLM_COMPILER_CLANG41 +# elif __clang_major__ == 4 && __clang_minor__ >= 2 +# define GLM_COMPILER GLM_COMPILER_CLANG42 +# elif __clang_major__ >= 4 +# define GLM_COMPILER GLM_COMPILER_CLANG42 +# endif +# endif + +// Visual C++ +#elif defined(_MSC_VER) +# if _MSC_VER >= 1920 +# define GLM_COMPILER GLM_COMPILER_VC16 +# elif _MSC_VER >= 1916 +# define GLM_COMPILER GLM_COMPILER_VC15_9 +# elif _MSC_VER >= 1915 +# define GLM_COMPILER GLM_COMPILER_VC15_8 +# elif _MSC_VER >= 1914 +# define GLM_COMPILER GLM_COMPILER_VC15_7 +# elif _MSC_VER >= 1913 +# define GLM_COMPILER GLM_COMPILER_VC15_6 +# elif _MSC_VER >= 1912 +# define GLM_COMPILER GLM_COMPILER_VC15_5 +# elif _MSC_VER >= 1911 +# define GLM_COMPILER GLM_COMPILER_VC15_3 +# elif _MSC_VER >= 1910 +# define GLM_COMPILER GLM_COMPILER_VC15 +# elif _MSC_VER >= 1900 +# define GLM_COMPILER GLM_COMPILER_VC14 +# elif _MSC_VER >= 1800 +# define GLM_COMPILER GLM_COMPILER_VC12 +# elif _MSC_VER < 1800 +# error "GLM requires Visual C++ 12 - 2013 or higher" +# endif//_MSC_VER + +// G++ +#elif defined(__GNUC__) || defined(__MINGW32__) +# if __GNUC__ >= 8 +# define GLM_COMPILER GLM_COMPILER_GCC8 +# elif __GNUC__ >= 7 +# define GLM_COMPILER GLM_COMPILER_GCC7 +# elif __GNUC__ >= 6 +# define GLM_COMPILER GLM_COMPILER_GCC6 +# elif __GNUC__ >= 5 +# define GLM_COMPILER GLM_COMPILER_GCC5 +# elif __GNUC__ == 4 && __GNUC_MINOR__ >= 9 +# define GLM_COMPILER GLM_COMPILER_GCC49 +# elif __GNUC__ == 4 && __GNUC_MINOR__ >= 8 +# define GLM_COMPILER GLM_COMPILER_GCC48 +# elif __GNUC__ == 4 && __GNUC_MINOR__ >= 7 +# define GLM_COMPILER GLM_COMPILER_GCC47 +# elif __GNUC__ == 4 && __GNUC_MINOR__ >= 6 +# define GLM_COMPILER GLM_COMPILER_GCC46 +# elif ((__GNUC__ == 4) && (__GNUC_MINOR__ < 6)) || (__GNUC__ < 4) +# error "GLM requires GCC 4.6 or higher" +# endif + +#else +# define GLM_COMPILER GLM_COMPILER_UNKNOWN +#endif + +#ifndef GLM_COMPILER +# error "GLM_COMPILER undefined, your compiler may not be supported by GLM. Add #define GLM_COMPILER 0 to ignore this message." +#endif//GLM_COMPILER + +/////////////////////////////////////////////////////////////////////////////////// +// Instruction sets + +// User defines: GLM_FORCE_PURE GLM_FORCE_INTRINSICS GLM_FORCE_SSE2 GLM_FORCE_SSE3 GLM_FORCE_AVX GLM_FORCE_AVX2 GLM_FORCE_AVX2 + +#define GLM_ARCH_MIPS_BIT (0x10000000) +#define GLM_ARCH_PPC_BIT (0x20000000) +#define GLM_ARCH_ARM_BIT (0x40000000) +#define GLM_ARCH_ARMV8_BIT (0x01000000) +#define GLM_ARCH_X86_BIT (0x80000000) + +#define GLM_ARCH_SIMD_BIT (0x00001000) + +#define GLM_ARCH_NEON_BIT (0x00000001) +#define GLM_ARCH_SSE_BIT (0x00000002) +#define GLM_ARCH_SSE2_BIT (0x00000004) +#define GLM_ARCH_SSE3_BIT (0x00000008) +#define GLM_ARCH_SSSE3_BIT (0x00000010) +#define GLM_ARCH_SSE41_BIT (0x00000020) +#define GLM_ARCH_SSE42_BIT (0x00000040) +#define GLM_ARCH_AVX_BIT (0x00000080) +#define GLM_ARCH_AVX2_BIT (0x00000100) + +#define GLM_ARCH_UNKNOWN (0) +#define GLM_ARCH_X86 (GLM_ARCH_X86_BIT) +#define GLM_ARCH_SSE (GLM_ARCH_SSE_BIT | GLM_ARCH_SIMD_BIT | GLM_ARCH_X86) +#define GLM_ARCH_SSE2 (GLM_ARCH_SSE2_BIT | GLM_ARCH_SSE) +#define GLM_ARCH_SSE3 (GLM_ARCH_SSE3_BIT | GLM_ARCH_SSE2) +#define GLM_ARCH_SSSE3 (GLM_ARCH_SSSE3_BIT | GLM_ARCH_SSE3) +#define GLM_ARCH_SSE41 (GLM_ARCH_SSE41_BIT | GLM_ARCH_SSSE3) +#define