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plumageRender
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pull/2/head
ink-soul 2023-05-17 14:49:05 +08:00
commit 2aa0ab76d1
1262 changed files with 245956 additions and 0 deletions
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2
.gitattributes vendored 100644
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# Auto detect text files and perform LF normalization
* text=auto

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.gitignore vendored 100644
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# Prerequisites
*.d
# Compiled Object files
*.slo
*.lo
*.o
*.obj
# Precompiled Headers
*.gch
*.pch
# Compiled Dynamic libraries
*.so
*.dylib
*.dll
# Fortran module files
*.mod
*.smod
# Compiled Static libraries
*.lai
*.la
*.a
*.lib
# Executables
*.exe
*.out
*.app
# gltf model
data/
# vs compile file
out/
.vs/

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CMakeLists.txt 100644
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cmake_minimum_required(VERSION 3.4 FATAL_ERROR)
cmake_policy(VERSION 2.8)
set(CMAKE_MODULE_PATH ${CMAKE_MODULE_PATH} "${CMAKE_SOURCE_DIR}/cmake")
set(NAME games_106)
project(${NAME})
include_directories(external)
include_directories(external/glm)
include_directories(external/gli)
include_directories(external/imgui)
include_directories(external/tinygltf)
include_directories(external/ktx/include)
include_directories(external/ktx/other_include)
include_directories(base)
OPTION(USE_D2D_WSI "Build the project using Direct to Display swapchain" OFF)
OPTION(USE_DIRECTFB_WSI "Build the project using DirectFB swapchain" OFF)
OPTION(USE_WAYLAND_WSI "Build the project using Wayland swapchain" OFF)
OPTION(USE_HEADLESS "Build the project using headless extension swapchain" OFF)
set(RESOURCE_INSTALL_DIR "" CACHE PATH "Path to install resources to (leave empty for running uninstalled)")
# Use FindVulkan module added with CMAKE 3.7
if (NOT CMAKE_VERSION VERSION_LESS 3.7.0)
message(STATUS "Using module to find Vulkan")
find_package(Vulkan)
endif()
IF(UNIX AND NOT APPLE)
set(LINUX TRUE)
ENDIF()
IF(WIN32)
IF (NOT Vulkan_FOUND)
find_library(Vulkan_LIBRARY NAMES vulkan-1 vulkan PATHS ${CMAKE_SOURCE_DIR}/libs/vulkan)
IF (Vulkan_LIBRARY)
set(Vulkan_FOUND ON)
MESSAGE("Using bundled Vulkan library version")
ENDIF()
ENDIF()
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DVK_USE_PLATFORM_WIN32_KHR")
ELSEIF(LINUX)
IF (NOT Vulkan_FOUND)
find_library(Vulkan_LIBRARY NAMES vulkan HINTS "$ENV{VULKAN_SDK}/lib" "${CMAKE_SOURCE_DIR}/libs/vulkan" REQUIRED)
IF (Vulkan_LIBRARY)
set(Vulkan_FOUND ON)
MESSAGE("Using bundled Vulkan library version")
ENDIF()
ENDIF()
find_package(Threads REQUIRED)
IF(USE_D2D_WSI)
MESSAGE("Using direct to display extension...")
add_definitions(-D_DIRECT2DISPLAY)
ELSEIF(USE_DIRECTFB_WSI)
find_package(DirectFB REQUIRED)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DVK_USE_PLATFORM_DIRECTFB_EXT")
include_directories(${DIRECTFB_INCLUDE_DIR})
ELSEIF(USE_WAYLAND_WSI)
find_program(PKG_CONFIG pkg-config)
if (NOT PKG_CONFIG)
message(FATAL_ERROR "pkg-config binary not found")
endif ()
find_package(Wayland REQUIRED)
if (NOT WAYLAND_FOUND)
message(FATAL_ERROR "Wayland development package not found")
endif ()
pkg_check_modules(WAYLAND_PROTOCOLS REQUIRED wayland-protocols)
if (NOT WAYLAND_PROTOCOLS_FOUND)
message(FATAL_ERROR "Wayland protocols package not found")
endif ()
find_program(WAYLAND_SCANNER wayland-scanner)
if (NOT WAYLAND_SCANNER)
message(FATAL_ERROR "wayland-scanner binary not found")
endif ()
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DVK_USE_PLATFORM_WAYLAND_KHR")
include_directories(${WAYLAND_INCLUDE_DIR})
pkg_get_variable(protocol_dir wayland-protocols pkgdatadir)
execute_process(COMMAND ${WAYLAND_SCANNER} client-header ${protocol_dir}/stable/xdg-shell/xdg-shell.xml ${CMAKE_BINARY_DIR}/xdg-shell-client-protocol.h
COMMAND ${WAYLAND_SCANNER} private-code ${protocol_dir}/stable/xdg-shell/xdg-shell.xml ${CMAKE_BINARY_DIR}/xdg-shell-protocol.c)
include_directories(${CMAKE_BINARY_DIR})
ELSEIF(USE_HEADLESS)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DVK_USE_PLATFORM_HEADLESS_EXT")
ELSE(USE_D2D_WSI)
find_package(XCB REQUIRED)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DVK_USE_PLATFORM_XCB_KHR")
ENDIF(USE_D2D_WSI)
ELSEIF(APPLE)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DVK_USE_PLATFORM_MACOS_MVK -DVK_EXAMPLE_XCODE_GENERATED")
# Todo : android?
ENDIF(WIN32)
IF (NOT Vulkan_FOUND)
message(FATAL_ERROR "Could not find Vulkan library!")
ELSE()
message(STATUS ${Vulkan_LIBRARY})
ENDIF()
# Set preprocessor defines
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -DNOMINMAX -D_USE_MATH_DEFINES")
# Clang specific stuff
if (CMAKE_CXX_COMPILER_ID MATCHES "Clang")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wno-switch-enum")
endif()
add_definitions(-D_CRT_SECURE_NO_WARNINGS)
set(CMAKE_CXX_STANDARD 11)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
file(GLOB SOURCE *.cpp )
# Build all examples
function(buildExamples)
foreach(EXAMPLE ${EXAMPLES})
buildExample(${EXAMPLE})
endforeach(EXAMPLE)
endfunction(buildExamples)
if(RESOURCE_INSTALL_DIR)
add_definitions(-DVK_EXAMPLE_DATA_DIR=\"${RESOURCE_INSTALL_DIR}/\")
install(DIRECTORY data/ DESTINATION ${RESOURCE_INSTALL_DIR}/)
else()
add_definitions(-DVK_EXAMPLE_DATA_DIR=\"${CMAKE_SOURCE_DIR}/data/\")
endif()
# Compiler specific stuff
IF(MSVC)
SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /EHsc")
ELSEIF(APPLE)
#if (CMAKE_CXX_COMPILER_ID MATCHES "Clang")
# SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fobjc-arc -ObjC++")
#ELSE()
SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fobjc-arc -xobjective-c++")
#ENDIF()
ENDIF(MSVC)
IF(WIN32)
# Nothing here (yet)
ELSEIF(APPLE)
link_libraries(${Vulkan_LIBRARY} "-framework AppKit" "-framework QuartzCore")
ELSE(WIN32)
link_libraries(${XCB_LIBRARIES} ${Vulkan_LIBRARY} ${Vulkan_LIBRARY} ${DIRECTFB_LIBRARIES} ${WAYLAND_CLIENT_LIBRARIES} ${CMAKE_THREAD_LIBS_INIT})
ENDIF(WIN32)
set(CMAKE_RUNTIME_OUTPUT_DIRECTORY "${CMAKE_BINARY_DIR}/bin/")
add_subdirectory(base)
add_subdirectory(homework)
# add_subdirectory(examples)

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base/CMakeLists.txt 100644
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file(GLOB BASE_SRC "*.cpp" "*.hpp" "*.h" "../external/imgui/*.cpp")
file(GLOB BASE_HEADERS "*.hpp" "*.h")
set(KTX_DIR ${CMAKE_CURRENT_SOURCE_DIR}/../external/ktx)
set(KTX_SOURCES
${KTX_DIR}/lib/texture.c
${KTX_DIR}/lib/hashlist.c
${KTX_DIR}/lib/checkheader.c
${KTX_DIR}/lib/swap.c
${KTX_DIR}/lib/memstream.c
${KTX_DIR}/lib/filestream.c)
add_library(base STATIC ${BASE_SRC} ${KTX_SOURCES})
if(WIN32)
target_link_libraries(base ${Vulkan_LIBRARY} ${WINLIBS})
else(WIN32)
target_link_libraries(base ${Vulkan_LIBRARY} ${XCB_LIBRARIES} ${WAYLAND_CLIENT_LIBRARIES} ${CMAKE_THREAD_LIBS_INIT})
endif(WIN32)

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base/CommandLineParser.hpp 100644
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/*
* Simple command line parse
*
* Copyright (C) 2016-2022 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <vector>
#include <unordered_map>
#include <string>
class CommandLineParser
{
public:
struct CommandLineOption {
std::vector<std::string> commands;
std::string value;
bool hasValue = false;
std::string help;
bool set = false;
};
std::unordered_map<std::string, CommandLineOption> options;
void add(std::string name, std::vector<std::string> commands, bool hasValue, std::string help)
{
options[name].commands = commands;
options[name].help = help;
options[name].set = false;
options[name].hasValue = hasValue;
options[name].value = "";
}
void printHelp()
{
std::cout << "Available command line options:\n";
for (auto option : options) {
std::cout << " ";
for (size_t i = 0; i < option.second.commands.size(); i++) {
std::cout << option.second.commands[i];
if (i < option.second.commands.size() - 1) {
std::cout << ", ";
}
}
std::cout << ": " << option.second.help << "\n";
}
std::cout << "Press any key to close...";
}
void parse(std::vector<const char*> arguments)
{
bool printHelp = false;
// Known arguments
for (auto& option : options) {
for (auto& command : option.second.commands) {
for (size_t i = 0; i < arguments.size(); i++) {
if (strcmp(arguments[i], command.c_str()) == 0) {
option.second.set = true;
// Get value
if (option.second.hasValue) {
if (arguments.size() > i + 1) {
option.second.value = arguments[i + 1];
}
if (option.second.value == "") {
printHelp = true;
break;
}
}
}
}
}
}
// Print help for unknown arguments or missing argument values
if (printHelp) {
options["help"].set = true;
}
}
void parse(int argc, char* argv[])
{
std::vector<const char*> args;
for (int i = 0; i < argc; i++) {
args.push_back(argv[i]);
};
parse(args);
}
bool isSet(std::string name)
{
return ((options.find(name) != options.end()) && options[name].set);
}
std::string getValueAsString(std::string name, std::string defaultValue)
{
assert(options.find(name) != options.end());
std::string value = options[name].value;
return (value != "") ? value : defaultValue;
}
int32_t getValueAsInt(std::string name, int32_t defaultValue)
{
assert(options.find(name) != options.end());
std::string value = options[name].value;
if (value != "") {
char* numConvPtr;
int32_t intVal = strtol(value.c_str(), &numConvPtr, 10);
return (intVal > 0) ? intVal : defaultValue;
}
else {
return defaultValue;
}
return int32_t();
}
};

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base/VulkanAndroid.cpp 100644
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/*
* Android Vulkan function pointer loader
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include "VulkanAndroid.h"
#if defined(__ANDROID__)
#include <android/log.h>
#include <dlfcn.h>
#include <android/native_window_jni.h>
android_app* androidApp;
PFN_vkCreateInstance vkCreateInstance;
PFN_vkGetDeviceProcAddr vkGetDeviceProcAddr;
PFN_vkGetInstanceProcAddr vkGetInstanceProcAddr;
PFN_vkCreateDevice vkCreateDevice;
PFN_vkEnumeratePhysicalDevices vkEnumeratePhysicalDevices;
PFN_vkGetPhysicalDeviceProperties vkGetPhysicalDeviceProperties;
PFN_vkGetPhysicalDeviceProperties2 vkGetPhysicalDeviceProperties2;
PFN_vkEnumerateDeviceExtensionProperties vkEnumerateDeviceExtensionProperties;
PFN_vkEnumerateDeviceLayerProperties vkEnumerateDeviceLayerProperties;
PFN_vkGetPhysicalDeviceFormatProperties vkGetPhysicalDeviceFormatProperties;
PFN_vkGetPhysicalDeviceFeatures vkGetPhysicalDeviceFeatures;
PFN_vkGetPhysicalDeviceFeatures2 vkGetPhysicalDeviceFeatures2;
PFN_vkGetPhysicalDeviceQueueFamilyProperties vkGetPhysicalDeviceQueueFamilyProperties;
PFN_vkGetPhysicalDeviceMemoryProperties vkGetPhysicalDeviceMemoryProperties;
PFN_vkEnumerateInstanceExtensionProperties vkEnumerateInstanceExtensionProperties;
PFN_vkEnumerateInstanceLayerProperties vkEnumerateInstanceLayerProperties;
PFN_vkCmdPipelineBarrier vkCmdPipelineBarrier;
PFN_vkCreateShaderModule vkCreateShaderModule;
PFN_vkCreateBuffer vkCreateBuffer;
PFN_vkGetBufferMemoryRequirements vkGetBufferMemoryRequirements;
PFN_vkMapMemory vkMapMemory;
PFN_vkUnmapMemory vkUnmapMemory;
PFN_vkFlushMappedMemoryRanges vkFlushMappedMemoryRanges;
PFN_vkInvalidateMappedMemoryRanges vkInvalidateMappedMemoryRanges;
PFN_vkBindBufferMemory vkBindBufferMemory;
PFN_vkDestroyBuffer vkDestroyBuffer;
PFN_vkAllocateMemory vkAllocateMemory;
PFN_vkBindImageMemory vkBindImageMemory;
PFN_vkGetImageSubresourceLayout vkGetImageSubresourceLayout;
PFN_vkCmdCopyBuffer vkCmdCopyBuffer;
PFN_vkCmdCopyBufferToImage vkCmdCopyBufferToImage;
PFN_vkCmdCopyImage vkCmdCopyImage;
PFN_vkCmdBlitImage vkCmdBlitImage;
PFN_vkCmdClearAttachments vkCmdClearAttachments;
PFN_vkCreateSampler vkCreateSampler;
PFN_vkDestroySampler vkDestroySampler;
PFN_vkDestroyImage vkDestroyImage;
PFN_vkFreeMemory vkFreeMemory;
PFN_vkCreateRenderPass vkCreateRenderPass;
PFN_vkCmdBeginRenderPass vkCmdBeginRenderPass;
PFN_vkCmdEndRenderPass vkCmdEndRenderPass;
PFN_vkCmdNextSubpass vkCmdNextSubpass;
PFN_vkCmdExecuteCommands vkCmdExecuteCommands;
PFN_vkCmdClearColorImage vkCmdClearColorImage;
PFN_vkCreateImage vkCreateImage;
PFN_vkGetImageMemoryRequirements vkGetImageMemoryRequirements;
PFN_vkCreateImageView vkCreateImageView;
PFN_vkDestroyImageView vkDestroyImageView;
PFN_vkCreateSemaphore vkCreateSemaphore;
PFN_vkDestroySemaphore vkDestroySemaphore;
PFN_vkCreateFence vkCreateFence;
PFN_vkDestroyFence vkDestroyFence;
PFN_vkWaitForFences vkWaitForFences;
PFN_vkResetFences vkResetFences;
PFN_vkResetDescriptorPool vkResetDescriptorPool;
PFN_vkCreateCommandPool vkCreateCommandPool;
PFN_vkDestroyCommandPool vkDestroyCommandPool;
PFN_vkAllocateCommandBuffers vkAllocateCommandBuffers;
PFN_vkBeginCommandBuffer vkBeginCommandBuffer;
PFN_vkEndCommandBuffer vkEndCommandBuffer;
PFN_vkGetDeviceQueue vkGetDeviceQueue;
PFN_vkQueueSubmit vkQueueSubmit;
PFN_vkQueueWaitIdle vkQueueWaitIdle;
PFN_vkDeviceWaitIdle vkDeviceWaitIdle;
PFN_vkCreateFramebuffer vkCreateFramebuffer;
PFN_vkCreatePipelineCache vkCreatePipelineCache;
PFN_vkCreatePipelineLayout vkCreatePipelineLayout;
PFN_vkCreateGraphicsPipelines vkCreateGraphicsPipelines;
PFN_vkCreateComputePipelines vkCreateComputePipelines;
PFN_vkCreateDescriptorPool vkCreateDescriptorPool;
PFN_vkCreateDescriptorSetLayout vkCreateDescriptorSetLayout;
PFN_vkAllocateDescriptorSets vkAllocateDescriptorSets;
PFN_vkUpdateDescriptorSets vkUpdateDescriptorSets;
PFN_vkCmdBindDescriptorSets vkCmdBindDescriptorSets;
PFN_vkCmdBindPipeline vkCmdBindPipeline;
PFN_vkCmdBindVertexBuffers vkCmdBindVertexBuffers;
PFN_vkCmdBindIndexBuffer vkCmdBindIndexBuffer;
PFN_vkCmdSetViewport vkCmdSetViewport;
PFN_vkCmdSetScissor vkCmdSetScissor;
PFN_vkCmdSetLineWidth vkCmdSetLineWidth;
PFN_vkCmdSetDepthBias vkCmdSetDepthBias;
PFN_vkCmdPushConstants vkCmdPushConstants;
PFN_vkCmdDrawIndexed vkCmdDrawIndexed;
PFN_vkCmdDraw vkCmdDraw;
PFN_vkCmdDrawIndexedIndirect vkCmdDrawIndexedIndirect;
PFN_vkCmdDrawIndirect vkCmdDrawIndirect;
PFN_vkCmdDispatch vkCmdDispatch;
PFN_vkDestroyPipeline vkDestroyPipeline;
PFN_vkDestroyPipelineLayout vkDestroyPipelineLayout;
PFN_vkDestroyDescriptorSetLayout vkDestroyDescriptorSetLayout;
PFN_vkDestroyDevice vkDestroyDevice;
PFN_vkDestroyInstance vkDestroyInstance;
PFN_vkDestroyDescriptorPool vkDestroyDescriptorPool;
PFN_vkFreeCommandBuffers vkFreeCommandBuffers;
PFN_vkDestroyRenderPass vkDestroyRenderPass;
PFN_vkDestroyFramebuffer vkDestroyFramebuffer;
PFN_vkDestroyShaderModule vkDestroyShaderModule;
PFN_vkDestroyPipelineCache vkDestroyPipelineCache;
PFN_vkCreateQueryPool vkCreateQueryPool;
PFN_vkDestroyQueryPool vkDestroyQueryPool;
PFN_vkGetQueryPoolResults vkGetQueryPoolResults;
PFN_vkCmdBeginQuery vkCmdBeginQuery;
PFN_vkCmdEndQuery vkCmdEndQuery;
PFN_vkCmdResetQueryPool vkCmdResetQueryPool;
PFN_vkCmdCopyQueryPoolResults vkCmdCopyQueryPoolResults;
PFN_vkCreateAndroidSurfaceKHR vkCreateAndroidSurfaceKHR;
PFN_vkDestroySurfaceKHR vkDestroySurfaceKHR;
PFN_vkCmdFillBuffer vkCmdFillBuffer;
int32_t vks::android::screenDensity;
void *libVulkan;
namespace vks
{
namespace android
{
// Dynamically load Vulkan library and base function pointers
bool loadVulkanLibrary()
{
__android_log_print(ANDROID_LOG_INFO, "vulkanandroid", "Loading libvulkan.so...\n");
// Load vulkan library
libVulkan = dlopen("libvulkan.so", RTLD_NOW | RTLD_LOCAL);
if (!libVulkan)
{
__android_log_print(ANDROID_LOG_INFO, "vulkanandroid", "Could not load vulkan library : %s!\n", dlerror());
return false;
}
// Load base function pointers
vkEnumerateInstanceExtensionProperties = reinterpret_cast<PFN_vkEnumerateInstanceExtensionProperties>(dlsym(libVulkan, "vkEnumerateInstanceExtensionProperties"));
vkEnumerateInstanceLayerProperties = reinterpret_cast<PFN_vkEnumerateInstanceLayerProperties>(dlsym(libVulkan, "vkEnumerateInstanceLayerProperties"));
vkCreateInstance = reinterpret_cast<PFN_vkCreateInstance>(dlsym(libVulkan, "vkCreateInstance"));
vkGetInstanceProcAddr = reinterpret_cast<PFN_vkGetInstanceProcAddr>(dlsym(libVulkan, "vkGetInstanceProcAddr"));
vkGetDeviceProcAddr = reinterpret_cast<PFN_vkGetDeviceProcAddr>(dlsym(libVulkan, "vkGetDeviceProcAddr"));
return true;
}
// Load instance based Vulkan function pointers
void loadVulkanFunctions(VkInstance instance)
{
__android_log_print(ANDROID_LOG_INFO, "vulkanandroid", "Loading instance based function pointers...\n");
vkEnumeratePhysicalDevices = reinterpret_cast<PFN_vkEnumeratePhysicalDevices>(vkGetInstanceProcAddr(instance, "vkEnumeratePhysicalDevices"));
vkGetPhysicalDeviceProperties = reinterpret_cast<PFN_vkGetPhysicalDeviceProperties>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceProperties"));
vkGetPhysicalDeviceProperties2 = reinterpret_cast<PFN_vkGetPhysicalDeviceProperties2>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceProperties2"));
vkEnumerateDeviceLayerProperties = reinterpret_cast<PFN_vkEnumerateDeviceLayerProperties>(vkGetInstanceProcAddr(instance, "vkEnumerateDeviceLayerProperties"));
vkEnumerateDeviceExtensionProperties = reinterpret_cast<PFN_vkEnumerateDeviceExtensionProperties>(vkGetInstanceProcAddr(instance, "vkEnumerateDeviceExtensionProperties"));
vkGetPhysicalDeviceQueueFamilyProperties = reinterpret_cast<PFN_vkGetPhysicalDeviceQueueFamilyProperties>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceQueueFamilyProperties"));
vkGetPhysicalDeviceFeatures = reinterpret_cast<PFN_vkGetPhysicalDeviceFeatures>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceFeatures"));
vkGetPhysicalDeviceFeatures2 = reinterpret_cast<PFN_vkGetPhysicalDeviceFeatures2>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceFeatures2"));
vkCreateDevice = reinterpret_cast<PFN_vkCreateDevice>(vkGetInstanceProcAddr(instance, "vkCreateDevice"));
vkGetPhysicalDeviceFormatProperties = reinterpret_cast<PFN_vkGetPhysicalDeviceFormatProperties>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceFormatProperties"));
vkGetPhysicalDeviceMemoryProperties = reinterpret_cast<PFN_vkGetPhysicalDeviceMemoryProperties>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceMemoryProperties"));
vkCmdPipelineBarrier = reinterpret_cast<PFN_vkCmdPipelineBarrier>(vkGetInstanceProcAddr(instance, "vkCmdPipelineBarrier"));
vkCreateShaderModule = reinterpret_cast<PFN_vkCreateShaderModule>(vkGetInstanceProcAddr(instance, "vkCreateShaderModule"));
vkCreateBuffer = reinterpret_cast<PFN_vkCreateBuffer>(vkGetInstanceProcAddr(instance, "vkCreateBuffer"));
vkGetBufferMemoryRequirements = reinterpret_cast<PFN_vkGetBufferMemoryRequirements>(vkGetInstanceProcAddr(instance, "vkGetBufferMemoryRequirements"));
vkMapMemory = reinterpret_cast<PFN_vkMapMemory>(vkGetInstanceProcAddr(instance, "vkMapMemory"));
vkUnmapMemory = reinterpret_cast<PFN_vkUnmapMemory>(vkGetInstanceProcAddr(instance, "vkUnmapMemory"));
vkFlushMappedMemoryRanges = reinterpret_cast<PFN_vkFlushMappedMemoryRanges>(vkGetInstanceProcAddr(instance, "vkFlushMappedMemoryRanges"));
vkInvalidateMappedMemoryRanges = reinterpret_cast<PFN_vkInvalidateMappedMemoryRanges>(vkGetInstanceProcAddr(instance, "vkInvalidateMappedMemoryRanges"));
vkBindBufferMemory = reinterpret_cast<PFN_vkBindBufferMemory>(vkGetInstanceProcAddr(instance, "vkBindBufferMemory"));
vkDestroyBuffer = reinterpret_cast<PFN_vkDestroyBuffer>(vkGetInstanceProcAddr(instance, "vkDestroyBuffer"));
vkAllocateMemory = reinterpret_cast<PFN_vkAllocateMemory>(vkGetInstanceProcAddr(instance, "vkAllocateMemory"));
vkFreeMemory = reinterpret_cast<PFN_vkFreeMemory>(vkGetInstanceProcAddr(instance, "vkFreeMemory"));
vkCreateRenderPass = reinterpret_cast<PFN_vkCreateRenderPass>(vkGetInstanceProcAddr(instance, "vkCreateRenderPass"));
vkCmdBeginRenderPass = reinterpret_cast<PFN_vkCmdBeginRenderPass>(vkGetInstanceProcAddr(instance, "vkCmdBeginRenderPass"));
vkCmdEndRenderPass = reinterpret_cast<PFN_vkCmdEndRenderPass>(vkGetInstanceProcAddr(instance, "vkCmdEndRenderPass"));
vkCmdNextSubpass = reinterpret_cast<PFN_vkCmdNextSubpass>(vkGetInstanceProcAddr(instance, "vkCmdNextSubpass"));
vkCmdExecuteCommands = reinterpret_cast<PFN_vkCmdExecuteCommands>(vkGetInstanceProcAddr(instance, "vkCmdExecuteCommands"));
vkCmdClearColorImage = reinterpret_cast<PFN_vkCmdClearColorImage>(vkGetInstanceProcAddr(instance, "vkCmdClearColorImage"));
vkCreateImage = reinterpret_cast<PFN_vkCreateImage>(vkGetInstanceProcAddr(instance, "vkCreateImage"));
vkGetImageMemoryRequirements = reinterpret_cast<PFN_vkGetImageMemoryRequirements>(vkGetInstanceProcAddr(instance, "vkGetImageMemoryRequirements"));
vkCreateImageView = reinterpret_cast<PFN_vkCreateImageView>(vkGetInstanceProcAddr(instance, "vkCreateImageView"));
vkDestroyImageView = reinterpret_cast<PFN_vkDestroyImageView>(vkGetInstanceProcAddr(instance, "vkDestroyImageView"));
vkBindImageMemory = reinterpret_cast<PFN_vkBindImageMemory>(vkGetInstanceProcAddr(instance, "vkBindImageMemory"));
vkGetImageSubresourceLayout = reinterpret_cast<PFN_vkGetImageSubresourceLayout>(vkGetInstanceProcAddr(instance, "vkGetImageSubresourceLayout"));
vkCmdCopyImage = reinterpret_cast<PFN_vkCmdCopyImage>(vkGetInstanceProcAddr(instance, "vkCmdCopyImage"));
vkCmdBlitImage = reinterpret_cast<PFN_vkCmdBlitImage>(vkGetInstanceProcAddr(instance, "vkCmdBlitImage"));
vkDestroyImage = reinterpret_cast<PFN_vkDestroyImage>(vkGetInstanceProcAddr(instance, "vkDestroyImage"));
vkCmdClearAttachments = reinterpret_cast<PFN_vkCmdClearAttachments>(vkGetInstanceProcAddr(instance, "vkCmdClearAttachments"));
vkCmdCopyBuffer = reinterpret_cast<PFN_vkCmdCopyBuffer>(vkGetInstanceProcAddr(instance, "vkCmdCopyBuffer"));
vkCmdCopyBufferToImage = reinterpret_cast<PFN_vkCmdCopyBufferToImage>(vkGetInstanceProcAddr(instance, "vkCmdCopyBufferToImage"));
vkCreateSampler = reinterpret_cast<PFN_vkCreateSampler>(vkGetInstanceProcAddr(instance, "vkCreateSampler"));
vkDestroySampler = reinterpret_cast<PFN_vkDestroySampler>(vkGetInstanceProcAddr(instance, "vkDestroySampler"));;
vkCreateSemaphore = reinterpret_cast<PFN_vkCreateSemaphore>(vkGetInstanceProcAddr(instance, "vkCreateSemaphore"));
vkDestroySemaphore = reinterpret_cast<PFN_vkDestroySemaphore>(vkGetInstanceProcAddr(instance, "vkDestroySemaphore"));
vkCreateFence = reinterpret_cast<PFN_vkCreateFence>(vkGetInstanceProcAddr(instance, "vkCreateFence"));
vkDestroyFence = reinterpret_cast<PFN_vkDestroyFence>(vkGetInstanceProcAddr(instance, "vkDestroyFence"));
vkWaitForFences = reinterpret_cast<PFN_vkWaitForFences>(vkGetInstanceProcAddr(instance, "vkWaitForFences"));
vkResetFences = reinterpret_cast<PFN_vkResetFences>(vkGetInstanceProcAddr(instance, "vkResetFences"));;
vkResetDescriptorPool = reinterpret_cast<PFN_vkResetDescriptorPool>(vkGetInstanceProcAddr(instance, "vkResetDescriptorPool"));
vkCreateCommandPool = reinterpret_cast<PFN_vkCreateCommandPool>(vkGetInstanceProcAddr(instance, "vkCreateCommandPool"));
vkDestroyCommandPool = reinterpret_cast<PFN_vkDestroyCommandPool>(vkGetInstanceProcAddr(instance, "vkDestroyCommandPool"));;
vkAllocateCommandBuffers = reinterpret_cast<PFN_vkAllocateCommandBuffers>(vkGetInstanceProcAddr(instance, "vkAllocateCommandBuffers"));
vkBeginCommandBuffer = reinterpret_cast<PFN_vkBeginCommandBuffer>(vkGetInstanceProcAddr(instance, "vkBeginCommandBuffer"));
vkEndCommandBuffer = reinterpret_cast<PFN_vkEndCommandBuffer>(vkGetInstanceProcAddr(instance, "vkEndCommandBuffer"));
vkGetDeviceQueue = reinterpret_cast<PFN_vkGetDeviceQueue>(vkGetInstanceProcAddr(instance, "vkGetDeviceQueue"));
vkQueueSubmit = reinterpret_cast<PFN_vkQueueSubmit>(vkGetInstanceProcAddr(instance, "vkQueueSubmit"));
vkQueueWaitIdle = reinterpret_cast<PFN_vkQueueWaitIdle>(vkGetInstanceProcAddr(instance, "vkQueueWaitIdle"));
vkDeviceWaitIdle = reinterpret_cast<PFN_vkDeviceWaitIdle>(vkGetInstanceProcAddr(instance, "vkDeviceWaitIdle"));
vkCreateFramebuffer = reinterpret_cast<PFN_vkCreateFramebuffer>(vkGetInstanceProcAddr(instance, "vkCreateFramebuffer"));
vkCreatePipelineCache = reinterpret_cast<PFN_vkCreatePipelineCache>(vkGetInstanceProcAddr(instance, "vkCreatePipelineCache"));
vkCreatePipelineLayout = reinterpret_cast<PFN_vkCreatePipelineLayout>(vkGetInstanceProcAddr(instance, "vkCreatePipelineLayout"));
vkCreateGraphicsPipelines = reinterpret_cast<PFN_vkCreateGraphicsPipelines>(vkGetInstanceProcAddr(instance, "vkCreateGraphicsPipelines"));
vkCreateComputePipelines = reinterpret_cast<PFN_vkCreateComputePipelines>(vkGetInstanceProcAddr(instance, "vkCreateComputePipelines"));
vkCreateDescriptorPool = reinterpret_cast<PFN_vkCreateDescriptorPool>(vkGetInstanceProcAddr(instance, "vkCreateDescriptorPool"));
vkCreateDescriptorSetLayout = reinterpret_cast<PFN_vkCreateDescriptorSetLayout>(vkGetInstanceProcAddr(instance, "vkCreateDescriptorSetLayout"));
vkAllocateDescriptorSets = reinterpret_cast<PFN_vkAllocateDescriptorSets>(vkGetInstanceProcAddr(instance, "vkAllocateDescriptorSets"));
vkUpdateDescriptorSets = reinterpret_cast<PFN_vkUpdateDescriptorSets>(vkGetInstanceProcAddr(instance, "vkUpdateDescriptorSets"));
vkCmdBindDescriptorSets = reinterpret_cast<PFN_vkCmdBindDescriptorSets>(vkGetInstanceProcAddr(instance, "vkCmdBindDescriptorSets"));
vkCmdBindPipeline = reinterpret_cast<PFN_vkCmdBindPipeline>(vkGetInstanceProcAddr(instance, "vkCmdBindPipeline"));
vkCmdBindVertexBuffers = reinterpret_cast<PFN_vkCmdBindVertexBuffers>(vkGetInstanceProcAddr(instance, "vkCmdBindVertexBuffers"));
vkCmdBindIndexBuffer = reinterpret_cast<PFN_vkCmdBindIndexBuffer>(vkGetInstanceProcAddr(instance, "vkCmdBindIndexBuffer"));
vkCmdSetViewport = reinterpret_cast<PFN_vkCmdSetViewport>(vkGetInstanceProcAddr(instance, "vkCmdSetViewport"));
vkCmdSetScissor = reinterpret_cast<PFN_vkCmdSetScissor>(vkGetInstanceProcAddr(instance, "vkCmdSetScissor"));
vkCmdSetLineWidth = reinterpret_cast<PFN_vkCmdSetLineWidth>(vkGetInstanceProcAddr(instance, "vkCmdSetLineWidth"));
vkCmdSetDepthBias = reinterpret_cast<PFN_vkCmdSetDepthBias>(vkGetInstanceProcAddr(instance, "vkCmdSetDepthBias"));
vkCmdPushConstants = reinterpret_cast<PFN_vkCmdPushConstants>(vkGetInstanceProcAddr(instance, "vkCmdPushConstants"));;
vkCmdDrawIndexed = reinterpret_cast<PFN_vkCmdDrawIndexed>(vkGetInstanceProcAddr(instance, "vkCmdDrawIndexed"));
vkCmdDraw = reinterpret_cast<PFN_vkCmdDraw>(vkGetInstanceProcAddr(instance, "vkCmdDraw"));
vkCmdDrawIndexedIndirect = reinterpret_cast<PFN_vkCmdDrawIndexedIndirect>(vkGetInstanceProcAddr(instance, "vkCmdDrawIndexedIndirect"));
vkCmdDrawIndirect = reinterpret_cast<PFN_vkCmdDrawIndirect>(vkGetInstanceProcAddr(instance, "vkCmdDrawIndirect"));
vkCmdDispatch = reinterpret_cast<PFN_vkCmdDispatch>(vkGetInstanceProcAddr(instance, "vkCmdDispatch"));
vkDestroyPipeline = reinterpret_cast<PFN_vkDestroyPipeline>(vkGetInstanceProcAddr(instance, "vkDestroyPipeline"));
vkDestroyPipelineLayout = reinterpret_cast<PFN_vkDestroyPipelineLayout>(vkGetInstanceProcAddr(instance, "vkDestroyPipelineLayout"));;
vkDestroyDescriptorSetLayout = reinterpret_cast<PFN_vkDestroyDescriptorSetLayout>(vkGetInstanceProcAddr(instance, "vkDestroyDescriptorSetLayout"));
vkDestroyDevice = reinterpret_cast<PFN_vkDestroyDevice>(vkGetInstanceProcAddr(instance, "vkDestroyDevice"));
vkDestroyInstance = reinterpret_cast<PFN_vkDestroyInstance>(vkGetInstanceProcAddr(instance, "vkDestroyInstance"));
vkDestroyDescriptorPool = reinterpret_cast<PFN_vkDestroyDescriptorPool>(vkGetInstanceProcAddr(instance, "vkDestroyDescriptorPool"));
vkFreeCommandBuffers = reinterpret_cast<PFN_vkFreeCommandBuffers>(vkGetInstanceProcAddr(instance, "vkFreeCommandBuffers"));
vkDestroyRenderPass = reinterpret_cast<PFN_vkDestroyRenderPass>(vkGetInstanceProcAddr(instance, "vkDestroyRenderPass"));
vkDestroyFramebuffer = reinterpret_cast<PFN_vkDestroyFramebuffer>(vkGetInstanceProcAddr(instance, "vkDestroyFramebuffer"));
vkDestroyShaderModule = reinterpret_cast<PFN_vkDestroyShaderModule>(vkGetInstanceProcAddr(instance, "vkDestroyShaderModule"));
vkDestroyPipelineCache = reinterpret_cast<PFN_vkDestroyPipelineCache>(vkGetInstanceProcAddr(instance, "vkDestroyPipelineCache"));
vkCreateQueryPool = reinterpret_cast<PFN_vkCreateQueryPool>(vkGetInstanceProcAddr(instance, "vkCreateQueryPool"));
vkDestroyQueryPool = reinterpret_cast<PFN_vkDestroyQueryPool>(vkGetInstanceProcAddr(instance, "vkDestroyQueryPool"));
vkGetQueryPoolResults = reinterpret_cast<PFN_vkGetQueryPoolResults>(vkGetInstanceProcAddr(instance, "vkGetQueryPoolResults"));
vkCmdBeginQuery = reinterpret_cast<PFN_vkCmdBeginQuery>(vkGetInstanceProcAddr(instance, "vkCmdBeginQuery"));
vkCmdEndQuery = reinterpret_cast<PFN_vkCmdEndQuery>(vkGetInstanceProcAddr(instance, "vkCmdEndQuery"));
vkCmdResetQueryPool = reinterpret_cast<PFN_vkCmdResetQueryPool>(vkGetInstanceProcAddr(instance, "vkCmdResetQueryPool"));
vkCmdCopyQueryPoolResults = reinterpret_cast<PFN_vkCmdCopyQueryPoolResults>(vkGetInstanceProcAddr(instance, "vkCmdCopyQueryPoolResults"));
vkCreateAndroidSurfaceKHR = reinterpret_cast<PFN_vkCreateAndroidSurfaceKHR>(vkGetInstanceProcAddr(instance, "vkCreateAndroidSurfaceKHR"));
vkDestroySurfaceKHR = reinterpret_cast<PFN_vkDestroySurfaceKHR>(vkGetInstanceProcAddr(instance, "vkDestroySurfaceKHR"));
vkCmdFillBuffer = reinterpret_cast<PFN_vkCmdFillBuffer>(vkGetInstanceProcAddr(instance, "vkCmdFillBuffer"));
}
void freeVulkanLibrary()
{
dlclose(libVulkan);
}
void getDeviceConfig()
{
// Screen density
AConfiguration* config = AConfiguration_new();
AConfiguration_fromAssetManager(config, androidApp->activity->assetManager);
vks::android::screenDensity = AConfiguration_getDensity(config);
AConfiguration_delete(config);
}
// Displays a native alert dialog using JNI
void showAlert(const char* message) {
JNIEnv* jni;
androidApp->activity->vm->AttachCurrentThread(&jni, NULL);
jstring jmessage = jni->NewStringUTF(message);
jclass clazz = jni->GetObjectClass(androidApp->activity->clazz);
// Signature has to match java implementation (arguments)
jmethodID methodID = jni->GetMethodID(clazz, "showAlert", "(Ljava/lang/String;)V");
jni->CallVoidMethod(androidApp->activity->clazz, methodID, jmessage);
jni->DeleteLocalRef(jmessage);
androidApp->activity->vm->DetachCurrentThread();
return;
}
}
}
#endif

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/*
* Android Vulkan function pointer prototypes
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#ifndef VULKANANDROID_H
#define VULKANANDROID_H
// Vulkan needs to be loaded dynamically on android
#pragma once
#ifndef VULKANANDROID_HPP
#define VULKANANDROID_HPP
#include "vulkan/vulkan.h"
#if defined(__ANDROID__)
#include <android/log.h>
#include <android_native_app_glue.h>
#include <android/configuration.h>
#include <memory>
#include <string>
// Missing from the NDK
namespace std
{
template<typename T, typename... Args>
std::unique_ptr<T> make_unique(Args&&... args)
{
return std::unique_ptr<T>(new T(std::forward<Args>(args)...));
}
}
// Global reference to android application object
extern android_app* androidApp;
#define LOGI(...) ((void)__android_log_print(ANDROID_LOG_INFO, "vulkanExample", __VA_ARGS__))
#define LOGW(...) ((void)__android_log_print(ANDROID_LOG_WARN, "vulkanExample", __VA_ARGS__))
#define LOGD(...) ((void)__android_log_print(ANDROID_LOG_DEBUG, "vulkanExample", __VA_ARGS__))
#define LOGE(...) ((void)__android_log_print(ANDROID_LOG_ERROR, "vulkanExample", __VA_ARGS__))
// Function pointer prototypes
// Not complete, just the functions used in the caps viewer!
extern PFN_vkCreateInstance vkCreateInstance;
extern PFN_vkGetDeviceProcAddr vkGetDeviceProcAddr;
extern PFN_vkGetInstanceProcAddr vkGetInstanceProcAddr;
extern PFN_vkCreateDevice vkCreateDevice;
extern PFN_vkEnumeratePhysicalDevices vkEnumeratePhysicalDevices;
extern PFN_vkGetPhysicalDeviceProperties vkGetPhysicalDeviceProperties;
extern PFN_vkGetPhysicalDeviceProperties2 vkGetPhysicalDeviceProperties2;
extern PFN_vkEnumerateDeviceExtensionProperties vkEnumerateDeviceExtensionProperties;
extern PFN_vkEnumerateDeviceLayerProperties vkEnumerateDeviceLayerProperties;
extern PFN_vkGetPhysicalDeviceFormatProperties vkGetPhysicalDeviceFormatProperties;
extern PFN_vkGetPhysicalDeviceFeatures vkGetPhysicalDeviceFeatures;
extern PFN_vkGetPhysicalDeviceFeatures2 vkGetPhysicalDeviceFeatures2;
extern PFN_vkGetPhysicalDeviceQueueFamilyProperties vkGetPhysicalDeviceQueueFamilyProperties;
extern PFN_vkGetPhysicalDeviceMemoryProperties vkGetPhysicalDeviceMemoryProperties;
extern PFN_vkEnumerateInstanceExtensionProperties vkEnumerateInstanceExtensionProperties;
extern PFN_vkEnumerateInstanceLayerProperties vkEnumerateInstanceLayerProperties;
extern PFN_vkCmdPipelineBarrier vkCmdPipelineBarrier;
extern PFN_vkCreateShaderModule vkCreateShaderModule;
extern PFN_vkCreateBuffer vkCreateBuffer;
extern PFN_vkGetBufferMemoryRequirements vkGetBufferMemoryRequirements;
extern PFN_vkMapMemory vkMapMemory;
extern PFN_vkUnmapMemory vkUnmapMemory;
extern PFN_vkFlushMappedMemoryRanges vkFlushMappedMemoryRanges;
extern PFN_vkInvalidateMappedMemoryRanges vkInvalidateMappedMemoryRanges;
extern PFN_vkBindBufferMemory vkBindBufferMemory;
extern PFN_vkDestroyBuffer vkDestroyBuffer;
extern PFN_vkAllocateMemory vkAllocateMemory;
extern PFN_vkBindImageMemory vkBindImageMemory;
extern PFN_vkGetImageSubresourceLayout vkGetImageSubresourceLayout;
extern PFN_vkCmdCopyBuffer vkCmdCopyBuffer;
extern PFN_vkCmdCopyBufferToImage vkCmdCopyBufferToImage;
extern PFN_vkCmdCopyImage vkCmdCopyImage;
extern PFN_vkCmdBlitImage vkCmdBlitImage;
extern PFN_vkCmdClearAttachments vkCmdClearAttachments;
extern PFN_vkCreateSampler vkCreateSampler;
extern PFN_vkDestroySampler vkDestroySampler;
extern PFN_vkDestroyImage vkDestroyImage;
extern PFN_vkFreeMemory vkFreeMemory;
extern PFN_vkCreateRenderPass vkCreateRenderPass;
extern PFN_vkCmdBeginRenderPass vkCmdBeginRenderPass;
extern PFN_vkCmdEndRenderPass vkCmdEndRenderPass;
extern PFN_vkCmdNextSubpass vkCmdNextSubpass;
extern PFN_vkCmdExecuteCommands vkCmdExecuteCommands;
extern PFN_vkCmdClearColorImage vkCmdClearColorImage;
extern PFN_vkCreateImage vkCreateImage;
extern PFN_vkGetImageMemoryRequirements vkGetImageMemoryRequirements;
extern PFN_vkCreateImageView vkCreateImageView;
extern PFN_vkDestroyImageView vkDestroyImageView;
extern PFN_vkCreateSemaphore vkCreateSemaphore;
extern PFN_vkDestroySemaphore vkDestroySemaphore;
extern PFN_vkCreateFence vkCreateFence;
extern PFN_vkDestroyFence vkDestroyFence;
extern PFN_vkWaitForFences vkWaitForFences;
extern PFN_vkResetFences vkResetFences;
extern PFN_vkResetDescriptorPool vkResetDescriptorPool;
extern PFN_vkCreateCommandPool vkCreateCommandPool;
extern PFN_vkDestroyCommandPool vkDestroyCommandPool;
extern PFN_vkAllocateCommandBuffers vkAllocateCommandBuffers;
extern PFN_vkBeginCommandBuffer vkBeginCommandBuffer;
extern PFN_vkEndCommandBuffer vkEndCommandBuffer;
extern PFN_vkGetDeviceQueue vkGetDeviceQueue;
extern PFN_vkQueueSubmit vkQueueSubmit;
extern PFN_vkQueueWaitIdle vkQueueWaitIdle;
extern PFN_vkDeviceWaitIdle vkDeviceWaitIdle;
extern PFN_vkCreateFramebuffer vkCreateFramebuffer;
extern PFN_vkCreatePipelineCache vkCreatePipelineCache;
extern PFN_vkCreatePipelineLayout vkCreatePipelineLayout;
extern PFN_vkCreateGraphicsPipelines vkCreateGraphicsPipelines;
extern PFN_vkCreateComputePipelines vkCreateComputePipelines;
extern PFN_vkCreateDescriptorPool vkCreateDescriptorPool;
extern PFN_vkCreateDescriptorSetLayout vkCreateDescriptorSetLayout;
extern PFN_vkAllocateDescriptorSets vkAllocateDescriptorSets;
extern PFN_vkUpdateDescriptorSets vkUpdateDescriptorSets;
extern PFN_vkCmdBindDescriptorSets vkCmdBindDescriptorSets;
extern PFN_vkCmdBindPipeline vkCmdBindPipeline;
extern PFN_vkCmdBindVertexBuffers vkCmdBindVertexBuffers;
extern PFN_vkCmdBindIndexBuffer vkCmdBindIndexBuffer;
extern PFN_vkCmdSetViewport vkCmdSetViewport;
extern PFN_vkCmdSetScissor vkCmdSetScissor;
extern PFN_vkCmdSetLineWidth vkCmdSetLineWidth;
extern PFN_vkCmdSetDepthBias vkCmdSetDepthBias;
extern PFN_vkCmdPushConstants vkCmdPushConstants;
extern PFN_vkCmdDrawIndexed vkCmdDrawIndexed;
extern PFN_vkCmdDraw vkCmdDraw;
extern PFN_vkCmdDrawIndexedIndirect vkCmdDrawIndexedIndirect;
extern PFN_vkCmdDrawIndirect vkCmdDrawIndirect;
extern PFN_vkCmdDispatch vkCmdDispatch;
extern PFN_vkDestroyPipeline vkDestroyPipeline;
extern PFN_vkDestroyPipelineLayout vkDestroyPipelineLayout;
extern PFN_vkDestroyDescriptorSetLayout vkDestroyDescriptorSetLayout;
extern PFN_vkDestroyDevice vkDestroyDevice;
extern PFN_vkDestroyInstance vkDestroyInstance;
extern PFN_vkDestroyDescriptorPool vkDestroyDescriptorPool;
extern PFN_vkFreeCommandBuffers vkFreeCommandBuffers;
extern PFN_vkDestroyRenderPass vkDestroyRenderPass;
extern PFN_vkDestroyFramebuffer vkDestroyFramebuffer;
extern PFN_vkDestroyShaderModule vkDestroyShaderModule;
extern PFN_vkDestroyPipelineCache vkDestroyPipelineCache;
extern PFN_vkCreateQueryPool vkCreateQueryPool;
extern PFN_vkDestroyQueryPool vkDestroyQueryPool;
extern PFN_vkGetQueryPoolResults vkGetQueryPoolResults;
extern PFN_vkCmdBeginQuery vkCmdBeginQuery;
extern PFN_vkCmdEndQuery vkCmdEndQuery;
extern PFN_vkCmdResetQueryPool vkCmdResetQueryPool;
extern PFN_vkCmdCopyQueryPoolResults vkCmdCopyQueryPoolResults;
extern PFN_vkCreateAndroidSurfaceKHR vkCreateAndroidSurfaceKHR;
extern PFN_vkDestroySurfaceKHR vkDestroySurfaceKHR;
extern PFN_vkCmdFillBuffer vkCmdFillBuffer;
namespace vks
{
namespace android
{
/* @brief Touch control thresholds from Android NDK samples */
const int32_t DOUBLE_TAP_TIMEOUT = 300 * 1000000;
const int32_t TAP_TIMEOUT = 180 * 1000000;
const int32_t DOUBLE_TAP_SLOP = 100;
const int32_t TAP_SLOP = 8;
/** @brief Density of the device screen (in DPI) */
extern int32_t screenDensity;
bool loadVulkanLibrary();
void loadVulkanFunctions(VkInstance instance);
void freeVulkanLibrary();
void getDeviceConfig();
void showAlert(const char* message);
}
}
#endif
#endif // VULKANANDROID_HPP
#endif // VULKANANDROID_H

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/*
* Vulkan buffer class
*
* Encapsulates a Vulkan buffer
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include "VulkanBuffer.h"
namespace vks
{
/**
* Map a memory range of this buffer. If successful, mapped points to the specified buffer range.
*
* @param size (Optional) Size of the memory range to map. Pass VK_WHOLE_SIZE to map the complete buffer range.
* @param offset (Optional) Byte offset from beginning
*
* @return VkResult of the buffer mapping call
*/
VkResult Buffer::map(VkDeviceSize size, VkDeviceSize offset)
{
return vkMapMemory(device, memory, offset, size, 0, &mapped);
}
/**
* Unmap a mapped memory range
*
* @note Does not return a result as vkUnmapMemory can't fail
*/
void Buffer::unmap()
{
if (mapped)
{
vkUnmapMemory(device, memory);
mapped = nullptr;
}
}
/**
* Attach the allocated memory block to the buffer
*
* @param offset (Optional) Byte offset (from the beginning) for the memory region to bind
*
* @return VkResult of the bindBufferMemory call
*/
VkResult Buffer::bind(VkDeviceSize offset)
{
return vkBindBufferMemory(device, buffer, memory, offset);
}
/**
* Setup the default descriptor for this buffer
*
* @param size (Optional) Size of the memory range of the descriptor
* @param offset (Optional) Byte offset from beginning
*
*/
void Buffer::setupDescriptor(VkDeviceSize size, VkDeviceSize offset)
{
descriptor.offset = offset;
descriptor.buffer = buffer;
descriptor.range = size;
}
/**
* Copies the specified data to the mapped buffer
*
* @param data Pointer to the data to copy
* @param size Size of the data to copy in machine units
*
*/
void Buffer::copyTo(void* data, VkDeviceSize size)
{
assert(mapped);
memcpy(mapped, data, size);
}
/**
* Flush a memory range of the buffer to make it visible to the device
*
* @note Only required for non-coherent memory
*
* @param size (Optional) Size of the memory range to flush. Pass VK_WHOLE_SIZE to flush the complete buffer range.
* @param offset (Optional) Byte offset from beginning
*
* @return VkResult of the flush call
*/
VkResult Buffer::flush(VkDeviceSize size, VkDeviceSize offset)
{
VkMappedMemoryRange mappedRange = {};
mappedRange.sType = VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE;
mappedRange.memory = memory;
mappedRange.offset = offset;
mappedRange.size = size;
return vkFlushMappedMemoryRanges(device, 1, &mappedRange);
}
/**
* Invalidate a memory range of the buffer to make it visible to the host
*
* @note Only required for non-coherent memory
*
* @param size (Optional) Size of the memory range to invalidate. Pass VK_WHOLE_SIZE to invalidate the complete buffer range.
* @param offset (Optional) Byte offset from beginning
*
* @return VkResult of the invalidate call
*/
VkResult Buffer::invalidate(VkDeviceSize size, VkDeviceSize offset)
{
VkMappedMemoryRange mappedRange = {};
mappedRange.sType = VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE;
mappedRange.memory = memory;
mappedRange.offset = offset;
mappedRange.size = size;
return vkInvalidateMappedMemoryRanges(device, 1, &mappedRange);
}
/**
* Release all Vulkan resources held by this buffer
*/
void Buffer::destroy()
{
if (buffer)
{
vkDestroyBuffer(device, buffer, nullptr);
}
if (memory)
{
vkFreeMemory(device, memory, nullptr);
}
}
};

46
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/*
* Vulkan buffer class
*
* Encapsulates a Vulkan buffer
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <vector>
#include "vulkan/vulkan.h"
#include "VulkanTools.h"
namespace vks
{
/**
* @brief Encapsulates access to a Vulkan buffer backed up by device memory
* @note To be filled by an external source like the VulkanDevice
*/
struct Buffer
{
VkDevice device;
VkBuffer buffer = VK_NULL_HANDLE;
VkDeviceMemory memory = VK_NULL_HANDLE;
VkDescriptorBufferInfo descriptor;
VkDeviceSize size = 0;
VkDeviceSize alignment = 0;
void* mapped = nullptr;
/** @brief Usage flags to be filled by external source at buffer creation (to query at some later point) */
VkBufferUsageFlags usageFlags;
/** @brief Memory property flags to be filled by external source at buffer creation (to query at some later point) */
VkMemoryPropertyFlags memoryPropertyFlags;
VkResult map(VkDeviceSize size = VK_WHOLE_SIZE, VkDeviceSize offset = 0);
void unmap();
VkResult bind(VkDeviceSize offset = 0);
void setupDescriptor(VkDeviceSize size = VK_WHOLE_SIZE, VkDeviceSize offset = 0);
void copyTo(void* data, VkDeviceSize size);
VkResult flush(VkDeviceSize size = VK_WHOLE_SIZE, VkDeviceSize offset = 0);
VkResult invalidate(VkDeviceSize size = VK_WHOLE_SIZE, VkDeviceSize offset = 0);
void destroy();
};
}

261
base/VulkanDebug.cpp 100644
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/*
* Vulkan examples debug wrapper
*
* Copyright (C) by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include "VulkanDebug.h"
#include <iostream>
namespace vks
{
namespace debug
{
PFN_vkCreateDebugUtilsMessengerEXT vkCreateDebugUtilsMessengerEXT;
PFN_vkDestroyDebugUtilsMessengerEXT vkDestroyDebugUtilsMessengerEXT;
VkDebugUtilsMessengerEXT debugUtilsMessenger;
VKAPI_ATTR VkBool32 VKAPI_CALL debugUtilsMessengerCallback(
VkDebugUtilsMessageSeverityFlagBitsEXT messageSeverity,
VkDebugUtilsMessageTypeFlagsEXT messageType,
const VkDebugUtilsMessengerCallbackDataEXT* pCallbackData,
void* pUserData)
{
// Select prefix depending on flags passed to the callback
std::string prefix("");
if (messageSeverity & VK_DEBUG_UTILS_MESSAGE_SEVERITY_VERBOSE_BIT_EXT) {
prefix = "VERBOSE: ";
}
else if (messageSeverity & VK_DEBUG_UTILS_MESSAGE_SEVERITY_INFO_BIT_EXT) {
prefix = "INFO: ";
}
else if (messageSeverity & VK_DEBUG_UTILS_MESSAGE_SEVERITY_WARNING_BIT_EXT) {
prefix = "WARNING: ";
}
else if (messageSeverity & VK_DEBUG_UTILS_MESSAGE_SEVERITY_ERROR_BIT_EXT) {
prefix = "ERROR: ";
}
// Display message to default output (console/logcat)
std::stringstream debugMessage;
debugMessage << prefix << "[" << pCallbackData->messageIdNumber << "][" << pCallbackData->pMessageIdName << "] : " << pCallbackData->pMessage;
#if defined(__ANDROID__)
if (messageSeverity >= VK_DEBUG_UTILS_MESSAGE_SEVERITY_ERROR_BIT_EXT) {
LOGE("%s", debugMessage.str().c_str());
} else {
LOGD("%s", debugMessage.str().c_str());
}
#else
if (messageSeverity >= VK_DEBUG_UTILS_MESSAGE_SEVERITY_ERROR_BIT_EXT) {
std::cerr << debugMessage.str() << "\n";
} else {
std::cout << debugMessage.str() << "\n";
}
fflush(stdout);
#endif
// The return value of this callback controls whether the Vulkan call that caused the validation message will be aborted or not
// We return VK_FALSE as we DON'T want Vulkan calls that cause a validation message to abort
// If you instead want to have calls abort, pass in VK_TRUE and the function will return VK_ERROR_VALIDATION_FAILED_EXT
return VK_FALSE;
}
void setupDebugging(VkInstance instance)
{
vkCreateDebugUtilsMessengerEXT = reinterpret_cast<PFN_vkCreateDebugUtilsMessengerEXT>(vkGetInstanceProcAddr(instance, "vkCreateDebugUtilsMessengerEXT"));
vkDestroyDebugUtilsMessengerEXT = reinterpret_cast<PFN_vkDestroyDebugUtilsMessengerEXT>(vkGetInstanceProcAddr(instance, "vkDestroyDebugUtilsMessengerEXT"));
VkDebugUtilsMessengerCreateInfoEXT debugUtilsMessengerCI{};
debugUtilsMessengerCI.sType = VK_STRUCTURE_TYPE_DEBUG_UTILS_MESSENGER_CREATE_INFO_EXT;
debugUtilsMessengerCI.messageSeverity = VK_DEBUG_UTILS_MESSAGE_SEVERITY_WARNING_BIT_EXT | VK_DEBUG_UTILS_MESSAGE_SEVERITY_ERROR_BIT_EXT;
debugUtilsMessengerCI.messageType = VK_DEBUG_UTILS_MESSAGE_TYPE_GENERAL_BIT_EXT | VK_DEBUG_UTILS_MESSAGE_TYPE_VALIDATION_BIT_EXT;
debugUtilsMessengerCI.pfnUserCallback = debugUtilsMessengerCallback;
VkResult result = vkCreateDebugUtilsMessengerEXT(instance, &debugUtilsMessengerCI, nullptr, &debugUtilsMessenger);
assert(result == VK_SUCCESS);
}
void freeDebugCallback(VkInstance instance)
{
if (debugUtilsMessenger != VK_NULL_HANDLE)
{
vkDestroyDebugUtilsMessengerEXT(instance, debugUtilsMessenger, nullptr);
}
}
}
namespace debugmarker
{
bool active = false;
PFN_vkDebugMarkerSetObjectTagEXT pfnDebugMarkerSetObjectTag = VK_NULL_HANDLE;
PFN_vkDebugMarkerSetObjectNameEXT pfnDebugMarkerSetObjectName = VK_NULL_HANDLE;
PFN_vkCmdDebugMarkerBeginEXT pfnCmdDebugMarkerBegin = VK_NULL_HANDLE;
PFN_vkCmdDebugMarkerEndEXT pfnCmdDebugMarkerEnd = VK_NULL_HANDLE;
PFN_vkCmdDebugMarkerInsertEXT pfnCmdDebugMarkerInsert = VK_NULL_HANDLE;
void setup(VkDevice device)
{
pfnDebugMarkerSetObjectTag = reinterpret_cast<PFN_vkDebugMarkerSetObjectTagEXT>(vkGetDeviceProcAddr(device, "vkDebugMarkerSetObjectTagEXT"));
pfnDebugMarkerSetObjectName = reinterpret_cast<PFN_vkDebugMarkerSetObjectNameEXT>(vkGetDeviceProcAddr(device, "vkDebugMarkerSetObjectNameEXT"));
pfnCmdDebugMarkerBegin = reinterpret_cast<PFN_vkCmdDebugMarkerBeginEXT>(vkGetDeviceProcAddr(device, "vkCmdDebugMarkerBeginEXT"));
pfnCmdDebugMarkerEnd = reinterpret_cast<PFN_vkCmdDebugMarkerEndEXT>(vkGetDeviceProcAddr(device, "vkCmdDebugMarkerEndEXT"));
pfnCmdDebugMarkerInsert = reinterpret_cast<PFN_vkCmdDebugMarkerInsertEXT>(vkGetDeviceProcAddr(device, "vkCmdDebugMarkerInsertEXT"));
// Set flag if at least one function pointer is present
active = (pfnDebugMarkerSetObjectName != VK_NULL_HANDLE);
}
void setObjectName(VkDevice device, uint64_t object, VkDebugReportObjectTypeEXT objectType, const char *name)
{
// Check for valid function pointer (may not be present if not running in a debugging application)
if (pfnDebugMarkerSetObjectName)
{
VkDebugMarkerObjectNameInfoEXT nameInfo = {};
nameInfo.sType = VK_STRUCTURE_TYPE_DEBUG_MARKER_OBJECT_NAME_INFO_EXT;
nameInfo.objectType = objectType;
nameInfo.object = object;
nameInfo.pObjectName = name;
pfnDebugMarkerSetObjectName(device, &nameInfo);
}
}
void setObjectTag(VkDevice device, uint64_t object, VkDebugReportObjectTypeEXT objectType, uint64_t name, size_t tagSize, const void* tag)
{
// Check for valid function pointer (may not be present if not running in a debugging application)
if (pfnDebugMarkerSetObjectTag)
{
VkDebugMarkerObjectTagInfoEXT tagInfo = {};
tagInfo.sType = VK_STRUCTURE_TYPE_DEBUG_MARKER_OBJECT_TAG_INFO_EXT;
tagInfo.objectType = objectType;
tagInfo.object = object;
tagInfo.tagName = name;
tagInfo.tagSize = tagSize;
tagInfo.pTag = tag;
pfnDebugMarkerSetObjectTag(device, &tagInfo);
}
}
void beginRegion(VkCommandBuffer cmdbuffer, const char* pMarkerName, glm::vec4 color)
{
// Check for valid function pointer (may not be present if not running in a debugging application)
if (pfnCmdDebugMarkerBegin)
{
VkDebugMarkerMarkerInfoEXT markerInfo = {};
markerInfo.sType = VK_STRUCTURE_TYPE_DEBUG_MARKER_MARKER_INFO_EXT;
memcpy(markerInfo.color, &color[0], sizeof(float) * 4);
markerInfo.pMarkerName = pMarkerName;
pfnCmdDebugMarkerBegin(cmdbuffer, &markerInfo);
}
}
void insert(VkCommandBuffer cmdbuffer, std::string markerName, glm::vec4 color)
{
// Check for valid function pointer (may not be present if not running in a debugging application)
if (pfnCmdDebugMarkerInsert)
{
VkDebugMarkerMarkerInfoEXT markerInfo = {};
markerInfo.sType = VK_STRUCTURE_TYPE_DEBUG_MARKER_MARKER_INFO_EXT;
memcpy(markerInfo.color, &color[0], sizeof(float) * 4);
markerInfo.pMarkerName = markerName.c_str();
pfnCmdDebugMarkerInsert(cmdbuffer, &markerInfo);
}
}
void endRegion(VkCommandBuffer cmdBuffer)
{
// Check for valid function (may not be present if not running in a debugging application)
if (pfnCmdDebugMarkerEnd)
{
pfnCmdDebugMarkerEnd(cmdBuffer);
}
}
void setCommandBufferName(VkDevice device, VkCommandBuffer cmdBuffer, const char * name)
{
setObjectName(device, (uint64_t)cmdBuffer, VK_DEBUG_REPORT_OBJECT_TYPE_COMMAND_BUFFER_EXT, name);
}
void setQueueName(VkDevice device, VkQueue queue, const char * name)
{
setObjectName(device, (uint64_t)queue, VK_DEBUG_REPORT_OBJECT_TYPE_QUEUE_EXT, name);
}
void setImageName(VkDevice device, VkImage image, const char * name)
{
setObjectName(device, (uint64_t)image, VK_DEBUG_REPORT_OBJECT_TYPE_IMAGE_EXT, name);
}
void setSamplerName(VkDevice device, VkSampler sampler, const char * name)
{
setObjectName(device, (uint64_t)sampler, VK_DEBUG_REPORT_OBJECT_TYPE_SAMPLER_EXT, name);
}
void setBufferName(VkDevice device, VkBuffer buffer, const char * name)
{
setObjectName(device, (uint64_t)buffer, VK_DEBUG_REPORT_OBJECT_TYPE_BUFFER_EXT, name);
}
void setDeviceMemoryName(VkDevice device, VkDeviceMemory memory, const char * name)
{
setObjectName(device, (uint64_t)memory, VK_DEBUG_REPORT_OBJECT_TYPE_DEVICE_MEMORY_EXT, name);
}
void setShaderModuleName(VkDevice device, VkShaderModule shaderModule, const char * name)
{
setObjectName(device, (uint64_t)shaderModule, VK_DEBUG_REPORT_OBJECT_TYPE_SHADER_MODULE_EXT, name);
}
void setPipelineName(VkDevice device, VkPipeline pipeline, const char * name)
{
setObjectName(device, (uint64_t)pipeline, VK_DEBUG_REPORT_OBJECT_TYPE_PIPELINE_EXT, name);
}
void setPipelineLayoutName(VkDevice device, VkPipelineLayout pipelineLayout, const char * name)
{
setObjectName(device, (uint64_t)pipelineLayout, VK_DEBUG_REPORT_OBJECT_TYPE_PIPELINE_LAYOUT_EXT, name);
}
void setRenderPassName(VkDevice device, VkRenderPass renderPass, const char * name)
{
setObjectName(device, (uint64_t)renderPass, VK_DEBUG_REPORT_OBJECT_TYPE_RENDER_PASS_EXT, name);
}
void setFramebufferName(VkDevice device, VkFramebuffer framebuffer, const char * name)
{
setObjectName(device, (uint64_t)framebuffer, VK_DEBUG_REPORT_OBJECT_TYPE_FRAMEBUFFER_EXT, name);
}
void setDescriptorSetLayoutName(VkDevice device, VkDescriptorSetLayout descriptorSetLayout, const char * name)
{
setObjectName(device, (uint64_t)descriptorSetLayout, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT_EXT, name);
}
void setDescriptorSetName(VkDevice device, VkDescriptorSet descriptorSet, const char * name)
{
setObjectName(device, (uint64_t)descriptorSet, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_EXT, name);
}
void setSemaphoreName(VkDevice device, VkSemaphore semaphore, const char * name)
{
setObjectName(device, (uint64_t)semaphore, VK_DEBUG_REPORT_OBJECT_TYPE_SEMAPHORE_EXT, name);
}
void setFenceName(VkDevice device, VkFence fence, const char * name)
{
setObjectName(device, (uint64_t)fence, VK_DEBUG_REPORT_OBJECT_TYPE_FENCE_EXT, name);
}
void setEventName(VkDevice device, VkEvent _event, const char * name)
{
setObjectName(device, (uint64_t)_event, VK_DEBUG_REPORT_OBJECT_TYPE_EVENT_EXT, name);
}
};
}

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base/VulkanDebug.h 100644
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#pragma once
#include "vulkan/vulkan.h"
#include <math.h>
#include <stdlib.h>
#include <string>
#include <cstring>
#include <fstream>
#include <assert.h>
#include <stdio.h>
#include <vector>
#include <sstream>
#ifdef _WIN32
#include <windows.h>
#include <fcntl.h>
#include <io.h>
#endif
#ifdef __ANDROID__
#include "VulkanAndroid.h"
#endif
#define GLM_FORCE_RADIANS
#define GLM_FORCE_DEPTH_ZERO_TO_ONE
#include <glm/glm.hpp>
namespace vks
{
namespace debug
{
// Default debug callback
VKAPI_ATTR VkBool32 VKAPI_CALL messageCallback(
VkDebugReportFlagsEXT flags,
VkDebugReportObjectTypeEXT objType,
uint64_t srcObject,
size_t location,
int32_t msgCode,
const char* pLayerPrefix,
const char* pMsg,
void* pUserData);
// Load debug function pointers and set debug callback
void setupDebugging(VkInstance instance);
// Clear debug callback
void freeDebugCallback(VkInstance instance);
}
// Setup and functions for the VK_EXT_debug_marker_extension
// Extension spec can be found at https://github.com/KhronosGroup/Vulkan-Docs/blob/1.0-VK_EXT_debug_marker/doc/specs/vulkan/appendices/VK_EXT_debug_marker.txt
// Note that the extension will only be present if run from an offline debugging application
// The actual check for extension presence and enabling it on the device is done in the example base class
// See VulkanExampleBase::createInstance and VulkanExampleBase::createDevice (base/vulkanexamplebase.cpp)
namespace debugmarker
{
// Set to true if function pointer for the debug marker are available
extern bool active;
// Get function pointers for the debug report extensions from the device
void setup(VkDevice device);
// Sets the debug name of an object
// All Objects in Vulkan are represented by their 64-bit handles which are passed into this function
// along with the object type
void setObjectName(VkDevice device, uint64_t object, VkDebugReportObjectTypeEXT objectType, const char *name);
// Set the tag for an object
void setObjectTag(VkDevice device, uint64_t object, VkDebugReportObjectTypeEXT objectType, uint64_t name, size_t tagSize, const void* tag);
// Start a new debug marker region
void beginRegion(VkCommandBuffer cmdbuffer, const char* pMarkerName, glm::vec4 color);
// Insert a new debug marker into the command buffer
void insert(VkCommandBuffer cmdbuffer, std::string markerName, glm::vec4 color);
// End the current debug marker region
void endRegion(VkCommandBuffer cmdBuffer);
// Object specific naming functions
void setCommandBufferName(VkDevice device, VkCommandBuffer cmdBuffer, const char * name);
void setQueueName(VkDevice device, VkQueue queue, const char * name);
void setImageName(VkDevice device, VkImage image, const char * name);
void setSamplerName(VkDevice device, VkSampler sampler, const char * name);
void setBufferName(VkDevice device, VkBuffer buffer, const char * name);
void setDeviceMemoryName(VkDevice device, VkDeviceMemory memory, const char * name);
void setShaderModuleName(VkDevice device, VkShaderModule shaderModule, const char * name);
void setPipelineName(VkDevice device, VkPipeline pipeline, const char * name);
void setPipelineLayoutName(VkDevice device, VkPipelineLayout pipelineLayout, const char * name);
void setRenderPassName(VkDevice device, VkRenderPass renderPass, const char * name);
void setFramebufferName(VkDevice device, VkFramebuffer framebuffer, const char * name);
void setDescriptorSetLayoutName(VkDevice device, VkDescriptorSetLayout descriptorSetLayout, const char * name);
void setDescriptorSetName(VkDevice device, VkDescriptorSet descriptorSet, const char * name);
void setSemaphoreName(VkDevice device, VkSemaphore semaphore, const char * name);
void setFenceName(VkDevice device, VkFence fence, const char * name);
void setEventName(VkDevice device, VkEvent _event, const char * name);
};
}

596
base/VulkanDevice.cpp 100644
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/*
* Vulkan device class
*
* Encapsulates a physical Vulkan device and its logical representation
*
* Copyright (C) by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#if (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
// SRS - Enable beta extensions and make VK_KHR_portability_subset visible
#define VK_ENABLE_BETA_EXTENSIONS
#endif
#include <VulkanDevice.h>
#include <unordered_set>
namespace vks
{
/**
* Default constructor
*
* @param physicalDevice Physical device that is to be used
*/
VulkanDevice::VulkanDevice(VkPhysicalDevice physicalDevice)
{
assert(physicalDevice);
this->physicalDevice = physicalDevice;
// Store Properties features, limits and properties of the physical device for later use
// Device properties also contain limits and sparse properties
vkGetPhysicalDeviceProperties(physicalDevice, &properties);
// Features should be checked by the examples before using them
vkGetPhysicalDeviceFeatures(physicalDevice, &features);
// Memory properties are used regularly for creating all kinds of buffers
vkGetPhysicalDeviceMemoryProperties(physicalDevice, &memoryProperties);
// Queue family properties, used for setting up requested queues upon device creation
uint32_t queueFamilyCount;
vkGetPhysicalDeviceQueueFamilyProperties(physicalDevice, &queueFamilyCount, nullptr);
assert(queueFamilyCount > 0);
queueFamilyProperties.resize(queueFamilyCount);
vkGetPhysicalDeviceQueueFamilyProperties(physicalDevice, &queueFamilyCount, queueFamilyProperties.data());
// Get list of supported extensions
uint32_t extCount = 0;
vkEnumerateDeviceExtensionProperties(physicalDevice, nullptr, &extCount, nullptr);
if (extCount > 0)
{
std::vector<VkExtensionProperties> extensions(extCount);
if (vkEnumerateDeviceExtensionProperties(physicalDevice, nullptr, &extCount, &extensions.front()) == VK_SUCCESS)
{
for (auto ext : extensions)
{
supportedExtensions.push_back(ext.extensionName);
}
}
}
}
/**
* Default destructor
*
* @note Frees the logical device
*/
VulkanDevice::~VulkanDevice()
{
if (commandPool)
{
vkDestroyCommandPool(logicalDevice, commandPool, nullptr);
}
if (logicalDevice)
{
vkDestroyDevice(logicalDevice, nullptr);
}
}
/**
* Get the index of a memory type that has all the requested property bits set
*
* @param typeBits Bit mask with bits set for each memory type supported by the resource to request for (from VkMemoryRequirements)
* @param properties Bit mask of properties for the memory type to request
* @param (Optional) memTypeFound Pointer to a bool that is set to true if a matching memory type has been found
*
* @return Index of the requested memory type
*
* @throw Throws an exception if memTypeFound is null and no memory type could be found that supports the requested properties
*/
uint32_t VulkanDevice::getMemoryType(uint32_t typeBits, VkMemoryPropertyFlags properties, VkBool32 *memTypeFound) const
{
for (uint32_t i = 0; i < memoryProperties.memoryTypeCount; i++)
{
if ((typeBits & 1) == 1)
{
if ((memoryProperties.memoryTypes[i].propertyFlags & properties) == properties)
{
if (memTypeFound)
{
*memTypeFound = true;
}
return i;
}
}
typeBits >>= 1;
}
if (memTypeFound)
{
*memTypeFound = false;
return 0;
}
else
{
throw std::runtime_error("Could not find a matching memory type");
}
}
/**
* Get the index of a queue family that supports the requested queue flags
* SRS - support VkQueueFlags parameter for requesting multiple flags vs. VkQueueFlagBits for a single flag only
*
* @param queueFlags Queue flags to find a queue family index for
*
* @return Index of the queue family index that matches the flags
*
* @throw Throws an exception if no queue family index could be found that supports the requested flags
*/
uint32_t VulkanDevice::getQueueFamilyIndex(VkQueueFlags queueFlags) const
{
// Dedicated queue for compute
// Try to find a queue family index that supports compute but not graphics
if ((queueFlags & VK_QUEUE_COMPUTE_BIT) == queueFlags)
{
for (uint32_t i = 0; i < static_cast<uint32_t>(queueFamilyProperties.size()); i++)
{
if ((queueFamilyProperties[i].queueFlags & VK_QUEUE_COMPUTE_BIT) && ((queueFamilyProperties[i].queueFlags & VK_QUEUE_GRAPHICS_BIT) == 0))
{
return i;
}
}
}
// Dedicated queue for transfer
// Try to find a queue family index that supports transfer but not graphics and compute
if ((queueFlags & VK_QUEUE_TRANSFER_BIT) == queueFlags)
{
for (uint32_t i = 0; i < static_cast<uint32_t>(queueFamilyProperties.size()); i++)
{
if ((queueFamilyProperties[i].queueFlags & VK_QUEUE_TRANSFER_BIT) && ((queueFamilyProperties[i].queueFlags & VK_QUEUE_GRAPHICS_BIT) == 0) && ((queueFamilyProperties[i].queueFlags & VK_QUEUE_COMPUTE_BIT) == 0))
{
return i;
}
}
}
// For other queue types or if no separate compute queue is present, return the first one to support the requested flags
for (uint32_t i = 0; i < static_cast<uint32_t>(queueFamilyProperties.size()); i++)
{
if ((queueFamilyProperties[i].queueFlags & queueFlags) == queueFlags)
{
return i;
}
}
throw std::runtime_error("Could not find a matching queue family index");
}
/**
* Create the logical device based on the assigned physical device, also gets default queue family indices
*
* @param enabledFeatures Can be used to enable certain features upon device creation
* @param pNextChain Optional chain of pointer to extension structures
* @param useSwapChain Set to false for headless rendering to omit the swapchain device extensions
* @param requestedQueueTypes Bit flags specifying the queue types to be requested from the device
*
* @return VkResult of the device creation call
*/
VkResult VulkanDevice::createLogicalDevice(VkPhysicalDeviceFeatures enabledFeatures, std::vector<const char*> enabledExtensions, void* pNextChain, bool useSwapChain, VkQueueFlags requestedQueueTypes)
{
// Desired queues need to be requested upon logical device creation
// Due to differing queue family configurations of Vulkan implementations this can be a bit tricky, especially if the application
// requests different queue types
std::vector<VkDeviceQueueCreateInfo> queueCreateInfos{};
// Get queue family indices for the requested queue family types
// Note that the indices may overlap depending on the implementation
const float defaultQueuePriority(0.0f);
// Graphics queue
if (requestedQueueTypes & VK_QUEUE_GRAPHICS_BIT)
{
queueFamilyIndices.graphics = getQueueFamilyIndex(VK_QUEUE_GRAPHICS_BIT);
VkDeviceQueueCreateInfo queueInfo{};
queueInfo.sType = VK_STRUCTURE_TYPE_DEVICE_QUEUE_CREATE_INFO;
queueInfo.queueFamilyIndex = queueFamilyIndices.graphics;
queueInfo.queueCount = 1;
queueInfo.pQueuePriorities = &defaultQueuePriority;
queueCreateInfos.push_back(queueInfo);
}
else
{
queueFamilyIndices.graphics = 0;
}
// Dedicated compute queue
if (requestedQueueTypes & VK_QUEUE_COMPUTE_BIT)
{
queueFamilyIndices.compute = getQueueFamilyIndex(VK_QUEUE_COMPUTE_BIT);
if (queueFamilyIndices.compute != queueFamilyIndices.graphics)
{
// If compute family index differs, we need an additional queue create info for the compute queue
VkDeviceQueueCreateInfo queueInfo{};
queueInfo.sType = VK_STRUCTURE_TYPE_DEVICE_QUEUE_CREATE_INFO;
queueInfo.queueFamilyIndex = queueFamilyIndices.compute;
queueInfo.queueCount = 1;
queueInfo.pQueuePriorities = &defaultQueuePriority;
queueCreateInfos.push_back(queueInfo);
}
}
else
{
// Else we use the same queue
queueFamilyIndices.compute = queueFamilyIndices.graphics;
}
// Dedicated transfer queue
if (requestedQueueTypes & VK_QUEUE_TRANSFER_BIT)
{
queueFamilyIndices.transfer = getQueueFamilyIndex(VK_QUEUE_TRANSFER_BIT);
if ((queueFamilyIndices.transfer != queueFamilyIndices.graphics) && (queueFamilyIndices.transfer != queueFamilyIndices.compute))
{
// If transfer family index differs, we need an additional queue create info for the transfer queue
VkDeviceQueueCreateInfo queueInfo{};
queueInfo.sType = VK_STRUCTURE_TYPE_DEVICE_QUEUE_CREATE_INFO;
queueInfo.queueFamilyIndex = queueFamilyIndices.transfer;
queueInfo.queueCount = 1;
queueInfo.pQueuePriorities = &defaultQueuePriority;
queueCreateInfos.push_back(queueInfo);
}
}
else
{
// Else we use the same queue
queueFamilyIndices.transfer = queueFamilyIndices.graphics;
}
// Create the logical device representation
std::vector<const char*> deviceExtensions(enabledExtensions);
if (useSwapChain)
{
// If the device will be used for presenting to a display via a swapchain we need to request the swapchain extension
deviceExtensions.push_back(VK_KHR_SWAPCHAIN_EXTENSION_NAME);
}
VkDeviceCreateInfo deviceCreateInfo = {};
deviceCreateInfo.sType = VK_STRUCTURE_TYPE_DEVICE_CREATE_INFO;
deviceCreateInfo.queueCreateInfoCount = static_cast<uint32_t>(queueCreateInfos.size());;
deviceCreateInfo.pQueueCreateInfos = queueCreateInfos.data();
deviceCreateInfo.pEnabledFeatures = &enabledFeatures;
// If a pNext(Chain) has been passed, we need to add it to the device creation info
VkPhysicalDeviceFeatures2 physicalDeviceFeatures2{};
if (pNextChain) {
physicalDeviceFeatures2.sType = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FEATURES_2;
physicalDeviceFeatures2.features = enabledFeatures;
physicalDeviceFeatures2.pNext = pNextChain;
deviceCreateInfo.pEnabledFeatures = nullptr;
deviceCreateInfo.pNext = &physicalDeviceFeatures2;
}
// Enable the debug marker extension if it is present (likely meaning a debugging tool is present)
if (extensionSupported(VK_EXT_DEBUG_MARKER_EXTENSION_NAME))
{
deviceExtensions.push_back(VK_EXT_DEBUG_MARKER_EXTENSION_NAME);
enableDebugMarkers = true;
}
#if (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK)) && defined(VK_KHR_portability_subset)
// SRS - When running on iOS/macOS with MoltenVK and VK_KHR_portability_subset is defined and supported by the device, enable the extension
if (extensionSupported(VK_KHR_PORTABILITY_SUBSET_EXTENSION_NAME))
{
deviceExtensions.push_back(VK_KHR_PORTABILITY_SUBSET_EXTENSION_NAME);
}
#endif
if (deviceExtensions.size() > 0)
{
for (const char* enabledExtension : deviceExtensions)
{
if (!extensionSupported(enabledExtension)) {
std::cerr << "Enabled device extension \"" << enabledExtension << "\" is not present at device level\n";
}
}
deviceCreateInfo.enabledExtensionCount = (uint32_t)deviceExtensions.size();
deviceCreateInfo.ppEnabledExtensionNames = deviceExtensions.data();
}
this->enabledFeatures = enabledFeatures;
VkResult result = vkCreateDevice(physicalDevice, &deviceCreateInfo, nullptr, &logicalDevice);
if (result != VK_SUCCESS)
{
return result;
}
// Create a default command pool for graphics command buffers
commandPool = createCommandPool(queueFamilyIndices.graphics);
return result;
}
/**
* Create a buffer on the device
*
* @param usageFlags Usage flag bit mask for the buffer (i.e. index, vertex, uniform buffer)
* @param memoryPropertyFlags Memory properties for this buffer (i.e. device local, host visible, coherent)
* @param size Size of the buffer in byes
* @param buffer Pointer to the buffer handle acquired by the function
* @param memory Pointer to the memory handle acquired by the function
* @param data Pointer to the data that should be copied to the buffer after creation (optional, if not set, no data is copied over)
*
* @return VK_SUCCESS if buffer handle and memory have been created and (optionally passed) data has been copied
*/
VkResult VulkanDevice::createBuffer(VkBufferUsageFlags usageFlags, VkMemoryPropertyFlags memoryPropertyFlags, VkDeviceSize size, VkBuffer *buffer, VkDeviceMemory *memory, void *data)
{
// Create the buffer handle
VkBufferCreateInfo bufferCreateInfo = vks::initializers::bufferCreateInfo(usageFlags, size);
bufferCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
VK_CHECK_RESULT(vkCreateBuffer(logicalDevice, &bufferCreateInfo, nullptr, buffer));
// Create the memory backing up the buffer handle
VkMemoryRequirements memReqs;
VkMemoryAllocateInfo memAlloc = vks::initializers::memoryAllocateInfo();
vkGetBufferMemoryRequirements(logicalDevice, *buffer, &memReqs);
memAlloc.allocationSize = memReqs.size;
// Find a memory type index that fits the properties of the buffer
memAlloc.memoryTypeIndex = getMemoryType(memReqs.memoryTypeBits, memoryPropertyFlags);
// If the buffer has VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT set we also need to enable the appropriate flag during allocation
VkMemoryAllocateFlagsInfoKHR allocFlagsInfo{};
if (usageFlags & VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT) {
allocFlagsInfo.sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_FLAGS_INFO_KHR;
allocFlagsInfo.flags = VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_BIT_KHR;
memAlloc.pNext = &allocFlagsInfo;
}
VK_CHECK_RESULT(vkAllocateMemory(logicalDevice, &memAlloc, nullptr, memory));
// If a pointer to the buffer data has been passed, map the buffer and copy over the data
if (data != nullptr)
{
void *mapped;
VK_CHECK_RESULT(vkMapMemory(logicalDevice, *memory, 0, size, 0, &mapped));
memcpy(mapped, data, size);
// If host coherency hasn't been requested, do a manual flush to make writes visible
if ((memoryPropertyFlags & VK_MEMORY_PROPERTY_HOST_COHERENT_BIT) == 0)
{
VkMappedMemoryRange mappedRange = vks::initializers::mappedMemoryRange();
mappedRange.memory = *memory;
mappedRange.offset = 0;
mappedRange.size = size;
vkFlushMappedMemoryRanges(logicalDevice, 1, &mappedRange);
}
vkUnmapMemory(logicalDevice, *memory);
}
// Attach the memory to the buffer object
VK_CHECK_RESULT(vkBindBufferMemory(logicalDevice, *buffer, *memory, 0));
return VK_SUCCESS;
}
/**
* Create a buffer on the device
*
* @param usageFlags Usage flag bit mask for the buffer (i.e. index, vertex, uniform buffer)
* @param memoryPropertyFlags Memory properties for this buffer (i.e. device local, host visible, coherent)
* @param buffer Pointer to a vk::Vulkan buffer object
* @param size Size of the buffer in bytes
* @param data Pointer to the data that should be copied to the buffer after creation (optional, if not set, no data is copied over)
*
* @return VK_SUCCESS if buffer handle and memory have been created and (optionally passed) data has been copied
*/
VkResult VulkanDevice::createBuffer(VkBufferUsageFlags usageFlags, VkMemoryPropertyFlags memoryPropertyFlags, vks::Buffer *buffer, VkDeviceSize size, void *data)
{
buffer->device = logicalDevice;
// Create the buffer handle
VkBufferCreateInfo bufferCreateInfo = vks::initializers::bufferCreateInfo(usageFlags, size);
VK_CHECK_RESULT(vkCreateBuffer(logicalDevice, &bufferCreateInfo, nullptr, &buffer->buffer));
// Create the memory backing up the buffer handle
VkMemoryRequirements memReqs;
VkMemoryAllocateInfo memAlloc = vks::initializers::memoryAllocateInfo();
vkGetBufferMemoryRequirements(logicalDevice, buffer->buffer, &memReqs);
memAlloc.allocationSize = memReqs.size;
// Find a memory type index that fits the properties of the buffer
memAlloc.memoryTypeIndex = getMemoryType(memReqs.memoryTypeBits, memoryPropertyFlags);
// If the buffer has VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT set we also need to enable the appropriate flag during allocation
VkMemoryAllocateFlagsInfoKHR allocFlagsInfo{};
if (usageFlags & VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT) {
allocFlagsInfo.sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_FLAGS_INFO_KHR;
allocFlagsInfo.flags = VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_BIT_KHR;
memAlloc.pNext = &allocFlagsInfo;
}
VK_CHECK_RESULT(vkAllocateMemory(logicalDevice, &memAlloc, nullptr, &buffer->memory));
buffer->alignment = memReqs.alignment;
buffer->size = size;
buffer->usageFlags = usageFlags;
buffer->memoryPropertyFlags = memoryPropertyFlags;
// If a pointer to the buffer data has been passed, map the buffer and copy over the data
if (data != nullptr)
{
VK_CHECK_RESULT(buffer->map());
memcpy(buffer->mapped, data, size);
if ((memoryPropertyFlags & VK_MEMORY_PROPERTY_HOST_COHERENT_BIT) == 0)
buffer->flush();
buffer->unmap();
}
// Initialize a default descriptor that covers the whole buffer size
buffer->setupDescriptor();
// Attach the memory to the buffer object
return buffer->bind();
}
/**
* Copy buffer data from src to dst using VkCmdCopyBuffer
*
* @param src Pointer to the source buffer to copy from
* @param dst Pointer to the destination buffer to copy to
* @param queue Pointer
* @param copyRegion (Optional) Pointer to a copy region, if NULL, the whole buffer is copied
*
* @note Source and destination pointers must have the appropriate transfer usage flags set (TRANSFER_SRC / TRANSFER_DST)
*/
void VulkanDevice::copyBuffer(vks::Buffer *src, vks::Buffer *dst, VkQueue queue, VkBufferCopy *copyRegion)
{
assert(dst->size <= src->size);
assert(src->buffer);
VkCommandBuffer copyCmd = createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
VkBufferCopy bufferCopy{};
if (copyRegion == nullptr)
{
bufferCopy.size = src->size;
}
else
{
bufferCopy = *copyRegion;
}
vkCmdCopyBuffer(copyCmd, src->buffer, dst->buffer, 1, &bufferCopy);
flushCommandBuffer(copyCmd, queue);
}
/**
* Create a command pool for allocation command buffers from
*
* @param queueFamilyIndex Family index of the queue to create the command pool for
* @param createFlags (Optional) Command pool creation flags (Defaults to VK_COMMAND_POOL_CREATE_RESET_COMMAND_BUFFER_BIT)
*
* @note Command buffers allocated from the created pool can only be submitted to a queue with the same family index
*
* @return A handle to the created command buffer
*/
VkCommandPool VulkanDevice::createCommandPool(uint32_t queueFamilyIndex, VkCommandPoolCreateFlags createFlags)
{
VkCommandPoolCreateInfo cmdPoolInfo = {};
cmdPoolInfo.sType = VK_STRUCTURE_TYPE_COMMAND_POOL_CREATE_INFO;
cmdPoolInfo.queueFamilyIndex = queueFamilyIndex;
cmdPoolInfo.flags = createFlags;
VkCommandPool cmdPool;
VK_CHECK_RESULT(vkCreateCommandPool(logicalDevice, &cmdPoolInfo, nullptr, &cmdPool));
return cmdPool;
}
/**
* Allocate a command buffer from the command pool
*
* @param level Level of the new command buffer (primary or secondary)
* @param pool Command pool from which the command buffer will be allocated
* @param (Optional) begin If true, recording on the new command buffer will be started (vkBeginCommandBuffer) (Defaults to false)
*
* @return A handle to the allocated command buffer
*/
VkCommandBuffer VulkanDevice::createCommandBuffer(VkCommandBufferLevel level, VkCommandPool pool, bool begin)
{
VkCommandBufferAllocateInfo cmdBufAllocateInfo = vks::initializers::commandBufferAllocateInfo(pool, level, 1);
VkCommandBuffer cmdBuffer;
VK_CHECK_RESULT(vkAllocateCommandBuffers(logicalDevice, &cmdBufAllocateInfo, &cmdBuffer));
// If requested, also start recording for the new command buffer
if (begin)
{
VkCommandBufferBeginInfo cmdBufInfo = vks::initializers::commandBufferBeginInfo();
VK_CHECK_RESULT(vkBeginCommandBuffer(cmdBuffer, &cmdBufInfo));
}
return cmdBuffer;
}
VkCommandBuffer VulkanDevice::createCommandBuffer(VkCommandBufferLevel level, bool begin)
{
return createCommandBuffer(level, commandPool, begin);
}
/**
* Finish command buffer recording and submit it to a queue
*
* @param commandBuffer Command buffer to flush
* @param queue Queue to submit the command buffer to
* @param pool Command pool on which the command buffer has been created
* @param free (Optional) Free the command buffer once it has been submitted (Defaults to true)
*
* @note The queue that the command buffer is submitted to must be from the same family index as the pool it was allocated from
* @note Uses a fence to ensure command buffer has finished executing
*/
void VulkanDevice::flushCommandBuffer(VkCommandBuffer commandBuffer, VkQueue queue, VkCommandPool pool, bool free)
{
if (commandBuffer == VK_NULL_HANDLE)
{
return;
}
VK_CHECK_RESULT(vkEndCommandBuffer(commandBuffer));
VkSubmitInfo submitInfo = vks::initializers::submitInfo();
submitInfo.commandBufferCount = 1;
submitInfo.pCommandBuffers = &commandBuffer;
// Create fence to ensure that the command buffer has finished executing
VkFenceCreateInfo fenceInfo = vks::initializers::fenceCreateInfo(VK_FLAGS_NONE);
VkFence fence;
VK_CHECK_RESULT(vkCreateFence(logicalDevice, &fenceInfo, nullptr, &fence));
// Submit to the queue
VK_CHECK_RESULT(vkQueueSubmit(queue, 1, &submitInfo, fence));
// Wait for the fence to signal that command buffer has finished executing
VK_CHECK_RESULT(vkWaitForFences(logicalDevice, 1, &fence, VK_TRUE, DEFAULT_FENCE_TIMEOUT));
vkDestroyFence(logicalDevice, fence, nullptr);
if (free)
{
vkFreeCommandBuffers(logicalDevice, pool, 1, &commandBuffer);
}
}
void VulkanDevice::flushCommandBuffer(VkCommandBuffer commandBuffer, VkQueue queue, bool free)
{
return flushCommandBuffer(commandBuffer, queue, commandPool, free);
}
/**
* Check if an extension is supported by the (physical device)
*
* @param extension Name of the extension to check
*
* @return True if the extension is supported (present in the list read at device creation time)
*/
bool VulkanDevice::extensionSupported(std::string extension)
{
return (std::find(supportedExtensions.begin(), supportedExtensions.end(), extension) != supportedExtensions.end());
}
/**
* Select the best-fit depth format for this device from a list of possible depth (and stencil) formats
*
* @param checkSamplingSupport Check if the format can be sampled from (e.g. for shader reads)
*
* @return The depth format that best fits for the current device
*
* @throw Throws an exception if no depth format fits the requirements
*/
VkFormat VulkanDevice::getSupportedDepthFormat(bool checkSamplingSupport)
{
// All depth formats may be optional, so we need to find a suitable depth format to use
std::vector<VkFormat> depthFormats = { VK_FORMAT_D32_SFLOAT_S8_UINT, VK_FORMAT_D32_SFLOAT, VK_FORMAT_D24_UNORM_S8_UINT, VK_FORMAT_D16_UNORM_S8_UINT, VK_FORMAT_D16_UNORM };
for (auto& format : depthFormats)
{
VkFormatProperties formatProperties;
vkGetPhysicalDeviceFormatProperties(physicalDevice, format, &formatProperties);
// Format must support depth stencil attachment for optimal tiling
if (formatProperties.optimalTilingFeatures & VK_FORMAT_FEATURE_DEPTH_STENCIL_ATTACHMENT_BIT)
{
if (checkSamplingSupport) {
if (!(formatProperties.optimalTilingFeatures & VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT)) {
continue;
}
}
return format;
}
}
throw std::runtime_error("Could not find a matching depth format");
}
};