GLM_ARCH_SSE42 (GLM_ARCH_SSE42_BIT | GLM_ARCH_SSE41) +#define GLM_ARCH_AVX (GLM_ARCH_AVX_BIT | GLM_ARCH_SSE42) +#define GLM_ARCH_AVX2 (GLM_ARCH_AVX2_BIT | GLM_ARCH_AVX) +#define GLM_ARCH_ARM (GLM_ARCH_ARM_BIT) +#define GLM_ARCH_ARMV8 (GLM_ARCH_NEON_BIT | GLM_ARCH_SIMD_BIT | GLM_ARCH_ARM | GLM_ARCH_ARMV8_BIT) +#define GLM_ARCH_NEON (GLM_ARCH_NEON_BIT | GLM_ARCH_SIMD_BIT | GLM_ARCH_ARM) +#define GLM_ARCH_MIPS (GLM_ARCH_MIPS_BIT) +#define GLM_ARCH_PPC (GLM_ARCH_PPC_BIT) + +#if defined(GLM_FORCE_ARCH_UNKNOWN) || defined(GLM_FORCE_PURE) +# define GLM_ARCH GLM_ARCH_UNKNOWN +#elif defined(GLM_FORCE_NEON) +# if __ARM_ARCH >= 8 +# define GLM_ARCH (GLM_ARCH_ARMV8) +# else +# define GLM_ARCH (GLM_ARCH_NEON) +# endif +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_AVX2) +# define GLM_ARCH (GLM_ARCH_AVX2) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_AVX) +# define GLM_ARCH (GLM_ARCH_AVX) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_SSE42) +# define GLM_ARCH (GLM_ARCH_SSE42) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_SSE41) +# define GLM_ARCH (GLM_ARCH_SSE41) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_SSSE3) +# define GLM_ARCH (GLM_ARCH_SSSE3) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_SSE3) +# define GLM_ARCH (GLM_ARCH_SSE3) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_SSE2) +# define GLM_ARCH (GLM_ARCH_SSE2) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_SSE) +# define GLM_ARCH (GLM_ARCH_SSE) +# define GLM_FORCE_INTRINSICS +#elif defined(GLM_FORCE_INTRINSICS) && !defined(GLM_FORCE_XYZW_ONLY) +# if defined(__AVX2__) +# define GLM_ARCH (GLM_ARCH_AVX2) +# elif defined(__AVX__) +# define GLM_ARCH (GLM_ARCH_AVX) +# elif defined(__SSE4_2__) +# define GLM_ARCH (GLM_ARCH_SSE42) +# elif defined(__SSE4_1__) +# define GLM_ARCH (GLM_ARCH_SSE41) +# elif defined(__SSSE3__) +# define GLM_ARCH (GLM_ARCH_SSSE3) +# elif defined(__SSE3__) +# define GLM_ARCH (GLM_ARCH_SSE3) +# elif defined(__SSE2__) || defined(__x86_64__) || defined(_M_X64) || defined(_M_IX86_FP) +# define GLM_ARCH (GLM_ARCH_SSE2) +# elif defined(__i386__) +# define GLM_ARCH (GLM_ARCH_X86) +# elif defined(__ARM_ARCH) && (__ARM_ARCH >= 8) +# define GLM_ARCH (GLM_ARCH_ARMV8) +# elif defined(__ARM_NEON) +# define GLM_ARCH (GLM_ARCH_ARM | GLM_ARCH_NEON) +# elif defined(__arm__ ) || defined(_M_ARM) +# define GLM_ARCH (GLM_ARCH_ARM) +# elif defined(__mips__ ) +# define GLM_ARCH (GLM_ARCH_MIPS) +# elif defined(__powerpc__ ) || defined(_M_PPC) +# define GLM_ARCH (GLM_ARCH_PPC) +# else +# define GLM_ARCH (GLM_ARCH_UNKNOWN) +# endif +#else +# if defined(__x86_64__) || defined(_M_X64) || defined(_M_IX86) || defined(__i386__) +# define GLM_ARCH (GLM_ARCH_X86) +# elif defined(__arm__) || defined(_M_ARM) +# define GLM_ARCH (GLM_ARCH_ARM) +# elif defined(__powerpc__) || defined(_M_PPC) +# define GLM_ARCH (GLM_ARCH_PPC) +# elif defined(__mips__) +# define GLM_ARCH (GLM_ARCH_MIPS) +# else +# define GLM_ARCH (GLM_ARCH_UNKNOWN) +# endif +#endif + +#if GLM_ARCH & GLM_ARCH_AVX2_BIT +# include +#elif GLM_ARCH & GLM_ARCH_AVX_BIT +# include +#elif GLM_ARCH & GLM_ARCH_SSE42_BIT +# if GLM_COMPILER & GLM_COMPILER_CLANG +# include +# endif +# include +#elif GLM_ARCH & GLM_ARCH_SSE41_BIT +# include +#elif GLM_ARCH & GLM_ARCH_SSSE3_BIT +# include +#elif