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/*
* Vulkan device class
*
* Encapsulates a physical Vulkan device and its logical representation
*
* Copyright (C) by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include "VulkanBuffer.h"
#include "VulkanTools.h"
#include "vulkan/vulkan.h"
#include <algorithm>
#include <assert.h>
#include <exception>
namespace vks
{
struct VulkanDevice
{
/** @brief Physical device representation */
VkPhysicalDevice physicalDevice;
/** @brief Logical device representation (application's view of the device) */
VkDevice logicalDevice;
/** @brief Properties of the physical device including limits that the application can check against */
VkPhysicalDeviceProperties properties;
/** @brief Features of the physical device that an application can use to check if a feature is supported */
VkPhysicalDeviceFeatures features;
/** @brief Features that have been enabled for use on the physical device */
VkPhysicalDeviceFeatures enabledFeatures;
/** @brief Memory types and heaps of the physical device */
VkPhysicalDeviceMemoryProperties memoryProperties;
/** @brief Queue family properties of the physical device */
std::vector<VkQueueFamilyProperties> queueFamilyProperties;
/** @brief List of extensions supported by the device */
std::vector<std::string> supportedExtensions;
/** @brief Default command pool for the graphics queue family index */
VkCommandPool commandPool = VK_NULL_HANDLE;
/** @brief Set to true when the debug marker extension is detected */
bool enableDebugMarkers = false;
/** @brief Contains queue family indices */
struct
{
uint32_t graphics;
uint32_t compute;
uint32_t transfer;
} queueFamilyIndices;
operator VkDevice() const
{
return logicalDevice;
};
explicit VulkanDevice(VkPhysicalDevice physicalDevice);
~VulkanDevice();
uint32_t getMemoryType(uint32_t typeBits, VkMemoryPropertyFlags properties, VkBool32 *memTypeFound = nullptr) const;
uint32_t getQueueFamilyIndex(VkQueueFlags queueFlags) const;
VkResult createLogicalDevice(VkPhysicalDeviceFeatures enabledFeatures, std::vector<const char *> enabledExtensions, void *pNextChain, bool useSwapChain = true, VkQueueFlags requestedQueueTypes = VK_QUEUE_GRAPHICS_BIT | VK_QUEUE_COMPUTE_BIT);
VkResult createBuffer(VkBufferUsageFlags usageFlags, VkMemoryPropertyFlags memoryPropertyFlags, VkDeviceSize size, VkBuffer *buffer, VkDeviceMemory *memory, void *data = nullptr);
VkResult createBuffer(VkBufferUsageFlags usageFlags, VkMemoryPropertyFlags memoryPropertyFlags, vks::Buffer *buffer, VkDeviceSize size, void *data = nullptr);
void copyBuffer(vks::Buffer *src, vks::Buffer *dst, VkQueue queue, VkBufferCopy *copyRegion = nullptr);
VkCommandPool createCommandPool(uint32_t queueFamilyIndex, VkCommandPoolCreateFlags createFlags = VK_COMMAND_POOL_CREATE_RESET_COMMAND_BUFFER_BIT);
VkCommandBuffer createCommandBuffer(VkCommandBufferLevel level, VkCommandPool pool, bool begin = false);
VkCommandBuffer createCommandBuffer(VkCommandBufferLevel level, bool begin = false);
void flushCommandBuffer(VkCommandBuffer commandBuffer, VkQueue queue, VkCommandPool pool, bool free = true);
void flushCommandBuffer(VkCommandBuffer commandBuffer, VkQueue queue, bool free = true);
bool extensionSupported(std::string extension);
VkFormat getSupportedDepthFormat(bool checkSamplingSupport);
};
} // namespace vks

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/*
* Vulkan framebuffer class
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <algorithm>
#include <iterator>
#include <vector>
#include "vulkan/vulkan.h"
#include "VulkanDevice.h"
#include "VulkanTools.h"
namespace vks
{
/**
* @brief Encapsulates a single frame buffer attachment
*/
struct FramebufferAttachment
{
VkImage image;
VkDeviceMemory memory;
VkImageView view;
VkFormat format;
VkImageSubresourceRange subresourceRange;
VkAttachmentDescription description;
/**
* @brief Returns true if the attachment has a depth component
*/
bool hasDepth()
{
std::vector<VkFormat> formats =
{
VK_FORMAT_D16_UNORM,
VK_FORMAT_X8_D24_UNORM_PACK32,
VK_FORMAT_D32_SFLOAT,
VK_FORMAT_D16_UNORM_S8_UINT,
VK_FORMAT_D24_UNORM_S8_UINT,
VK_FORMAT_D32_SFLOAT_S8_UINT,
};
return std::find(formats.begin(), formats.end(), format) != std::end(formats);
}
/**
* @brief Returns true if the attachment has a stencil component
*/
bool hasStencil()
{
std::vector<VkFormat> formats =
{
VK_FORMAT_S8_UINT,
VK_FORMAT_D16_UNORM_S8_UINT,
VK_FORMAT_D24_UNORM_S8_UINT,
VK_FORMAT_D32_SFLOAT_S8_UINT,
};
return std::find(formats.begin(), formats.end(), format) != std::end(formats);
}
/**
* @brief Returns true if the attachment is a depth and/or stencil attachment
*/
bool isDepthStencil()
{
return(hasDepth() || hasStencil());
}
};
/**
* @brief Describes the attributes of an attachment to be created
*/
struct AttachmentCreateInfo
{
uint32_t width, height;
uint32_t layerCount;
VkFormat format;
VkImageUsageFlags usage;
VkSampleCountFlagBits imageSampleCount = VK_SAMPLE_COUNT_1_BIT;
};
/**
* @brief Encapsulates a complete Vulkan framebuffer with an arbitrary number and combination of attachments
*/
struct Framebuffer
{
private:
vks::VulkanDevice *vulkanDevice;
public:
uint32_t width, height;
VkFramebuffer framebuffer;
VkRenderPass renderPass;
VkSampler sampler;
std::vector<vks::FramebufferAttachment> attachments;
/**
* Default constructor
*
* @param vulkanDevice Pointer to a valid VulkanDevice
*/
Framebuffer(vks::VulkanDevice *vulkanDevice)
{
assert(vulkanDevice);
this->vulkanDevice = vulkanDevice;
}
/**
* Destroy and free Vulkan resources used for the framebuffer and all of its attachments
*/
~Framebuffer()
{
assert(vulkanDevice);
for (auto attachment : attachments)
{
vkDestroyImage(vulkanDevice->logicalDevice, attachment.image, nullptr);
vkDestroyImageView(vulkanDevice->logicalDevice, attachment.view, nullptr);
vkFreeMemory(vulkanDevice->logicalDevice, attachment.memory, nullptr);
}
vkDestroySampler(vulkanDevice->logicalDevice, sampler, nullptr);
vkDestroyRenderPass(vulkanDevice->logicalDevice, renderPass, nullptr);
vkDestroyFramebuffer(vulkanDevice->logicalDevice, framebuffer, nullptr);
}
/**
* Add a new attachment described by createinfo to the framebuffer's attachment list
*
* @param createinfo Structure that specifies the framebuffer to be constructed
*
* @return Index of the new attachment
*/
uint32_t addAttachment(vks::AttachmentCreateInfo createinfo)
{
vks::FramebufferAttachment attachment;
attachment.format = createinfo.format;
VkImageAspectFlags aspectMask = VK_FLAGS_NONE;
// Select aspect mask and layout depending on usage
// Color attachment
if (createinfo.usage & VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT)
{
aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
}
// Depth (and/or stencil) attachment
if (createinfo.usage & VK_IMAGE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT)
{
if (attachment.hasDepth())
{
aspectMask = VK_IMAGE_ASPECT_DEPTH_BIT;
}
if (attachment.hasStencil())
{
aspectMask = aspectMask | VK_IMAGE_ASPECT_STENCIL_BIT;
}
}
assert(aspectMask > 0);
VkImageCreateInfo image = vks::initializers::imageCreateInfo();
image.imageType = VK_IMAGE_TYPE_2D;
image.format = createinfo.format;
image.extent.width = createinfo.width;
image.extent.height = createinfo.height;
image.extent.depth = 1;
image.mipLevels = 1;
image.arrayLayers = createinfo.layerCount;
image.samples = createinfo.imageSampleCount;
image.tiling = VK_IMAGE_TILING_OPTIMAL;
image.usage = createinfo.usage;
VkMemoryAllocateInfo memAlloc = vks::initializers::memoryAllocateInfo();
VkMemoryRequirements memReqs;
// Create image for this attachment
VK_CHECK_RESULT(vkCreateImage(vulkanDevice->logicalDevice, &image, nullptr, &attachment.image));
vkGetImageMemoryRequirements(vulkanDevice->logicalDevice, attachment.image, &memReqs);
memAlloc.allocationSize = memReqs.size;
memAlloc.memoryTypeIndex = vulkanDevice->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(vulkanDevice->logicalDevice, &memAlloc, nullptr, &attachment.memory));
VK_CHECK_RESULT(vkBindImageMemory(vulkanDevice->logicalDevice, attachment.image, attachment.memory, 0));
attachment.subresourceRange = {};
attachment.subresourceRange.aspectMask = aspectMask;
attachment.subresourceRange.levelCount = 1;
attachment.subresourceRange.layerCount = createinfo.layerCount;
VkImageViewCreateInfo imageView = vks::initializers::imageViewCreateInfo();
imageView.viewType = (createinfo.layerCount == 1) ? VK_IMAGE_VIEW_TYPE_2D : VK_IMAGE_VIEW_TYPE_2D_ARRAY;
imageView.format = createinfo.format;
imageView.subresourceRange = attachment.subresourceRange;
//todo: workaround for depth+stencil attachments
imageView.subresourceRange.aspectMask = (attachment.hasDepth()) ? VK_IMAGE_ASPECT_DEPTH_BIT : aspectMask;
imageView.image = attachment.image;
VK_CHECK_RESULT(vkCreateImageView(vulkanDevice->logicalDevice, &imageView, nullptr, &attachment.view));
// Fill attachment description
attachment.description = {};
attachment.description.samples = createinfo.imageSampleCount;
attachment.description.loadOp = VK_ATTACHMENT_LOAD_OP_CLEAR;
attachment.description.storeOp = (createinfo.usage & VK_IMAGE_USAGE_SAMPLED_BIT) ? VK_ATTACHMENT_STORE_OP_STORE : VK_ATTACHMENT_STORE_OP_DONT_CARE;
attachment.description.stencilLoadOp = VK_ATTACHMENT_LOAD_OP_DONT_CARE;
attachment.description.stencilStoreOp = VK_ATTACHMENT_STORE_OP_DONT_CARE;
attachment.description.format = createinfo.format;
attachment.description.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
// Final layout
// If not, final layout depends on attachment type
if (attachment.hasDepth() || attachment.hasStencil())
{
attachment.description.finalLayout = VK_IMAGE_LAYOUT_DEPTH_STENCIL_READ_ONLY_OPTIMAL;
}
else
{
attachment.description.finalLayout = VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL;
}
attachments.push_back(attachment);
return static_cast<uint32_t>(attachments.size() - 1);
}
/**
* Creates a default sampler for sampling from any of the framebuffer attachments
* Applications are free to create their own samplers for different use cases
*
* @param magFilter Magnification filter for lookups
* @param minFilter Minification filter for lookups
* @param adressMode Addressing mode for the U,V and W coordinates
*
* @return VkResult for the sampler creation
*/
VkResult createSampler(VkFilter magFilter, VkFilter minFilter, VkSamplerAddressMode adressMode)
{
VkSamplerCreateInfo samplerInfo = vks::initializers::samplerCreateInfo();
samplerInfo.magFilter = magFilter;
samplerInfo.minFilter = minFilter;
samplerInfo.mipmapMode = VK_SAMPLER_MIPMAP_MODE_LINEAR;
samplerInfo.addressModeU = adressMode;
samplerInfo.addressModeV = adressMode;
samplerInfo.addressModeW = adressMode;
samplerInfo.mipLodBias = 0.0f;
samplerInfo.maxAnisotropy = 1.0f;
samplerInfo.minLod = 0.0f;
samplerInfo.maxLod = 1.0f;
samplerInfo.borderColor = VK_BORDER_COLOR_FLOAT_OPAQUE_WHITE;
return vkCreateSampler(vulkanDevice->logicalDevice, &samplerInfo, nullptr, &sampler);
}
/**
* Creates a default render pass setup with one sub pass
*
* @return VK_SUCCESS if all resources have been created successfully
*/
VkResult createRenderPass()
{
std::vector<VkAttachmentDescription> attachmentDescriptions;
for (auto& attachment : attachments)
{
attachmentDescriptions.push_back(attachment.description);
};
// Collect attachment references
std::vector<VkAttachmentReference> colorReferences;
VkAttachmentReference depthReference = {};
bool hasDepth = false;
bool hasColor = false;
uint32_t attachmentIndex = 0;
for (auto& attachment : attachments)
{
if (attachment.isDepthStencil())
{
// Only one depth attachment allowed
assert(!hasDepth);
depthReference.attachment = attachmentIndex;
depthReference.layout = VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL;
hasDepth = true;
}
else
{
colorReferences.push_back({ attachmentIndex, VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL });
hasColor = true;
}
attachmentIndex++;
};
// Default render pass setup uses only one subpass
VkSubpassDescription subpass = {};
subpass.pipelineBindPoint = VK_PIPELINE_BIND_POINT_GRAPHICS;
if (hasColor)
{
subpass.pColorAttachments = colorReferences.data();
subpass.colorAttachmentCount = static_cast<uint32_t>(colorReferences.size());
}
if (hasDepth)
{
subpass.pDepthStencilAttachment = &depthReference;
}
// Use subpass dependencies for attachment layout transitions
std::array<VkSubpassDependency, 2> dependencies;
dependencies[0].srcSubpass = VK_SUBPASS_EXTERNAL;
dependencies[0].dstSubpass = 0;
dependencies[0].srcStageMask = VK_PIPELINE_STAGE_BOTTOM_OF_PIPE_BIT;
dependencies[0].dstStageMask = VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT;
dependencies[0].srcAccessMask = VK_ACCESS_MEMORY_READ_BIT;
dependencies[0].dstAccessMask = VK_ACCESS_COLOR_ATTACHMENT_READ_BIT | VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT;
dependencies[0].dependencyFlags = VK_DEPENDENCY_BY_REGION_BIT;
dependencies[1].srcSubpass = 0;
dependencies[1].dstSubpass = VK_SUBPASS_EXTERNAL;
dependencies[1].srcStageMask = VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT;
dependencies[1].dstStageMask = VK_PIPELINE_STAGE_BOTTOM_OF_PIPE_BIT;
dependencies[1].srcAccessMask = VK_ACCESS_COLOR_ATTACHMENT_READ_BIT | VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT;
dependencies[1].dstAccessMask = VK_ACCESS_MEMORY_READ_BIT;
dependencies[1].dependencyFlags = VK_DEPENDENCY_BY_REGION_BIT;
// Create render pass
VkRenderPassCreateInfo renderPassInfo = {};
renderPassInfo.sType = VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO;
renderPassInfo.pAttachments = attachmentDescriptions.data();
renderPassInfo.attachmentCount = static_cast<uint32_t>(attachmentDescriptions.size());
renderPassInfo.subpassCount = 1;
renderPassInfo.pSubpasses = &subpass;
renderPassInfo.dependencyCount = 2;
renderPassInfo.pDependencies = dependencies.data();
VK_CHECK_RESULT(vkCreateRenderPass(vulkanDevice->logicalDevice, &renderPassInfo, nullptr, &renderPass));
std::vector<VkImageView> attachmentViews;
for (auto attachment : attachments)
{
attachmentViews.push_back(attachment.view);
}
// Find. max number of layers across attachments
uint32_t maxLayers = 0;
for (auto attachment : attachments)
{
if (attachment.subresourceRange.layerCount > maxLayers)
{
maxLayers = attachment.subresourceRange.layerCount;
}
}
VkFramebufferCreateInfo framebufferInfo = {};
framebufferInfo.sType = VK_STRUCTURE_TYPE_FRAMEBUFFER_CREATE_INFO;
framebufferInfo.renderPass = renderPass;
framebufferInfo.pAttachments = attachmentViews.data();
framebufferInfo.attachmentCount = static_cast<uint32_t>(attachmentViews.size());
framebufferInfo.width = width;
framebufferInfo.height = height;
framebufferInfo.layers = maxLayers;
VK_CHECK_RESULT(vkCreateFramebuffer(vulkanDevice->logicalDevice, &framebufferInfo, nullptr, &framebuffer));
return VK_SUCCESS;
}
};
}

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/*
* Heightmap terrain generator
*
* Copyright (C) by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include <glm/glm.hpp>
#include <glm/glm.hpp>
#include "vulkan/vulkan.h"
#include "VulkanDevice.h"
#include "VulkanBuffer.h"
#include <ktx.h>
#include <ktxvulkan.h>
namespace vks
{
class HeightMap
{
private:
uint16_t *heightdata;
uint32_t dim;
uint32_t scale;
vks::VulkanDevice *device = nullptr;
VkQueue copyQueue = VK_NULL_HANDLE;
public:
enum Topology { topologyTriangles, topologyQuads };
float heightScale = 1.0f;
float uvScale = 1.0f;
vks::Buffer vertexBuffer;
vks::Buffer indexBuffer;
struct Vertex {
glm::vec3 pos;
glm::vec3 normal;
glm::vec2 uv;
};
size_t vertexBufferSize = 0;
size_t indexBufferSize = 0;
uint32_t indexCount = 0;
HeightMap(vks::VulkanDevice *device, VkQueue copyQueue)
{
this->device = device;
this->copyQueue = copyQueue;
};
~HeightMap()
{
vertexBuffer.destroy();
indexBuffer.destroy();
delete[] heightdata;
}
float getHeight(uint32_t x, uint32_t y)
{
glm::ivec2 rpos = glm::ivec2(x, y) * glm::ivec2(scale);
rpos.x = std::max(0, std::min(rpos.x, (int)dim - 1));
rpos.y = std::max(0, std::min(rpos.y, (int)dim - 1));
rpos /= glm::ivec2(scale);
return *(heightdata + (rpos.x + rpos.y * dim) * scale) / 65535.0f * heightScale;
}
#if defined(__ANDROID__)
void loadFromFile(const std::string filename, uint32_t patchsize, glm::vec3 scale, Topology topology, AAssetManager* assetManager)
#else
void loadFromFile(const std::string filename, uint32_t patchsize, glm::vec3 scale, Topology topology)
#endif
{
assert(device);
assert(copyQueue != VK_NULL_HANDLE);
ktxResult result;
ktxTexture* ktxTexture;
#if defined(__ANDROID__)
AAsset* asset = AAssetManager_open(androidApp->activity->assetManager, filename.c_str(), AASSET_MODE_STREAMING);
assert(asset);
size_t size = AAsset_getLength(asset);
assert(size > 0);
void *textureData = malloc(size);
AAsset_read(asset, textureData, size);
AAsset_close(asset);
result = ktxTexture_CreateFromMemory(textureData, size, KTX_TEXTURE_CREATE_LOAD_IMAGE_DATA_BIT, target);
free(textureData);
#else
result = ktxTexture_CreateFromNamedFile(filename.c_str(), KTX_TEXTURE_CREATE_LOAD_IMAGE_DATA_BIT, &ktxTexture);
#endif
assert(result == KTX_SUCCESS);
ktx_size_t ktxSize = ktxTexture_GetImageSize(ktxTexture, 0);
ktx_uint8_t* ktxImage = ktxTexture_GetData(ktxTexture);
dim = ktxTexture->baseWidth;
heightdata = new uint16_t[dim * dim];
memcpy(heightdata, ktxImage, ktxSize);
this->scale = dim / patchsize;
ktxTexture_Destroy(ktxTexture);
// Generate vertices
Vertex * vertices = new Vertex[patchsize * patchsize * 4];
const float wx = 2.0f;
const float wy = 2.0f;
for (uint32_t x = 0; x < patchsize; x++)
{
for (uint32_t y = 0; y < patchsize; y++)
{
uint32_t index = (x + y * patchsize);
vertices[index].pos[0] = (x * wx + wx / 2.0f - (float)patchsize * wx / 2.0f) * scale.x;
vertices[index].pos[1] = -getHeight(x, y);
vertices[index].pos[2] = (y * wy + wy / 2.0f - (float)patchsize * wy / 2.0f) * scale.z;
vertices[index].uv = glm::vec2((float)x / patchsize, (float)y / patchsize) * uvScale;
}
}
for (uint32_t y = 0; y < patchsize; y++)
{
for (uint32_t x = 0; x < patchsize; x++)
{
float dx = getHeight(x < patchsize - 1 ? x + 1 : x, y) - getHeight(x > 0 ? x - 1 : x, y);
if (x == 0 || x == patchsize - 1)
dx *= 2.0f;
float dy = getHeight(x, y < patchsize - 1 ? y + 1 : y) - getHeight(x, y > 0 ? y - 1 : y);
if (y == 0 || y == patchsize - 1)
dy *= 2.0f;
glm::vec3 A = glm::vec3(1.0f, 0.0f, dx);
glm::vec3 B = glm::vec3(0.0f, 1.0f, dy);
glm::vec3 normal = (glm::normalize(glm::cross(A, B)) + 1.0f) * 0.5f;
vertices[x + y * patchsize].normal = glm::vec3(normal.x, normal.z, normal.y);
}
}
// Generate indices
const uint32_t w = (patchsize - 1);
uint32_t *indices;
switch (topology)
{
// Indices for triangles
case topologyTriangles:
{
indices = new uint32_t[w * w * 6];
for (uint32_t x = 0; x < w; x++)
{
for (uint32_t y = 0; y < w; y++)
{
uint32_t index = (x + y * w) * 6;
indices[index] = (x + y * patchsize);
indices[index + 1] = indices[index] + patchsize;
indices[index + 2] = indices[index + 1] + 1;
indices[index + 3] = indices[index + 1] + 1;
indices[index + 4] = indices[index] + 1;
indices[index + 5] = indices[index];
}
}
indexCount = (patchsize - 1) * (patchsize - 1) * 6;
indexBufferSize = (w * w * 6) * sizeof(uint32_t);
break;
}
// Indices for quad patches (tessellation)
case topologyQuads:
{
indices = new uint32_t[w * w * 4];
for (uint32_t x = 0; x < w; x++)
{
for (uint32_t y = 0; y < w; y++)
{
uint32_t index = (x + y * w) * 4;
indices[index] = (x + y * patchsize);
indices[index + 1] = indices[index] + patchsize;
indices[index + 2] = indices[index + 1] + 1;
indices[index + 3] = indices[index] + 1;
}
}
indexCount = (patchsize - 1) * (patchsize - 1) * 4;
indexBufferSize = (w * w * 4) * sizeof(uint32_t);
break;
}
}
assert(indexBufferSize > 0);
vertexBufferSize = (patchsize * patchsize * 4) * sizeof(Vertex);
// Generate Vulkan buffers
vks::Buffer vertexStaging, indexStaging;
// Create staging buffers
device->createBuffer(
VK_BUFFER_USAGE_TRANSFER_SRC_BIT,
VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT,
&vertexStaging,
vertexBufferSize,
vertices);
device->createBuffer(
VK_BUFFER_USAGE_TRANSFER_SRC_BIT,
VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT,
&indexStaging,
indexBufferSize,
indices);
// Device local (target) buffer
device->createBuffer(
VK_BUFFER_USAGE_VERTEX_BUFFER_BIT | VK_BUFFER_USAGE_TRANSFER_DST_BIT,
VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT,
&vertexBuffer,
vertexBufferSize);
device->createBuffer(
VK_BUFFER_USAGE_INDEX_BUFFER_BIT | VK_BUFFER_USAGE_TRANSFER_DST_BIT,
VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT,
&indexBuffer,
indexBufferSize);
// Copy from staging buffers
VkCommandBuffer copyCmd = device->createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
VkBufferCopy copyRegion = {};
copyRegion.size = vertexBufferSize;
vkCmdCopyBuffer(
copyCmd,
vertexStaging.buffer,
vertexBuffer.buffer,
1,
&copyRegion);
copyRegion.size = indexBufferSize;
vkCmdCopyBuffer(
copyCmd,
indexStaging.buffer,
indexBuffer.buffer,
1,
&copyRegion);
device->flushCommandBuffer(copyCmd, copyQueue, true);
vkDestroyBuffer(device->logicalDevice, vertexStaging.buffer, nullptr);
vkFreeMemory(device->logicalDevice, vertexStaging.memory, nullptr);
vkDestroyBuffer(device->logicalDevice, indexStaging.buffer, nullptr);
vkFreeMemory(device->logicalDevice, indexStaging.memory, nullptr);
}
};
}

659
base/VulkanInitializers.hpp 100644
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@ -0,0 +1,659 @@
/*
* Initializers for Vulkan structures and objects used by the examples
* Saves lot of VK_STRUCTURE_TYPE assignments
* Some initializers are parameterized for convenience
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <vector>
#include "vulkan/vulkan.h"
namespace vks
{
namespace initializers
{
inline VkMemoryAllocateInfo memoryAllocateInfo()
{
VkMemoryAllocateInfo memAllocInfo {};
memAllocInfo.sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_INFO;
return memAllocInfo;
}
inline VkMappedMemoryRange mappedMemoryRange()
{
VkMappedMemoryRange mappedMemoryRange {};
mappedMemoryRange.sType = VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE;
return mappedMemoryRange;
}
inline VkCommandBufferAllocateInfo commandBufferAllocateInfo(
VkCommandPool commandPool,
VkCommandBufferLevel level,
uint32_t bufferCount)
{
VkCommandBufferAllocateInfo commandBufferAllocateInfo {};
commandBufferAllocateInfo.sType = VK_STRUCTURE_TYPE_COMMAND_BUFFER_ALLOCATE_INFO;
commandBufferAllocateInfo.commandPool = commandPool;
commandBufferAllocateInfo.level = level;
commandBufferAllocateInfo.commandBufferCount = bufferCount;
return commandBufferAllocateInfo;
}
inline VkCommandPoolCreateInfo commandPoolCreateInfo()
{
VkCommandPoolCreateInfo cmdPoolCreateInfo {};
cmdPoolCreateInfo.sType = VK_STRUCTURE_TYPE_COMMAND_POOL_CREATE_INFO;
return cmdPoolCreateInfo;
}
inline VkCommandBufferBeginInfo commandBufferBeginInfo()
{
VkCommandBufferBeginInfo cmdBufferBeginInfo {};
cmdBufferBeginInfo.sType = VK_STRUCTURE_TYPE_COMMAND_BUFFER_BEGIN_INFO;
return cmdBufferBeginInfo;
}
inline VkCommandBufferInheritanceInfo commandBufferInheritanceInfo()
{
VkCommandBufferInheritanceInfo cmdBufferInheritanceInfo {};
cmdBufferInheritanceInfo.sType = VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_INFO;
return cmdBufferInheritanceInfo;
}
inline VkRenderPassBeginInfo renderPassBeginInfo()
{
VkRenderPassBeginInfo renderPassBeginInfo {};
renderPassBeginInfo.sType = VK_STRUCTURE_TYPE_RENDER_PASS_BEGIN_INFO;
return renderPassBeginInfo;
}
inline VkRenderPassCreateInfo renderPassCreateInfo()
{
VkRenderPassCreateInfo renderPassCreateInfo {};
renderPassCreateInfo.sType = VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO;
return renderPassCreateInfo;
}
/** @brief Initialize an image memory barrier with no image transfer ownership */
inline VkImageMemoryBarrier imageMemoryBarrier()
{
VkImageMemoryBarrier imageMemoryBarrier {};
imageMemoryBarrier.sType = VK_STRUCTURE_TYPE_IMAGE_MEMORY_BARRIER;
imageMemoryBarrier.srcQueueFamilyIndex = VK_QUEUE_FAMILY_IGNORED;
imageMemoryBarrier.dstQueueFamilyIndex = VK_QUEUE_FAMILY_IGNORED;
return imageMemoryBarrier;
}
/** @brief Initialize a buffer memory barrier with no image transfer ownership */
inline VkBufferMemoryBarrier bufferMemoryBarrier()
{
VkBufferMemoryBarrier bufferMemoryBarrier {};
bufferMemoryBarrier.sType = VK_STRUCTURE_TYPE_BUFFER_MEMORY_BARRIER;
bufferMemoryBarrier.srcQueueFamilyIndex = VK_QUEUE_FAMILY_IGNORED;
bufferMemoryBarrier.dstQueueFamilyIndex = VK_QUEUE_FAMILY_IGNORED;
return bufferMemoryBarrier;
}
inline VkMemoryBarrier memoryBarrier()
{
VkMemoryBarrier memoryBarrier {};
memoryBarrier.sType = VK_STRUCTURE_TYPE_MEMORY_BARRIER;
return memoryBarrier;
}
inline VkImageCreateInfo imageCreateInfo()
{
VkImageCreateInfo imageCreateInfo {};
imageCreateInfo.sType = VK_STRUCTURE_TYPE_IMAGE_CREATE_INFO;
return imageCreateInfo;
}
inline VkSamplerCreateInfo samplerCreateInfo()
{
VkSamplerCreateInfo samplerCreateInfo {};
samplerCreateInfo.sType = VK_STRUCTURE_TYPE_SAMPLER_CREATE_INFO;
samplerCreateInfo.maxAnisotropy = 1.0f;
return samplerCreateInfo;
}
inline VkImageViewCreateInfo imageViewCreateInfo()
{
VkImageViewCreateInfo imageViewCreateInfo {};
imageViewCreateInfo.sType = VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO;
return imageViewCreateInfo;
}
inline VkFramebufferCreateInfo framebufferCreateInfo()
{
VkFramebufferCreateInfo framebufferCreateInfo {};
framebufferCreateInfo.sType = VK_STRUCTURE_TYPE_FRAMEBUFFER_CREATE_INFO;
return framebufferCreateInfo;
}
inline VkSemaphoreCreateInfo semaphoreCreateInfo()
{
VkSemaphoreCreateInfo semaphoreCreateInfo {};
semaphoreCreateInfo.sType = VK_STRUCTURE_TYPE_SEMAPHORE_CREATE_INFO;
return semaphoreCreateInfo;
}
inline VkFenceCreateInfo fenceCreateInfo(VkFenceCreateFlags flags = 0)
{
VkFenceCreateInfo fenceCreateInfo {};
fenceCreateInfo.sType = VK_STRUCTURE_TYPE_FENCE_CREATE_INFO;
fenceCreateInfo.flags = flags;
return fenceCreateInfo;
}
inline VkEventCreateInfo eventCreateInfo()
{
VkEventCreateInfo eventCreateInfo {};
eventCreateInfo.sType = VK_STRUCTURE_TYPE_EVENT_CREATE_INFO;
return eventCreateInfo;
}
inline VkSubmitInfo submitInfo()
{
VkSubmitInfo submitInfo {};
submitInfo.sType = VK_STRUCTURE_TYPE_SUBMIT_INFO;
return submitInfo;
}
inline VkViewport viewport(
float width,
float height,
float minDepth,
float maxDepth)
{
VkViewport viewport {};
viewport.width = width;
viewport.height = height;
viewport.minDepth = minDepth;
viewport.maxDepth = maxDepth;
return viewport;
}
inline VkRect2D rect2D(
int32_t width,
int32_t height,
int32_t offsetX,
int32_t offsetY)
{
VkRect2D rect2D {};
rect2D.extent.width = width;
rect2D.extent.height = height;
rect2D.offset.x = offsetX;
rect2D.offset.y = offsetY;
return rect2D;
}
inline VkBufferCreateInfo bufferCreateInfo()
{
VkBufferCreateInfo bufCreateInfo {};
bufCreateInfo.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO;
return bufCreateInfo;
}
inline VkBufferCreateInfo bufferCreateInfo(
VkBufferUsageFlags usage,
VkDeviceSize size)
{
VkBufferCreateInfo bufCreateInfo {};
bufCreateInfo.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO;
bufCreateInfo.usage = usage;
bufCreateInfo.size = size;
return bufCreateInfo;
}
inline VkDescriptorPoolCreateInfo descriptorPoolCreateInfo(
uint32_t poolSizeCount,
VkDescriptorPoolSize* pPoolSizes,
uint32_t maxSets)
{
VkDescriptorPoolCreateInfo descriptorPoolInfo {};
descriptorPoolInfo.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_CREATE_INFO;
descriptorPoolInfo.poolSizeCount = poolSizeCount;
descriptorPoolInfo.pPoolSizes = pPoolSizes;
descriptorPoolInfo.maxSets = maxSets;
return descriptorPoolInfo;
}
inline VkDescriptorPoolCreateInfo descriptorPoolCreateInfo(
const std::vector<VkDescriptorPoolSize>& poolSizes,
uint32_t maxSets)
{
VkDescriptorPoolCreateInfo descriptorPoolInfo{};
descriptorPoolInfo.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_CREATE_INFO;
descriptorPoolInfo.poolSizeCount = static_cast<uint32_t>(poolSizes.size());
descriptorPoolInfo.pPoolSizes = poolSizes.data();
descriptorPoolInfo.maxSets = maxSets;
return descriptorPoolInfo;
}
inline VkDescriptorPoolSize descriptorPoolSize(
VkDescriptorType type,
uint32_t descriptorCount)
{
VkDescriptorPoolSize descriptorPoolSize {};
descriptorPoolSize.type = type;
descriptorPoolSize.descriptorCount = descriptorCount;
return descriptorPoolSize;
}
inline VkDescriptorSetLayoutBinding descriptorSetLayoutBinding(
VkDescriptorType type,
VkShaderStageFlags stageFlags,
uint32_t binding,
uint32_t descriptorCount = 1)
{
VkDescriptorSetLayoutBinding setLayoutBinding {};
setLayoutBinding.descriptorType = type;
setLayoutBinding.stageFlags = stageFlags;
setLayoutBinding.binding = binding;
setLayoutBinding.descriptorCount = descriptorCount;
return setLayoutBinding;
}
inline VkDescriptorSetLayoutCreateInfo descriptorSetLayoutCreateInfo(
const VkDescriptorSetLayoutBinding* pBindings,
uint32_t bindingCount)
{
VkDescriptorSetLayoutCreateInfo descriptorSetLayoutCreateInfo {};
descriptorSetLayoutCreateInfo.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_CREATE_INFO;
descriptorSetLayoutCreateInfo.pBindings = pBindings;
descriptorSetLayoutCreateInfo.bindingCount = bindingCount;
return descriptorSetLayoutCreateInfo;
}
inline VkDescriptorSetLayoutCreateInfo descriptorSetLayoutCreateInfo(
const std::vector<VkDescriptorSetLayoutBinding>& bindings)
{
VkDescriptorSetLayoutCreateInfo descriptorSetLayoutCreateInfo{};
descriptorSetLayoutCreateInfo.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_CREATE_INFO;
descriptorSetLayoutCreateInfo.pBindings = bindings.data();
descriptorSetLayoutCreateInfo.bindingCount = static_cast<uint32_t>(bindings.size());
return descriptorSetLayoutCreateInfo;
}
inline VkPipelineLayoutCreateInfo pipelineLayoutCreateInfo(
const VkDescriptorSetLayout* pSetLayouts,
uint32_t setLayoutCount = 1)
{
VkPipelineLayoutCreateInfo pipelineLayoutCreateInfo {};
pipelineLayoutCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_LAYOUT_CREATE_INFO;
pipelineLayoutCreateInfo.setLayoutCount = setLayoutCount;
pipelineLayoutCreateInfo.pSetLayouts = pSetLayouts;
return pipelineLayoutCreateInfo;
}
inline VkPipelineLayoutCreateInfo pipelineLayoutCreateInfo(
uint32_t setLayoutCount = 1)
{
VkPipelineLayoutCreateInfo pipelineLayoutCreateInfo{};
pipelineLayoutCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_LAYOUT_CREATE_INFO;
pipelineLayoutCreateInfo.setLayoutCount = setLayoutCount;
return pipelineLayoutCreateInfo;
}
inline VkDescriptorSetAllocateInfo descriptorSetAllocateInfo(
VkDescriptorPool descriptorPool,
const VkDescriptorSetLayout* pSetLayouts,
uint32_t descriptorSetCount)
{
VkDescriptorSetAllocateInfo descriptorSetAllocateInfo {};
descriptorSetAllocateInfo.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_ALLOCATE_INFO;
descriptorSetAllocateInfo.descriptorPool = descriptorPool;
descriptorSetAllocateInfo.pSetLayouts = pSetLayouts;
descriptorSetAllocateInfo.descriptorSetCount = descriptorSetCount;
return descriptorSetAllocateInfo;
}
inline VkDescriptorImageInfo descriptorImageInfo(VkSampler sampler, VkImageView imageView, VkImageLayout imageLayout)
{
VkDescriptorImageInfo descriptorImageInfo {};
descriptorImageInfo.sampler = sampler;
descriptorImageInfo.imageView = imageView;
descriptorImageInfo.imageLayout = imageLayout;
return descriptorImageInfo;
}
inline VkWriteDescriptorSet writeDescriptorSet(
VkDescriptorSet dstSet,
VkDescriptorType type,
uint32_t binding,
VkDescriptorBufferInfo* bufferInfo,
uint32_t descriptorCount = 1)
{
VkWriteDescriptorSet writeDescriptorSet {};
writeDescriptorSet.sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET;
writeDescriptorSet.dstSet = dstSet;
writeDescriptorSet.descriptorType = type;
writeDescriptorSet.dstBinding = binding;
writeDescriptorSet.pBufferInfo = bufferInfo;
writeDescriptorSet.descriptorCount = descriptorCount;
return writeDescriptorSet;
}
inline VkWriteDescriptorSet writeDescriptorSet(
VkDescriptorSet dstSet,
VkDescriptorType type,
uint32_t binding,
VkDescriptorImageInfo *imageInfo,
uint32_t descriptorCount = 1)
{
VkWriteDescriptorSet writeDescriptorSet {};
writeDescriptorSet.sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET;
writeDescriptorSet.dstSet = dstSet;
writeDescriptorSet.descriptorType = type;
writeDescriptorSet.dstBinding = binding;
writeDescriptorSet.pImageInfo = imageInfo;
writeDescriptorSet.descriptorCount = descriptorCount;
return writeDescriptorSet;
}
inline VkVertexInputBindingDescription vertexInputBindingDescription(
uint32_t binding,
uint32_t stride,
VkVertexInputRate inputRate)
{
VkVertexInputBindingDescription vInputBindDescription {};
vInputBindDescription.binding = binding;
vInputBindDescription.stride = stride;
vInputBindDescription.inputRate = inputRate;
return vInputBindDescription;
}
inline VkVertexInputAttributeDescription vertexInputAttributeDescription(
uint32_t binding,
uint32_t location,
VkFormat format,
uint32_t offset)
{
VkVertexInputAttributeDescription vInputAttribDescription {};
vInputAttribDescription.location = location;
vInputAttribDescription.binding = binding;
vInputAttribDescription.format = format;
vInputAttribDescription.offset = offset;
return vInputAttribDescription;
}
inline VkPipelineVertexInputStateCreateInfo pipelineVertexInputStateCreateInfo()
{
VkPipelineVertexInputStateCreateInfo pipelineVertexInputStateCreateInfo {};
pipelineVertexInputStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_STATE_CREATE_INFO;
return pipelineVertexInputStateCreateInfo;
}
inline VkPipelineVertexInputStateCreateInfo pipelineVertexInputStateCreateInfo(
const std::vector<VkVertexInputBindingDescription> &vertexBindingDescriptions,
const std::vector<VkVertexInputAttributeDescription> &vertexAttributeDescriptions
)
{
VkPipelineVertexInputStateCreateInfo pipelineVertexInputStateCreateInfo{};
pipelineVertexInputStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_STATE_CREATE_INFO;
pipelineVertexInputStateCreateInfo.vertexBindingDescriptionCount = static_cast<uint32_t>(vertexBindingDescriptions.size());
pipelineVertexInputStateCreateInfo.pVertexBindingDescriptions = vertexBindingDescriptions.data();
pipelineVertexInputStateCreateInfo.vertexAttributeDescriptionCount = static_cast<uint32_t>(vertexAttributeDescriptions.size());
pipelineVertexInputStateCreateInfo.pVertexAttributeDescriptions = vertexAttributeDescriptions.data();
return pipelineVertexInputStateCreateInfo;
}
inline VkPipelineInputAssemblyStateCreateInfo pipelineInputAssemblyStateCreateInfo(
VkPrimitiveTopology topology,
VkPipelineInputAssemblyStateCreateFlags flags,
VkBool32 primitiveRestartEnable)
{
VkPipelineInputAssemblyStateCreateInfo pipelineInputAssemblyStateCreateInfo {};
pipelineInputAssemblyStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_INPUT_ASSEMBLY_STATE_CREATE_INFO;
pipelineInputAssemblyStateCreateInfo.topology = topology;
pipelineInputAssemblyStateCreateInfo.flags = flags;
pipelineInputAssemblyStateCreateInfo.primitiveRestartEnable = primitiveRestartEnable;
return pipelineInputAssemblyStateCreateInfo;
}
inline VkPipelineRasterizationStateCreateInfo pipelineRasterizationStateCreateInfo(
VkPolygonMode polygonMode,
VkCullModeFlags cullMode,
VkFrontFace frontFace,
VkPipelineRasterizationStateCreateFlags flags = 0)
{
VkPipelineRasterizationStateCreateInfo pipelineRasterizationStateCreateInfo {};
pipelineRasterizationStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_STATE_CREATE_INFO;
pipelineRasterizationStateCreateInfo.polygonMode = polygonMode;
pipelineRasterizationStateCreateInfo.cullMode = cullMode;
pipelineRasterizationStateCreateInfo.frontFace = frontFace;
pipelineRasterizationStateCreateInfo.flags = flags;
pipelineRasterizationStateCreateInfo.depthClampEnable = VK_FALSE;
pipelineRasterizationStateCreateInfo.lineWidth = 1.0f;
return pipelineRasterizationStateCreateInfo;
}
inline VkPipelineColorBlendAttachmentState pipelineColorBlendAttachmentState(
VkColorComponentFlags colorWriteMask,
VkBool32 blendEnable)
{
VkPipelineColorBlendAttachmentState pipelineColorBlendAttachmentState {};
pipelineColorBlendAttachmentState.colorWriteMask = colorWriteMask;
pipelineColorBlendAttachmentState.blendEnable = blendEnable;
return pipelineColorBlendAttachmentState;
}
inline VkPipelineColorBlendStateCreateInfo pipelineColorBlendStateCreateInfo(
uint32_t attachmentCount,
const VkPipelineColorBlendAttachmentState * pAttachments)
{
VkPipelineColorBlendStateCreateInfo pipelineColorBlendStateCreateInfo {};
pipelineColorBlendStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_COLOR_BLEND_STATE_CREATE_INFO;
pipelineColorBlendStateCreateInfo.attachmentCount = attachmentCount;
pipelineColorBlendStateCreateInfo.pAttachments = pAttachments;
return pipelineColorBlendStateCreateInfo;
}
inline VkPipelineDepthStencilStateCreateInfo pipelineDepthStencilStateCreateInfo(
VkBool32 depthTestEnable,
VkBool32 depthWriteEnable,
VkCompareOp depthCompareOp)
{
VkPipelineDepthStencilStateCreateInfo pipelineDepthStencilStateCreateInfo {};
pipelineDepthStencilStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_DEPTH_STENCIL_STATE_CREATE_INFO;
pipelineDepthStencilStateCreateInfo.depthTestEnable = depthTestEnable;
pipelineDepthStencilStateCreateInfo.depthWriteEnable = depthWriteEnable;
pipelineDepthStencilStateCreateInfo.depthCompareOp = depthCompareOp;
pipelineDepthStencilStateCreateInfo.back.compareOp = VK_COMPARE_OP_ALWAYS;
return pipelineDepthStencilStateCreateInfo;
}
inline VkPipelineViewportStateCreateInfo pipelineViewportStateCreateInfo(
uint32_t viewportCount,
uint32_t scissorCount,
VkPipelineViewportStateCreateFlags flags = 0)
{
VkPipelineViewportStateCreateInfo pipelineViewportStateCreateInfo {};
pipelineViewportStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_STATE_CREATE_INFO;
pipelineViewportStateCreateInfo.viewportCount = viewportCount;
pipelineViewportStateCreateInfo.scissorCount = scissorCount;
pipelineViewportStateCreateInfo.flags = flags;
return pipelineViewportStateCreateInfo;
}
inline VkPipelineMultisampleStateCreateInfo pipelineMultisampleStateCreateInfo(
VkSampleCountFlagBits rasterizationSamples,
VkPipelineMultisampleStateCreateFlags flags = 0)
{
VkPipelineMultisampleStateCreateInfo pipelineMultisampleStateCreateInfo {};
pipelineMultisampleStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_MULTISAMPLE_STATE_CREATE_INFO;
pipelineMultisampleStateCreateInfo.rasterizationSamples = rasterizationSamples;
pipelineMultisampleStateCreateInfo.flags = flags;
return pipelineMultisampleStateCreateInfo;
}
inline VkPipelineDynamicStateCreateInfo pipelineDynamicStateCreateInfo(
const VkDynamicState * pDynamicStates,
uint32_t dynamicStateCount,
VkPipelineDynamicStateCreateFlags flags = 0)
{
VkPipelineDynamicStateCreateInfo pipelineDynamicStateCreateInfo {};
pipelineDynamicStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_DYNAMIC_STATE_CREATE_INFO;
pipelineDynamicStateCreateInfo.pDynamicStates = pDynamicStates;
pipelineDynamicStateCreateInfo.dynamicStateCount = dynamicStateCount;
pipelineDynamicStateCreateInfo.flags = flags;
return pipelineDynamicStateCreateInfo;
}
inline VkPipelineDynamicStateCreateInfo pipelineDynamicStateCreateInfo(
const std::vector<VkDynamicState>& pDynamicStates,
VkPipelineDynamicStateCreateFlags flags = 0)
{
VkPipelineDynamicStateCreateInfo pipelineDynamicStateCreateInfo{};
pipelineDynamicStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_DYNAMIC_STATE_CREATE_INFO;
pipelineDynamicStateCreateInfo.pDynamicStates = pDynamicStates.data();
pipelineDynamicStateCreateInfo.dynamicStateCount = static_cast<uint32_t>(pDynamicStates.size());
pipelineDynamicStateCreateInfo.flags = flags;
return pipelineDynamicStateCreateInfo;
}
inline VkPipelineTessellationStateCreateInfo pipelineTessellationStateCreateInfo(uint32_t patchControlPoints)
{
VkPipelineTessellationStateCreateInfo pipelineTessellationStateCreateInfo {};
pipelineTessellationStateCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_TESSELLATION_STATE_CREATE_INFO;
pipelineTessellationStateCreateInfo.patchControlPoints = patchControlPoints;
return pipelineTessellationStateCreateInfo;
}
inline VkGraphicsPipelineCreateInfo pipelineCreateInfo(
VkPipelineLayout layout,
VkRenderPass renderPass,
VkPipelineCreateFlags flags = 0)
{
VkGraphicsPipelineCreateInfo pipelineCreateInfo {};
pipelineCreateInfo.sType = VK_STRUCTURE_TYPE_GRAPHICS_PIPELINE_CREATE_INFO;
pipelineCreateInfo.layout = layout;
pipelineCreateInfo.renderPass = renderPass;
pipelineCreateInfo.flags = flags;
pipelineCreateInfo.basePipelineIndex = -1;
pipelineCreateInfo.basePipelineHandle = VK_NULL_HANDLE;
return pipelineCreateInfo;
}
inline VkGraphicsPipelineCreateInfo pipelineCreateInfo()
{
VkGraphicsPipelineCreateInfo pipelineCreateInfo{};
pipelineCreateInfo.sType = VK_STRUCTURE_TYPE_GRAPHICS_PIPELINE_CREATE_INFO;
pipelineCreateInfo.basePipelineIndex = -1;
pipelineCreateInfo.basePipelineHandle = VK_NULL_HANDLE;
return pipelineCreateInfo;
}
inline VkComputePipelineCreateInfo computePipelineCreateInfo(
VkPipelineLayout layout,
VkPipelineCreateFlags flags = 0)
{
VkComputePipelineCreateInfo computePipelineCreateInfo {};
computePipelineCreateInfo.sType = VK_STRUCTURE_TYPE_COMPUTE_PIPELINE_CREATE_INFO;
computePipelineCreateInfo.layout = layout;
computePipelineCreateInfo.flags = flags;
return computePipelineCreateInfo;
}
inline VkPushConstantRange pushConstantRange(
VkShaderStageFlags stageFlags,
uint32_t size,
uint32_t offset)
{
VkPushConstantRange pushConstantRange {};
pushConstantRange.stageFlags = stageFlags;
pushConstantRange.offset = offset;
pushConstantRange.size = size;
return pushConstantRange;
}
inline VkBindSparseInfo bindSparseInfo()
{
VkBindSparseInfo bindSparseInfo{};
bindSparseInfo.sType = VK_STRUCTURE_TYPE_BIND_SPARSE_INFO;
return bindSparseInfo;
}
/** @brief Initialize a map entry for a shader specialization constant */
inline VkSpecializationMapEntry specializationMapEntry(uint32_t constantID, uint32_t offset, size_t size)
{
VkSpecializationMapEntry specializationMapEntry{};
specializationMapEntry.constantID = constantID;
specializationMapEntry.offset = offset;
specializationMapEntry.size = size;
return specializationMapEntry;
}
/** @brief Initialize a specialization constant info structure to pass to a shader stage */
inline VkSpecializationInfo specializationInfo(uint32_t mapEntryCount, const VkSpecializationMapEntry* mapEntries, size_t dataSize, const void* data)
{
VkSpecializationInfo specializationInfo{};
specializationInfo.mapEntryCount = mapEntryCount;
specializationInfo.pMapEntries = mapEntries;
specializationInfo.dataSize = dataSize;
specializationInfo.pData = data;
return specializationInfo;
}
/** @brief Initialize a specialization constant info structure to pass to a shader stage */
inline VkSpecializationInfo specializationInfo(const std::vector<VkSpecializationMapEntry> &mapEntries, size_t dataSize, const void* data)
{
VkSpecializationInfo specializationInfo{};
specializationInfo.mapEntryCount = static_cast<uint32_t>(mapEntries.size());
specializationInfo.pMapEntries = mapEntries.data();
specializationInfo.dataSize = dataSize;
specializationInfo.pData = data;
return specializationInfo;
}
// Ray tracing related
inline VkAccelerationStructureGeometryKHR accelerationStructureGeometryKHR()
{
VkAccelerationStructureGeometryKHR accelerationStructureGeometryKHR{};
accelerationStructureGeometryKHR.sType = VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_GEOMETRY_KHR;
return accelerationStructureGeometryKHR;
}
inline VkAccelerationStructureBuildGeometryInfoKHR accelerationStructureBuildGeometryInfoKHR()
{
VkAccelerationStructureBuildGeometryInfoKHR accelerationStructureBuildGeometryInfoKHR{};
accelerationStructureBuildGeometryInfoKHR.sType = VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_BUILD_GEOMETRY_INFO_KHR;
return accelerationStructureBuildGeometryInfoKHR;
}
inline VkAccelerationStructureBuildSizesInfoKHR accelerationStructureBuildSizesInfoKHR()
{
VkAccelerationStructureBuildSizesInfoKHR accelerationStructureBuildSizesInfoKHR{};
accelerationStructureBuildSizesInfoKHR.sType = VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_BUILD_SIZES_INFO_KHR;
return accelerationStructureBuildSizesInfoKHR;
}
inline VkRayTracingShaderGroupCreateInfoKHR rayTracingShaderGroupCreateInfoKHR()
{
VkRayTracingShaderGroupCreateInfoKHR rayTracingShaderGroupCreateInfoKHR{};
rayTracingShaderGroupCreateInfoKHR.sType = VK_STRUCTURE_TYPE_RAY_TRACING_SHADER_GROUP_CREATE_INFO_KHR;
return rayTracingShaderGroupCreateInfoKHR;
}
inline VkRayTracingPipelineCreateInfoKHR rayTracingPipelineCreateInfoKHR()
{
VkRayTracingPipelineCreateInfoKHR rayTracingPipelineCreateInfoKHR{};
rayTracingPipelineCreateInfoKHR.sType = VK_STRUCTURE_TYPE_RAY_TRACING_PIPELINE_CREATE_INFO_KHR;
return rayTracingPipelineCreateInfoKHR;
}
inline VkWriteDescriptorSetAccelerationStructureKHR writeDescriptorSetAccelerationStructureKHR()
{
VkWriteDescriptorSetAccelerationStructureKHR writeDescriptorSetAccelerationStructureKHR{};
writeDescriptorSetAccelerationStructureKHR.sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET_ACCELERATION_STRUCTURE_KHR;
return writeDescriptorSetAccelerationStructureKHR;
}
}
}

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/*
* Extended sample base class for ray tracing based samples
*
* Copyright (C) 2020-2021 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include "VulkanRaytracingSample.h"
void VulkanRaytracingSample::updateRenderPass()
{
// Update the default render pass with different color attachment load ops to keep attachment contents
// With this change, we can e.g. draw an UI on top of the ray traced scene
vkDestroyRenderPass(device, renderPass, nullptr);
std::array<VkAttachmentDescription, 2> attachments = {};
// Color attachment
attachments[0].format = swapChain.colorFormat;
attachments[0].samples = VK_SAMPLE_COUNT_1_BIT;
attachments[0].loadOp = VK_ATTACHMENT_LOAD_OP_LOAD;
attachments[0].storeOp = VK_ATTACHMENT_STORE_OP_STORE;
attachments[0].stencilLoadOp = VK_ATTACHMENT_LOAD_OP_DONT_CARE;
attachments[0].stencilStoreOp = VK_ATTACHMENT_STORE_OP_DONT_CARE;
attachments[0].initialLayout = VK_IMAGE_LAYOUT_PRESENT_SRC_KHR;
attachments[0].finalLayout = VK_IMAGE_LAYOUT_PRESENT_SRC_KHR;
// Depth attachment
attachments[1].format = depthFormat;
attachments[1].samples = VK_SAMPLE_COUNT_1_BIT;
attachments[1].loadOp = VK_ATTACHMENT_LOAD_OP_CLEAR;
attachments[1].storeOp = VK_ATTACHMENT_STORE_OP_STORE;
attachments[1].stencilLoadOp = VK_ATTACHMENT_LOAD_OP_CLEAR;
attachments[1].stencilStoreOp = VK_ATTACHMENT_STORE_OP_DONT_CARE;
attachments[1].initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
attachments[1].finalLayout = VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL;
VkAttachmentReference colorReference = {};
colorReference.attachment = 0;
colorReference.layout = VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL;
VkAttachmentReference depthReference = {};
depthReference.attachment = 1;
depthReference.layout = VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL;
VkSubpassDescription subpassDescription = {};
subpassDescription.pipelineBindPoint = VK_PIPELINE_BIND_POINT_GRAPHICS;
subpassDescription.colorAttachmentCount = 1;
subpassDescription.pColorAttachments = &colorReference;
subpassDescription.pDepthStencilAttachment = &depthReference;
subpassDescription.inputAttachmentCount = 0;
subpassDescription.pInputAttachments = nullptr;
subpassDescription.preserveAttachmentCount = 0;
subpassDescription.pPreserveAttachments = nullptr;
subpassDescription.pResolveAttachments = nullptr;
// Subpass dependencies for layout transitions
std::array<VkSubpassDependency, 2> dependencies;
dependencies[0].srcSubpass = VK_SUBPASS_EXTERNAL;
dependencies[0].dstSubpass = 0;
dependencies[0].srcStageMask = VK_PIPELINE_STAGE_BOTTOM_OF_PIPE_BIT;
dependencies[0].dstStageMask = VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT;
dependencies[0].srcAccessMask = VK_ACCESS_MEMORY_READ_BIT;
dependencies[0].dstAccessMask = VK_ACCESS_COLOR_ATTACHMENT_READ_BIT | VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT;
dependencies[0].dependencyFlags = VK_DEPENDENCY_BY_REGION_BIT;
dependencies[1].srcSubpass = 0;
dependencies[1].dstSubpass = VK_SUBPASS_EXTERNAL;
dependencies[1].srcStageMask = VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT;
dependencies[1].dstStageMask = VK_PIPELINE_STAGE_BOTTOM_OF_PIPE_BIT;
dependencies[1].srcAccessMask = VK_ACCESS_COLOR_ATTACHMENT_READ_BIT | VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT;
dependencies[1].dstAccessMask = VK_ACCESS_MEMORY_READ_BIT;
dependencies[1].dependencyFlags = VK_DEPENDENCY_BY_REGION_BIT;
VkRenderPassCreateInfo renderPassInfo = {};
renderPassInfo.sType = VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO;
renderPassInfo.attachmentCount = static_cast<uint32_t>(attachments.size());
renderPassInfo.pAttachments = attachments.data();
renderPassInfo.subpassCount = 1;
renderPassInfo.pSubpasses = &subpassDescription;
renderPassInfo.dependencyCount = static_cast<uint32_t>(dependencies.size());
renderPassInfo.pDependencies = dependencies.data();
VK_CHECK_RESULT(vkCreateRenderPass(device, &renderPassInfo, nullptr, &renderPass));
}
void VulkanRaytracingSample::enableExtensions()
{
// Require Vulkan 1.1
apiVersion = VK_API_VERSION_1_1;
// Ray tracing related extensions required by this sample
enabledDeviceExtensions.push_back(VK_KHR_ACCELERATION_STRUCTURE_EXTENSION_NAME);
if (!rayQueryOnly) {
enabledDeviceExtensions.push_back(VK_KHR_RAY_TRACING_PIPELINE_EXTENSION_NAME);
}
// Required by VK_KHR_acceleration_structure
enabledDeviceExtensions.push_back(VK_KHR_BUFFER_DEVICE_ADDRESS_EXTENSION_NAME);
enabledDeviceExtensions.push_back(VK_KHR_DEFERRED_HOST_OPERATIONS_EXTENSION_NAME);
enabledDeviceExtensions.push_back(VK_EXT_DESCRIPTOR_INDEXING_EXTENSION_NAME);
// Required for VK_KHR_ray_tracing_pipeline
enabledDeviceExtensions.push_back(VK_KHR_SPIRV_1_4_EXTENSION_NAME);
// Required by VK_KHR_spirv_1_4
enabledDeviceExtensions.push_back(VK_KHR_SHADER_FLOAT_CONTROLS_EXTENSION_NAME);
}
VulkanRaytracingSample::ScratchBuffer VulkanRaytracingSample::createScratchBuffer(VkDeviceSize size)
{
ScratchBuffer scratchBuffer{};
// Buffer and memory
VkBufferCreateInfo bufferCreateInfo{};
bufferCreateInfo.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO;
bufferCreateInfo.size = size;
bufferCreateInfo.usage = VK_BUFFER_USAGE_STORAGE_BUFFER_BIT | VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT;
VK_CHECK_RESULT(vkCreateBuffer(vulkanDevice->logicalDevice, &bufferCreateInfo, nullptr, &scratchBuffer.handle));
VkMemoryRequirements memoryRequirements{};
vkGetBufferMemoryRequirements(vulkanDevice->logicalDevice, scratchBuffer.handle, &memoryRequirements);
VkMemoryAllocateFlagsInfo memoryAllocateFlagsInfo{};
memoryAllocateFlagsInfo.sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_FLAGS_INFO;
memoryAllocateFlagsInfo.flags = VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_BIT_KHR;
VkMemoryAllocateInfo memoryAllocateInfo = {};
memoryAllocateInfo.sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_INFO;
memoryAllocateInfo.pNext = &memoryAllocateFlagsInfo;
memoryAllocateInfo.allocationSize = memoryRequirements.size;
memoryAllocateInfo.memoryTypeIndex = vulkanDevice->getMemoryType(memoryRequirements.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(vulkanDevice->logicalDevice, &memoryAllocateInfo, nullptr, &scratchBuffer.memory));
VK_CHECK_RESULT(vkBindBufferMemory(vulkanDevice->logicalDevice, scratchBuffer.handle, scratchBuffer.memory, 0));
// Buffer device address
VkBufferDeviceAddressInfoKHR bufferDeviceAddresInfo{};
bufferDeviceAddresInfo.sType = VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO;
bufferDeviceAddresInfo.buffer = scratchBuffer.handle;
scratchBuffer.deviceAddress = vkGetBufferDeviceAddressKHR(vulkanDevice->logicalDevice, &bufferDeviceAddresInfo);
return scratchBuffer;
}
void VulkanRaytracingSample::deleteScratchBuffer(ScratchBuffer& scratchBuffer)
{
if (scratchBuffer.memory != VK_NULL_HANDLE) {
vkFreeMemory(vulkanDevice->logicalDevice, scratchBuffer.memory, nullptr);
}
if (scratchBuffer.handle != VK_NULL_HANDLE) {
vkDestroyBuffer(vulkanDevice->logicalDevice, scratchBuffer.handle, nullptr);
}
}
void VulkanRaytracingSample::createAccelerationStructure(AccelerationStructure& accelerationStructure, VkAccelerationStructureTypeKHR type, VkAccelerationStructureBuildSizesInfoKHR buildSizeInfo)
{
// Buffer and memory
VkBufferCreateInfo bufferCreateInfo{};
bufferCreateInfo.sType = VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO;
bufferCreateInfo.size = buildSizeInfo.accelerationStructureSize;
bufferCreateInfo.usage = VK_BUFFER_USAGE_ACCELERATION_STRUCTURE_STORAGE_BIT_KHR | VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT;
VK_CHECK_RESULT(vkCreateBuffer(vulkanDevice->logicalDevice, &bufferCreateInfo, nullptr, &accelerationStructure.buffer));
VkMemoryRequirements memoryRequirements{};
vkGetBufferMemoryRequirements(vulkanDevice->logicalDevice, accelerationStructure.buffer, &memoryRequirements);
VkMemoryAllocateFlagsInfo memoryAllocateFlagsInfo{};
memoryAllocateFlagsInfo.sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_FLAGS_INFO;
memoryAllocateFlagsInfo.flags = VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_BIT_KHR;
VkMemoryAllocateInfo memoryAllocateInfo{};
memoryAllocateInfo.sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_INFO;
memoryAllocateInfo.pNext = &memoryAllocateFlagsInfo;
memoryAllocateInfo.allocationSize = memoryRequirements.size;
memoryAllocateInfo.memoryTypeIndex = vulkanDevice->getMemoryType(memoryRequirements.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(vulkanDevice->logicalDevice, &memoryAllocateInfo, nullptr, &accelerationStructure.memory));
VK_CHECK_RESULT(vkBindBufferMemory(vulkanDevice->logicalDevice, accelerationStructure.buffer, accelerationStructure.memory, 0));
// Acceleration structure
VkAccelerationStructureCreateInfoKHR accelerationStructureCreate_info{};
accelerationStructureCreate_info.sType = VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_CREATE_INFO_KHR;
accelerationStructureCreate_info.buffer = accelerationStructure.buffer;
accelerationStructureCreate_info.size = buildSizeInfo.accelerationStructureSize;
accelerationStructureCreate_info.type = type;
vkCreateAccelerationStructureKHR(vulkanDevice->logicalDevice, &accelerationStructureCreate_info, nullptr, &accelerationStructure.handle);
// AS device address
VkAccelerationStructureDeviceAddressInfoKHR accelerationDeviceAddressInfo{};
accelerationDeviceAddressInfo.sType = VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_DEVICE_ADDRESS_INFO_KHR;
accelerationDeviceAddressInfo.accelerationStructure = accelerationStructure.handle;
accelerationStructure.deviceAddress = vkGetAccelerationStructureDeviceAddressKHR(vulkanDevice->logicalDevice, &accelerationDeviceAddressInfo);
}
void VulkanRaytracingSample::deleteAccelerationStructure(AccelerationStructure& accelerationStructure)
{
vkFreeMemory(device, accelerationStructure.memory, nullptr);
vkDestroyBuffer(device, accelerationStructure.buffer, nullptr);
vkDestroyAccelerationStructureKHR(device, accelerationStructure.handle, nullptr);
}
uint64_t VulkanRaytracingSample::getBufferDeviceAddress(VkBuffer buffer)
{
VkBufferDeviceAddressInfoKHR bufferDeviceAI{};
bufferDeviceAI.sType = VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO;
bufferDeviceAI.buffer = buffer;
return vkGetBufferDeviceAddressKHR(vulkanDevice->logicalDevice, &bufferDeviceAI);
}
void VulkanRaytracingSample::createStorageImage(VkFormat format, VkExtent3D extent)
{
// Release ressources if image is to be recreated
if (storageImage.image != VK_NULL_HANDLE) {
vkDestroyImageView(device, storageImage.view, nullptr);
vkDestroyImage(device, storageImage.image, nullptr);
vkFreeMemory(device, storageImage.memory, nullptr);
storageImage = {};
}
VkImageCreateInfo image = vks::initializers::imageCreateInfo();
image.imageType = VK_IMAGE_TYPE_2D;
image.format = format;
image.extent = extent;
image.mipLevels = 1;
image.arrayLayers = 1;
image.samples = VK_SAMPLE_COUNT_1_BIT;
image.tiling = VK_IMAGE_TILING_OPTIMAL;
image.usage = VK_IMAGE_USAGE_TRANSFER_SRC_BIT | VK_IMAGE_USAGE_STORAGE_BIT;
image.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
VK_CHECK_RESULT(vkCreateImage(vulkanDevice->logicalDevice, &image, nullptr, &storageImage.image));
VkMemoryRequirements memReqs;
vkGetImageMemoryRequirements(vulkanDevice->logicalDevice, storageImage.image, &memReqs);
VkMemoryAllocateInfo memoryAllocateInfo = vks::initializers::memoryAllocateInfo();
memoryAllocateInfo.allocationSize = memReqs.size;
memoryAllocateInfo.memoryTypeIndex = vulkanDevice->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(vulkanDevice->logicalDevice, &memoryAllocateInfo, nullptr, &storageImage.memory));
VK_CHECK_RESULT(vkBindImageMemory(vulkanDevice->logicalDevice, storageImage.image, storageImage.memory, 0));
VkImageViewCreateInfo colorImageView = vks::initializers::imageViewCreateInfo();
colorImageView.viewType = VK_IMAGE_VIEW_TYPE_2D;
colorImageView.format = format;
colorImageView.subresourceRange = {};
colorImageView.subresourceRange.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
colorImageView.subresourceRange.baseMipLevel = 0;
colorImageView.subresourceRange.levelCount = 1;
colorImageView.subresourceRange.baseArrayLayer = 0;
colorImageView.subresourceRange.layerCount = 1;
colorImageView.image = storageImage.image;
VK_CHECK_RESULT(vkCreateImageView(vulkanDevice->logicalDevice, &colorImageView, nullptr, &storageImage.view));
VkCommandBuffer cmdBuffer = vulkanDevice->createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
vks::tools::setImageLayout(cmdBuffer, storageImage.image,
VK_IMAGE_LAYOUT_UNDEFINED,
VK_IMAGE_LAYOUT_GENERAL,
{ VK_IMAGE_ASPECT_COLOR_BIT, 0, 1, 0, 1 });
vulkanDevice->flushCommandBuffer(cmdBuffer, queue);
}
void VulkanRaytracingSample::deleteStorageImage()
{
vkDestroyImageView(vulkanDevice->logicalDevice, storageImage.view, nullptr);
vkDestroyImage(vulkanDevice->logicalDevice, storageImage.image, nullptr);
vkFreeMemory(vulkanDevice->logicalDevice, storageImage.memory, nullptr);
}
void VulkanRaytracingSample::prepare()
{
VulkanExampleBase::prepare();
// Get properties and features
rayTracingPipelineProperties.sType = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RAY_TRACING_PIPELINE_PROPERTIES_KHR;
VkPhysicalDeviceProperties2 deviceProperties2{};
deviceProperties2.sType = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROPERTIES_2;
deviceProperties2.pNext = &rayTracingPipelineProperties;
vkGetPhysicalDeviceProperties2(physicalDevice, &deviceProperties2);
accelerationStructureFeatures.sType = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ACCELERATION_STRUCTURE_FEATURES_KHR;
VkPhysicalDeviceFeatures2 deviceFeatures2{};
deviceFeatures2.sType = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FEATURES_2;
deviceFeatures2.pNext = &accelerationStructureFeatures;
vkGetPhysicalDeviceFeatures2(physicalDevice, &deviceFeatures2);
// Get the function pointers required for ray tracing
vkGetBufferDeviceAddressKHR = reinterpret_cast<PFN_vkGetBufferDeviceAddressKHR>(vkGetDeviceProcAddr(device, "vkGetBufferDeviceAddressKHR"));
vkCmdBuildAccelerationStructuresKHR = reinterpret_cast<PFN_vkCmdBuildAccelerationStructuresKHR>(vkGetDeviceProcAddr(device, "vkCmdBuildAccelerationStructuresKHR"));
vkBuildAccelerationStructuresKHR = reinterpret_cast<PFN_vkBuildAccelerationStructuresKHR>(vkGetDeviceProcAddr(device, "vkBuildAccelerationStructuresKHR"));
vkCreateAccelerationStructureKHR = reinterpret_cast<PFN_vkCreateAccelerationStructureKHR>(vkGetDeviceProcAddr(device, "vkCreateAccelerationStructureKHR"));
vkDestroyAccelerationStructureKHR = reinterpret_cast<PFN_vkDestroyAccelerationStructureKHR>(vkGetDeviceProcAddr(device, "vkDestroyAccelerationStructureKHR"));
vkGetAccelerationStructureBuildSizesKHR = reinterpret_cast<PFN_vkGetAccelerationStructureBuildSizesKHR>(vkGetDeviceProcAddr(device, "vkGetAccelerationStructureBuildSizesKHR"));
vkGetAccelerationStructureDeviceAddressKHR = reinterpret_cast<PFN_vkGetAccelerationStructureDeviceAddressKHR>(vkGetDeviceProcAddr(device, "vkGetAccelerationStructureDeviceAddressKHR"));
vkCmdTraceRaysKHR = reinterpret_cast<PFN_vkCmdTraceRaysKHR>(vkGetDeviceProcAddr(device, "vkCmdTraceRaysKHR"));
vkGetRayTracingShaderGroupHandlesKHR = reinterpret_cast<PFN_vkGetRayTracingShaderGroupHandlesKHR>(vkGetDeviceProcAddr(device, "vkGetRayTracingShaderGroupHandlesKHR"));
vkCreateRayTracingPipelinesKHR = reinterpret_cast<PFN_vkCreateRayTracingPipelinesKHR>(vkGetDeviceProcAddr(device, "vkCreateRayTracingPipelinesKHR"));
// Update the render pass to keep the color attachment contents, so we can draw the UI on top of the ray traced output
if (!rayQueryOnly) {
updateRenderPass();
}
}
VkStridedDeviceAddressRegionKHR VulkanRaytracingSample::getSbtEntryStridedDeviceAddressRegion(VkBuffer buffer, uint32_t handleCount)
{
const uint32_t handleSizeAligned = vks::tools::alignedSize(rayTracingPipelineProperties.shaderGroupHandleSize, rayTracingPipelineProperties.shaderGroupHandleAlignment);
VkStridedDeviceAddressRegionKHR stridedDeviceAddressRegionKHR{};
stridedDeviceAddressRegionKHR.deviceAddress = getBufferDeviceAddress(buffer);
stridedDeviceAddressRegionKHR.stride = handleSizeAligned;
stridedDeviceAddressRegionKHR.size = handleCount * handleSizeAligned;
return stridedDeviceAddressRegionKHR;
}
void VulkanRaytracingSample::createShaderBindingTable(ShaderBindingTable& shaderBindingTable, uint32_t handleCount)
{
// Create buffer to hold all shader handles for the SBT
VK_CHECK_RESULT(vulkanDevice->createBuffer(
VK_BUFFER_USAGE_SHADER_BINDING_TABLE_BIT_KHR | VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT,
VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT,
&shaderBindingTable,
rayTracingPipelineProperties.shaderGroupHandleSize * handleCount));
// Get the strided address to be used when dispatching the rays
shaderBindingTable.stridedDeviceAddressRegion = getSbtEntryStridedDeviceAddressRegion(shaderBindingTable.buffer, handleCount);
// Map persistent
shaderBindingTable.map();
}
void VulkanRaytracingSample::drawUI(VkCommandBuffer commandBuffer, VkFramebuffer framebuffer)
{
VkClearValue clearValues[2];
clearValues[0].color = defaultClearColor;
clearValues[1].depthStencil = { 1.0f, 0 };
VkRenderPassBeginInfo renderPassBeginInfo = vks::initializers::renderPassBeginInfo();
renderPassBeginInfo.renderPass = renderPass;
renderPassBeginInfo.renderArea.offset.x = 0;
renderPassBeginInfo.renderArea.offset.y = 0;
renderPassBeginInfo.renderArea.extent.width = width;
renderPassBeginInfo.renderArea.extent.height = height;
renderPassBeginInfo.clearValueCount = 2;
renderPassBeginInfo.pClearValues = clearValues;
renderPassBeginInfo.framebuffer = framebuffer;
vkCmdBeginRenderPass(commandBuffer, &renderPassBeginInfo, VK_SUBPASS_CONTENTS_INLINE);
VulkanExampleBase::drawUI(commandBuffer);
vkCmdEndRenderPass(commandBuffer);
}

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base/VulkanRaytracingSample.h 100644
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/*
* Extended sample base class for ray tracing based samples
*
* Copyright (C) 2020 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include "vulkan/vulkan.h"
#include "vulkanexamplebase.h"
#include "VulkanTools.h"
#include "VulkanDevice.h"
class VulkanRaytracingSample : public VulkanExampleBase
{
protected:
// Update the default render pass with different color attachment load ops
virtual void updateRenderPass();
public:
// Function pointers for ray tracing related stuff
PFN_vkGetBufferDeviceAddressKHR vkGetBufferDeviceAddressKHR;
PFN_vkCreateAccelerationStructureKHR vkCreateAccelerationStructureKHR;
PFN_vkDestroyAccelerationStructureKHR vkDestroyAccelerationStructureKHR;
PFN_vkGetAccelerationStructureBuildSizesKHR vkGetAccelerationStructureBuildSizesKHR;
PFN_vkGetAccelerationStructureDeviceAddressKHR vkGetAccelerationStructureDeviceAddressKHR;
PFN_vkBuildAccelerationStructuresKHR vkBuildAccelerationStructuresKHR;
PFN_vkCmdBuildAccelerationStructuresKHR vkCmdBuildAccelerationStructuresKHR;
PFN_vkCmdTraceRaysKHR vkCmdTraceRaysKHR;
PFN_vkGetRayTracingShaderGroupHandlesKHR vkGetRayTracingShaderGroupHandlesKHR;
PFN_vkCreateRayTracingPipelinesKHR vkCreateRayTracingPipelinesKHR;
// Available features and properties
VkPhysicalDeviceRayTracingPipelinePropertiesKHR rayTracingPipelineProperties{};
VkPhysicalDeviceAccelerationStructureFeaturesKHR accelerationStructureFeatures{};
// Enabled features and properties
VkPhysicalDeviceBufferDeviceAddressFeatures enabledBufferDeviceAddresFeatures{};
VkPhysicalDeviceRayTracingPipelineFeaturesKHR enabledRayTracingPipelineFeatures{};
VkPhysicalDeviceAccelerationStructureFeaturesKHR enabledAccelerationStructureFeatures{};
// Holds information for a ray tracing scratch buffer that is used as a temporary storage
struct ScratchBuffer
{
uint64_t deviceAddress = 0;
VkBuffer handle = VK_NULL_HANDLE;
VkDeviceMemory memory = VK_NULL_HANDLE;
};
// Holds information for a ray tracing acceleration structure
struct AccelerationStructure {
VkAccelerationStructureKHR handle;
uint64_t deviceAddress = 0;
VkDeviceMemory memory;
VkBuffer buffer;
};
// Holds information for a storage image that the ray tracing shaders output to
struct StorageImage {
VkDeviceMemory memory = VK_NULL_HANDLE;
VkImage image = VK_NULL_HANDLE;
VkImageView view = VK_NULL_HANDLE;
VkFormat format;
} storageImage;
// Extends the buffer class and holds information for a shader binding table
class ShaderBindingTable : public vks::Buffer {
public:
VkStridedDeviceAddressRegionKHR stridedDeviceAddressRegion{};
};
// Set to true, to denote that the sample only uses ray queries (changes extension and render pass handling)
bool rayQueryOnly = false;
void enableExtensions();
ScratchBuffer createScratchBuffer(VkDeviceSize size);
void deleteScratchBuffer(ScratchBuffer& scratchBuffer);
void createAccelerationStructure(AccelerationStructure& accelerationStructure, VkAccelerationStructureTypeKHR type, VkAccelerationStructureBuildSizesInfoKHR buildSizeInfo);
void deleteAccelerationStructure(AccelerationStructure& accelerationStructure);
uint64_t getBufferDeviceAddress(VkBuffer buffer);
void createStorageImage(VkFormat format, VkExtent3D extent);
void deleteStorageImage();
VkStridedDeviceAddressRegionKHR getSbtEntryStridedDeviceAddressRegion(VkBuffer buffer, uint32_t handleCount);
void createShaderBindingTable(ShaderBindingTable& shaderBindingTable, uint32_t handleCount);
// Draw the ImGUI UI overlay using a render pass
void drawUI(VkCommandBuffer commandBuffer, VkFramebuffer framebuffer);
virtual void prepare();
};