GLM_ARCH & GLM_ARCH_SSE3_BIT +# include +#elif GLM_ARCH & GLM_ARCH_SSE2_BIT +# include +#elif GLM_ARCH & GLM_ARCH_NEON_BIT +# include "neon.h" +#endif//GLM_ARCH + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + typedef __m128 glm_f32vec4; + typedef __m128i glm_i32vec4; + typedef __m128i glm_u32vec4; + typedef __m128d glm_f64vec2; + typedef __m128i glm_i64vec2; + typedef __m128i glm_u64vec2; + + typedef glm_f32vec4 glm_vec4; + typedef glm_i32vec4 glm_ivec4; + typedef glm_u32vec4 glm_uvec4; + typedef glm_f64vec2 glm_dvec2; +#endif + +#if GLM_ARCH & GLM_ARCH_AVX_BIT + typedef __m256d glm_f64vec4; + typedef glm_f64vec4 glm_dvec4; +#endif + +#if GLM_ARCH & GLM_ARCH_AVX2_BIT + typedef __m256i glm_i64vec4; + typedef __m256i glm_u64vec4; +#endif + +#if GLM_ARCH & GLM_ARCH_NEON_BIT + typedef float32x4_t glm_f32vec4; + typedef int32x4_t glm_i32vec4; + typedef uint32x4_t glm_u32vec4; +#endif diff --git a/Vulkan/ext/include/glm/simd/trigonometric.h b/Vulkan/ext/include/glm/simd/trigonometric.h new file mode 100644 index 0000000..739b796 --- /dev/null +++ b/Vulkan/ext/include/glm/simd/trigonometric.h @@ -0,0 +1,9 @@ +/// @ref simd +/// @file glm/simd/trigonometric.h + +#pragma once + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT + diff --git a/Vulkan/ext/include/glm/simd/vector_relational.h b/Vulkan/ext/include/glm/simd/vector_relational.h new file mode 100644 index 0000000..f7385e9 --- /dev/null +++ b/Vulkan/ext/include/glm/simd/vector_relational.h @@ -0,0 +1,8 @@ +/// @ref simd +/// @file glm/simd/vector_relational.h + +#pragma once + +#if GLM_ARCH & GLM_ARCH_SSE2_BIT + +#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT diff --git a/Vulkan/ext/include/glm/trigonometric.hpp b/Vulkan/ext/include/glm/trigonometric.hpp new file mode 100644 index 0000000..fcf07f8 --- /dev/null +++ b/Vulkan/ext/include/glm/trigonometric.hpp @@ -0,0 +1,210 @@ +/// @ref core +/// @file glm/trigonometric.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions +/// +/// @defgroup core_func_trigonometric Angle and Trigonometry Functions +/// @ingroup core +/// +/// Function parameters specified as angle are assumed to be in units of radians. +/// In no case will any of these functions result in a divide by zero error. If +/// the divisor of a ratio is 0, then results will be undefined. +/// +/// These all operate component-wise. The description is per component. +/// +/// Include to use these core features. +/// +/// @see ext_vector_trigonometric + +#pragma once + +#include "detail/setup.hpp" +#include "detail/qualifier.hpp" + +namespace glm +{ + /// @addtogroup core_func_trigonometric + /// @{ + + /// Converts degrees to radians and returns the result. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL radians man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec radians(vec const& degrees); + + /// Converts radians to degrees and returns the result. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL degrees man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec degrees(vec const& radians); + + /// The standard trigonometric sine function. + /// The values returned by this function will range from [-1, 1]. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL sin man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec sin(vec const& angle); + + /// The standard trigonometric cosine function. + /// The values returned by this function will range from [-1, 1]. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL cos man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec cos(vec const& angle); + + /// The standard trigonometric tangent function. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL tan man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec tan(vec const& angle); + + /// Arc sine. Returns an angle whose sine is x. + /// The range of values returned by this function is [-PI/2, PI/2]. + /// Results are undefined if |x| > 1. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL asin man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec asin(vec const& x); + + /// Arc cosine. Returns an angle whose sine is x. + /// The range of values returned by this function is [0, PI]. + /// Results are undefined if |x| > 1. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL acos man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec acos(vec const& x); + + /// Arc tangent. Returns an angle whose tangent is y/x. + /// The signs of x and y are used to determine what + /// quadrant the angle is in. The range of values returned + /// by this function is [-PI, PI]. Results are undefined + /// if x and y are both 0. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL atan man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec atan(vec const& y, vec const& x); + + /// Arc tangent. Returns an angle whose tangent is y_over_x. + /// The range of values returned by this function is [-PI/2, PI/2]. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL atan man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec atan(vec const& y_over_x); + + /// Returns the hyperbolic sine function, (exp(x) - exp(-x)) / 2 + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL sinh man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec sinh(vec const& angle); + + /// Returns the hyperbolic cosine function, (exp(x) + exp(-x)) / 2 + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL cosh man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec cosh(vec const& angle); + + /// Returns the hyperbolic tangent function, sinh(angle) / cosh(angle) + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL tanh man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec tanh(vec const& angle); + + /// Arc hyperbolic sine; returns the inverse of sinh. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL asinh man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec asinh(vec const& x); + + /// Arc hyperbolic cosine; returns the non-negative inverse + /// of cosh. Results are undefined if x < 1. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL acosh man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec acosh(vec const& x); + + /// Arc hyperbolic tangent; returns the inverse of tanh. + /// Results are undefined if abs(x) >= 1. + /// + /// @tparam L Integer between 1 and 4 included that qualify the dimension of the vector + /// @tparam T Floating-point scalar types + /// @tparam Q Value from qualifier enum + /// + /// @see GLSL atanh man page + /// @see GLSL 4.20.8 specification, section 8.1 Angle and Trigonometry Functions + template + GLM_FUNC_DECL vec atanh(vec const& x); + + /// @} +}//namespace glm + +#include "detail/func_trigonometric.inl" diff --git a/Vulkan/ext/include/glm/vec2.hpp b/Vulkan/ext/include/glm/vec2.hpp new file mode 100644 index 0000000..cd4e070 --- /dev/null +++ b/Vulkan/ext/include/glm/vec2.hpp @@ -0,0 +1,14 @@ +/// @ref core +/// @file glm/vec2.hpp + +#pragma once +#include "./ext/vector_bool2.hpp" +#include "./ext/vector_bool2_precision.hpp" +#include "./ext/vector_float2.hpp" +#include "./ext/vector_float2_precision.hpp" +#include "./ext/vector_double2.hpp" +#include "./ext/vector_double2_precision.hpp" +#include "./ext/vector_int2.hpp" +#include "./ext/vector_int2_sized.hpp" +#include "./ext/vector_uint2.hpp" +#include "./ext/vector_uint2_sized.hpp" diff --git a/Vulkan/ext/include/glm/vec3.hpp b/Vulkan/ext/include/glm/vec3.hpp new file mode 100644 index 0000000..f5a927d --- /dev/null +++ b/Vulkan/ext/include/glm/vec3.hpp @@ -0,0 +1,14 @@ +/// @ref core +/// @file glm/vec3.hpp + +#pragma once +#include "./ext/vector_bool3.hpp" +#include "./ext/vector_bool3_precision.hpp" +#include "./ext/vector_float3.hpp" +#include "./ext/vector_float3_precision.hpp" +#include "./ext/vector_double3.hpp" +#include "./ext/vector_double3_precision.hpp" +#include "./ext/vector_int3.hpp" +#include "./ext/vector_int3_sized.hpp" +#include "./ext/vector_uint3.hpp" +#include "./ext/vector_uint3_sized.hpp" diff --git a/Vulkan/ext/include/glm/vec4.hpp b/Vulkan/ext/include/glm/vec4.hpp new file mode 100644 index 0000000..c6ea9f1 --- /dev/null +++ b/Vulkan/ext/include/glm/vec4.hpp @@ -0,0 +1,15 @@ +/// @ref core +/// @file glm/vec4.hpp + +#pragma once +#include "./ext/vector_bool4.hpp" +#include "./ext/vector_bool4_precision.hpp" +#include "./ext/vector_float4.hpp" +#include "./ext/vector_float4_precision.hpp" +#include "./ext/vector_double4.hpp" +#include "./ext/vector_double4_precision.hpp" +#include "./ext/vector_int4.hpp" +#include "./ext/vector_int4_sized.hpp" +#include "./ext/vector_uint4.hpp" +#include "./ext/vector_uint4_sized.hpp" + diff --git a/Vulkan/ext/include/glm/vector_relational.hpp b/Vulkan/ext/include/glm/vector_relational.hpp new file mode 100644 index 0000000..a0fe17e --- /dev/null +++ b/Vulkan/ext/include/glm/vector_relational.hpp @@ -0,0 +1,121 @@ +/// @ref core +/// @file glm/vector_relational.hpp +/// +/// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions +/// +/// @defgroup core_func_vector_relational Vector Relational Functions +/// @ingroup core +/// +/// Relational and equality operators (<, <=, >, >=, ==, !=) are defined to +/// operate on scalars and produce scalar Boolean results. For vector results, +/// use the following built-in functions. +/// +/// In all cases, the sizes of all the input and return vectors for any particular +/// call must match. +/// +/// Include to use these core features. +/// +/// @see ext_vector_relational + +#pragma once + +#include "detail/qualifier.hpp" +#include "detail/setup.hpp" + +namespace glm +{ + /// @addtogroup core_func_vector_relational + /// @{ + + /// Returns the component-wise comparison result of x < y. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T A floating-point or integer scalar type. + /// + /// @see GLSL lessThan man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec lessThan(vec const& x, vec const& y); + + /// Returns the component-wise comparison of result x <= y. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T A floating-point or integer scalar type. + /// + /// @see GLSL lessThanEqual man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec lessThanEqual(vec const& x, vec const& y); + + /// Returns the component-wise comparison of result x > y. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T A floating-point or integer scalar type. + /// + /// @see GLSL greaterThan man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec greaterThan(vec const& x, vec const& y); + + /// Returns the component-wise comparison of result x >= y. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T A floating-point or integer scalar type. + /// + /// @see GLSL greaterThanEqual man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec greaterThanEqual(vec const& x, vec const& y); + + /// Returns the component-wise comparison of result x == y. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T A floating-point, integer or bool scalar type. + /// + /// @see GLSL equal man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec equal(vec const& x, vec const& y); + + /// Returns the component-wise comparison of result x != y. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// @tparam T A floating-point, integer or bool scalar type. + /// + /// @see GLSL notEqual man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec notEqual(vec const& x, vec const& y); + + /// Returns true if any component of x is true. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// + /// @see GLSL any man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR bool any(vec const& v); + + /// Returns true if all components of x are true. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// + /// @see GLSL all man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR bool all(vec const& v); + + /// Returns the component-wise logical complement of x. + /// /!\ Because of language incompatibilities between C++ and GLSL, GLM defines the function not but not_ instead. + /// + /// @tparam L An integer between 1 and 4 included that qualify the dimension of the vector. + /// + /// @see GLSL not man page + /// @see GLSL 4.20.8 specification, section 8.7 Vector Relational Functions + template + GLM_FUNC_DECL GLM_CONSTEXPR vec not_(vec const& v); + + /// @} +}//namespace glm + +#include "detail/func_vector_relational.inl" diff --git a/Vulkan/ext/lib/glfw3.dll b/Vulkan/ext/lib/glfw3.dll new file mode 100644 index 0000000000000000000000000000000000000000..733404cf4a8b7e78334d3e6a18acc6c681077e3c GIT binary patch literal 216576 zcmeFadwf(ywlChDPD6l%-5{-~AgzWm7|>{B42F!oLpSV(MuNOW6pbJr9c7?fP+n;} z0oqL~C_b3ckx^&F*N7uRKnD{7B!EJ|2Oy5(yW5C@ju60c-|x3-_bV{x{O-BucmKM4 z*r}>jt5&V5TD7Wb)uV@Bx71>@SS;E248vlnh0A|#@%O*@W3^a1_uA0evZlj3=hs^O z@0>q++HEsk(`Vdu>x`Rz>#Drz&O7f4xNe@}ni0Iyb=#dT&xld3-`;i0luPpRI_8_C z$M@@VO%MN&o{7(S#d|%wBK*XagL|AO-0~g{;STE2O}L&Oz2N3tG`NQoZV&(9p6lQ~ zcIBWRX9#ylkDkJ8`}vMfCku+z8)f6TJD1*2wUk<~KYei}p*bV*>! z>;U|+b4`|6cC#FbR4%Z2$&6cW3fyF|jJBZgplQj1>w=s1&kgapM50;tAz*QXVHWZN zN?Pil+hVD^WV%EYWkgvmXCnUcQ}EoE%$PZ&5>W@473zlBTeQ>RO}XPPAhM1us4G#1 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