616
base/VulkanSwapChain.cpp 100644
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/*
* Class wrapping access to the swap chain
*
* A swap chain is a collection of framebuffers used for rendering and presentation to the windowing system
*
* Copyright (C) 2016-2021 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include "VulkanSwapChain.h"
/** @brief Creates the platform specific surface abstraction of the native platform window used for presentation */
#if defined(VK_USE_PLATFORM_WIN32_KHR)
void VulkanSwapChain::initSurface(void* platformHandle, void* platformWindow)
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
void VulkanSwapChain::initSurface(ANativeWindow* window)
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
void VulkanSwapChain::initSurface(IDirectFB* dfb, IDirectFBSurface* window)
#elif defined(VK_USE_PLATFORM_WAYLAND_KHR)
void VulkanSwapChain::initSurface(wl_display *display, wl_surface *window)
#elif defined(VK_USE_PLATFORM_XCB_KHR)
void VulkanSwapChain::initSurface(xcb_connection_t* connection, xcb_window_t window)
#elif (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
void VulkanSwapChain::initSurface(void* view)
#elif (defined(_DIRECT2DISPLAY) || defined(VK_USE_PLATFORM_HEADLESS_EXT))
void VulkanSwapChain::initSurface(uint32_t width, uint32_t height)
#endif
{
VkResult err = VK_SUCCESS;
// Create the os-specific surface
#if defined(VK_USE_PLATFORM_WIN32_KHR)
VkWin32SurfaceCreateInfoKHR surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_WIN32_SURFACE_CREATE_INFO_KHR;
surfaceCreateInfo.hinstance = (HINSTANCE)platformHandle;
surfaceCreateInfo.hwnd = (HWND)platformWindow;
err = vkCreateWin32SurfaceKHR(instance, &surfaceCreateInfo, nullptr, &surface);
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
VkAndroidSurfaceCreateInfoKHR surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_ANDROID_SURFACE_CREATE_INFO_KHR;
surfaceCreateInfo.window = window;
err = vkCreateAndroidSurfaceKHR(instance, &surfaceCreateInfo, NULL, &surface);
#elif defined(VK_USE_PLATFORM_IOS_MVK)
VkIOSSurfaceCreateInfoMVK surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_IOS_SURFACE_CREATE_INFO_MVK;
surfaceCreateInfo.pNext = NULL;
surfaceCreateInfo.flags = 0;
surfaceCreateInfo.pView = view;
err = vkCreateIOSSurfaceMVK(instance, &surfaceCreateInfo, nullptr, &surface);
#elif defined(VK_USE_PLATFORM_MACOS_MVK)
VkMacOSSurfaceCreateInfoMVK surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_MACOS_SURFACE_CREATE_INFO_MVK;
surfaceCreateInfo.pNext = NULL;
surfaceCreateInfo.flags = 0;
surfaceCreateInfo.pView = view;
err = vkCreateMacOSSurfaceMVK(instance, &surfaceCreateInfo, NULL, &surface);
#elif defined(_DIRECT2DISPLAY)
createDirect2DisplaySurface(width, height);
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
VkDirectFBSurfaceCreateInfoEXT surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_DIRECTFB_SURFACE_CREATE_INFO_EXT;
surfaceCreateInfo.dfb = dfb;
surfaceCreateInfo.surface = window;
err = vkCreateDirectFBSurfaceEXT(instance, &surfaceCreateInfo, nullptr, &surface);
#elif defined(VK_USE_PLATFORM_WAYLAND_KHR)
VkWaylandSurfaceCreateInfoKHR surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_WAYLAND_SURFACE_CREATE_INFO_KHR;
surfaceCreateInfo.display = display;
surfaceCreateInfo.surface = window;
err = vkCreateWaylandSurfaceKHR(instance, &surfaceCreateInfo, nullptr, &surface);
#elif defined(VK_USE_PLATFORM_XCB_KHR)
VkXcbSurfaceCreateInfoKHR surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_XCB_SURFACE_CREATE_INFO_KHR;
surfaceCreateInfo.connection = connection;
surfaceCreateInfo.window = window;
err = vkCreateXcbSurfaceKHR(instance, &surfaceCreateInfo, nullptr, &surface);
#elif defined(VK_USE_PLATFORM_HEADLESS_EXT)
VkHeadlessSurfaceCreateInfoEXT surfaceCreateInfo = {};
surfaceCreateInfo.sType = VK_STRUCTURE_TYPE_HEADLESS_SURFACE_CREATE_INFO_EXT;
PFN_vkCreateHeadlessSurfaceEXT fpCreateHeadlessSurfaceEXT = (PFN_vkCreateHeadlessSurfaceEXT)vkGetInstanceProcAddr(instance, "vkCreateHeadlessSurfaceEXT");
if (!fpCreateHeadlessSurfaceEXT){
vks::tools::exitFatal("Could not fetch function pointer for the headless extension!", -1);
}
err = fpCreateHeadlessSurfaceEXT(instance, &surfaceCreateInfo, nullptr, &surface);
#endif
if (err != VK_SUCCESS) {
vks::tools::exitFatal("Could not create surface!", err);
}
// Get available queue family properties
uint32_t queueCount;
vkGetPhysicalDeviceQueueFamilyProperties(physicalDevice, &queueCount, NULL);
assert(queueCount >= 1);
std::vector<VkQueueFamilyProperties> queueProps(queueCount);
vkGetPhysicalDeviceQueueFamilyProperties(physicalDevice, &queueCount, queueProps.data());
// Iterate over each queue to learn whether it supports presenting:
// Find a queue with present support
// Will be used to present the swap chain images to the windowing system
std::vector<VkBool32> supportsPresent(queueCount);
for (uint32_t i = 0; i < queueCount; i++)
{
fpGetPhysicalDeviceSurfaceSupportKHR(physicalDevice, i, surface, &supportsPresent[i]);
}
// Search for a graphics and a present queue in the array of queue
// families, try to find one that supports both
uint32_t graphicsQueueNodeIndex = UINT32_MAX;
uint32_t presentQueueNodeIndex = UINT32_MAX;
for (uint32_t i = 0; i < queueCount; i++)
{
if ((queueProps[i].queueFlags & VK_QUEUE_GRAPHICS_BIT) != 0)
{
if (graphicsQueueNodeIndex == UINT32_MAX)
{
graphicsQueueNodeIndex = i;
}
if (supportsPresent[i] == VK_TRUE)
{
graphicsQueueNodeIndex = i;
presentQueueNodeIndex = i;
break;
}
}
}
if (presentQueueNodeIndex == UINT32_MAX)
{
// If there's no queue that supports both present and graphics
// try to find a separate present queue
for (uint32_t i = 0; i < queueCount; ++i)
{
if (supportsPresent[i] == VK_TRUE)
{
presentQueueNodeIndex = i;
break;
}
}
}
// Exit if either a graphics or a presenting queue hasn't been found
if (graphicsQueueNodeIndex == UINT32_MAX || presentQueueNodeIndex == UINT32_MAX)
{
vks::tools::exitFatal("Could not find a graphics and/or presenting queue!", -1);
}
// todo : Add support for separate graphics and presenting queue
if (graphicsQueueNodeIndex != presentQueueNodeIndex)
{
vks::tools::exitFatal("Separate graphics and presenting queues are not supported yet!", -1);
}
queueNodeIndex = graphicsQueueNodeIndex;
// Get list of supported surface formats
uint32_t formatCount;
VK_CHECK_RESULT(fpGetPhysicalDeviceSurfaceFormatsKHR(physicalDevice, surface, &formatCount, NULL));
assert(formatCount > 0);
std::vector<VkSurfaceFormatKHR> surfaceFormats(formatCount);
VK_CHECK_RESULT(fpGetPhysicalDeviceSurfaceFormatsKHR(physicalDevice, surface, &formatCount, surfaceFormats.data()));
// If the surface format list only includes one entry with VK_FORMAT_UNDEFINED,
// there is no preferred format, so we assume VK_FORMAT_B8G8R8A8_UNORM
if ((formatCount == 1) && (surfaceFormats[0].format == VK_FORMAT_UNDEFINED))
{
colorFormat = VK_FORMAT_B8G8R8A8_UNORM;
colorSpace = surfaceFormats[0].colorSpace;
}
else
{
// iterate over the list of available surface format and
// check for the presence of VK_FORMAT_B8G8R8A8_UNORM
bool found_B8G8R8A8_UNORM = false;
for (auto&& surfaceFormat : surfaceFormats)
{
if (surfaceFormat.format == VK_FORMAT_B8G8R8A8_UNORM)
{
colorFormat = surfaceFormat.format;
colorSpace = surfaceFormat.colorSpace;
found_B8G8R8A8_UNORM = true;
break;
}
}
// in case VK_FORMAT_B8G8R8A8_UNORM is not available
// select the first available color format
if (!found_B8G8R8A8_UNORM)
{
colorFormat = surfaceFormats[0].format;
colorSpace = surfaceFormats[0].colorSpace;
}
}
}
/**
* Set instance, physical and logical device to use for the swapchain and get all required function pointers
*
* @param instance Vulkan instance to use
* @param physicalDevice Physical device used to query properties and formats relevant to the swapchain
* @param device Logical representation of the device to create the swapchain for
*
*/
void VulkanSwapChain::connect(VkInstance instance, VkPhysicalDevice physicalDevice, VkDevice device)
{
this->instance = instance;
this->physicalDevice = physicalDevice;
this->device = device;
fpGetPhysicalDeviceSurfaceSupportKHR = reinterpret_cast<PFN_vkGetPhysicalDeviceSurfaceSupportKHR>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceSurfaceSupportKHR"));
fpGetPhysicalDeviceSurfaceCapabilitiesKHR = reinterpret_cast<PFN_vkGetPhysicalDeviceSurfaceCapabilitiesKHR>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceSurfaceCapabilitiesKHR"));
fpGetPhysicalDeviceSurfaceFormatsKHR = reinterpret_cast<PFN_vkGetPhysicalDeviceSurfaceFormatsKHR>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceSurfaceFormatsKHR"));
fpGetPhysicalDeviceSurfacePresentModesKHR = reinterpret_cast<PFN_vkGetPhysicalDeviceSurfacePresentModesKHR>(vkGetInstanceProcAddr(instance, "vkGetPhysicalDeviceSurfacePresentModesKHR"));
fpCreateSwapchainKHR = reinterpret_cast<PFN_vkCreateSwapchainKHR>(vkGetDeviceProcAddr(device, "vkCreateSwapchainKHR"));
fpDestroySwapchainKHR = reinterpret_cast<PFN_vkDestroySwapchainKHR>(vkGetDeviceProcAddr(device, "vkDestroySwapchainKHR"));
fpGetSwapchainImagesKHR = reinterpret_cast<PFN_vkGetSwapchainImagesKHR>(vkGetDeviceProcAddr(device, "vkGetSwapchainImagesKHR"));
fpAcquireNextImageKHR = reinterpret_cast<PFN_vkAcquireNextImageKHR>(vkGetDeviceProcAddr(device, "vkAcquireNextImageKHR"));
fpQueuePresentKHR = reinterpret_cast<PFN_vkQueuePresentKHR>(vkGetDeviceProcAddr(device, "vkQueuePresentKHR"));
}
/**
* Create the swapchain and get its images with given width and height
*
* @param width Pointer to the width of the swapchain (may be adjusted to fit the requirements of the swapchain)
* @param height Pointer to the height of the swapchain (may be adjusted to fit the requirements of the swapchain)
* @param vsync (Optional) Can be used to force vsync-ed rendering (by using VK_PRESENT_MODE_FIFO_KHR as presentation mode)
*/
void VulkanSwapChain::create(uint32_t *width, uint32_t *height, bool vsync, bool fullscreen)
{
// Store the current swap chain handle so we can use it later on to ease up recreation
VkSwapchainKHR oldSwapchain = swapChain;
// Get physical device surface properties and formats
VkSurfaceCapabilitiesKHR surfCaps;
VK_CHECK_RESULT(fpGetPhysicalDeviceSurfaceCapabilitiesKHR(physicalDevice, surface, &surfCaps));
// Get available present modes
uint32_t presentModeCount;
VK_CHECK_RESULT(fpGetPhysicalDeviceSurfacePresentModesKHR(physicalDevice, surface, &presentModeCount, NULL));
assert(presentModeCount > 0);
std::vector<VkPresentModeKHR> presentModes(presentModeCount);
VK_CHECK_RESULT(fpGetPhysicalDeviceSurfacePresentModesKHR(physicalDevice, surface, &presentModeCount, presentModes.data()));
VkExtent2D swapchainExtent = {};
// If width (and height) equals the special value 0xFFFFFFFF, the size of the surface will be set by the swapchain
if (surfCaps.currentExtent.width == (uint32_t)-1)
{
// If the surface size is undefined, the size is set to
// the size of the images requested.
swapchainExtent.width = *width;
swapchainExtent.height = *height;
}
else
{
// If the surface size is defined, the swap chain size must match
swapchainExtent = surfCaps.currentExtent;
*width = surfCaps.currentExtent.width;
*height = surfCaps.currentExtent.height;
}
// Select a present mode for the swapchain
// The VK_PRESENT_MODE_FIFO_KHR mode must always be present as per spec
// This mode waits for the vertical blank ("v-sync")
VkPresentModeKHR swapchainPresentMode = VK_PRESENT_MODE_FIFO_KHR;
// If v-sync is not requested, try to find a mailbox mode
// It's the lowest latency non-tearing present mode available
if (!vsync)
{
for (size_t i = 0; i < presentModeCount; i++)
{
if (presentModes[i] == VK_PRESENT_MODE_MAILBOX_KHR)
{
swapchainPresentMode = VK_PRESENT_MODE_MAILBOX_KHR;
break;
}
if (presentModes[i] == VK_PRESENT_MODE_IMMEDIATE_KHR)
{
swapchainPresentMode = VK_PRESENT_MODE_IMMEDIATE_KHR;
}
}
}
// Determine the number of images
uint32_t desiredNumberOfSwapchainImages = surfCaps.minImageCount + 1;
#if (defined(VK_USE_PLATFORM_MACOS_MVK) && defined(VK_EXAMPLE_XCODE_GENERATED))
// SRS - Work around known MoltenVK issue re 2x frame rate when vsync (VK_PRESENT_MODE_FIFO_KHR) enabled
struct utsname sysInfo;
uname(&sysInfo);
// SRS - When vsync is on, use minImageCount when not in fullscreen or when running on Apple Silcon
// This forces swapchain image acquire frame rate to match display vsync frame rate
if (vsync && (!fullscreen || strcmp(sysInfo.machine, "arm64") == 0))
{
desiredNumberOfSwapchainImages = surfCaps.minImageCount;
}
#endif
if ((surfCaps.maxImageCount > 0) && (desiredNumberOfSwapchainImages > surfCaps.maxImageCount))
{
desiredNumberOfSwapchainImages = surfCaps.maxImageCount;
}
// Find the transformation of the surface
VkSurfaceTransformFlagsKHR preTransform;
if (surfCaps.supportedTransforms & VK_SURFACE_TRANSFORM_IDENTITY_BIT_KHR)
{
// We prefer a non-rotated transform
preTransform = VK_SURFACE_TRANSFORM_IDENTITY_BIT_KHR;
}
else
{
preTransform = surfCaps.currentTransform;
}
// Find a supported composite alpha format (not all devices support alpha opaque)
VkCompositeAlphaFlagBitsKHR compositeAlpha = VK_COMPOSITE_ALPHA_OPAQUE_BIT_KHR;
// Simply select the first composite alpha format available
std::vector<VkCompositeAlphaFlagBitsKHR> compositeAlphaFlags = {
VK_COMPOSITE_ALPHA_OPAQUE_BIT_KHR,
VK_COMPOSITE_ALPHA_PRE_MULTIPLIED_BIT_KHR,
VK_COMPOSITE_ALPHA_POST_MULTIPLIED_BIT_KHR,
VK_COMPOSITE_ALPHA_INHERIT_BIT_KHR,
};
for (auto& compositeAlphaFlag : compositeAlphaFlags) {
if (surfCaps.supportedCompositeAlpha & compositeAlphaFlag) {
compositeAlpha = compositeAlphaFlag;
break;
};
}
VkSwapchainCreateInfoKHR swapchainCI = {};
swapchainCI.sType = VK_STRUCTURE_TYPE_SWAPCHAIN_CREATE_INFO_KHR;
swapchainCI.surface = surface;
swapchainCI.minImageCount = desiredNumberOfSwapchainImages;
swapchainCI.imageFormat = colorFormat;
swapchainCI.imageColorSpace = colorSpace;
swapchainCI.imageExtent = { swapchainExtent.width, swapchainExtent.height };
swapchainCI.imageUsage = VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT;
swapchainCI.preTransform = (VkSurfaceTransformFlagBitsKHR)preTransform;
swapchainCI.imageArrayLayers = 1;
swapchainCI.imageSharingMode = VK_SHARING_MODE_EXCLUSIVE;
swapchainCI.queueFamilyIndexCount = 0;
swapchainCI.presentMode = swapchainPresentMode;
// Setting oldSwapChain to the saved handle of the previous swapchain aids in resource reuse and makes sure that we can still present already acquired images
swapchainCI.oldSwapchain = oldSwapchain;
// Setting clipped to VK_TRUE allows the implementation to discard rendering outside of the surface area
swapchainCI.clipped = VK_TRUE;
swapchainCI.compositeAlpha = compositeAlpha;
// Enable transfer source on swap chain images if supported
if (surfCaps.supportedUsageFlags & VK_IMAGE_USAGE_TRANSFER_SRC_BIT) {
swapchainCI.imageUsage |= VK_IMAGE_USAGE_TRANSFER_SRC_BIT;
}
// Enable transfer destination on swap chain images if supported
if (surfCaps.supportedUsageFlags & VK_IMAGE_USAGE_TRANSFER_DST_BIT) {
swapchainCI.imageUsage |= VK_IMAGE_USAGE_TRANSFER_DST_BIT;
}
VK_CHECK_RESULT(fpCreateSwapchainKHR(device, &swapchainCI, nullptr, &swapChain));
// If an existing swap chain is re-created, destroy the old swap chain
// This also cleans up all the presentable images
if (oldSwapchain != VK_NULL_HANDLE)
{
for (uint32_t i = 0; i < imageCount; i++)
{
vkDestroyImageView(device, buffers[i].view, nullptr);
}
fpDestroySwapchainKHR(device, oldSwapchain, nullptr);
}
VK_CHECK_RESULT(fpGetSwapchainImagesKHR(device, swapChain, &imageCount, NULL));
// Get the swap chain images
images.resize(imageCount);
VK_CHECK_RESULT(fpGetSwapchainImagesKHR(device, swapChain, &imageCount, images.data()));
// Get the swap chain buffers containing the image and imageview
buffers.resize(imageCount);
for (uint32_t i = 0; i < imageCount; i++)
{
VkImageViewCreateInfo colorAttachmentView = {};
colorAttachmentView.sType = VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO;
colorAttachmentView.pNext = NULL;
colorAttachmentView.format = colorFormat;
colorAttachmentView.components = {
VK_COMPONENT_SWIZZLE_R,
VK_COMPONENT_SWIZZLE_G,
VK_COMPONENT_SWIZZLE_B,
VK_COMPONENT_SWIZZLE_A
};
colorAttachmentView.subresourceRange.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
colorAttachmentView.subresourceRange.baseMipLevel = 0;
colorAttachmentView.subresourceRange.levelCount = 1;
colorAttachmentView.subresourceRange.baseArrayLayer = 0;
colorAttachmentView.subresourceRange.layerCount = 1;
colorAttachmentView.viewType = VK_IMAGE_VIEW_TYPE_2D;
colorAttachmentView.flags = 0;
buffers[i].image = images[i];
colorAttachmentView.image = buffers[i].image;
VK_CHECK_RESULT(vkCreateImageView(device, &colorAttachmentView, nullptr, &buffers[i].view));
}
}
/**
* Acquires the next image in the swap chain
*
* @param presentCompleteSemaphore (Optional) Semaphore that is signaled when the image is ready for use
* @param imageIndex Pointer to the image index that will be increased if the next image could be acquired
*
* @note The function will always wait until the next image has been acquired by setting timeout to UINT64_MAX
*
* @return VkResult of the image acquisition
*/
VkResult VulkanSwapChain::acquireNextImage(VkSemaphore presentCompleteSemaphore, uint32_t *imageIndex)
{
// By setting timeout to UINT64_MAX we will always wait until the next image has been acquired or an actual error is thrown
// With that we don't have to handle VK_NOT_READY
return fpAcquireNextImageKHR(device, swapChain, UINT64_MAX, presentCompleteSemaphore, (VkFence)nullptr, imageIndex);
}
/**
* Queue an image for presentation
*
* @param queue Presentation queue for presenting the image
* @param imageIndex Index of the swapchain image to queue for presentation
* @param waitSemaphore (Optional) Semaphore that is waited on before the image is presented (only used if != VK_NULL_HANDLE)
*
* @return VkResult of the queue presentation
*/
VkResult VulkanSwapChain::queuePresent(VkQueue queue, uint32_t imageIndex, VkSemaphore waitSemaphore)
{
VkPresentInfoKHR presentInfo = {};
presentInfo.sType = VK_STRUCTURE_TYPE_PRESENT_INFO_KHR;
presentInfo.pNext = NULL;
presentInfo.swapchainCount = 1;
presentInfo.pSwapchains = &swapChain;
presentInfo.pImageIndices = &imageIndex;
// Check if a wait semaphore has been specified to wait for before presenting the image
if (waitSemaphore != VK_NULL_HANDLE)
{
presentInfo.pWaitSemaphores = &waitSemaphore;
presentInfo.waitSemaphoreCount = 1;
}
return fpQueuePresentKHR(queue, &presentInfo);
}
/**
* Destroy and free Vulkan resources used for the swapchain
*/
void VulkanSwapChain::cleanup()
{
if (swapChain != VK_NULL_HANDLE)
{
for (uint32_t i = 0; i < imageCount; i++)
{
vkDestroyImageView(device, buffers[i].view, nullptr);
}
}
if (surface != VK_NULL_HANDLE)
{
fpDestroySwapchainKHR(device, swapChain, nullptr);
vkDestroySurfaceKHR(instance, surface, nullptr);
}
surface = VK_NULL_HANDLE;
swapChain = VK_NULL_HANDLE;
}
#if defined(_DIRECT2DISPLAY)
/**
* Create direct to display surface
*/
void VulkanSwapChain::createDirect2DisplaySurface(uint32_t width, uint32_t height)
{
uint32_t displayPropertyCount;
// Get display property
vkGetPhysicalDeviceDisplayPropertiesKHR(physicalDevice, &displayPropertyCount, NULL);
VkDisplayPropertiesKHR* pDisplayProperties = new VkDisplayPropertiesKHR[displayPropertyCount];
vkGetPhysicalDeviceDisplayPropertiesKHR(physicalDevice, &displayPropertyCount, pDisplayProperties);
// Get plane property
uint32_t planePropertyCount;
vkGetPhysicalDeviceDisplayPlanePropertiesKHR(physicalDevice, &planePropertyCount, NULL);
VkDisplayPlanePropertiesKHR* pPlaneProperties = new VkDisplayPlanePropertiesKHR[planePropertyCount];
vkGetPhysicalDeviceDisplayPlanePropertiesKHR(physicalDevice, &planePropertyCount, pPlaneProperties);
VkDisplayKHR display = VK_NULL_HANDLE;
VkDisplayModeKHR displayMode;
VkDisplayModePropertiesKHR* pModeProperties;
bool foundMode = false;
for(uint32_t i = 0; i < displayPropertyCount;++i)
{
display = pDisplayProperties[i].display;
uint32_t modeCount;
vkGetDisplayModePropertiesKHR(physicalDevice, display, &modeCount, NULL);
pModeProperties = new VkDisplayModePropertiesKHR[modeCount];
vkGetDisplayModePropertiesKHR(physicalDevice, display, &modeCount, pModeProperties);
for (uint32_t j = 0; j < modeCount; ++j)
{
const VkDisplayModePropertiesKHR* mode = &pModeProperties[j];
if (mode->parameters.visibleRegion.width == width && mode->parameters.visibleRegion.height == height)
{
displayMode = mode->displayMode;
foundMode = true;
break;
}
}
if (foundMode)
{
break;
}
delete [] pModeProperties;
}
if(!foundMode)
{
vks::tools::exitFatal("Can't find a display and a display mode!", -1);
return;
}
// Search for a best plane we can use
uint32_t bestPlaneIndex = UINT32_MAX;
VkDisplayKHR* pDisplays = NULL;
for(uint32_t i = 0; i < planePropertyCount; i++)
{
uint32_t planeIndex=i;
uint32_t displayCount;
vkGetDisplayPlaneSupportedDisplaysKHR(physicalDevice, planeIndex, &displayCount, NULL);
if (pDisplays)
{
delete [] pDisplays;
}
pDisplays = new VkDisplayKHR[displayCount];
vkGetDisplayPlaneSupportedDisplaysKHR(physicalDevice, planeIndex, &displayCount, pDisplays);
// Find a display that matches the current plane
bestPlaneIndex = UINT32_MAX;
for(uint32_t j = 0; j < displayCount; j++)
{
if(display == pDisplays[j])
{
bestPlaneIndex = i;
break;
}
}
if(bestPlaneIndex != UINT32_MAX)
{
break;
}
}
if(bestPlaneIndex == UINT32_MAX)
{
vks::tools::exitFatal("Can't find a plane for displaying!", -1);
return;
}
VkDisplayPlaneCapabilitiesKHR planeCap;
vkGetDisplayPlaneCapabilitiesKHR(physicalDevice, displayMode, bestPlaneIndex, &planeCap);
VkDisplayPlaneAlphaFlagBitsKHR alphaMode = (VkDisplayPlaneAlphaFlagBitsKHR)0;
if (planeCap.supportedAlpha & VK_DISPLAY_PLANE_ALPHA_PER_PIXEL_PREMULTIPLIED_BIT_KHR)
{
alphaMode = VK_DISPLAY_PLANE_ALPHA_PER_PIXEL_PREMULTIPLIED_BIT_KHR;
}
else if (planeCap.supportedAlpha & VK_DISPLAY_PLANE_ALPHA_PER_PIXEL_BIT_KHR)
{
alphaMode = VK_DISPLAY_PLANE_ALPHA_PER_PIXEL_BIT_KHR;
}
else if (planeCap.supportedAlpha & VK_DISPLAY_PLANE_ALPHA_GLOBAL_BIT_KHR)
{
alphaMode = VK_DISPLAY_PLANE_ALPHA_GLOBAL_BIT_KHR;
}
else if (planeCap.supportedAlpha & VK_DISPLAY_PLANE_ALPHA_OPAQUE_BIT_KHR)
{
alphaMode = VK_DISPLAY_PLANE_ALPHA_OPAQUE_BIT_KHR;
}
VkDisplaySurfaceCreateInfoKHR surfaceInfo{};
surfaceInfo.sType = VK_STRUCTURE_TYPE_DISPLAY_SURFACE_CREATE_INFO_KHR;
surfaceInfo.pNext = NULL;
surfaceInfo.flags = 0;
surfaceInfo.displayMode = displayMode;
surfaceInfo.planeIndex = bestPlaneIndex;
surfaceInfo.planeStackIndex = pPlaneProperties[bestPlaneIndex].currentStackIndex;
surfaceInfo.transform = VK_SURFACE_TRANSFORM_IDENTITY_BIT_KHR;
surfaceInfo.globalAlpha = 1.0;
surfaceInfo.alphaMode = alphaMode;
surfaceInfo.imageExtent.width = width;
surfaceInfo.imageExtent.height = height;
VkResult result = vkCreateDisplayPlaneSurfaceKHR(instance, &surfaceInfo, NULL, &surface);
if (result !=VK_SUCCESS) {
vks::tools::exitFatal("Failed to create surface!", result);
}
delete[] pDisplays;
delete[] pModeProperties;
delete[] pDisplayProperties;
delete[] pPlaneProperties;
}
#endif

84
base/VulkanSwapChain.h 100644
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@ -0,0 +1,84 @@
/*
* Class wrapping access to the swap chain
*
* A swap chain is a collection of framebuffers used for rendering and presentation to the windowing system
*
* Copyright (C) 2016-2017 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <stdlib.h>
#include <string>
#include <assert.h>
#include <stdio.h>
#include <vector>
#include <vulkan/vulkan.h>
#include "VulkanTools.h"
#ifdef __ANDROID__
#include "VulkanAndroid.h"
#endif
#ifdef __APPLE__
#include <sys/utsname.h>
#endif
typedef struct _SwapChainBuffers {
VkImage image;
VkImageView view;
} SwapChainBuffer;
class VulkanSwapChain
{
private:
VkInstance instance;
VkDevice device;
VkPhysicalDevice physicalDevice;
VkSurfaceKHR surface;
// Function pointers
PFN_vkGetPhysicalDeviceSurfaceSupportKHR fpGetPhysicalDeviceSurfaceSupportKHR;
PFN_vkGetPhysicalDeviceSurfaceCapabilitiesKHR fpGetPhysicalDeviceSurfaceCapabilitiesKHR;
PFN_vkGetPhysicalDeviceSurfaceFormatsKHR fpGetPhysicalDeviceSurfaceFormatsKHR;
PFN_vkGetPhysicalDeviceSurfacePresentModesKHR fpGetPhysicalDeviceSurfacePresentModesKHR;
PFN_vkCreateSwapchainKHR fpCreateSwapchainKHR;
PFN_vkDestroySwapchainKHR fpDestroySwapchainKHR;
PFN_vkGetSwapchainImagesKHR fpGetSwapchainImagesKHR;
PFN_vkAcquireNextImageKHR fpAcquireNextImageKHR;
PFN_vkQueuePresentKHR fpQueuePresentKHR;
public:
VkFormat colorFormat;
VkColorSpaceKHR colorSpace;
VkSwapchainKHR swapChain = VK_NULL_HANDLE;
uint32_t imageCount;
std::vector<VkImage> images;
std::vector<SwapChainBuffer> buffers;
uint32_t queueNodeIndex = UINT32_MAX;
#if defined(VK_USE_PLATFORM_WIN32_KHR)
void initSurface(void* platformHandle, void* platformWindow);
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
void initSurface(ANativeWindow* window);
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
void initSurface(IDirectFB* dfb, IDirectFBSurface* window);
#elif defined(VK_USE_PLATFORM_WAYLAND_KHR)
void initSurface(wl_display* display, wl_surface* window);
#elif defined(VK_USE_PLATFORM_XCB_KHR)
void initSurface(xcb_connection_t* connection, xcb_window_t window);
#elif (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
void initSurface(void* view);
#elif (defined(_DIRECT2DISPLAY) || defined(VK_USE_PLATFORM_HEADLESS_EXT))
void initSurface(uint32_t width, uint32_t height);
#if defined(_DIRECT2DISPLAY)
void createDirect2DisplaySurface(uint32_t width, uint32_t height);
#endif
#endif
void connect(VkInstance instance, VkPhysicalDevice physicalDevice, VkDevice device);
void create(uint32_t* width, uint32_t* height, bool vsync = false, bool fullscreen = false);
VkResult acquireNextImage(VkSemaphore presentCompleteSemaphore, uint32_t* imageIndex);
VkResult queuePresent(VkQueue queue, uint32_t imageIndex, VkSemaphore waitSemaphore = VK_NULL_HANDLE);
void cleanup();
};

869
base/VulkanTexture.cpp 100644
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@ -0,0 +1,869 @@
/*
* Vulkan texture loader
*
* Copyright(C) by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license(MIT) (http://opensource.org/licenses/MIT)
*/
#include <VulkanTexture.h>
namespace vks
{
void Texture::updateDescriptor()
{
descriptor.sampler = sampler;
descriptor.imageView = view;
descriptor.imageLayout = imageLayout;
}
void Texture::destroy()
{
vkDestroyImageView(device->logicalDevice, view, nullptr);
vkDestroyImage(device->logicalDevice, image, nullptr);
if (sampler)
{
vkDestroySampler(device->logicalDevice, sampler, nullptr);
}
vkFreeMemory(device->logicalDevice, deviceMemory, nullptr);
}
ktxResult Texture::loadKTXFile(std::string filename, ktxTexture **target)
{
ktxResult result = KTX_SUCCESS;
#if defined(__ANDROID__)
AAsset* asset = AAssetManager_open(androidApp->activity->assetManager, filename.c_str(), AASSET_MODE_STREAMING);
if (!asset) {
vks::tools::exitFatal("Could not load texture from " + filename + "\n\nThe file may be part of the additional asset pack.\n\nRun \"download_assets.py\" in the repository root to download the latest version.", -1);
}
size_t size = AAsset_getLength(asset);
assert(size > 0);
ktx_uint8_t *textureData = new ktx_uint8_t[size];
AAsset_read(asset, textureData, size);
AAsset_close(asset);
result = ktxTexture_CreateFromMemory(textureData, size, KTX_TEXTURE_CREATE_LOAD_IMAGE_DATA_BIT, target);
delete[] textureData;
#else
if (!vks::tools::fileExists(filename)) {
vks::tools::exitFatal("Could not load texture from " + filename + "\n\nThe file may be part of the additional asset pack.\n\nRun \"download_assets.py\" in the repository root to download the latest version.", -1);
}
result = ktxTexture_CreateFromNamedFile(filename.c_str(), KTX_TEXTURE_CREATE_LOAD_IMAGE_DATA_BIT, target);
#endif
return result;
}
/**
* Load a 2D texture including all mip levels
*
* @param filename File to load (supports .ktx)
* @param format Vulkan format of the image data stored in the file
* @param device Vulkan device to create the texture on
* @param copyQueue Queue used for the texture staging copy commands (must support transfer)
* @param (Optional) imageUsageFlags Usage flags for the texture's image (defaults to VK_IMAGE_USAGE_SAMPLED_BIT)
* @param (Optional) imageLayout Usage layout for the texture (defaults VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL)
* @param (Optional) forceLinear Force linear tiling (not advised, defaults to false)
*
*/
void Texture2D::loadFromFile(std::string filename, VkFormat format, vks::VulkanDevice *device, VkQueue copyQueue, VkImageUsageFlags imageUsageFlags, VkImageLayout imageLayout, bool forceLinear)
{
ktxTexture* ktxTexture;
ktxResult result = loadKTXFile(filename, &ktxTexture);
assert(result == KTX_SUCCESS);
this->device = device;
width = ktxTexture->baseWidth;
height = ktxTexture->baseHeight;
mipLevels = ktxTexture->numLevels;
ktx_uint8_t *ktxTextureData = ktxTexture_GetData(ktxTexture);
ktx_size_t ktxTextureSize = ktxTexture_GetSize(ktxTexture);
// Get device properties for the requested texture format
VkFormatProperties formatProperties;
vkGetPhysicalDeviceFormatProperties(device->physicalDevice, format, &formatProperties);
// Only use linear tiling if requested (and supported by the device)
// Support for linear tiling is mostly limited, so prefer to use
// optimal tiling instead
// On most implementations linear tiling will only support a very
// limited amount of formats and features (mip maps, cubemaps, arrays, etc.)
VkBool32 useStaging = !forceLinear;
VkMemoryAllocateInfo memAllocInfo = vks::initializers::memoryAllocateInfo();
VkMemoryRequirements memReqs;
// Use a separate command buffer for texture loading
VkCommandBuffer copyCmd = device->createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
if (useStaging)
{
// Create a host-visible staging buffer that contains the raw image data
VkBuffer stagingBuffer;
VkDeviceMemory stagingMemory;
VkBufferCreateInfo bufferCreateInfo = vks::initializers::bufferCreateInfo();
bufferCreateInfo.size = ktxTextureSize;
// This buffer is used as a transfer source for the buffer copy
bufferCreateInfo.usage = VK_BUFFER_USAGE_TRANSFER_SRC_BIT;
bufferCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
VK_CHECK_RESULT(vkCreateBuffer(device->logicalDevice, &bufferCreateInfo, nullptr, &stagingBuffer));
// Get memory requirements for the staging buffer (alignment, memory type bits)
vkGetBufferMemoryRequirements(device->logicalDevice, stagingBuffer, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
// Get memory type index for a host visible buffer
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &stagingMemory));
VK_CHECK_RESULT(vkBindBufferMemory(device->logicalDevice, stagingBuffer, stagingMemory, 0));
// Copy texture data into staging buffer
uint8_t *data;
VK_CHECK_RESULT(vkMapMemory(device->logicalDevice, stagingMemory, 0, memReqs.size, 0, (void **)&data));
memcpy(data, ktxTextureData, ktxTextureSize);
vkUnmapMemory(device->logicalDevice, stagingMemory);
// Setup buffer copy regions for each mip level
std::vector<VkBufferImageCopy> bufferCopyRegions;
for (uint32_t i = 0; i < mipLevels; i++)
{
ktx_size_t offset;
KTX_error_code result = ktxTexture_GetImageOffset(ktxTexture, i, 0, 0, &offset);
assert(result == KTX_SUCCESS);
VkBufferImageCopy bufferCopyRegion = {};
bufferCopyRegion.imageSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
bufferCopyRegion.imageSubresource.mipLevel = i;
bufferCopyRegion.imageSubresource.baseArrayLayer = 0;
bufferCopyRegion.imageSubresource.layerCount = 1;
bufferCopyRegion.imageExtent.width = std::max(1u, ktxTexture->baseWidth >> i);
bufferCopyRegion.imageExtent.height = std::max(1u, ktxTexture->baseHeight >> i);
bufferCopyRegion.imageExtent.depth = 1;
bufferCopyRegion.bufferOffset = offset;
bufferCopyRegions.push_back(bufferCopyRegion);
}
// Create optimal tiled target image
VkImageCreateInfo imageCreateInfo = vks::initializers::imageCreateInfo();
imageCreateInfo.imageType = VK_IMAGE_TYPE_2D;
imageCreateInfo.format = format;
imageCreateInfo.mipLevels = mipLevels;
imageCreateInfo.arrayLayers = 1;
imageCreateInfo.samples = VK_SAMPLE_COUNT_1_BIT;
imageCreateInfo.tiling = VK_IMAGE_TILING_OPTIMAL;
imageCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
imageCreateInfo.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
imageCreateInfo.extent = { width, height, 1 };
imageCreateInfo.usage = imageUsageFlags;
// Ensure that the TRANSFER_DST bit is set for staging
if (!(imageCreateInfo.usage & VK_IMAGE_USAGE_TRANSFER_DST_BIT))
{
imageCreateInfo.usage |= VK_IMAGE_USAGE_TRANSFER_DST_BIT;
}
VK_CHECK_RESULT(vkCreateImage(device->logicalDevice, &imageCreateInfo, nullptr, &image));
vkGetImageMemoryRequirements(device->logicalDevice, image, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &deviceMemory));
VK_CHECK_RESULT(vkBindImageMemory(device->logicalDevice, image, deviceMemory, 0));
VkImageSubresourceRange subresourceRange = {};
subresourceRange.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
subresourceRange.baseMipLevel = 0;
subresourceRange.levelCount = mipLevels;
subresourceRange.layerCount = 1;
// Image barrier for optimal image (target)
// Optimal image will be used as destination for the copy
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_UNDEFINED,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
subresourceRange);
// Copy mip levels from staging buffer
vkCmdCopyBufferToImage(
copyCmd,
stagingBuffer,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
static_cast<uint32_t>(bufferCopyRegions.size()),
bufferCopyRegions.data()
);
// Change texture image layout to shader read after all mip levels have been copied
this->imageLayout = imageLayout;
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
imageLayout,
subresourceRange);
device->flushCommandBuffer(copyCmd, copyQueue);
// Clean up staging resources
vkFreeMemory(device->logicalDevice, stagingMemory, nullptr);
vkDestroyBuffer(device->logicalDevice, stagingBuffer, nullptr);
}
else
{
// Prefer using optimal tiling, as linear tiling
// may support only a small set of features
// depending on implementation (e.g. no mip maps, only one layer, etc.)
// Check if this support is supported for linear tiling
assert(formatProperties.linearTilingFeatures & VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT);
VkImage mappableImage;
VkDeviceMemory mappableMemory;
VkImageCreateInfo imageCreateInfo = vks::initializers::imageCreateInfo();
imageCreateInfo.imageType = VK_IMAGE_TYPE_2D;
imageCreateInfo.format = format;
imageCreateInfo.extent = { width, height, 1 };
imageCreateInfo.mipLevels = 1;
imageCreateInfo.arrayLayers = 1;
imageCreateInfo.samples = VK_SAMPLE_COUNT_1_BIT;
imageCreateInfo.tiling = VK_IMAGE_TILING_LINEAR;
imageCreateInfo.usage = imageUsageFlags;
imageCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
imageCreateInfo.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
// Load mip map level 0 to linear tiling image
VK_CHECK_RESULT(vkCreateImage(device->logicalDevice, &imageCreateInfo, nullptr, &mappableImage));
// Get memory requirements for this image
// like size and alignment
vkGetImageMemoryRequirements(device->logicalDevice, mappableImage, &memReqs);
// Set memory allocation size to required memory size
memAllocInfo.allocationSize = memReqs.size;
// Get memory type that can be mapped to host memory
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT);
// Allocate host memory
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &mappableMemory));
// Bind allocated image for use
VK_CHECK_RESULT(vkBindImageMemory(device->logicalDevice, mappableImage, mappableMemory, 0));
// Get sub resource layout
// Mip map count, array layer, etc.
VkImageSubresource subRes = {};
subRes.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
subRes.mipLevel = 0;
VkSubresourceLayout subResLayout;
void *data;
// Get sub resources layout
// Includes row pitch, size offsets, etc.
vkGetImageSubresourceLayout(device->logicalDevice, mappableImage, &subRes, &subResLayout);
// Map image memory
VK_CHECK_RESULT(vkMapMemory(device->logicalDevice, mappableMemory, 0, memReqs.size, 0, &data));
// Copy image data into memory
memcpy(data, ktxTextureData, memReqs.size);
vkUnmapMemory(device->logicalDevice, mappableMemory);
// Linear tiled images don't need to be staged
// and can be directly used as textures
image = mappableImage;
deviceMemory = mappableMemory;
this->imageLayout = imageLayout;
// Setup image memory barrier
vks::tools::setImageLayout(copyCmd, image, VK_IMAGE_ASPECT_COLOR_BIT, VK_IMAGE_LAYOUT_UNDEFINED, imageLayout);
device->flushCommandBuffer(copyCmd, copyQueue);
}
ktxTexture_Destroy(ktxTexture);
// Create a default sampler
VkSamplerCreateInfo samplerCreateInfo = {};
samplerCreateInfo.sType = VK_STRUCTURE_TYPE_SAMPLER_CREATE_INFO;
samplerCreateInfo.magFilter = VK_FILTER_LINEAR;
samplerCreateInfo.minFilter = VK_FILTER_LINEAR;
samplerCreateInfo.mipmapMode = VK_SAMPLER_MIPMAP_MODE_LINEAR;
samplerCreateInfo.addressModeU = VK_SAMPLER_ADDRESS_MODE_REPEAT;
samplerCreateInfo.addressModeV = VK_SAMPLER_ADDRESS_MODE_REPEAT;
samplerCreateInfo.addressModeW = VK_SAMPLER_ADDRESS_MODE_REPEAT;
samplerCreateInfo.mipLodBias = 0.0f;
samplerCreateInfo.compareOp = VK_COMPARE_OP_NEVER;
samplerCreateInfo.minLod = 0.0f;
// Max level-of-detail should match mip level count
samplerCreateInfo.maxLod = (useStaging) ? (float)mipLevels : 0.0f;
// Only enable anisotropic filtering if enabled on the device
samplerCreateInfo.maxAnisotropy = device->enabledFeatures.samplerAnisotropy ? device->properties.limits.maxSamplerAnisotropy : 1.0f;
samplerCreateInfo.anisotropyEnable = device->enabledFeatures.samplerAnisotropy;
samplerCreateInfo.borderColor = VK_BORDER_COLOR_FLOAT_OPAQUE_WHITE;
VK_CHECK_RESULT(vkCreateSampler(device->logicalDevice, &samplerCreateInfo, nullptr, &sampler));
// Create image view
// Textures are not directly accessed by the shaders and
// are abstracted by image views containing additional
// information and sub resource ranges
VkImageViewCreateInfo viewCreateInfo = {};
viewCreateInfo.sType = VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO;
viewCreateInfo.viewType = VK_IMAGE_VIEW_TYPE_2D;
viewCreateInfo.format = format;
viewCreateInfo.subresourceRange = { VK_IMAGE_ASPECT_COLOR_BIT, 0, 1, 0, 1 };
// Linear tiling usually won't support mip maps
// Only set mip map count if optimal tiling is used
viewCreateInfo.subresourceRange.levelCount = (useStaging) ? mipLevels : 1;
viewCreateInfo.image = image;
VK_CHECK_RESULT(vkCreateImageView(device->logicalDevice, &viewCreateInfo, nullptr, &view));
// Update descriptor image info member that can be used for setting up descriptor sets
updateDescriptor();
}
/**
* Creates a 2D texture from a buffer
*
* @param buffer Buffer containing texture data to upload
* @param bufferSize Size of the buffer in machine units
* @param width Width of the texture to create
* @param height Height of the texture to create
* @param format Vulkan format of the image data stored in the file
* @param device Vulkan device to create the texture on
* @param copyQueue Queue used for the texture staging copy commands (must support transfer)
* @param (Optional) filter Texture filtering for the sampler (defaults to VK_FILTER_LINEAR)
* @param (Optional) imageUsageFlags Usage flags for the texture's image (defaults to VK_IMAGE_USAGE_SAMPLED_BIT)
* @param (Optional) imageLayout Usage layout for the texture (defaults VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL)
*/
void Texture2D::fromBuffer(void* buffer, VkDeviceSize bufferSize, VkFormat format, uint32_t texWidth, uint32_t texHeight, vks::VulkanDevice *device, VkQueue copyQueue, VkFilter filter, VkImageUsageFlags imageUsageFlags, VkImageLayout imageLayout)
{
assert(buffer);
this->device = device;
width = texWidth;
height = texHeight;
mipLevels = 1;
VkMemoryAllocateInfo memAllocInfo = vks::initializers::memoryAllocateInfo();
VkMemoryRequirements memReqs;
// Use a separate command buffer for texture loading
VkCommandBuffer copyCmd = device->createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
// Create a host-visible staging buffer that contains the raw image data
VkBuffer stagingBuffer;
VkDeviceMemory stagingMemory;
VkBufferCreateInfo bufferCreateInfo = vks::initializers::bufferCreateInfo();
bufferCreateInfo.size = bufferSize;
// This buffer is used as a transfer source for the buffer copy
bufferCreateInfo.usage = VK_BUFFER_USAGE_TRANSFER_SRC_BIT;
bufferCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
VK_CHECK_RESULT(vkCreateBuffer(device->logicalDevice, &bufferCreateInfo, nullptr, &stagingBuffer));
// Get memory requirements for the staging buffer (alignment, memory type bits)
vkGetBufferMemoryRequirements(device->logicalDevice, stagingBuffer, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
// Get memory type index for a host visible buffer
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &stagingMemory));
VK_CHECK_RESULT(vkBindBufferMemory(device->logicalDevice, stagingBuffer, stagingMemory, 0));
// Copy texture data into staging buffer
uint8_t *data;
VK_CHECK_RESULT(vkMapMemory(device->logicalDevice, stagingMemory, 0, memReqs.size, 0, (void **)&data));
memcpy(data, buffer, bufferSize);
vkUnmapMemory(device->logicalDevice, stagingMemory);
VkBufferImageCopy bufferCopyRegion = {};
bufferCopyRegion.imageSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
bufferCopyRegion.imageSubresource.mipLevel = 0;
bufferCopyRegion.imageSubresource.baseArrayLayer = 0;
bufferCopyRegion.imageSubresource.layerCount = 1;
bufferCopyRegion.imageExtent.width = width;
bufferCopyRegion.imageExtent.height = height;
bufferCopyRegion.imageExtent.depth = 1;
bufferCopyRegion.bufferOffset = 0;
// Create optimal tiled target image
VkImageCreateInfo imageCreateInfo = vks::initializers::imageCreateInfo();
imageCreateInfo.imageType = VK_IMAGE_TYPE_2D;
imageCreateInfo.format = format;
imageCreateInfo.mipLevels = mipLevels;
imageCreateInfo.arrayLayers = 1;
imageCreateInfo.samples = VK_SAMPLE_COUNT_1_BIT;
imageCreateInfo.tiling = VK_IMAGE_TILING_OPTIMAL;
imageCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
imageCreateInfo.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
imageCreateInfo.extent = { width, height, 1 };
imageCreateInfo.usage = imageUsageFlags;
// Ensure that the TRANSFER_DST bit is set for staging
if (!(imageCreateInfo.usage & VK_IMAGE_USAGE_TRANSFER_DST_BIT))
{
imageCreateInfo.usage |= VK_IMAGE_USAGE_TRANSFER_DST_BIT;
}
VK_CHECK_RESULT(vkCreateImage(device->logicalDevice, &imageCreateInfo, nullptr, &image));
vkGetImageMemoryRequirements(device->logicalDevice, image, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &deviceMemory));
VK_CHECK_RESULT(vkBindImageMemory(device->logicalDevice, image, deviceMemory, 0));
VkImageSubresourceRange subresourceRange = {};
subresourceRange.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
subresourceRange.baseMipLevel = 0;
subresourceRange.levelCount = mipLevels;
subresourceRange.layerCount = 1;
// Image barrier for optimal image (target)
// Optimal image will be used as destination for the copy
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_UNDEFINED,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
subresourceRange);
// Copy mip levels from staging buffer
vkCmdCopyBufferToImage(
copyCmd,
stagingBuffer,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
1,
&bufferCopyRegion
);
// Change texture image layout to shader read after all mip levels have been copied
this->imageLayout = imageLayout;
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
imageLayout,
subresourceRange);
device->flushCommandBuffer(copyCmd, copyQueue);
// Clean up staging resources
vkFreeMemory(device->logicalDevice, stagingMemory, nullptr);
vkDestroyBuffer(device->logicalDevice, stagingBuffer, nullptr);
// Create sampler
VkSamplerCreateInfo samplerCreateInfo = {};
samplerCreateInfo.sType = VK_STRUCTURE_TYPE_SAMPLER_CREATE_INFO;
samplerCreateInfo.magFilter = filter;
samplerCreateInfo.minFilter = filter;
samplerCreateInfo.mipmapMode = VK_SAMPLER_MIPMAP_MODE_LINEAR;
samplerCreateInfo.addressModeU = VK_SAMPLER_ADDRESS_MODE_REPEAT;
samplerCreateInfo.addressModeV = VK_SAMPLER_ADDRESS_MODE_REPEAT;
samplerCreateInfo.addressModeW = VK_SAMPLER_ADDRESS_MODE_REPEAT;
samplerCreateInfo.mipLodBias = 0.0f;
samplerCreateInfo.compareOp = VK_COMPARE_OP_NEVER;
samplerCreateInfo.minLod = 0.0f;
samplerCreateInfo.maxLod = 0.0f;
samplerCreateInfo.maxAnisotropy = 1.0f;
VK_CHECK_RESULT(vkCreateSampler(device->logicalDevice, &samplerCreateInfo, nullptr, &sampler));
// Create image view
VkImageViewCreateInfo viewCreateInfo = {};
viewCreateInfo.sType = VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO;
viewCreateInfo.pNext = NULL;
viewCreateInfo.viewType = VK_IMAGE_VIEW_TYPE_2D;
viewCreateInfo.format = format;
viewCreateInfo.subresourceRange = { VK_IMAGE_ASPECT_COLOR_BIT, 0, 1, 0, 1 };
viewCreateInfo.subresourceRange.levelCount = 1;
viewCreateInfo.image = image;
VK_CHECK_RESULT(vkCreateImageView(device->logicalDevice, &viewCreateInfo, nullptr, &view));
// Update descriptor image info member that can be used for setting up descriptor sets
updateDescriptor();
}
/**
* Load a 2D texture array including all mip levels
*
* @param filename File to load (supports .ktx)
* @param format Vulkan format of the image data stored in the file
* @param device Vulkan device to create the texture on
* @param copyQueue Queue used for the texture staging copy commands (must support transfer)
* @param (Optional) imageUsageFlags Usage flags for the texture's image (defaults to VK_IMAGE_USAGE_SAMPLED_BIT)
* @param (Optional) imageLayout Usage layout for the texture (defaults VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL)
*
*/
void Texture2DArray::loadFromFile(std::string filename, VkFormat format, vks::VulkanDevice *device, VkQueue copyQueue, VkImageUsageFlags imageUsageFlags, VkImageLayout imageLayout)
{
ktxTexture* ktxTexture;
ktxResult result = loadKTXFile(filename, &ktxTexture);
assert(result == KTX_SUCCESS);
this->device = device;
width = ktxTexture->baseWidth;
height = ktxTexture->baseHeight;
layerCount = ktxTexture->numLayers;
mipLevels = ktxTexture->numLevels;
ktx_uint8_t *ktxTextureData = ktxTexture_GetData(ktxTexture);
ktx_size_t ktxTextureSize = ktxTexture_GetSize(ktxTexture);
VkMemoryAllocateInfo memAllocInfo = vks::initializers::memoryAllocateInfo();
VkMemoryRequirements memReqs;
// Create a host-visible staging buffer that contains the raw image data
VkBuffer stagingBuffer;
VkDeviceMemory stagingMemory;
VkBufferCreateInfo bufferCreateInfo = vks::initializers::bufferCreateInfo();
bufferCreateInfo.size = ktxTextureSize;
// This buffer is used as a transfer source for the buffer copy
bufferCreateInfo.usage = VK_BUFFER_USAGE_TRANSFER_SRC_BIT;
bufferCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
VK_CHECK_RESULT(vkCreateBuffer(device->logicalDevice, &bufferCreateInfo, nullptr, &stagingBuffer));
// Get memory requirements for the staging buffer (alignment, memory type bits)
vkGetBufferMemoryRequirements(device->logicalDevice, stagingBuffer, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
// Get memory type index for a host visible buffer
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &stagingMemory));
VK_CHECK_RESULT(vkBindBufferMemory(device->logicalDevice, stagingBuffer, stagingMemory, 0));
// Copy texture data into staging buffer
uint8_t *data;
VK_CHECK_RESULT(vkMapMemory(device->logicalDevice, stagingMemory, 0, memReqs.size, 0, (void **)&data));
memcpy(data, ktxTextureData, ktxTextureSize);
vkUnmapMemory(device->logicalDevice, stagingMemory);
// Setup buffer copy regions for each layer including all of its miplevels
std::vector<VkBufferImageCopy> bufferCopyRegions;
for (uint32_t layer = 0; layer < layerCount; layer++)
{
for (uint32_t level = 0; level < mipLevels; level++)
{
ktx_size_t offset;
KTX_error_code result = ktxTexture_GetImageOffset(ktxTexture, level, layer, 0, &offset);
assert(result == KTX_SUCCESS);
VkBufferImageCopy bufferCopyRegion = {};
bufferCopyRegion.imageSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
bufferCopyRegion.imageSubresource.mipLevel = level;
bufferCopyRegion.imageSubresource.baseArrayLayer = layer;
bufferCopyRegion.imageSubresource.layerCount = 1;
bufferCopyRegion.imageExtent.width = ktxTexture->baseWidth >> level;
bufferCopyRegion.imageExtent.height = ktxTexture->baseHeight >> level;
bufferCopyRegion.imageExtent.depth = 1;
bufferCopyRegion.bufferOffset = offset;
bufferCopyRegions.push_back(bufferCopyRegion);
}
}
// Create optimal tiled target image
VkImageCreateInfo imageCreateInfo = vks::initializers::imageCreateInfo();
imageCreateInfo.imageType = VK_IMAGE_TYPE_2D;
imageCreateInfo.format = format;
imageCreateInfo.samples = VK_SAMPLE_COUNT_1_BIT;
imageCreateInfo.tiling = VK_IMAGE_TILING_OPTIMAL;
imageCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
imageCreateInfo.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
imageCreateInfo.extent = { width, height, 1 };
imageCreateInfo.usage = imageUsageFlags;
// Ensure that the TRANSFER_DST bit is set for staging
if (!(imageCreateInfo.usage & VK_IMAGE_USAGE_TRANSFER_DST_BIT))
{
imageCreateInfo.usage |= VK_IMAGE_USAGE_TRANSFER_DST_BIT;
}
imageCreateInfo.arrayLayers = layerCount;
imageCreateInfo.mipLevels = mipLevels;
VK_CHECK_RESULT(vkCreateImage(device->logicalDevice, &imageCreateInfo, nullptr, &image));
vkGetImageMemoryRequirements(device->logicalDevice, image, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &deviceMemory));
VK_CHECK_RESULT(vkBindImageMemory(device->logicalDevice, image, deviceMemory, 0));
// Use a separate command buffer for texture loading
VkCommandBuffer copyCmd = device->createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
// Image barrier for optimal image (target)
// Set initial layout for all array layers (faces) of the optimal (target) tiled texture
VkImageSubresourceRange subresourceRange = {};
subresourceRange.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
subresourceRange.baseMipLevel = 0;
subresourceRange.levelCount = mipLevels;
subresourceRange.layerCount = layerCount;
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_UNDEFINED,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
subresourceRange);
// Copy the layers and mip levels from the staging buffer to the optimal tiled image
vkCmdCopyBufferToImage(
copyCmd,
stagingBuffer,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
static_cast<uint32_t>(bufferCopyRegions.size()),
bufferCopyRegions.data());
// Change texture image layout to shader read after all faces have been copied
this->imageLayout = imageLayout;
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
imageLayout,
subresourceRange);
device->flushCommandBuffer(copyCmd, copyQueue);
// Create sampler
VkSamplerCreateInfo samplerCreateInfo = vks::initializers::samplerCreateInfo();
samplerCreateInfo.magFilter = VK_FILTER_LINEAR;
samplerCreateInfo.minFilter = VK_FILTER_LINEAR;
samplerCreateInfo.mipmapMode = VK_SAMPLER_MIPMAP_MODE_LINEAR;
samplerCreateInfo.addressModeU = VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE;
samplerCreateInfo.addressModeV = samplerCreateInfo.addressModeU;
samplerCreateInfo.addressModeW = samplerCreateInfo.addressModeU;
samplerCreateInfo.mipLodBias = 0.0f;
samplerCreateInfo.maxAnisotropy = device->enabledFeatures.samplerAnisotropy ? device->properties.limits.maxSamplerAnisotropy : 1.0f;
samplerCreateInfo.anisotropyEnable = device->enabledFeatures.samplerAnisotropy;
samplerCreateInfo.compareOp = VK_COMPARE_OP_NEVER;
samplerCreateInfo.minLod = 0.0f;
samplerCreateInfo.maxLod = (float)mipLevels;
samplerCreateInfo.borderColor = VK_BORDER_COLOR_FLOAT_OPAQUE_WHITE;
VK_CHECK_RESULT(vkCreateSampler(device->logicalDevice, &samplerCreateInfo, nullptr, &sampler));
// Create image view
VkImageViewCreateInfo viewCreateInfo = vks::initializers::imageViewCreateInfo();
viewCreateInfo.viewType = VK_IMAGE_VIEW_TYPE_2D_ARRAY;
viewCreateInfo.format = format;
viewCreateInfo.subresourceRange = { VK_IMAGE_ASPECT_COLOR_BIT, 0, 1, 0, 1 };
viewCreateInfo.subresourceRange.layerCount = layerCount;
viewCreateInfo.subresourceRange.levelCount = mipLevels;
viewCreateInfo.image = image;
VK_CHECK_RESULT(vkCreateImageView(device->logicalDevice, &viewCreateInfo, nullptr, &view));
// Clean up staging resources
ktxTexture_Destroy(ktxTexture);
vkFreeMemory(device->logicalDevice, stagingMemory, nullptr);
vkDestroyBuffer(device->logicalDevice, stagingBuffer, nullptr);
// Update descriptor image info member that can be used for setting up descriptor sets
updateDescriptor();
}
/**
* Load a cubemap texture including all mip levels from a single file
*
* @param filename File to load (supports .ktx)
* @param format Vulkan format of the image data stored in the file
* @param device Vulkan device to create the texture on
* @param copyQueue Queue used for the texture staging copy commands (must support transfer)
* @param (Optional) imageUsageFlags Usage flags for the texture's image (defaults to VK_IMAGE_USAGE_SAMPLED_BIT)
* @param (Optional) imageLayout Usage layout for the texture (defaults VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL)
*
*/
void TextureCubeMap::loadFromFile(std::string filename, VkFormat format, vks::VulkanDevice *device, VkQueue copyQueue, VkImageUsageFlags imageUsageFlags, VkImageLayout imageLayout)
{
ktxTexture* ktxTexture;
ktxResult result = loadKTXFile(filename, &ktxTexture);
assert(result == KTX_SUCCESS);
this->device = device;
width = ktxTexture->baseWidth;
height = ktxTexture->baseHeight;
mipLevels = ktxTexture->numLevels;
ktx_uint8_t *ktxTextureData = ktxTexture_GetData(ktxTexture);
ktx_size_t ktxTextureSize = ktxTexture_GetSize(ktxTexture);
VkMemoryAllocateInfo memAllocInfo = vks::initializers::memoryAllocateInfo();
VkMemoryRequirements memReqs;
// Create a host-visible staging buffer that contains the raw image data
VkBuffer stagingBuffer;
VkDeviceMemory stagingMemory;
VkBufferCreateInfo bufferCreateInfo = vks::initializers::bufferCreateInfo();
bufferCreateInfo.size = ktxTextureSize;
// This buffer is used as a transfer source for the buffer copy
bufferCreateInfo.usage = VK_BUFFER_USAGE_TRANSFER_SRC_BIT;
bufferCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
VK_CHECK_RESULT(vkCreateBuffer(device->logicalDevice, &bufferCreateInfo, nullptr, &stagingBuffer));
// Get memory requirements for the staging buffer (alignment, memory type bits)
vkGetBufferMemoryRequirements(device->logicalDevice, stagingBuffer, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
// Get memory type index for a host visible buffer
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &stagingMemory));
VK_CHECK_RESULT(vkBindBufferMemory(device->logicalDevice, stagingBuffer, stagingMemory, 0));
// Copy texture data into staging buffer
uint8_t *data;
VK_CHECK_RESULT(vkMapMemory(device->logicalDevice, stagingMemory, 0, memReqs.size, 0, (void **)&data));
memcpy(data, ktxTextureData, ktxTextureSize);
vkUnmapMemory(device->logicalDevice, stagingMemory);
// Setup buffer copy regions for each face including all of its mip levels
std::vector<VkBufferImageCopy> bufferCopyRegions;
for (uint32_t face = 0; face < 6; face++)
{
for (uint32_t level = 0; level < mipLevels; level++)
{
ktx_size_t offset;
KTX_error_code result = ktxTexture_GetImageOffset(ktxTexture, level, 0, face, &offset);
assert(result == KTX_SUCCESS);
VkBufferImageCopy bufferCopyRegion = {};
bufferCopyRegion.imageSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
bufferCopyRegion.imageSubresource.mipLevel = level;
bufferCopyRegion.imageSubresource.baseArrayLayer = face;
bufferCopyRegion.imageSubresource.layerCount = 1;
bufferCopyRegion.imageExtent.width = ktxTexture->baseWidth >> level;
bufferCopyRegion.imageExtent.height = ktxTexture->baseHeight >> level;
bufferCopyRegion.imageExtent.depth = 1;
bufferCopyRegion.bufferOffset = offset;
bufferCopyRegions.push_back(bufferCopyRegion);
}
}
// Create optimal tiled target image
VkImageCreateInfo imageCreateInfo = vks::initializers::imageCreateInfo();
imageCreateInfo.imageType = VK_IMAGE_TYPE_2D;
imageCreateInfo.format = format;
imageCreateInfo.mipLevels = mipLevels;
imageCreateInfo.samples = VK_SAMPLE_COUNT_1_BIT;
imageCreateInfo.tiling = VK_IMAGE_TILING_OPTIMAL;
imageCreateInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
imageCreateInfo.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
imageCreateInfo.extent = { width, height, 1 };
imageCreateInfo.usage = imageUsageFlags;
// Ensure that the TRANSFER_DST bit is set for staging
if (!(imageCreateInfo.usage & VK_IMAGE_USAGE_TRANSFER_DST_BIT))
{
imageCreateInfo.usage |= VK_IMAGE_USAGE_TRANSFER_DST_BIT;
}
// Cube faces count as array layers in Vulkan
imageCreateInfo.arrayLayers = 6;
// This flag is required for cube map images
imageCreateInfo.flags = VK_IMAGE_CREATE_CUBE_COMPATIBLE_BIT;
VK_CHECK_RESULT(vkCreateImage(device->logicalDevice, &imageCreateInfo, nullptr, &image));
vkGetImageMemoryRequirements(device->logicalDevice, image, &memReqs);
memAllocInfo.allocationSize = memReqs.size;
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &deviceMemory));
VK_CHECK_RESULT(vkBindImageMemory(device->logicalDevice, image, deviceMemory, 0));
// Use a separate command buffer for texture loading
VkCommandBuffer copyCmd = device->createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
// Image barrier for optimal image (target)
// Set initial layout for all array layers (faces) of the optimal (target) tiled texture
VkImageSubresourceRange subresourceRange = {};
subresourceRange.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
subresourceRange.baseMipLevel = 0;
subresourceRange.levelCount = mipLevels;
subresourceRange.layerCount = 6;
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_UNDEFINED,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
subresourceRange);
// Copy the cube map faces from the staging buffer to the optimal tiled image
vkCmdCopyBufferToImage(
copyCmd,
stagingBuffer,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
static_cast<uint32_t>(bufferCopyRegions.size()),
bufferCopyRegions.data());
// Change texture image layout to shader read after all faces have been copied
this->imageLayout = imageLayout;
vks::tools::setImageLayout(
copyCmd,
image,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
imageLayout,
subresourceRange);
device->flushCommandBuffer(copyCmd, copyQueue);
// Create sampler
VkSamplerCreateInfo samplerCreateInfo = vks::initializers::samplerCreateInfo();
samplerCreateInfo.magFilter = VK_FILTER_LINEAR;
samplerCreateInfo.minFilter = VK_FILTER_LINEAR;
samplerCreateInfo.mipmapMode = VK_SAMPLER_MIPMAP_MODE_LINEAR;
samplerCreateInfo.addressModeU = VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE;
samplerCreateInfo.addressModeV = samplerCreateInfo.addressModeU;
samplerCreateInfo.addressModeW = samplerCreateInfo.addressModeU;
samplerCreateInfo.mipLodBias = 0.0f;
samplerCreateInfo.maxAnisotropy = device->enabledFeatures.samplerAnisotropy ? device->properties.limits.maxSamplerAnisotropy : 1.0f;
samplerCreateInfo.anisotropyEnable = device->enabledFeatures.samplerAnisotropy;
samplerCreateInfo.compareOp = VK_COMPARE_OP_NEVER;
samplerCreateInfo.minLod = 0.0f;
samplerCreateInfo.maxLod = (float)mipLevels;
samplerCreateInfo.borderColor = VK_BORDER_COLOR_FLOAT_OPAQUE_WHITE;
VK_CHECK_RESULT(vkCreateSampler(device->logicalDevice, &samplerCreateInfo, nullptr, &sampler));
// Create image view
VkImageViewCreateInfo viewCreateInfo = vks::initializers::imageViewCreateInfo();
viewCreateInfo.viewType = VK_IMAGE_VIEW_TYPE_CUBE;
viewCreateInfo.format = format;
viewCreateInfo.subresourceRange = { VK_IMAGE_ASPECT_COLOR_BIT, 0, 1, 0, 1 };
viewCreateInfo.subresourceRange.layerCount = 6;
viewCreateInfo.subresourceRange.levelCount = mipLevels;
viewCreateInfo.image = image;
VK_CHECK_RESULT(vkCreateImageView(device->logicalDevice, &viewCreateInfo, nullptr, &view));
// Clean up staging resources
ktxTexture_Destroy(ktxTexture);
vkFreeMemory(device->logicalDevice, stagingMemory, nullptr);
vkDestroyBuffer(device->logicalDevice, stagingBuffer, nullptr);
// Update descriptor image info member that can be used for setting up descriptor sets
updateDescriptor();
}
}

97
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/*
* Vulkan texture loader
*
* Copyright(C) by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license(MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <fstream>
#include <stdlib.h>
#include <string>
#include <vector>
#include "vulkan/vulkan.h"
#include <ktx.h>
#include <ktxvulkan.h>
#include "VulkanBuffer.h"
#include "VulkanDevice.h"
#include "VulkanTools.h"
#if defined(__ANDROID__)
# include <android/asset_manager.h>
#endif
namespace vks
{
class Texture
{
public:
vks::VulkanDevice * device;
VkImage image;
VkImageLayout imageLayout;
VkDeviceMemory deviceMemory;
VkImageView view;
uint32_t width, height;
uint32_t mipLevels;
uint32_t layerCount;
VkDescriptorImageInfo descriptor;
VkSampler sampler;
void updateDescriptor();
void destroy();
ktxResult loadKTXFile(std::string filename, ktxTexture **target);
};
class Texture2D : public Texture
{
public:
void loadFromFile(
std::string filename,
VkFormat format,
vks::VulkanDevice *device,
VkQueue copyQueue,
VkImageUsageFlags imageUsageFlags = VK_IMAGE_USAGE_SAMPLED_BIT,
VkImageLayout imageLayout = VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL,
bool forceLinear = false);
void fromBuffer(
void * buffer,
VkDeviceSize bufferSize,
VkFormat format,
uint32_t texWidth,
uint32_t texHeight,
vks::VulkanDevice *device,
VkQueue copyQueue,
VkFilter filter = VK_FILTER_LINEAR,
VkImageUsageFlags imageUsageFlags = VK_IMAGE_USAGE_SAMPLED_BIT,
VkImageLayout imageLayout = VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL);
};
class Texture2DArray : public Texture
{
public:
void loadFromFile(
std::string filename,
VkFormat format,
vks::VulkanDevice *device,
VkQueue copyQueue,
VkImageUsageFlags imageUsageFlags = VK_IMAGE_USAGE_SAMPLED_BIT,
VkImageLayout imageLayout = VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL);
};
class TextureCubeMap : public Texture
{
public:
void loadFromFile(
std::string filename,
VkFormat format,
vks::VulkanDevice *device,
VkQueue copyQueue,
VkImageUsageFlags imageUsageFlags = VK_IMAGE_USAGE_SAMPLED_BIT,
VkImageLayout imageLayout = VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL);
};
} // namespace vks

403
base/VulkanTools.cpp 100644
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/*
* Assorted commonly used Vulkan helper functions
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include "VulkanTools.h"
#if !(defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
// iOS & macOS: VulkanExampleBase::getAssetPath() implemented externally to allow access to Objective-C components
const std::string getAssetPath()
{
#if defined(VK_USE_PLATFORM_ANDROID_KHR)
return "";
#elif defined(VK_EXAMPLE_DATA_DIR)
return VK_EXAMPLE_DATA_DIR;
#else
return "./../data/";
#endif
}
#endif
namespace vks
{
namespace tools
{
bool errorModeSilent = false;
std::string errorString(VkResult errorCode)
{
switch (errorCode)
{
#define STR(r) case VK_ ##r: return #r
STR(NOT_READY);
STR(TIMEOUT);
STR(EVENT_SET);
STR(EVENT_RESET);
STR(INCOMPLETE);
STR(ERROR_OUT_OF_HOST_MEMORY);
STR(ERROR_OUT_OF_DEVICE_MEMORY);
STR(ERROR_INITIALIZATION_FAILED);
STR(ERROR_DEVICE_LOST);
STR(ERROR_MEMORY_MAP_FAILED);
STR(ERROR_LAYER_NOT_PRESENT);
STR(ERROR_EXTENSION_NOT_PRESENT);
STR(ERROR_FEATURE_NOT_PRESENT);
STR(ERROR_INCOMPATIBLE_DRIVER);
STR(ERROR_TOO_MANY_OBJECTS);
STR(ERROR_FORMAT_NOT_SUPPORTED);
STR(ERROR_SURFACE_LOST_KHR);
STR(ERROR_NATIVE_WINDOW_IN_USE_KHR);
STR(SUBOPTIMAL_KHR);
STR(ERROR_OUT_OF_DATE_KHR);
STR(ERROR_INCOMPATIBLE_DISPLAY_KHR);
STR(ERROR_VALIDATION_FAILED_EXT);
STR(ERROR_INVALID_SHADER_NV);
#undef STR
default:
return "UNKNOWN_ERROR";
}
}
std::string physicalDeviceTypeString(VkPhysicalDeviceType type)
{
switch (type)
{
#define STR(r) case VK_PHYSICAL_DEVICE_TYPE_ ##r: return #r
STR(OTHER);
STR(INTEGRATED_GPU);
STR(DISCRETE_GPU);
STR(VIRTUAL_GPU);
STR(CPU);
#undef STR
default: return "UNKNOWN_DEVICE_TYPE";
}
}
VkBool32 getSupportedDepthFormat(VkPhysicalDevice physicalDevice, VkFormat *depthFormat)
{
// Since all depth formats may be optional, we need to find a suitable depth format to use
// Start with the highest precision packed format
std::vector<VkFormat> depthFormats = {
VK_FORMAT_D32_SFLOAT_S8_UINT,
VK_FORMAT_D32_SFLOAT,
VK_FORMAT_D24_UNORM_S8_UINT,
VK_FORMAT_D16_UNORM_S8_UINT,
VK_FORMAT_D16_UNORM
};
for (auto& format : depthFormats)
{
VkFormatProperties formatProps;
vkGetPhysicalDeviceFormatProperties(physicalDevice, format, &formatProps);
// Format must support depth stencil attachment for optimal tiling
if (formatProps.optimalTilingFeatures & VK_FORMAT_FEATURE_DEPTH_STENCIL_ATTACHMENT_BIT)
{
*depthFormat = format;
return true;
}
}
return false;
}
VkBool32 formatHasStencil(VkFormat format)
{
std::vector<VkFormat> stencilFormats = {
VK_FORMAT_S8_UINT,
VK_FORMAT_D16_UNORM_S8_UINT,
VK_FORMAT_D24_UNORM_S8_UINT,
VK_FORMAT_D32_SFLOAT_S8_UINT,
};
return std::find(stencilFormats.begin(), stencilFormats.end(), format) != std::end(stencilFormats);
}
// Returns if a given format support LINEAR filtering
VkBool32 formatIsFilterable(VkPhysicalDevice physicalDevice, VkFormat format, VkImageTiling tiling)
{
VkFormatProperties formatProps;
vkGetPhysicalDeviceFormatProperties(physicalDevice, format, &formatProps);
if (tiling == VK_IMAGE_TILING_OPTIMAL)
return formatProps.optimalTilingFeatures & VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT;
if (tiling == VK_IMAGE_TILING_LINEAR)
return formatProps.linearTilingFeatures & VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT;
return false;
}
// Create an image memory barrier for changing the layout of
// an image and put it into an active command buffer
// See chapter 11.4 "Image Layout" for details
void setImageLayout(
VkCommandBuffer cmdbuffer,
VkImage image,
VkImageLayout oldImageLayout,
VkImageLayout newImageLayout,
VkImageSubresourceRange subresourceRange,
VkPipelineStageFlags srcStageMask,
VkPipelineStageFlags dstStageMask)
{
// Create an image barrier object
VkImageMemoryBarrier imageMemoryBarrier = vks::initializers::imageMemoryBarrier();
imageMemoryBarrier.oldLayout = oldImageLayout;
imageMemoryBarrier.newLayout = newImageLayout;
imageMemoryBarrier.image = image;
imageMemoryBarrier.subresourceRange = subresourceRange;
// Source layouts (old)
// Source access mask controls actions that have to be finished on the old layout
// before it will be transitioned to the new layout
switch (oldImageLayout)
{
case VK_IMAGE_LAYOUT_UNDEFINED:
// Image layout is undefined (or does not matter)
// Only valid as initial layout
// No flags required, listed only for completeness
imageMemoryBarrier.srcAccessMask = 0;
break;
case VK_IMAGE_LAYOUT_PREINITIALIZED:
// Image is preinitialized
// Only valid as initial layout for linear images, preserves memory contents
// Make sure host writes have been finished
imageMemoryBarrier.srcAccessMask = VK_ACCESS_HOST_WRITE_BIT;
break;
case VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL:
// Image is a color attachment
// Make sure any writes to the color buffer have been finished
imageMemoryBarrier.srcAccessMask = VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT;
break;
case VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL:
// Image is a depth/stencil attachment
// Make sure any writes to the depth/stencil buffer have been finished
imageMemoryBarrier.srcAccessMask = VK_ACCESS_DEPTH_STENCIL_ATTACHMENT_WRITE_BIT;
break;
case VK_IMAGE_LAYOUT_TRANSFER_SRC_OPTIMAL:
// Image is a transfer source
// Make sure any reads from the image have been finished
imageMemoryBarrier.srcAccessMask = VK_ACCESS_TRANSFER_READ_BIT;
break;
case VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL:
// Image is a transfer destination
// Make sure any writes to the image have been finished
imageMemoryBarrier.srcAccessMask = VK_ACCESS_TRANSFER_WRITE_BIT;
break;
case VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL:
// Image is read by a shader
// Make sure any shader reads from the image have been finished
imageMemoryBarrier.srcAccessMask = VK_ACCESS_SHADER_READ_BIT;
break;
default:
// Other source layouts aren't handled (yet)
break;
}
// Target layouts (new)
// Destination access mask controls the dependency for the new image layout
switch (newImageLayout)
{
case VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL:
// Image will be used as a transfer destination
// Make sure any writes to the image have been finished
imageMemoryBarrier.dstAccessMask = VK_ACCESS_TRANSFER_WRITE_BIT;
break;
case VK_IMAGE_LAYOUT_TRANSFER_SRC_OPTIMAL:
// Image will be used as a transfer source
// Make sure any reads from the image have been finished
imageMemoryBarrier.dstAccessMask = VK_ACCESS_TRANSFER_READ_BIT;
break;
case VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL:
// Image will be used as a color attachment
// Make sure any writes to the color buffer have been finished
imageMemoryBarrier.dstAccessMask = VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT;
break;
case VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL:
// Image layout will be used as a depth/stencil attachment
// Make sure any writes to depth/stencil buffer have been finished
imageMemoryBarrier.dstAccessMask = imageMemoryBarrier.dstAccessMask | VK_ACCESS_DEPTH_STENCIL_ATTACHMENT_WRITE_BIT;
break;
case VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL:
// Image will be read in a shader (sampler, input attachment)
// Make sure any writes to the image have been finished
if (imageMemoryBarrier.srcAccessMask == 0)
{
imageMemoryBarrier.srcAccessMask = VK_ACCESS_HOST_WRITE_BIT | VK_ACCESS_TRANSFER_WRITE_BIT;
}
imageMemoryBarrier.dstAccessMask = VK_ACCESS_SHADER_READ_BIT;
break;
default:
// Other source layouts aren't handled (yet)
break;
}
// Put barrier inside setup command buffer
vkCmdPipelineBarrier(
cmdbuffer,
srcStageMask,
dstStageMask,
0,
0, nullptr,
0, nullptr,
1, &imageMemoryBarrier);
}
// Fixed sub resource on first mip level and layer
void setImageLayout(
VkCommandBuffer cmdbuffer,
VkImage image,
VkImageAspectFlags aspectMask,
VkImageLayout oldImageLayout,
VkImageLayout newImageLayout,
VkPipelineStageFlags srcStageMask,
VkPipelineStageFlags dstStageMask)
{
VkImageSubresourceRange subresourceRange = {};
subresourceRange.aspectMask = aspectMask;
subresourceRange.baseMipLevel = 0;
subresourceRange.levelCount = 1;
subresourceRange.layerCount = 1;
setImageLayout(cmdbuffer, image, oldImageLayout, newImageLayout, subresourceRange, srcStageMask, dstStageMask);
}
void insertImageMemoryBarrier(
VkCommandBuffer cmdbuffer,
VkImage image,
VkAccessFlags srcAccessMask,
VkAccessFlags dstAccessMask,
VkImageLayout oldImageLayout,
VkImageLayout newImageLayout,
VkPipelineStageFlags srcStageMask,
VkPipelineStageFlags dstStageMask,
VkImageSubresourceRange subresourceRange)
{
VkImageMemoryBarrier imageMemoryBarrier = vks::initializers::imageMemoryBarrier();
imageMemoryBarrier.srcAccessMask = srcAccessMask;
imageMemoryBarrier.dstAccessMask = dstAccessMask;
imageMemoryBarrier.oldLayout = oldImageLayout;
imageMemoryBarrier.newLayout = newImageLayout;
imageMemoryBarrier.image = image;
imageMemoryBarrier.subresourceRange = subresourceRange;
vkCmdPipelineBarrier(
cmdbuffer,
srcStageMask,
dstStageMask,
0,
0, nullptr,
0, nullptr,
1, &imageMemoryBarrier);
}
void exitFatal(const std::string& message, int32_t exitCode)
{
#if defined(_WIN32)
if (!errorModeSilent) {
MessageBox(NULL, message.c_str(), NULL, MB_OK | MB_ICONERROR);
}
#elif defined(__ANDROID__)
LOGE("Fatal error: %s", message.c_str());
vks::android::showAlert(message.c_str());
#endif
std::cerr << message << "\n";
#if !defined(__ANDROID__)
exit(exitCode);
#endif
}
void exitFatal(const std::string& message, VkResult resultCode)
{
exitFatal(message, (int32_t)resultCode);
}
#if defined(__ANDROID__)
// Android shaders are stored as assets in the apk
// So they need to be loaded via the asset manager
VkShaderModule loadShader(AAssetManager* assetManager, const char *fileName, VkDevice device)
{
// Load shader from compressed asset
AAsset* asset = AAssetManager_open(assetManager, fileName, AASSET_MODE_STREAMING);
assert(asset);
size_t size = AAsset_getLength(asset);
assert(size > 0);
char *shaderCode = new char[size];
AAsset_read(asset, shaderCode, size);
AAsset_close(asset);
VkShaderModule shaderModule;
VkShaderModuleCreateInfo moduleCreateInfo;
moduleCreateInfo.sType = VK_STRUCTURE_TYPE_SHADER_MODULE_CREATE_INFO;
moduleCreateInfo.pNext = NULL;
moduleCreateInfo.codeSize = size;
moduleCreateInfo.pCode = (uint32_t*)shaderCode;
moduleCreateInfo.flags = 0;
VK_CHECK_RESULT(vkCreateShaderModule(device, &moduleCreateInfo, NULL, &shaderModule));
delete[] shaderCode;
return shaderModule;
}
#else
VkShaderModule loadShader(const char *fileName, VkDevice device)
{
std::ifstream is(fileName, std::ios::binary | std::ios::in | std::ios::ate);
if (is.is_open())
{
size_t size = is.tellg();
is.seekg(0, std::ios::beg);
char* shaderCode = new char[size];
is.read(shaderCode, size);
is.close();
assert(size > 0);
VkShaderModule shaderModule;
VkShaderModuleCreateInfo moduleCreateInfo{};
moduleCreateInfo.sType = VK_STRUCTURE_TYPE_SHADER_MODULE_CREATE_INFO;
moduleCreateInfo.codeSize = size;
moduleCreateInfo.pCode = (uint32_t*)shaderCode;
VK_CHECK_RESULT(vkCreateShaderModule(device, &moduleCreateInfo, NULL, &shaderModule));
delete[] shaderCode;
return shaderModule;
}
else
{
std::cerr << "Error: Could not open shader file \"" << fileName << "\"" << "\n";
return VK_NULL_HANDLE;
}
}
#endif
bool fileExists(const std::string &filename)
{
std::ifstream f(filename.c_str());
return !f.fail();
}
uint32_t alignedSize(uint32_t value, uint32_t alignment)
{
return (value + alignment - 1) & ~(alignment - 1);
}
}
}

134
base/VulkanTools.h 100644
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/*
* Assorted Vulkan helper functions
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include "vulkan/vulkan.h"
#include "VulkanInitializers.hpp"
#include <math.h>
#include <stdlib.h>
#include <string>
#include <cstring>
#include <fstream>
#include <assert.h>
#include <stdio.h>
#include <vector>
#include <iostream>
#include <stdexcept>
#include <fstream>
#include <algorithm>
#if defined(_WIN32)
#include <windows.h>
#include <fcntl.h>
#include <io.h>
#elif defined(__ANDROID__)
#include "VulkanAndroid.h"
#include <android/asset_manager.h>
#endif
// Custom define for better code readability
#define VK_FLAGS_NONE 0
// Default fence timeout in nanoseconds
#define DEFAULT_FENCE_TIMEOUT 100000000000
// Macro to check and display Vulkan return results
#if defined(__ANDROID__)
#define VK_CHECK_RESULT(f) \
{ \
VkResult res = (f); \
if (res != VK_SUCCESS) \
{ \
LOGE("Fatal : VkResult is \" %s \" in %s at line %d", vks::tools::errorString(res).c_str(), __FILE__, __LINE__); \
assert(res == VK_SUCCESS); \
} \
}
#else
#define VK_CHECK_RESULT(f) \
{ \
VkResult res = (f); \
if (res != VK_SUCCESS) \
{ \
std::cout << "Fatal : VkResult is \"" << vks::tools::errorString(res) << "\" in " << __FILE__ << " at line " << __LINE__ << "\n"; \
assert(res == VK_SUCCESS); \
} \
}
#endif
const std::string getAssetPath();
namespace vks
{
namespace tools
{
/** @brief Disable message boxes on fatal errors */
extern bool errorModeSilent;
/** @brief Returns an error code as a string */
std::string errorString(VkResult errorCode);
/** @brief Returns the device type as a string */
std::string physicalDeviceTypeString(VkPhysicalDeviceType type);
// Selected a suitable supported depth format starting with 32 bit down to 16 bit
// Returns false if none of the depth formats in the list is supported by the device
VkBool32 getSupportedDepthFormat(VkPhysicalDevice physicalDevice, VkFormat *depthFormat);
// Returns tru a given format support LINEAR filtering
VkBool32 formatIsFilterable(VkPhysicalDevice physicalDevice, VkFormat format, VkImageTiling tiling);
// Returns true if a given format has a stencil part
VkBool32 formatHasStencil(VkFormat format);
// Put an image memory barrier for setting an image layout on the sub resource into the given command buffer
void setImageLayout(
VkCommandBuffer cmdbuffer,
VkImage image,
VkImageLayout oldImageLayout,
VkImageLayout newImageLayout,
VkImageSubresourceRange subresourceRange,
VkPipelineStageFlags srcStageMask = VK_PIPELINE_STAGE_ALL_COMMANDS_BIT,
VkPipelineStageFlags dstStageMask = VK_PIPELINE_STAGE_ALL_COMMANDS_BIT);
// Uses a fixed sub resource layout with first mip level and layer
void setImageLayout(
VkCommandBuffer cmdbuffer,
VkImage image,
VkImageAspectFlags aspectMask,
VkImageLayout oldImageLayout,
VkImageLayout newImageLayout,
VkPipelineStageFlags srcStageMask = VK_PIPELINE_STAGE_ALL_COMMANDS_BIT,
VkPipelineStageFlags dstStageMask = VK_PIPELINE_STAGE_ALL_COMMANDS_BIT);
/** @brief Insert an image memory barrier into the command buffer */
void insertImageMemoryBarrier(
VkCommandBuffer cmdbuffer,
VkImage image,
VkAccessFlags srcAccessMask,
VkAccessFlags dstAccessMask,
VkImageLayout oldImageLayout,
VkImageLayout newImageLayout,
VkPipelineStageFlags srcStageMask,
VkPipelineStageFlags dstStageMask,
VkImageSubresourceRange subresourceRange);
// Display error message and exit on fatal error
void exitFatal(const std::string& message, int32_t exitCode);
void exitFatal(const std::string& message, VkResult resultCode);
// Load a SPIR-V shader (binary)
#if defined(__ANDROID__)
VkShaderModule loadShader(AAssetManager* assetManager, const char *fileName, VkDevice device);
#else
VkShaderModule loadShader(const char *fileName, VkDevice device);
#endif
/** @brief Checks if a file exists */
bool fileExists(const std::string &filename);
uint32_t alignedSize(uint32_t value, uint32_t alignment);
}
}

517
base/VulkanUIOverlay.cpp 100644
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/*
* UI overlay class using ImGui
*
* Copyright (C) 2017 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include "VulkanUIOverlay.h"
namespace vks
{
UIOverlay::UIOverlay()
{
#if defined(__ANDROID__)
if (vks::android::screenDensity >= ACONFIGURATION_DENSITY_XXHIGH) {
scale = 3.5f;
}
else if (vks::android::screenDensity >= ACONFIGURATION_DENSITY_XHIGH) {
scale = 2.5f;
}
else if (vks::android::screenDensity >= ACONFIGURATION_DENSITY_HIGH) {
scale = 2.0f;
};
#endif
// Init ImGui
ImGui::CreateContext();
// Color scheme
ImGuiStyle& style = ImGui::GetStyle();
style.Colors[ImGuiCol_TitleBg] = ImVec4(1.0f, 0.0f, 0.0f, 1.0f);
style.Colors[ImGuiCol_TitleBgActive] = ImVec4(1.0f, 0.0f, 0.0f, 1.0f);
style.Colors[ImGuiCol_TitleBgCollapsed] = ImVec4(1.0f, 0.0f, 0.0f, 0.1f);
style.Colors[ImGuiCol_MenuBarBg] = ImVec4(1.0f, 0.0f, 0.0f, 0.4f);
style.Colors[ImGuiCol_Header] = ImVec4(0.8f, 0.0f, 0.0f, 0.4f);
style.Colors[ImGuiCol_HeaderActive] = ImVec4(1.0f, 0.0f, 0.0f, 0.4f);
style.Colors[ImGuiCol_HeaderHovered] = ImVec4(1.0f, 0.0f, 0.0f, 0.4f);
style.Colors[ImGuiCol_FrameBg] = ImVec4(0.0f, 0.0f, 0.0f, 0.8f);
style.Colors[ImGuiCol_CheckMark] = ImVec4(1.0f, 0.0f, 0.0f, 0.8f);
style.Colors[ImGuiCol_SliderGrab] = ImVec4(1.0f, 0.0f, 0.0f, 0.4f);
style.Colors[ImGuiCol_SliderGrabActive] = ImVec4(1.0f, 0.0f, 0.0f, 0.8f);
style.Colors[ImGuiCol_FrameBgHovered] = ImVec4(1.0f, 1.0f, 1.0f, 0.1f);
style.Colors[ImGuiCol_FrameBgActive] = ImVec4(1.0f, 1.0f, 1.0f, 0.2f);
style.Colors[ImGuiCol_Button] = ImVec4(1.0f, 0.0f, 0.0f, 0.4f);
style.Colors[ImGuiCol_ButtonHovered] = ImVec4(1.0f, 0.0f, 0.0f, 0.6f);
style.Colors[ImGuiCol_ButtonActive] = ImVec4(1.0f, 0.0f, 0.0f, 0.8f);
// Dimensions
ImGuiIO& io = ImGui::GetIO();
io.FontGlobalScale = scale;
}
UIOverlay::~UIOverlay() {
if (ImGui::GetCurrentContext()) {
ImGui::DestroyContext();
}
}
/** Prepare all vulkan resources required to render the UI overlay */
void UIOverlay::prepareResources()
{
ImGuiIO& io = ImGui::GetIO();
// Create font texture
unsigned char* fontData;
int texWidth, texHeight;
#if defined(__ANDROID__)
float scale = (float)vks::android::screenDensity / (float)ACONFIGURATION_DENSITY_MEDIUM;
AAsset* asset = AAssetManager_open(androidApp->activity->assetManager, "Roboto-Medium.ttf", AASSET_MODE_STREAMING);
if (asset) {
size_t size = AAsset_getLength(asset);
assert(size > 0);
char *fontAsset = new char[size];
AAsset_read(asset, fontAsset, size);
AAsset_close(asset);
io.Fonts->AddFontFromMemoryTTF(fontAsset, size, 14.0f * scale);
delete[] fontAsset;
}
#else
const std::string filename = getAssetPath() + "Roboto-Medium.ttf";
io.Fonts->AddFontFromFileTTF(filename.c_str(), 16.0f * scale);
#endif
io.Fonts->GetTexDataAsRGBA32(&fontData, &texWidth, &texHeight);
VkDeviceSize uploadSize = texWidth*texHeight * 4 * sizeof(char);
//SRS - Set ImGui style scale factor to handle retina and other HiDPI displays (same as font scaling above)
ImGuiStyle& style = ImGui::GetStyle();
style.ScaleAllSizes(scale);
// Create target image for copy
VkImageCreateInfo imageInfo = vks::initializers::imageCreateInfo();
imageInfo.imageType = VK_IMAGE_TYPE_2D;
imageInfo.format = VK_FORMAT_R8G8B8A8_UNORM;
imageInfo.extent.width = texWidth;
imageInfo.extent.height = texHeight;
imageInfo.extent.depth = 1;
imageInfo.mipLevels = 1;
imageInfo.arrayLayers = 1;
imageInfo.samples = VK_SAMPLE_COUNT_1_BIT;
imageInfo.tiling = VK_IMAGE_TILING_OPTIMAL;
imageInfo.usage = VK_IMAGE_USAGE_SAMPLED_BIT | VK_IMAGE_USAGE_TRANSFER_DST_BIT;
imageInfo.sharingMode = VK_SHARING_MODE_EXCLUSIVE;
imageInfo.initialLayout = VK_IMAGE_LAYOUT_UNDEFINED;
VK_CHECK_RESULT(vkCreateImage(device->logicalDevice, &imageInfo, nullptr, &fontImage));
VkMemoryRequirements memReqs;
vkGetImageMemoryRequirements(device->logicalDevice, fontImage, &memReqs);
VkMemoryAllocateInfo memAllocInfo = vks::initializers::memoryAllocateInfo();
memAllocInfo.allocationSize = memReqs.size;
memAllocInfo.memoryTypeIndex = device->getMemoryType(memReqs.memoryTypeBits, VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT);
VK_CHECK_RESULT(vkAllocateMemory(device->logicalDevice, &memAllocInfo, nullptr, &fontMemory));
VK_CHECK_RESULT(vkBindImageMemory(device->logicalDevice, fontImage, fontMemory, 0));
// Image view
VkImageViewCreateInfo viewInfo = vks::initializers::imageViewCreateInfo();
viewInfo.image = fontImage;
viewInfo.viewType = VK_IMAGE_VIEW_TYPE_2D;
viewInfo.format = VK_FORMAT_R8G8B8A8_UNORM;
viewInfo.subresourceRange.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
viewInfo.subresourceRange.levelCount = 1;
viewInfo.subresourceRange.layerCount = 1;
VK_CHECK_RESULT(vkCreateImageView(device->logicalDevice, &viewInfo, nullptr, &fontView));
// Staging buffers for font data upload
vks::Buffer stagingBuffer;
VK_CHECK_RESULT(device->createBuffer(
VK_BUFFER_USAGE_TRANSFER_SRC_BIT,
VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT | VK_MEMORY_PROPERTY_HOST_COHERENT_BIT,
&stagingBuffer,
uploadSize));
stagingBuffer.map();
memcpy(stagingBuffer.mapped, fontData, uploadSize);
stagingBuffer.unmap();
// Copy buffer data to font image
VkCommandBuffer copyCmd = device->createCommandBuffer(VK_COMMAND_BUFFER_LEVEL_PRIMARY, true);
// Prepare for transfer
vks::tools::setImageLayout(
copyCmd,
fontImage,
VK_IMAGE_ASPECT_COLOR_BIT,
VK_IMAGE_LAYOUT_UNDEFINED,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
VK_PIPELINE_STAGE_HOST_BIT,
VK_PIPELINE_STAGE_TRANSFER_BIT);
// Copy
VkBufferImageCopy bufferCopyRegion = {};
bufferCopyRegion.imageSubresource.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT;
bufferCopyRegion.imageSubresource.layerCount = 1;
bufferCopyRegion.imageExtent.width = texWidth;
bufferCopyRegion.imageExtent.height = texHeight;
bufferCopyRegion.imageExtent.depth = 1;
vkCmdCopyBufferToImage(
copyCmd,
stagingBuffer.buffer,
fontImage,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
1,
&bufferCopyRegion
);
// Prepare for shader read
vks::tools::setImageLayout(
copyCmd,
fontImage,
VK_IMAGE_ASPECT_COLOR_BIT,
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL,
VK_PIPELINE_STAGE_TRANSFER_BIT,
VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
device->flushCommandBuffer(copyCmd, queue, true);
stagingBuffer.destroy();
// Font texture Sampler
VkSamplerCreateInfo samplerInfo = vks::initializers::samplerCreateInfo();
samplerInfo.magFilter = VK_FILTER_LINEAR;
samplerInfo.minFilter = VK_FILTER_LINEAR;
samplerInfo.mipmapMode = VK_SAMPLER_MIPMAP_MODE_LINEAR;
samplerInfo.addressModeU = VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE;
samplerInfo.addressModeV = VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE;
samplerInfo.addressModeW = VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE;
samplerInfo.borderColor = VK_BORDER_COLOR_FLOAT_OPAQUE_WHITE;
VK_CHECK_RESULT(vkCreateSampler(device->logicalDevice, &samplerInfo, nullptr, &sampler));
// Descriptor pool
std::vector<VkDescriptorPoolSize> poolSizes = {
vks::initializers::descriptorPoolSize(VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER, 1)
};
VkDescriptorPoolCreateInfo descriptorPoolInfo = vks::initializers::descriptorPoolCreateInfo(poolSizes, 2);
VK_CHECK_RESULT(vkCreateDescriptorPool(device->logicalDevice, &descriptorPoolInfo, nullptr, &descriptorPool));
// Descriptor set layout
std::vector<VkDescriptorSetLayoutBinding> setLayoutBindings = {
vks::initializers::descriptorSetLayoutBinding(VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER, VK_SHADER_STAGE_FRAGMENT_BIT, 0),
};
VkDescriptorSetLayoutCreateInfo descriptorLayout = vks::initializers::descriptorSetLayoutCreateInfo(setLayoutBindings);
VK_CHECK_RESULT(vkCreateDescriptorSetLayout(device->logicalDevice, &descriptorLayout, nullptr, &descriptorSetLayout));
// Descriptor set
VkDescriptorSetAllocateInfo allocInfo = vks::initializers::descriptorSetAllocateInfo(descriptorPool, &descriptorSetLayout, 1);
VK_CHECK_RESULT(vkAllocateDescriptorSets(device->logicalDevice, &allocInfo, &descriptorSet));
VkDescriptorImageInfo fontDescriptor = vks::initializers::descriptorImageInfo(
sampler,
fontView,
VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL
);
std::vector<VkWriteDescriptorSet> writeDescriptorSets = {
vks::initializers::writeDescriptorSet(descriptorSet, VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER, 0, &fontDescriptor)
};
vkUpdateDescriptorSets(device->logicalDevice, static_cast<uint32_t>(writeDescriptorSets.size()), writeDescriptorSets.data(), 0, nullptr);
}
/** Prepare a separate pipeline for the UI overlay rendering decoupled from the main application */
void UIOverlay::preparePipeline(const VkPipelineCache pipelineCache, const VkRenderPass renderPass, const VkFormat colorFormat, const VkFormat depthFormat)
{
// Pipeline layout
// Push constants for UI rendering parameters
VkPushConstantRange pushConstantRange = vks::initializers::pushConstantRange(VK_SHADER_STAGE_VERTEX_BIT, sizeof(PushConstBlock), 0);
VkPipelineLayoutCreateInfo pipelineLayoutCreateInfo = vks::initializers::pipelineLayoutCreateInfo(&descriptorSetLayout, 1);
pipelineLayoutCreateInfo.pushConstantRangeCount = 1;
pipelineLayoutCreateInfo.pPushConstantRanges = &pushConstantRange;
VK_CHECK_RESULT(vkCreatePipelineLayout(device->logicalDevice, &pipelineLayoutCreateInfo, nullptr, &pipelineLayout));
// Setup graphics pipeline for UI rendering
VkPipelineInputAssemblyStateCreateInfo inputAssemblyState =
vks::initializers::pipelineInputAssemblyStateCreateInfo(VK_PRIMITIVE_TOPOLOGY_TRIANGLE_LIST, 0, VK_FALSE);
VkPipelineRasterizationStateCreateInfo rasterizationState =
vks::initializers::pipelineRasterizationStateCreateInfo(VK_POLYGON_MODE_FILL, VK_CULL_MODE_NONE, VK_FRONT_FACE_COUNTER_CLOCKWISE);
// Enable blending
VkPipelineColorBlendAttachmentState blendAttachmentState{};
blendAttachmentState.blendEnable = VK_TRUE;
blendAttachmentState.colorWriteMask = VK_COLOR_COMPONENT_R_BIT | VK_COLOR_COMPONENT_G_BIT | VK_COLOR_COMPONENT_B_BIT | VK_COLOR_COMPONENT_A_BIT;
blendAttachmentState.srcColorBlendFactor = VK_BLEND_FACTOR_SRC_ALPHA;
blendAttachmentState.dstColorBlendFactor = VK_BLEND_FACTOR_ONE_MINUS_SRC_ALPHA;
blendAttachmentState.colorBlendOp = VK_BLEND_OP_ADD;
blendAttachmentState.srcAlphaBlendFactor = VK_BLEND_FACTOR_ONE_MINUS_SRC_ALPHA;
blendAttachmentState.dstAlphaBlendFactor = VK_BLEND_FACTOR_ZERO;
blendAttachmentState.alphaBlendOp = VK_BLEND_OP_ADD;
VkPipelineColorBlendStateCreateInfo colorBlendState =
vks::initializers::pipelineColorBlendStateCreateInfo(1, &blendAttachmentState);
VkPipelineDepthStencilStateCreateInfo depthStencilState =
vks::initializers::pipelineDepthStencilStateCreateInfo(VK_FALSE, VK_FALSE, VK_COMPARE_OP_ALWAYS);
VkPipelineViewportStateCreateInfo viewportState =
vks::initializers::pipelineViewportStateCreateInfo(1, 1, 0);
VkPipelineMultisampleStateCreateInfo multisampleState =
vks::initializers::pipelineMultisampleStateCreateInfo(rasterizationSamples);
std::vector<VkDynamicState> dynamicStateEnables = {
VK_DYNAMIC_STATE_VIEWPORT,
VK_DYNAMIC_STATE_SCISSOR
};
VkPipelineDynamicStateCreateInfo dynamicState =
vks::initializers::pipelineDynamicStateCreateInfo(dynamicStateEnables);
VkGraphicsPipelineCreateInfo pipelineCreateInfo = vks::initializers::pipelineCreateInfo(pipelineLayout, renderPass);
pipelineCreateInfo.pInputAssemblyState = &inputAssemblyState;
pipelineCreateInfo.pRasterizationState = &rasterizationState;
pipelineCreateInfo.pColorBlendState = &colorBlendState;
pipelineCreateInfo.pMultisampleState = &multisampleState;
pipelineCreateInfo.pViewportState = &viewportState;
pipelineCreateInfo.pDepthStencilState = &depthStencilState;
pipelineCreateInfo.pDynamicState = &dynamicState;
pipelineCreateInfo.stageCount = static_cast<uint32_t>(shaders.size());
pipelineCreateInfo.pStages = shaders.data();
pipelineCreateInfo.subpass = subpass;
#if defined(VK_KHR_dynamic_rendering)
// SRS - if we are using dynamic rendering (i.e. renderPass null), must define color, depth and stencil attachments at pipeline create time
VkPipelineRenderingCreateInfo pipelineRenderingCreateInfo = {};
if (renderPass == VK_NULL_HANDLE) {
pipelineRenderingCreateInfo.sType = VK_STRUCTURE_TYPE_PIPELINE_RENDERING_CREATE_INFO;
pipelineRenderingCreateInfo.colorAttachmentCount = 1;
pipelineRenderingCreateInfo.pColorAttachmentFormats = &colorFormat;
pipelineRenderingCreateInfo.depthAttachmentFormat = depthFormat;
pipelineRenderingCreateInfo.stencilAttachmentFormat = depthFormat;
pipelineCreateInfo.pNext = &pipelineRenderingCreateInfo;
}
#endif
// Vertex bindings an attributes based on ImGui vertex definition
std::vector<VkVertexInputBindingDescription> vertexInputBindings = {
vks::initializers::vertexInputBindingDescription(0, sizeof(ImDrawVert), VK_VERTEX_INPUT_RATE_VERTEX),
};
std::vector<VkVertexInputAttributeDescription> vertexInputAttributes = {
vks::initializers::vertexInputAttributeDescription(0, 0, VK_FORMAT_R32G32_SFLOAT, offsetof(ImDrawVert, pos)), // Location 0: Position
vks::initializers::vertexInputAttributeDescription(0, 1, VK_FORMAT_R32G32_SFLOAT, offsetof(ImDrawVert, uv)), // Location 1: UV
vks::initializers::vertexInputAttributeDescription(0, 2, VK_FORMAT_R8G8B8A8_UNORM, offsetof(ImDrawVert, col)), // Location 0: Color
};
VkPipelineVertexInputStateCreateInfo vertexInputState = vks::initializers::pipelineVertexInputStateCreateInfo();
vertexInputState.vertexBindingDescriptionCount = static_cast<uint32_t>(vertexInputBindings.size());
vertexInputState.pVertexBindingDescriptions = vertexInputBindings.data();
vertexInputState.vertexAttributeDescriptionCount = static_cast<uint32_t>(vertexInputAttributes.size());
vertexInputState.pVertexAttributeDescriptions = vertexInputAttributes.data();
pipelineCreateInfo.pVertexInputState = &vertexInputState;
VK_CHECK_RESULT(vkCreateGraphicsPipelines(device->logicalDevice, pipelineCache, 1, &pipelineCreateInfo, nullptr, &pipeline));
}
/** Update vertex and index buffer containing the imGui elements when required */
bool UIOverlay::update()
{
ImDrawData* imDrawData = ImGui::GetDrawData();
bool updateCmdBuffers = false;
if (!imDrawData) { return false; };
// Note: Alignment is done inside buffer creation
VkDeviceSize vertexBufferSize = imDrawData->TotalVtxCount * sizeof(ImDrawVert);
VkDeviceSize indexBufferSize = imDrawData->TotalIdxCount * sizeof(ImDrawIdx);
// Update buffers only if vertex or index count has been changed compared to current buffer size
if ((vertexBufferSize == 0) || (indexBufferSize == 0)) {
return false;
}
// Vertex buffer
if ((vertexBuffer.buffer == VK_NULL_HANDLE) || (vertexCount != imDrawData->TotalVtxCount)) {
vertexBuffer.unmap();
vertexBuffer.destroy();
VK_CHECK_RESULT(device->createBuffer(VK_BUFFER_USAGE_VERTEX_BUFFER_BIT, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT, &vertexBuffer, vertexBufferSize));
vertexCount = imDrawData->TotalVtxCount;
vertexBuffer.unmap();
vertexBuffer.map();
updateCmdBuffers = true;
}
// Index buffer
if ((indexBuffer.buffer == VK_NULL_HANDLE) || (indexCount < imDrawData->TotalIdxCount)) {
indexBuffer.unmap();
indexBuffer.destroy();
VK_CHECK_RESULT(device->createBuffer(VK_BUFFER_USAGE_INDEX_BUFFER_BIT, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT, &indexBuffer, indexBufferSize));
indexCount = imDrawData->TotalIdxCount;
indexBuffer.map();
updateCmdBuffers = true;
}
// Upload data
ImDrawVert* vtxDst = (ImDrawVert*)vertexBuffer.mapped;
ImDrawIdx* idxDst = (ImDrawIdx*)indexBuffer.mapped;
for (int n = 0; n < imDrawData->CmdListsCount; n++) {
const ImDrawList* cmd_list = imDrawData->CmdLists[n];
memcpy(vtxDst, cmd_list->VtxBuffer.Data, cmd_list->VtxBuffer.Size * sizeof(ImDrawVert));
memcpy(idxDst, cmd_list->IdxBuffer.Data, cmd_list->IdxBuffer.Size * sizeof(ImDrawIdx));
vtxDst += cmd_list->VtxBuffer.Size;
idxDst += cmd_list->IdxBuffer.Size;
}
// Flush to make writes visible to GPU
vertexBuffer.flush();
indexBuffer.flush();
return updateCmdBuffers;
}
void UIOverlay::draw(const VkCommandBuffer commandBuffer)
{
ImDrawData* imDrawData = ImGui::GetDrawData();
int32_t vertexOffset = 0;
int32_t indexOffset = 0;
if ((!imDrawData) || (imDrawData->CmdListsCount == 0)) {
return;
}
ImGuiIO& io = ImGui::GetIO();
vkCmdBindPipeline(commandBuffer, VK_PIPELINE_BIND_POINT_GRAPHICS, pipeline);
vkCmdBindDescriptorSets(commandBuffer, VK_PIPELINE_BIND_POINT_GRAPHICS, pipelineLayout, 0, 1, &descriptorSet, 0, NULL);
pushConstBlock.scale = glm::vec2(2.0f / io.DisplaySize.x, 2.0f / io.DisplaySize.y);
pushConstBlock.translate = glm::vec2(-1.0f);
vkCmdPushConstants(commandBuffer, pipelineLayout, VK_SHADER_STAGE_VERTEX_BIT, 0, sizeof(PushConstBlock), &pushConstBlock);
VkDeviceSize offsets[1] = { 0 };
vkCmdBindVertexBuffers(commandBuffer, 0, 1, &vertexBuffer.buffer, offsets);
vkCmdBindIndexBuffer(commandBuffer, indexBuffer.buffer, 0, VK_INDEX_TYPE_UINT16);
for (int32_t i = 0; i < imDrawData->CmdListsCount; i++)
{
const ImDrawList* cmd_list = imDrawData->CmdLists[i];
for (int32_t j = 0; j < cmd_list->CmdBuffer.Size; j++)
{
const ImDrawCmd* pcmd = &cmd_list->CmdBuffer[j];
VkRect2D scissorRect;
scissorRect.offset.x = std::max((int32_t)(pcmd->ClipRect.x), 0);
scissorRect.offset.y = std::max((int32_t)(pcmd->ClipRect.y), 0);
scissorRect.extent.width = (uint32_t)(pcmd->ClipRect.z - pcmd->ClipRect.x);
scissorRect.extent.height = (uint32_t)(pcmd->ClipRect.w - pcmd->ClipRect.y);
vkCmdSetScissor(commandBuffer, 0, 1, &scissorRect);
vkCmdDrawIndexed(commandBuffer, pcmd->ElemCount, 1, indexOffset, vertexOffset, 0);
indexOffset += pcmd->ElemCount;
}
vertexOffset += cmd_list->VtxBuffer.Size;
}
}
void UIOverlay::resize(uint32_t width, uint32_t height)
{
ImGuiIO& io = ImGui::GetIO();
io.DisplaySize = ImVec2((float)(width), (float)(height));
}
void UIOverlay::freeResources()
{
vertexBuffer.destroy();
indexBuffer.destroy();
vkDestroyImageView(device->logicalDevice, fontView, nullptr);
vkDestroyImage(device->logicalDevice, fontImage, nullptr);
vkFreeMemory(device->logicalDevice, fontMemory, nullptr);
vkDestroySampler(device->logicalDevice, sampler, nullptr);
vkDestroyDescriptorSetLayout(device->logicalDevice, descriptorSetLayout, nullptr);
vkDestroyDescriptorPool(device->logicalDevice, descriptorPool, nullptr);
vkDestroyPipelineLayout(device->logicalDevice, pipelineLayout, nullptr);
vkDestroyPipeline(device->logicalDevice, pipeline, nullptr);
}
bool UIOverlay::header(const char *caption)
{
return ImGui::CollapsingHeader(caption, ImGuiTreeNodeFlags_DefaultOpen);
}
bool UIOverlay::checkBox(const char *caption, bool *value)
{
bool res = ImGui::Checkbox(caption, value);
if (res) { updated = true; };
return res;
}
bool UIOverlay::checkBox(const char *caption, int32_t *value)
{
bool val = (*value == 1);
bool res = ImGui::Checkbox(caption, &val);
*value = val;
if (res) { updated = true; };
return res;
}
bool UIOverlay::radioButton(const char* caption, bool value)
{
bool res = ImGui::RadioButton(caption, value);
if (res) { updated = true; };
return res;
}
bool UIOverlay::inputFloat(const char *caption, float *value, float step, uint32_t precision)
{
bool res = ImGui::InputFloat(caption, value, step, step * 10.0f, precision);
if (res) { updated = true; };
return res;
}
bool UIOverlay::sliderFloat(const char* caption, float* value, float min, float max)
{
bool res = ImGui::SliderFloat(caption, value, min, max);
if (res) { updated = true; };
return res;
}
bool UIOverlay::sliderInt(const char* caption, int32_t* value, int32_t min, int32_t max)
{
bool res = ImGui::SliderInt(caption, value, min, max);
if (res) { updated = true; };
return res;
}
bool UIOverlay::comboBox(const char *caption, int32_t *itemindex, std::vector<std::string> items)
{
if (items.empty()) {
return false;
}
std::vector<const char*> charitems;
charitems.reserve(items.size());
for (size_t i = 0; i < items.size(); i++) {
charitems.push_back(items[i].c_str());
}
uint32_t itemCount = static_cast<uint32_t>(charitems.size());
bool res = ImGui::Combo(caption, itemindex, &charitems[0], itemCount, itemCount);
if (res) { updated = true; };
return res;
}
bool UIOverlay::button(const char *caption)
{
bool res = ImGui::Button(caption);
if (res) { updated = true; };
return res;
}
bool UIOverlay::colorPicker(const char* caption, float* color) {
bool res = ImGui::ColorEdit4(caption, color, ImGuiColorEditFlags_NoInputs);
if (res) { updated = true; };
return res;
}
void UIOverlay::text(const char *formatstr, ...)
{
va_list args;
va_start(args, formatstr);
ImGui::TextV(formatstr, args);
va_end(args);
}
}

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/*
* UI overlay class using ImGui
*
* Copyright (C) 2017 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <vector>
#include <sstream>
#include <iomanip>
#include <vulkan/vulkan.h>
#include "VulkanTools.h"
#include "VulkanDebug.h"
#include "VulkanBuffer.h"
#include "VulkanDevice.h"
#include "../external/imgui/imgui.h"
#if defined(__ANDROID__)
#include "VulkanAndroid.h"
#endif
namespace vks
{
class UIOverlay
{
public:
vks::VulkanDevice *device;
VkQueue queue;
VkSampleCountFlagBits rasterizationSamples = VK_SAMPLE_COUNT_1_BIT;
uint32_t subpass = 0;
vks::Buffer vertexBuffer;
vks::Buffer indexBuffer;
int32_t vertexCount = 0;
int32_t indexCount = 0;
std::vector<VkPipelineShaderStageCreateInfo> shaders;
VkDescriptorPool descriptorPool;
VkDescriptorSetLayout descriptorSetLayout;
VkDescriptorSet descriptorSet;
VkPipelineLayout pipelineLayout;
VkPipeline pipeline;
VkDeviceMemory fontMemory = VK_NULL_HANDLE;
VkImage fontImage = VK_NULL_HANDLE;
VkImageView fontView = VK_NULL_HANDLE;
VkSampler sampler;
struct PushConstBlock {
glm::vec2 scale;
glm::vec2 translate;
} pushConstBlock;
bool visible = true;
bool updated = false;
float scale = 1.0f;
UIOverlay();
~UIOverlay();
void preparePipeline(const VkPipelineCache pipelineCache, const VkRenderPass renderPass, const VkFormat colorFormat, const VkFormat depthFormat);
void prepareResources();
bool update();
void draw(const VkCommandBuffer commandBuffer);
void resize(uint32_t width, uint32_t height);
void freeResources();
bool header(const char* caption);
bool checkBox(const char* caption, bool* value);
bool checkBox(const char* caption, int32_t* value);
bool radioButton(const char* caption, bool value);
bool inputFloat(const char* caption, float* value, float step, uint32_t precision);
bool sliderFloat(const char* caption, float* value, float min, float max);
bool sliderInt(const char* caption, int32_t* value, int32_t min, int32_t max);
bool comboBox(const char* caption, int32_t* itemindex, std::vector<std::string> items);
bool button(const char* caption);
bool colorPicker(const char* caption, float* color);
void text(const char* formatstr, ...);
};
}

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/*
* Vulkan glTF model and texture loading class based on tinyglTF (https://github.com/syoyo/tinygltf)
*
* Copyright (C) 2018 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#include <stdlib.h>
#include <string>
#include <fstream>
#include <vector>
#include "vulkan/vulkan.h"
#include "VulkanDevice.h"
#include <ktx.h>
#include <ktxvulkan.h>
#define GLM_FORCE_RADIANS
#define GLM_FORCE_DEPTH_ZERO_TO_ONE
#include <glm/glm.hpp>
#include <glm/gtc/matrix_transform.hpp>
#include <glm/gtc/type_ptr.hpp>
#define TINYGLTF_NO_STB_IMAGE_WRITE
#ifdef VK_USE_PLATFORM_ANDROID_KHR
#define TINYGLTF_ANDROID_LOAD_FROM_ASSETS
#endif
#include "tiny_gltf.h"
#if defined(__ANDROID__)
#include <android/asset_manager.h>
#endif
namespace vkglTF
{
enum DescriptorBindingFlags {
ImageBaseColor = 0x00000001,
ImageNormalMap = 0x00000002
};
extern VkDescriptorSetLayout descriptorSetLayoutImage;
extern VkDescriptorSetLayout descriptorSetLayoutUbo;
extern VkMemoryPropertyFlags memoryPropertyFlags;
extern uint32_t descriptorBindingFlags;
struct Node;
/*
glTF texture loading class
*/
struct Texture {
vks::VulkanDevice* device = nullptr;
VkImage image;
VkImageLayout imageLayout;
VkDeviceMemory deviceMemory;
VkImageView view;
uint32_t width, height;
uint32_t mipLevels;
uint32_t layerCount;
VkDescriptorImageInfo descriptor;
VkSampler sampler;
void updateDescriptor();
void destroy();
void fromglTfImage(tinygltf::Image& gltfimage, std::string path, vks::VulkanDevice* device, VkQueue copyQueue);
};
/*
glTF material class
*/
struct Material {
vks::VulkanDevice* device = nullptr;
enum AlphaMode { ALPHAMODE_OPAQUE, ALPHAMODE_MASK, ALPHAMODE_BLEND };
AlphaMode alphaMode = ALPHAMODE_OPAQUE;
float alphaCutoff = 1.0f;
float metallicFactor = 1.0f;
float roughnessFactor = 1.0f;
glm::vec4 baseColorFactor = glm::vec4(1.0f);
vkglTF::Texture* baseColorTexture = nullptr;
vkglTF::Texture* metallicRoughnessTexture = nullptr;
vkglTF::Texture* normalTexture = nullptr;
vkglTF::Texture* occlusionTexture = nullptr;
vkglTF::Texture* emissiveTexture = nullptr;
vkglTF::Texture* specularGlossinessTexture;
vkglTF::Texture* diffuseTexture;
VkDescriptorSet descriptorSet = VK_NULL_HANDLE;
Material(vks::VulkanDevice* device) : device(device) {};
void createDescriptorSet(VkDescriptorPool descriptorPool, VkDescriptorSetLayout descriptorSetLayout, uint32_t descriptorBindingFlags);
};
/*
glTF primitive
*/
struct Primitive {
uint32_t firstIndex;
uint32_t indexCount;
uint32_t firstVertex;
uint32_t vertexCount;
Material& material;
struct Dimensions {
glm::vec3 min = glm::vec3(FLT_MAX);
glm::vec3 max = glm::vec3(-FLT_MAX);
glm::vec3 size;
glm::vec3 center;
float radius;
} dimensions;
void setDimensions(glm::vec3 min, glm::vec3 max);
Primitive(uint32_t firstIndex, uint32_t indexCount, Material& material) : firstIndex(firstIndex), indexCount(indexCount), material(material) {};
};
/*
glTF mesh
*/
struct Mesh {
vks::VulkanDevice* device;
std::vector<Primitive*> primitives;
std::string name;
struct UniformBuffer {
VkBuffer buffer;
VkDeviceMemory memory;
VkDescriptorBufferInfo descriptor;
VkDescriptorSet descriptorSet = VK_NULL_HANDLE;
void* mapped;
} uniformBuffer;
struct UniformBlock {
glm::mat4 matrix;
glm::mat4 jointMatrix[64]{};
float jointcount{ 0 };
} uniformBlock;
Mesh(vks::VulkanDevice* device, glm::mat4 matrix);
~Mesh();
};
/*
glTF skin
*/
struct Skin {
std::string name;
Node* skeletonRoot = nullptr;
std::vector<glm::mat4> inverseBindMatrices;
std::vector<Node*> joints;
};
/*
glTF node
*/
struct Node {
Node* parent;
uint32_t index;
std::vector<Node*> children;
glm::mat4 matrix;
std::string name;
Mesh* mesh;
Skin* skin;
int32_t skinIndex = -1;
glm::vec3 translation{};
glm::vec3 scale{ 1.0f };
glm::quat rotation{};
glm::mat4 localMatrix();
glm::mat4 getMatrix();
void update();
~Node();
};
/*
glTF animation channel
*/
struct AnimationChannel {
enum PathType { TRANSLATION, ROTATION, SCALE };
PathType path;
Node* node;
uint32_t samplerIndex;
};
/*
glTF animation sampler
*/
struct AnimationSampler {
enum InterpolationType { LINEAR, STEP, CUBICSPLINE };
InterpolationType interpolation;
std::vector<float> inputs;
std::vector<glm::vec4> outputsVec4;
};
/*
glTF animation
*/
struct Animation {
std::string name;
std::vector<AnimationSampler> samplers;
std::vector<AnimationChannel> channels;
float start = std::numeric_limits<float>::max();
float end = std::numeric_limits<float>::min();
};
/*
glTF default vertex layout with easy Vulkan mapping functions
*/
enum class VertexComponent { Position, Normal, UV, Color, Tangent, Joint0, Weight0 };
struct Vertex {
glm::vec3 pos;
glm::vec3 normal;
glm::vec2 uv;
glm::vec4 color;
glm::vec4 joint0;
glm::vec4 weight0;
glm::vec4 tangent;
static VkVertexInputBindingDescription vertexInputBindingDescription;
static std::vector<VkVertexInputAttributeDescription> vertexInputAttributeDescriptions;
static VkPipelineVertexInputStateCreateInfo pipelineVertexInputStateCreateInfo;
static VkVertexInputBindingDescription inputBindingDescription(uint32_t binding);
static VkVertexInputAttributeDescription inputAttributeDescription(uint32_t binding, uint32_t location, VertexComponent component);
static std::vector<VkVertexInputAttributeDescription> inputAttributeDescriptions(uint32_t binding, const std::vector<VertexComponent> components);
/** @brief Returns the default pipeline vertex input state create info structure for the requested vertex components */
static VkPipelineVertexInputStateCreateInfo* getPipelineVertexInputState(const std::vector<VertexComponent> components);
};
enum FileLoadingFlags {
None = 0x00000000,
PreTransformVertices = 0x00000001,
PreMultiplyVertexColors = 0x00000002,
FlipY = 0x00000004,
DontLoadImages = 0x00000008
};
enum RenderFlags {
BindImages = 0x00000001,
RenderOpaqueNodes = 0x00000002,
RenderAlphaMaskedNodes = 0x00000004,
RenderAlphaBlendedNodes = 0x00000008
};
/*
glTF model loading and rendering class
*/
class Model {
private:
vkglTF::Texture* getTexture(uint32_t index);
vkglTF::Texture emptyTexture;
void createEmptyTexture(VkQueue transferQueue);
public:
vks::VulkanDevice* device;
VkDescriptorPool descriptorPool;
struct Vertices {
int count;
VkBuffer buffer;
VkDeviceMemory memory;
} vertices;
struct Indices {
int count;
VkBuffer buffer;
VkDeviceMemory memory;
} indices;
std::vector<Node*> nodes;
std::vector<Node*> linearNodes;
std::vector<Skin*> skins;
std::vector<Texture> textures;
std::vector<Material> materials;
std::vector<Animation> animations;
struct Dimensions {
glm::vec3 min = glm::vec3(FLT_MAX);
glm::vec3 max = glm::vec3(-FLT_MAX);
glm::vec3 size;
glm::vec3 center;
float radius;
} dimensions;
bool metallicRoughnessWorkflow = true;
bool buffersBound = false;
std::string path;
Model() {};
~Model();
void loadNode(vkglTF::Node* parent, const tinygltf::Node& node, uint32_t nodeIndex, const tinygltf::Model& model, std::vector<uint32_t>& indexBuffer, std::vector<Vertex>& vertexBuffer, float globalscale);
void loadSkins(tinygltf::Model& gltfModel);
void loadImages(tinygltf::Model& gltfModel, vks::VulkanDevice* device, VkQueue transferQueue);
void loadMaterials(tinygltf::Model& gltfModel);
void loadAnimations(tinygltf::Model& gltfModel);
void loadFromFile(std::string filename, vks::VulkanDevice* device, VkQueue transferQueue, uint32_t fileLoadingFlags = vkglTF::FileLoadingFlags::None, float scale = 1.0f);
void bindBuffers(VkCommandBuffer commandBuffer);
void drawNode(Node* node, VkCommandBuffer commandBuffer, uint32_t renderFlags = 0, VkPipelineLayout pipelineLayout = VK_NULL_HANDLE, uint32_t bindImageSet = 1);
void draw(VkCommandBuffer commandBuffer, uint32_t renderFlags = 0, VkPipelineLayout pipelineLayout = VK_NULL_HANDLE, uint32_t bindImageSet = 1);
void getNodeDimensions(Node* node, glm::vec3& min, glm::vec3& max);
void getSceneDimensions();
void updateAnimation(uint32_t index, float time);
Node* findNode(Node* parent, uint32_t index);
Node* nodeFromIndex(uint32_t index);
void prepareNodeDescriptor(vkglTF::Node* node, VkDescriptorSetLayout descriptorSetLayout);
};
}

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base/benchmark.hpp 100644
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/*
* Benchmark class
*
* Copyright (C) 2016-2017 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include <vector>
#include <string>
#include <algorithm>
#include <limits>
#include <functional>
#include <chrono>
#include <iomanip>
namespace vks
{
class Benchmark {
private:
FILE *stream;
VkPhysicalDeviceProperties deviceProps;
public:
bool active = false;
bool outputFrameTimes = false;
int outputFrames = -1; // -1 means no frames limit
uint32_t warmup = 1;
uint32_t duration = 10;
std::vector<double> frameTimes;
std::string filename = "";
double runtime = 0.0;
uint32_t frameCount = 0;
void run(std::function<void()> renderFunc, VkPhysicalDeviceProperties deviceProps) {
active = true;
this->deviceProps = deviceProps;
#if defined(_WIN32)
AttachConsole(ATTACH_PARENT_PROCESS);
freopen_s(&stream, "CONOUT$", "w+", stdout);
freopen_s(&stream, "CONOUT$", "w+", stderr);
#endif
std::cout << std::fixed << std::setprecision(3);
// Warm up phase to get more stable frame rates
{
double tMeasured = 0.0;
while (tMeasured < (warmup * 1000)) {
auto tStart = std::chrono::high_resolution_clock::now();
renderFunc();
auto tDiff = std::chrono::duration<double, std::milli>(std::chrono::high_resolution_clock::now() - tStart).count();
tMeasured += tDiff;
};
}
// Benchmark phase
{
while (runtime < (duration * 1000.0)) {
auto tStart = std::chrono::high_resolution_clock::now();
renderFunc();
auto tDiff = std::chrono::duration<double, std::milli>(std::chrono::high_resolution_clock::now() - tStart).count();
runtime += tDiff;
frameTimes.push_back(tDiff);
frameCount++;
if (outputFrames != -1 && outputFrames == frameCount) break;
};
std::cout << "Benchmark finished" << "\n";
std::cout << "device : " << deviceProps.deviceName << " (driver version: " << deviceProps.driverVersion << ")" << "\n";
std::cout << "runtime: " << (runtime / 1000.0) << "\n";
std::cout << "frames : " << frameCount << "\n";
std::cout << "fps : " << frameCount / (runtime / 1000.0) << "\n";
}
}
void saveResults() {
std::ofstream result(filename, std::ios::out);
if (result.is_open()) {
result << std::fixed << std::setprecision(4);
result << "device,driverversion,duration (ms),frames,fps" << "\n";
result << deviceProps.deviceName << "," << deviceProps.driverVersion << "," << runtime << "," << frameCount << "," << frameCount / (runtime / 1000.0) << "\n";
if (outputFrameTimes) {
result << "\n" << "frame,ms" << "\n";
for (size_t i = 0; i < frameTimes.size(); i++) {
result << i << "," << frameTimes[i] << "\n";
}
double tMin = *std::min_element(frameTimes.begin(), frameTimes.end());
double tMax = *std::max_element(frameTimes.begin(), frameTimes.end());
double tAvg = std::accumulate(frameTimes.begin(), frameTimes.end(), 0.0) / (double)frameTimes.size();
std::cout << "best : " << (1000.0 / tMin) << " fps (" << tMin << " ms)" << "\n";
std::cout << "worst : " << (1000.0 / tMax) << " fps (" << tMax << " ms)" << "\n";
std::cout << "avg : " << (1000.0 / tAvg) << " fps (" << tAvg << " ms)" << "\n";
std::cout << "\n";
}
result.flush();
#if defined(_WIN32)
FreeConsole();
#endif
}
}
};
}

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base/camera.hpp 100644
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/*
* Basic camera class
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#define GLM_FORCE_RADIANS
#define GLM_FORCE_DEPTH_ZERO_TO_ONE
#include <glm/glm.hpp>
#include <glm/gtc/quaternion.hpp>
#include <glm/gtc/matrix_transform.hpp>
class Camera
{
private:
float fov;
float znear, zfar;
void updateViewMatrix()
{
glm::mat4 rotM = glm::mat4(1.0f);
glm::mat4 transM;
rotM = glm::rotate(rotM, glm::radians(rotation.x * (flipY ? -1.0f : 1.0f)), glm::vec3(1.0f, 0.0f, 0.0f));
rotM = glm::rotate(rotM, glm::radians(rotation.y), glm::vec3(0.0f, 1.0f, 0.0f));
rotM = glm::rotate(rotM, glm::radians(rotation.z), glm::vec3(0.0f, 0.0f, 1.0f));
glm::vec3 translation = position;
if (flipY) {
translation.y *= -1.0f;
}
transM = glm::translate(glm::mat4(1.0f), translation);
if (type == CameraType::firstperson)
{
matrices.view = rotM * transM;
}
else
{
matrices.view = transM * rotM;
}
viewPos = glm::vec4(position, 0.0f) * glm::vec4(-1.0f, 1.0f, -1.0f, 1.0f);
updated = true;
};
public:
enum CameraType { lookat, firstperson };
CameraType type = CameraType::lookat;
glm::vec3 rotation = glm::vec3();
glm::vec3 position = glm::vec3();
glm::vec4 viewPos = glm::vec4();
float rotationSpeed = 1.0f;
float movementSpeed = 1.0f;
bool updated = false;
bool flipY = false;
struct
{
glm::mat4 perspective;
glm::mat4 view;
} matrices;
struct
{
bool left = false;
bool right = false;
bool up = false;
bool down = false;
} keys;
bool moving()
{
return keys.left || keys.right || keys.up || keys.down;
}
float getNearClip() {
return znear;
}
float getFarClip() {
return zfar;
}
void setPerspective(float fov, float aspect, float znear, float zfar)
{
this->fov = fov;
this->znear = znear;
this->zfar = zfar;
matrices.perspective = glm::perspective(glm::radians(fov), aspect, znear, zfar);
if (flipY) {
matrices.perspective[1][1] *= -1.0f;
}
};
void updateAspectRatio(float aspect)
{
matrices.perspective = glm::perspective(glm::radians(fov), aspect, znear, zfar);
if (flipY) {
matrices.perspective[1][1] *= -1.0f;
}
}
void setPosition(glm::vec3 position)
{
this->position = position;
updateViewMatrix();
}
void setRotation(glm::vec3 rotation)
{
this->rotation = rotation;
updateViewMatrix();
}
void rotate(glm::vec3 delta)
{
this->rotation += delta;
updateViewMatrix();
}
void setTranslation(glm::vec3 translation)
{
this->position = translation;
updateViewMatrix();
};
void translate(glm::vec3 delta)
{
this->position += delta;
updateViewMatrix();
}
void setRotationSpeed(float rotationSpeed)
{
this->rotationSpeed = rotationSpeed;
}
void setMovementSpeed(float movementSpeed)
{
this->movementSpeed = movementSpeed;
}
void update(float deltaTime)
{
updated = false;
if (type == CameraType::firstperson)
{
if (moving())
{
glm::vec3 camFront;
camFront.x = -cos(glm::radians(rotation.x)) * sin(glm::radians(rotation.y));
camFront.y = sin(glm::radians(rotation.x));
camFront.z = cos(glm::radians(rotation.x)) * cos(glm::radians(rotation.y));
camFront = glm::normalize(camFront);
float moveSpeed = deltaTime * movementSpeed;
if (keys.up)
position += camFront * moveSpeed;
if (keys.down)
position -= camFront * moveSpeed;
if (keys.left)
position -= glm::normalize(glm::cross(camFront, glm::vec3(0.0f, 1.0f, 0.0f))) * moveSpeed;
if (keys.right)
position += glm::normalize(glm::cross(camFront, glm::vec3(0.0f, 1.0f, 0.0f))) * moveSpeed;
}
}
updateViewMatrix();
};
// Update camera passing separate axis data (gamepad)
// Returns true if view or position has been changed
bool updatePad(glm::vec2 axisLeft, glm::vec2 axisRight, float deltaTime)
{
bool retVal = false;
if (type == CameraType::firstperson)
{
// Use the common console thumbstick layout
// Left = view, right = move
const float deadZone = 0.0015f;
const float range = 1.0f - deadZone;
glm::vec3 camFront;
camFront.x = -cos(glm::radians(rotation.x)) * sin(glm::radians(rotation.y));
camFront.y = sin(glm::radians(rotation.x));
camFront.z = cos(glm::radians(rotation.x)) * cos(glm::radians(rotation.y));
camFront = glm::normalize(camFront);
float moveSpeed = deltaTime * movementSpeed * 2.0f;
float rotSpeed = deltaTime * rotationSpeed * 50.0f;
// Move
if (fabsf(axisLeft.y) > deadZone)
{
float pos = (fabsf(axisLeft.y) - deadZone) / range;
position -= camFront * pos * ((axisLeft.y < 0.0f) ? -1.0f : 1.0f) * moveSpeed;
retVal = true;
}
if (fabsf(axisLeft.x) > deadZone)
{
float pos = (fabsf(axisLeft.x) - deadZone) / range;
position += glm::normalize(glm::cross(camFront, glm::vec3(0.0f, 1.0f, 0.0f))) * pos * ((axisLeft.x < 0.0f) ? -1.0f : 1.0f) * moveSpeed;
retVal = true;
}
// Rotate
if (fabsf(axisRight.x) > deadZone)
{
float pos = (fabsf(axisRight.x) - deadZone) / range;
rotation.y += pos * ((axisRight.x < 0.0f) ? -1.0f : 1.0f) * rotSpeed;
retVal = true;
}
if (fabsf(axisRight.y) > deadZone)
{
float pos = (fabsf(axisRight.y) - deadZone) / range;
rotation.x -= pos * ((axisRight.y < 0.0f) ? -1.0f : 1.0f) * rotSpeed;
retVal = true;
}
}
else
{
// todo: move code from example base class for look-at
}
if (retVal)
{
updateViewMatrix();
}
return retVal;
}
};

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/*
* View frustum culling class
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include <array>
#include <math.h>
#include <glm/glm.hpp>
namespace vks
{
class Frustum
{
public:
enum side { LEFT = 0, RIGHT = 1, TOP = 2, BOTTOM = 3, BACK = 4, FRONT = 5 };
std::array<glm::vec4, 6> planes;
void update(glm::mat4 matrix)
{
planes[LEFT].x = matrix[0].w + matrix[0].x;
planes[LEFT].y = matrix[1].w + matrix[1].x;
planes[LEFT].z = matrix[2].w + matrix[2].x;
planes[LEFT].w = matrix[3].w + matrix[3].x;
planes[RIGHT].x = matrix[0].w - matrix[0].x;
planes[RIGHT].y = matrix[1].w - matrix[1].x;
planes[RIGHT].z = matrix[2].w - matrix[2].x;
planes[RIGHT].w = matrix[3].w - matrix[3].x;
planes[TOP].x = matrix[0].w - matrix[0].y;
planes[TOP].y = matrix[1].w - matrix[1].y;
planes[TOP].z = matrix[2].w - matrix[2].y;
planes[TOP].w = matrix[3].w - matrix[3].y;
planes[BOTTOM].x = matrix[0].w + matrix[0].y;
planes[BOTTOM].y = matrix[1].w + matrix[1].y;
planes[BOTTOM].z = matrix[2].w + matrix[2].y;
planes[BOTTOM].w = matrix[3].w + matrix[3].y;
planes[BACK].x = matrix[0].w + matrix[0].z;
planes[BACK].y = matrix[1].w + matrix[1].z;
planes[BACK].z = matrix[2].w + matrix[2].z;
planes[BACK].w = matrix[3].w + matrix[3].z;
planes[FRONT].x = matrix[0].w - matrix[0].z;
planes[FRONT].y = matrix[1].w - matrix[1].z;
planes[FRONT].z = matrix[2].w - matrix[2].z;
planes[FRONT].w = matrix[3].w - matrix[3].z;
for (auto i = 0; i < planes.size(); i++)
{
float length = sqrtf(planes[i].x * planes[i].x + planes[i].y * planes[i].y + planes[i].z * planes[i].z);
planes[i] /= length;
}
}
bool checkSphere(glm::vec3 pos, float radius)
{
for (auto i = 0; i < planes.size(); i++)
{
if ((planes[i].x * pos.x) + (planes[i].y * pos.y) + (planes[i].z * pos.z) + planes[i].w <= -radius)
{
return false;
}
}
return true;
}
};
}

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/*
* Key codes for multiple platforms
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#if defined(_WIN32)
#define KEY_ESCAPE VK_ESCAPE
#define KEY_F1 VK_F1
#define KEY_F2 VK_F2
#define KEY_F3 VK_F3
#define KEY_F4 VK_F4
#define KEY_F5 VK_F5
#define KEY_W 0x57
#define KEY_A 0x41
#define KEY_S 0x53
#define KEY_D 0x44
#define KEY_P 0x50
#define KEY_SPACE 0x20
#define KEY_KPADD 0x6B
#define KEY_KPSUB 0x6D
#define KEY_B 0x42
#define KEY_F 0x46
#define KEY_L 0x4C
#define KEY_N 0x4E
#define KEY_O 0x4F
#define KEY_T 0x54
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
#define GAMEPAD_BUTTON_A 0x1000
#define GAMEPAD_BUTTON_B 0x1001
#define GAMEPAD_BUTTON_X 0x1002
#define GAMEPAD_BUTTON_Y 0x1003
#define GAMEPAD_BUTTON_L1 0x1004
#define GAMEPAD_BUTTON_R1 0x1005
#define GAMEPAD_BUTTON_START 0x1006
#define TOUCH_DOUBLE_TAP 0x1100
// for textoverlay example
#define KEY_SPACE 0x3E // AKEYCODE_SPACE
#define KEY_KPADD 0x9D // AKEYCODE_NUMPAD_ADD
#elif (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
#if !defined(VK_EXAMPLE_XCODE_GENERATED)
// For iOS and macOS pre-configured Xcode example project: Use character keycodes
// - Use numeric keys as optional alternative to function keys
#define KEY_DELETE 0x7F
#define KEY_ESCAPE 0x1B
#define KEY_F1 0xF704 // NSF1FunctionKey
#define KEY_F2 0xF705 // NSF2FunctionKey
#define KEY_F3 0xF706 // NSF3FunctionKey
#define KEY_F4 0xF707 // NSF4FunctionKey
#define KEY_1 '1'
#define KEY_2 '2'
#define KEY_3 '3'
#define KEY_4 '4'
#define KEY_W 'w'
#define KEY_A 'a'
#define KEY_S 's'
#define KEY_D 'd'
#define KEY_P 'p'
#define KEY_SPACE ' '
#define KEY_KPADD '+'
#define KEY_KPSUB '-'
#define KEY_B 'b'
#define KEY_F 'f'
#define KEY_L 'l'
#define KEY_N 'n'
#define KEY_O 'o'
#define KEY_Q 'q'
#define KEY_T 't'
#define KEY_Z 'z'
#else // defined(VK_EXAMPLE_XCODE_GENERATED)
// For cross-platform cmake-generated Xcode project: Use ANSI keyboard keycodes
// - Use numeric keys as optional alternative to function keys
// - Use main keyboard plus/minus instead of keypad plus/minus
#include <Carbon/Carbon.h>
#define KEY_DELETE kVK_Delete
#define KEY_ESCAPE kVK_Escape
#define KEY_F1 kVK_F1
#define KEY_F2 kVK_F2
#define KEY_F3 kVK_F3
#define KEY_F4 kVK_F4
#define KEY_1 kVK_ANSI_1
#define KEY_2 kVK_ANSI_2
#define KEY_3 kVK_ANSI_3
#define KEY_4 kVK_ANSI_4
#define KEY_W kVK_ANSI_W
#define KEY_A kVK_ANSI_A
#define KEY_S kVK_ANSI_S
#define KEY_D kVK_ANSI_D
#define KEY_P kVK_ANSI_P
#define KEY_SPACE kVK_Space
#define KEY_KPADD kVK_ANSI_Equal
#define KEY_KPSUB kVK_ANSI_Minus
#define KEY_B kVK_ANSI_B
#define KEY_F kVK_ANSI_F
#define KEY_L kVK_ANSI_L
#define KEY_N kVK_ANSI_N
#define KEY_O kVK_ANSI_O
#define KEY_Q kVK_ANSI_Q
#define KEY_T kVK_ANSI_T
#define KEY_Z kVK_ANSI_Z
#endif
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
#define KEY_ESCAPE DIKS_ESCAPE
#define KEY_F1 DIKS_F1
#define KEY_F2 DIKS_F2
#define KEY_F3 DIKS_F3
#define KEY_F4 DIKS_F4
#define KEY_W DIKS_SMALL_W
#define KEY_A DIKS_SMALL_A
#define KEY_S DIKS_SMALL_S
#define KEY_D DIKS_SMALL_D
#define KEY_P DIKS_SMALL_P
#define KEY_SPACE DIKS_SPACE
#define KEY_KPADD DIKS_PLUS_SIGN
#define KEY_KPSUB DIKS_MINUS_SIGN
#define KEY_B DIKS_SMALL_B
#define KEY_F DIKS_SMALL_F
#define KEY_L DIKS_SMALL_L
#define KEY_N DIKS_SMALL_N
#define KEY_O DIKS_SMALL_O
#define KEY_T DIKS_SMALL_T
#elif defined(VK_USE_PLATFORM_WAYLAND_KHR)
#include <linux/input.h>
// todo: hack for bloom example
#define KEY_ESCAPE KEY_ESC
#define KEY_KPADD KEY_KPPLUS
#define KEY_KPSUB KEY_KPMINUS
#elif defined(__linux__) || defined(__FreeBSD__)
#define KEY_ESCAPE 0x9
#define KEY_F1 0x43
#define KEY_F2 0x44
#define KEY_F3 0x45
#define KEY_F4 0x46
#define KEY_W 0x19
#define KEY_A 0x26
#define KEY_S 0x27
#define KEY_D 0x28
#define KEY_P 0x21
#define KEY_SPACE 0x41
#define KEY_KPADD 0x56
#define KEY_KPSUB 0x52
#define KEY_B 0x38
#define KEY_F 0x29
#define KEY_L 0x2E
#define KEY_N 0x39
#define KEY_O 0x20
#define KEY_T 0x1C
#endif

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/*
* Basic C++11 based thread pool with per-thread job queues
*
* Copyright (C) 2016 by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#include <vector>
#include <thread>
#include <queue>
#include <mutex>
#include <condition_variable>
#include <functional>
// make_unique is not available in C++11
// Taken from Herb Sutter's blog (https://herbsutter.com/gotw/_102/)
template<typename T, typename ...Args>
std::unique_ptr<T> make_unique(Args&& ...args)
{
return std::unique_ptr<T>(new T(std::forward<Args>(args)...));
}
namespace vks
{
class Thread
{
private:
bool destroying = false;
std::thread worker;
std::queue<std::function<void()>> jobQueue;
std::mutex queueMutex;
std::condition_variable condition;
// Loop through all remaining jobs
void queueLoop()
{
while (true)
{
std::function<void()> job;
{
std::unique_lock<std::mutex> lock(queueMutex);
condition.wait(lock, [this] { return !jobQueue.empty() || destroying; });
if (destroying)
{
break;
}
job = jobQueue.front();
}
job();
{
std::lock_guard<std::mutex> lock(queueMutex);
jobQueue.pop();
condition.notify_one();
}
}
}
public:
Thread()
{
worker = std::thread(&Thread::queueLoop, this);
}
~Thread()
{
if (worker.joinable())
{
wait();
queueMutex.lock();
destroying = true;
condition.notify_one();
queueMutex.unlock();
worker.join();
}
}
// Add a new job to the thread's queue
void addJob(std::function<void()> function)
{
std::lock_guard<std::mutex> lock(queueMutex);
jobQueue.push(std::move(function));
condition.notify_one();
}
// Wait until all work items have been finished
void wait()
{
std::unique_lock<std::mutex> lock(queueMutex);
condition.wait(lock, [this]() { return jobQueue.empty(); });
}
};
class ThreadPool
{
public:
std::vector<std::unique_ptr<Thread>> threads;
// Sets the number of threads to be allocated in this pool
void setThreadCount(uint32_t count)
{
threads.clear();
for (auto i = 0; i < count; i++)
{
threads.push_back(make_unique<Thread>());
}
}
// Wait until all threads have finished their work items
void wait()
{
for (auto &thread : threads)
{
thread->wait();
}
}
};
}

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/*
* Vulkan Example base class
*
* Copyright (C) by Sascha Willems - www.saschawillems.de
*
* This code is licensed under the MIT license (MIT) (http://opensource.org/licenses/MIT)
*/
#pragma once
#ifdef _WIN32
#pragma comment(linker, "/subsystem:windows")
#include <windows.h>
#include <fcntl.h>
#include <io.h>
#include <ShellScalingAPI.h>
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
#include <android/native_activity.h>
#include <android/asset_manager.h>
#include <android_native_app_glue.h>
#include <sys/system_properties.h>
#include "VulkanAndroid.h"
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
#include <directfb.h>
#elif defined(VK_USE_PLATFORM_WAYLAND_KHR)
#include <wayland-client.h>
#include "xdg-shell-client-protocol.h"
#elif defined(_DIRECT2DISPLAY)
//
#elif defined(VK_USE_PLATFORM_XCB_KHR)
#include <xcb/xcb.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <vector>
#include <array>
#include <unordered_map>
#include <numeric>
#include <ctime>
#include <iostream>
#include <chrono>
#include <random>
#include <algorithm>
#include <sys/stat.h>
#define GLM_FORCE_RADIANS
#define GLM_FORCE_DEPTH_ZERO_TO_ONE
#define GLM_ENABLE_EXPERIMENTAL
#include <glm/glm.hpp>
#include <glm/gtc/matrix_transform.hpp>
#include <glm/gtc/matrix_inverse.hpp>
#include <glm/gtc/type_ptr.hpp>
#include <string>
#include <numeric>
#include <array>
#include "vulkan/vulkan.h"
#include "CommandLineParser.hpp"
#include "keycodes.hpp"
#include "VulkanTools.h"
#include "VulkanDebug.h"
#include "VulkanUIOverlay.h"
#include "VulkanSwapChain.h"
#include "VulkanBuffer.h"
#include "VulkanDevice.h"
#include "VulkanTexture.h"
#include "VulkanInitializers.hpp"
#include "camera.hpp"
#include "benchmark.hpp"
class VulkanExampleBase
{
private:
std::string getWindowTitle();
uint32_t destWidth;
uint32_t destHeight;
bool resizing = false;
void windowResize();
void handleMouseMove(int32_t x, int32_t y);
void nextFrame();
void updateOverlay();
void createPipelineCache();
void createCommandPool();
void createSynchronizationPrimitives();
void initSwapchain();
void setupSwapChain();
void createCommandBuffers();
void destroyCommandBuffers();
std::string shaderDir = "glsl";
protected:
// Returns the path to the root of the glsl or hlsl shader directory.
std::string getShadersPath() const;
// Returns the path to the root of the homework glsl or hlsl shader directory.
std::string getHomeworkShadersPath() const;
// Frame counter to display fps
uint32_t frameCounter = 0;
uint32_t lastFPS = 0;
std::chrono::time_point<std::chrono::high_resolution_clock> lastTimestamp, tPrevEnd;
// Vulkan instance, stores all per-application states
VkInstance instance;
std::vector<std::string> supportedInstanceExtensions;
// Physical device (GPU) that Vulkan will use
VkPhysicalDevice physicalDevice;
// Stores physical device properties (for e.g. checking device limits)
VkPhysicalDeviceProperties deviceProperties;
// Stores the features available on the selected physical device (for e.g. checking if a feature is available)
VkPhysicalDeviceFeatures deviceFeatures;
// Stores all available memory (type) properties for the physical device
VkPhysicalDeviceMemoryProperties deviceMemoryProperties;
/** @brief Set of physical device features to be enabled for this example (must be set in the derived constructor) */
VkPhysicalDeviceFeatures enabledFeatures{};
/** @brief Set of device extensions to be enabled for this example (must be set in the derived constructor) */
std::vector<const char*> enabledDeviceExtensions;
std::vector<const char*> enabledInstanceExtensions;
/** @brief Optional pNext structure for passing extension structures to device creation */
void* deviceCreatepNextChain = nullptr;
/** @brief Logical device, application's view of the physical device (GPU) */
VkDevice device;
// Handle to the device graphics queue that command buffers are submitted to
VkQueue queue;
// Depth buffer format (selected during Vulkan initialization)
VkFormat depthFormat;
// Command buffer pool
VkCommandPool cmdPool;
/** @brief Pipeline stages used to wait at for graphics queue submissions */
VkPipelineStageFlags submitPipelineStages = VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT;
// Contains command buffers and semaphores to be presented to the queue
VkSubmitInfo submitInfo;
// Command buffers used for rendering
std::vector<VkCommandBuffer> drawCmdBuffers;
// Global render pass for frame buffer writes
VkRenderPass renderPass = VK_NULL_HANDLE;
// List of available frame buffers (same as number of swap chain images)
std::vector<VkFramebuffer>frameBuffers;
// Active frame buffer index
uint32_t currentBuffer = 0;
// Descriptor set pool
VkDescriptorPool descriptorPool = VK_NULL_HANDLE;
// List of shader modules created (stored for cleanup)
std::vector<VkShaderModule> shaderModules;
// Pipeline cache object
VkPipelineCache pipelineCache;
// Wraps the swap chain to present images (framebuffers) to the windowing system
VulkanSwapChain swapChain;
// Synchronization semaphores
struct {
// Swap chain image presentation
VkSemaphore presentComplete;
// Command buffer submission and execution
VkSemaphore renderComplete;
} semaphores;
std::vector<VkFence> waitFences;
public:
bool prepared = false;
bool resized = false;
bool viewUpdated = false;
uint32_t width = 1280;
uint32_t height = 720;
vks::UIOverlay UIOverlay;
CommandLineParser commandLineParser;
/** @brief Last frame time measured using a high performance timer (if available) */
float frameTimer = 1.0f;
vks::Benchmark benchmark;
/** @brief Encapsulated physical and logical vulkan device */
vks::VulkanDevice *vulkanDevice;
/** @brief Example settings that can be changed e.g. by command line arguments */
struct Settings {
/** @brief Activates validation layers (and message output) when set to true */
bool validation = false;
/** @brief Set to true if fullscreen mode has been requested via command line */
bool fullscreen = false;
/** @brief Set to true if v-sync will be forced for the swapchain */
bool vsync = false;
/** @brief Enable UI overlay */
bool overlay = true;
} settings;
VkClearColorValue defaultClearColor = { { 0.025f, 0.025f, 0.025f, 1.0f } };
static std::vector<const char*> args;
// Defines a frame rate independent timer value clamped from -1.0...1.0
// For use in animations, rotations, etc.
float timer = 0.0f;
// Multiplier for speeding up (or slowing down) the global timer
float timerSpeed = 0.25f;
bool paused = false;
Camera camera;
glm::vec2 mousePos;
std::string title = "Vulkan Example";
std::string name = "vulkanExample";
uint32_t apiVersion = VK_API_VERSION_1_0;
struct {
VkImage image;
VkDeviceMemory mem;
VkImageView view;
} depthStencil;
struct {
glm::vec2 axisLeft = glm::vec2(0.0f);
glm::vec2 axisRight = glm::vec2(0.0f);
} gamePadState;
struct {
bool left = false;
bool right = false;
bool middle = false;
} mouseButtons;
// OS specific
#if defined(_WIN32)
HWND window;
HINSTANCE windowInstance;
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
// true if application has focused, false if moved to background
bool focused = false;
struct TouchPos {
int32_t x;
int32_t y;
} touchPos;
bool touchDown = false;
double touchTimer = 0.0;
int64_t lastTapTime = 0;
#elif (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
void* view;
#if defined(VK_EXAMPLE_XCODE_GENERATED)
bool quit = false;
#endif
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
bool quit = false;
IDirectFB *dfb = nullptr;
IDirectFBDisplayLayer *layer = nullptr;
IDirectFBWindow *window = nullptr;
IDirectFBSurface *surface = nullptr;
IDirectFBEventBuffer *event_buffer = nullptr;
#elif defined(VK_USE_PLATFORM_WAYLAND_KHR)
wl_display *display = nullptr;
wl_registry *registry = nullptr;
wl_compositor *compositor = nullptr;
struct xdg_wm_base *shell = nullptr;
wl_seat *seat = nullptr;
wl_pointer *pointer = nullptr;
wl_keyboard *keyboard = nullptr;
wl_surface *surface = nullptr;
struct xdg_surface *xdg_surface;
struct xdg_toplevel *xdg_toplevel;
bool quit = false;
bool configured = false;
#elif defined(_DIRECT2DISPLAY)
bool quit = false;
#elif defined(VK_USE_PLATFORM_XCB_KHR)
bool quit = false;
xcb_connection_t *connection;
xcb_screen_t *screen;
xcb_window_t window;
xcb_intern_atom_reply_t *atom_wm_delete_window;
#elif defined(VK_USE_PLATFORM_HEADLESS_EXT)
bool quit = false;
#endif
VulkanExampleBase(bool enableValidation = false);
virtual ~VulkanExampleBase();
/** @brief Setup the vulkan instance, enable required extensions and connect to the physical device (GPU) */
bool initVulkan();
#if defined(_WIN32)
void setupConsole(std::string title);
void setupDPIAwareness();
HWND setupWindow(HINSTANCE hinstance, WNDPROC wndproc);
void handleMessages(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam);
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
static int32_t handleAppInput(struct android_app* app, AInputEvent* event);
static void handleAppCommand(android_app* app, int32_t cmd);
#elif (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
void* setupWindow(void* view);
void displayLinkOutputCb();
void mouseDragged(float x, float y);
void windowWillResize(float x, float y);
void windowDidResize();
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
IDirectFBSurface *setupWindow();
void handleEvent(const DFBWindowEvent *event);
#elif defined(VK_USE_PLATFORM_WAYLAND_KHR)
struct xdg_surface *setupWindow();
void initWaylandConnection();
void setSize(int width, int height);
static void registryGlobalCb(void *data, struct wl_registry *registry,
uint32_t name, const char *interface, uint32_t version);
void registryGlobal(struct wl_registry *registry, uint32_t name,
const char *interface, uint32_t version);
static void registryGlobalRemoveCb(void *data, struct wl_registry *registry,
uint32_t name);
static void seatCapabilitiesCb(void *data, wl_seat *seat, uint32_t caps);
void seatCapabilities(wl_seat *seat, uint32_t caps);
static void pointerEnterCb(void *data, struct wl_pointer *pointer,
uint32_t serial, struct wl_surface *surface, wl_fixed_t sx,
wl_fixed_t sy);
static void pointerLeaveCb(void *data, struct wl_pointer *pointer,
uint32_t serial, struct wl_surface *surface);
static void pointerMotionCb(void *data, struct wl_pointer *pointer,
uint32_t time, wl_fixed_t sx, wl_fixed_t sy);
void pointerMotion(struct wl_pointer *pointer,
uint32_t time, wl_fixed_t sx, wl_fixed_t sy);
static void pointerButtonCb(void *data, struct wl_pointer *wl_pointer,
uint32_t serial, uint32_t time, uint32_t button, uint32_t state);
void pointerButton(struct wl_pointer *wl_pointer,
uint32_t serial, uint32_t time, uint32_t button, uint32_t state);
static void pointerAxisCb(void *data, struct wl_pointer *wl_pointer,
uint32_t time, uint32_t axis, wl_fixed_t value);
void pointerAxis(struct wl_pointer *wl_pointer,
uint32_t time, uint32_t axis, wl_fixed_t value);
static void keyboardKeymapCb(void *data, struct wl_keyboard *keyboard,
uint32_t format, int fd, uint32_t size);
static void keyboardEnterCb(void *data, struct wl_keyboard *keyboard,
uint32_t serial, struct wl_surface *surface, struct wl_array *keys);
static void keyboardLeaveCb(void *data, struct wl_keyboard *keyboard,
uint32_t serial, struct wl_surface *surface);
static void keyboardKeyCb(void *data, struct wl_keyboard *keyboard,
uint32_t serial, uint32_t time, uint32_t key, uint32_t state);
void keyboardKey(struct wl_keyboard *keyboard,
uint32_t serial, uint32_t time, uint32_t key, uint32_t state);
static void keyboardModifiersCb(void *data, struct wl_keyboard *keyboard,
uint32_t serial, uint32_t mods_depressed, uint32_t mods_latched,
uint32_t mods_locked, uint32_t group);
#elif defined(_DIRECT2DISPLAY)
//
#elif defined(VK_USE_PLATFORM_XCB_KHR)
xcb_window_t setupWindow();
void initxcbConnection();
void handleEvent(const xcb_generic_event_t *event);
#else
void setupWindow();
#endif
/** @brief (Virtual) Creates the application wide Vulkan instance */
virtual VkResult createInstance(bool enableValidation);
/** @brief (Pure virtual) Render function to be implemented by the sample application */
virtual void render() = 0;
/** @brief (Virtual) Called when the camera view has changed */
virtual void viewChanged();
/** @brief (Virtual) Called after a key was pressed, can be used to do custom key handling */
virtual void keyPressed(uint32_t);
/** @brief (Virtual) Called after the mouse cursor moved and before internal events (like camera rotation) is handled */
virtual void mouseMoved(double x, double y, bool &handled);
/** @brief (Virtual) Called when the window has been resized, can be used by the sample application to recreate resources */
virtual void windowResized();
/** @brief (Virtual) Called when resources have been recreated that require a rebuild of the command buffers (e.g. frame buffer), to be implemented by the sample application */
virtual void buildCommandBuffers();
/** @brief (Virtual) Setup default depth and stencil views */
virtual void setupDepthStencil();
/** @brief (Virtual) Setup default framebuffers for all requested swapchain images */
virtual void setupFrameBuffer();
/** @brief (Virtual) Setup a default renderpass */
virtual void setupRenderPass();
/** @brief (Virtual) Called after the physical device features have been read, can be used to set features to enable on the device */
virtual void getEnabledFeatures();
/** @brief (Virtual) Called after the physical device extensions have been read, can be used to enable extensions based on the supported extension listing*/
virtual void getEnabledExtensions();
/** @brief Prepares all Vulkan resources and functions required to run the sample */
virtual void prepare();
/** @brief Loads a SPIR-V shader file for the given shader stage */
VkPipelineShaderStageCreateInfo loadShader(std::string fileName, VkShaderStageFlagBits stage);
/** @brief Entry point for the main render loop */
void renderLoop();
/** @brief Adds the drawing commands for the ImGui overlay to the given command buffer */
void drawUI(const VkCommandBuffer commandBuffer);
/** Prepare the next frame for workload submission by acquiring the next swap chain image */
void prepareFrame();
/** @brief Presents the current image to the swap chain */
void submitFrame();
/** @brief (Virtual) Default image acquire + submission and command buffer submission function */
virtual void renderFrame();
/** @brief (Virtual) Called when the UI overlay is updating, can be used to add custom elements to the overlay */
virtual void OnUpdateUIOverlay(vks::UIOverlay *overlay);
#if defined(_WIN32)
virtual void OnHandleMessage(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam);
#endif
};
// OS specific macros for the example main entry points
#if defined(_WIN32)
// Windows entry point
#define VULKAN_EXAMPLE_MAIN() \
VulkanExample *vulkanExample; \
LRESULT CALLBACK WndProc(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam) \
{ \
if (vulkanExample != NULL) \
{ \
vulkanExample->handleMessages(hWnd, uMsg, wParam, lParam); \
} \
return (DefWindowProc(hWnd, uMsg, wParam, lParam)); \
} \
int APIENTRY WinMain(HINSTANCE hInstance, HINSTANCE, LPSTR, int) \
{ \
for (int32_t i = 0; i < __argc; i++) { VulkanExample::args.push_back(__argv[i]); }; \
vulkanExample = new VulkanExample(); \
vulkanExample->initVulkan(); \
vulkanExample->setupWindow(hInstance, WndProc); \
vulkanExample->prepare(); \
vulkanExample->renderLoop(); \
delete(vulkanExample); \
return 0; \
}
#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
// Android entry point
#define VULKAN_EXAMPLE_MAIN() \
VulkanExample *vulkanExample; \
void android_main(android_app* state) \
{ \
vulkanExample = new VulkanExample(); \
state->userData = vulkanExample; \
state->onAppCmd = VulkanExample::handleAppCommand; \
state->onInputEvent = VulkanExample::handleAppInput; \
androidApp = state; \
vks::android::getDeviceConfig(); \
vulkanExample->renderLoop(); \
delete(vulkanExample); \
}
#elif defined(_DIRECT2DISPLAY)
// Linux entry point with direct to display wsi
#define VULKAN_EXAMPLE_MAIN() \
VulkanExample *vulkanExample; \
static void handleEvent() \
{ \
} \
int main(const int argc, const char *argv[]) \
{ \
for (size_t i = 0; i < argc; i++) { VulkanExample::args.push_back(argv[i]); }; \
vulkanExample = new VulkanExample(); \
vulkanExample->initVulkan(); \
vulkanExample->prepare(); \
vulkanExample->renderLoop(); \
delete(vulkanExample); \
return 0; \
}
#elif defined(VK_USE_PLATFORM_DIRECTFB_EXT)
#define VULKAN_EXAMPLE_MAIN() \
VulkanExample *vulkanExample; \
static void handleEvent(const DFBWindowEvent *event) \
{ \
if (vulkanExample != NULL) \
{ \
vulkanExample->handleEvent(event); \
} \
} \
int main(const int argc, const char *argv[]) \
{ \
for (size_t i = 0; i < argc; i++) { VulkanExample::args.push_back(argv[i]); }; \
vulkanExample = new VulkanExample(); \
vulkanExample->initVulkan(); \
vulkanExample->setupWindow(); \
vulkanExample->prepare(); \
vulkanExample->renderLoop(); \
delete(vulkanExample); \
return 0; \
}
#elif (defined(VK_USE_PLATFORM_WAYLAND_KHR) || defined(VK_USE_PLATFORM_HEADLESS_EXT))
#define VULKAN_EXAMPLE_MAIN() \
VulkanExample *vulkanExample; \
int main(const int argc, const char *argv[]) \
{ \
for (size_t i = 0; i < argc; i++) { VulkanExample::args.push_back(argv[i]); }; \
vulkanExample = new VulkanExample(); \
vulkanExample->initVulkan(); \
vulkanExample->setupWindow(); \
vulkanExample->prepare(); \
vulkanExample->renderLoop(); \
delete(vulkanExample); \
return 0; \
}
#elif defined(VK_USE_PLATFORM_XCB_KHR)
#define VULKAN_EXAMPLE_MAIN() \
VulkanExample *vulkanExample; \
static void handleEvent(const xcb_generic_event_t *event) \
{ \
if (vulkanExample != NULL) \
{ \
vulkanExample->handleEvent(event); \
} \
} \
int main(const int argc, const char *argv[]) \
{ \
for (size_t i = 0; i < argc; i++) { VulkanExample::args.push_back(argv[i]); }; \
vulkanExample = new VulkanExample(); \
vulkanExample->initVulkan(); \
vulkanExample->setupWindow(); \
vulkanExample->prepare(); \
vulkanExample->renderLoop(); \
delete(vulkanExample); \
return 0; \
}
#elif (defined(VK_USE_PLATFORM_IOS_MVK) || defined(VK_USE_PLATFORM_MACOS_MVK))
#if defined(VK_EXAMPLE_XCODE_GENERATED)
#define VULKAN_EXAMPLE_MAIN() \
VulkanExample *vulkanExample; \
int main(const int argc, const char *argv[]) \
{ \
@autoreleasepool \
{ \
for (size_t i = 0; i < argc; i++) { VulkanExample::args.push_back(argv[i]); }; \
vulkanExample = new VulkanExample(); \
vulkanExample->initVulkan(); \
vulkanExample->setupWindow(nullptr); \
vulkanExample->prepare(); \
vulkanExample->renderLoop(); \
delete(vulkanExample); \
} \
return 0; \
}
#else
#define VULKAN_EXAMPLE_MAIN()
#endif
#endif

31
download_assets.py 100644
View File

@ -0,0 +1,31 @@
#!/usr/bin/env python3
import sys
from urllib.request import urlretrieve
from zipfile import ZipFile
ASSET_PACK_URL = 'http://vulkan.gpuinfo.org/downloads/vulkan_asset_pack_gltf.zip'
ASSET_PACK_FILE_NAME = 'vulkan_asset_pack_gltf.zip'
print("Downloading asset pack from '%s'" % ASSET_PACK_URL)
def reporthook(blocknum, blocksize, totalsize):
bytesread = blocknum * blocksize
if totalsize > 0:
percent = bytesread * 1e2 / totalsize
s = "\r%5.1f%% (%*d / %d bytes)" % (percent, len(str(totalsize)), bytesread, totalsize)
sys.stderr.write(s)
if bytesread >= totalsize:
sys.stderr.write("\n")
else:
sys.stderr.write("read %d\n" % (bytesread,))
urlretrieve(ASSET_PACK_URL, ASSET_PACK_FILE_NAME, reporthook)
print("Download finished")
print("Extracting assets")
zip = ZipFile(ASSET_PACK_FILE_NAME, 'r')
zip.extractall("./")
zip.close()

34
external/glm/.appveyor.yml vendored 100644
View File

@ -0,0 +1,34 @@
clone_folder: c:\dev\glm-cmake
os:
- Visual Studio 2013
platform:
- x86
- x86_64
build_script:
- md build_pure_11
- cd build_pure_11
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_LANG_EXTENSIONS=ON -DGLM_TEST_FORCE_PURE=ON ..
- cmake --build . --config Debug
- cmake --build . --config Release
- cd ..
- md build_simd_11
- cd build_simd_11
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_LANG_EXTENSIONS=ON ..
- cmake --build . --config Debug
- cmake --build . --config Release
- cd ..
- md build_pure_98
- cd build_pure_98
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON -DGLM_TEST_FORCE_PURE=ON ..
- cmake --build . --config Debug
- cmake --build . --config Release
- cd ..
- md build_simd_98
- cd build_simd_98
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON ..
- cmake --build . --config Debug
- cmake --build . --config Release
- cd ..

56
external/glm/.gitignore vendored 100644
View File

@ -0,0 +1,56 @@
# Compiled Object files
*.slo
*.lo
*.o
*.obj
# Precompiled Headers
*.gch
*.pch
# Compiled Dynamic libraries
*.so
*.dylib
*.dll
# Fortran module files
*.mod
# Compiled Static libraries
*.lai
*.la
*.a
*.lib
# Executables
*.exe
*.out
*.app
# CMake
CMakeCache.txt
CMakeFiles
cmake_install.cmake
install_manifest.txt
*.cmake
# ^ May need to add future .cmake files as exceptions
# Test logs
Testing/*
# Test input
test/gtc/*.dds
# Project Files
Makefile
*.cbp
*.user
# Misc.
*.log
# local build(s)
build*
/.vs
/CMakeSettings.json

84
external/glm/.travis.yml vendored 100644
View File

@ -0,0 +1,84 @@
language: cpp
os:
- linux
- osx
matrix:
include:
- compiler: gcc
addons:
apt:
sources:
- ubuntu-toolchain-r-test
packages:
- g++-4.9
env: COMPILER=g++-4.9
- compiler: clang
addons:
apt:
sources:
- ubuntu-toolchain-r-test
- llvm-toolchain-precise-3.8
packages:
- clang-3.8
env: COMPILER=clang++-3.8
compiler:
- clang
before_script:
script:
- mkdir ./build_pure_11
- cd ./build_pure_11
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Release -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_11=ON -DGLM_TEST_FORCE_PURE=ON ..
- cmake --build .
- ctest
- cd ..
- mkdir ./build_pure_98
- cd ./build_pure_98
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Release -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON -DGLM_TEST_FORCE_PURE=ON ..
- cmake --build .
- ctest
- cd ..
- mkdir ./build_pure_11_debug
- cd ./build_pure_11_debug
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Debug -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_11=ON -DGLM_TEST_FORCE_PURE=ON ..
- cmake --build .
- ctest
- cd ..
- mkdir ./build_pure_98_debug
- cd ./build_pure_98_debug
- cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Debug -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON -DGLM_TEST_FORCE_PURE=ON ..
- cmake --build .
- ctest
- cd ..
- mkdir ./build_simd_11
- cd ./build_simd_11
- if [[ $TRAVIS_OS_NAME == 'osx' ]]; then cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Release -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_11=ON -DGLM_TEST_ENABLE_SIMD_SSE3=ON ..; else cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Release -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_11=ON -DGLM_TEST_ENABLE_SIMD_AVX=ON ..; fi
- cmake --build .
- ctest
- cd ..
- mkdir ./build_simd_98
- cd ./build_simd_98
- if [[ $TRAVIS_OS_NAME == 'osx' ]]; then cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Release -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON -DGLM_TEST_ENABLE_SIMD_SSE3=ON ..; else cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Release -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON -DGLM_TEST_ENABLE_SIMD_AVX=ON ..; fi
- cmake --build .
- ctest
- cd ..
- mkdir ./build_simd_11_debug
- cd ./build_simd_11_debug
- if [[ $TRAVIS_OS_NAME == 'osx' ]]; then cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Debug -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_11=ON -DGLM_TEST_ENABLE_SIMD_SSE3=ON ..; else cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Debug -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_11=ON -DGLM_TEST_ENABLE_SIMD_AVX=ON ..; fi
- cmake --build .
- ctest
- cd ..
- mkdir ./build_simd_98_debug
- cd ./build_simd_98_debug
- if [[ $TRAVIS_OS_NAME == 'osx' ]]; then cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Debug -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON -DGLM_TEST_ENABLE_SIMD_SSE3=ON ..; else cmake -DCMAKE_CXX_COMPILER=$COMPILER -DCMAKE_BUILD_TYPE=Debug -DGLM_TEST_ENABLE=ON -DGLM_TEST_ENABLE_CXX_98=ON -DGLM_TEST_ENABLE_SIMD_AVX=ON ..; fi
- cmake --build .
- ctest
- cd ..

221
external/glm/CMakeLists.txt vendored 100644
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@ -0,0 +1,221 @@
cmake_minimum_required(VERSION 2.6 FATAL_ERROR)
cmake_policy(VERSION 2.6)
if (NOT CMAKE_VERSION VERSION_LESS "3.1")
cmake_policy(SET CMP0054 NEW)
endif()
project(glm)
set(GLM_VERSION "0.9.9")
list(APPEND CMAKE_MODULE_PATH "${CMAKE_CURRENT_SOURCE_DIR}/cmake")
include(GNUInstallDirs)
include(CMakePackageConfigHelpers)
enable_testing()
add_definitions(-D_CRT_SECURE_NO_WARNINGS -g -Weverything -Wpedantic -Werror -Wno-padded -Wno-c++98-compat -Wno-documentation -std=c++11)
option(GLM_STATIC_LIBRARY_ENABLE "GLM static library" OFF)
if(GLM_STATIC_LIBRARY_ENABLE)
message(STATUS "GLM is a header only library, no need to build it. Set the option GLM_STATIC_LIBRARY_ENABLE with ON to build an optional static library")
endif()
option(GLM_DYNAMIC_LIBRARY_ENABLE "GLM dynamic library" OFF)
if(GLM_DYNAMIC_LIBRARY_ENABLE)
message(STATUS "GLM is a header only library, no need to build it. Set the option GLM_DYNAMIC_LIBRARY_ENABLE with ON to build an optional dynamic library")
endif()
option(GLM_INSTALL_ENABLE "GLM install" ON)
option(GLM_TEST_ENABLE "GLM test" OFF)
if(NOT GLM_TEST_ENABLE)
message(STATUS "GLM is a header only library, no need to build it. Set the option GLM_TEST_ENABLE with ON to build and run the test bench")
endif()
option(GLM_TEST_ENABLE_FAST_MATH "Enable fast math optimizations" OFF)
if(("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang") OR ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU") OR (("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Intel") AND UNIX))
option(GLM_TEST_ENABLE_CXX_98 "Enable C++ 98" OFF)
option(GLM_TEST_ENABLE_CXX_0X "Enable C++ 0x" OFF)
option(GLM_TEST_ENABLE_CXX_11 "Enable C++ 11" OFF)
option(GLM_TEST_ENABLE_CXX_1Y "Enable C++ 1y" OFF)
option(GLM_TEST_ENABLE_CXX_14 "Enable C++ 14" OFF)
option(GLM_TEST_ENABLE_CXX_1Z "Enable C++ 1z" OFF)
if(GLM_TEST_ENABLE_CXX_1Z)
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LANGUAGE_STANDARD "c++1z")
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LIBRARY "libc++")
set(CMAKE_CXX_FLAGS "-std=c++1Z")
elseif(GLM_TEST_ENABLE_CXX_14)
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LANGUAGE_STANDARD "c++14")
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LIBRARY "libc++")
set(CMAKE_CXX_FLAGS "-std=c++14")
elseif(GLM_TEST_ENABLE_CXX_1Y)
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LANGUAGE_STANDARD "c++1y")
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LIBRARY "libc++")
set(CMAKE_CXX_FLAGS "-std=c++1y")
elseif(GLM_TEST_ENABLE_CXX_11)
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LANGUAGE_STANDARD "c++11")
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LIBRARY "libc++")
set(CMAKE_CXX_FLAGS "-std=c++11")
elseif(GLM_TEST_ENABLE_CXX_0X)
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LANGUAGE_STANDARD "c++0x")
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LIBRARY "libc++")
set(CMAKE_CXX_FLAGS "-std=c++0x")
elseif(GLM_TEST_ENABLE_CXX_98)
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LANGUAGE_STANDARD "c++98")
set(CMAKE_XCODE_ATTRIBUTE_CLANG_CXX_LIBRARY "libc++")
set(CMAKE_CXX_FLAGS "-std=c++98")
if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU")
add_definitions(-Wno-long-long)
endif()
endif()
endif()
option(GLM_TEST_ENABLE_LANG_EXTENSIONS "Enable language extensions" OFF)
if(GLM_TEST_ENABLE_LANG_EXTENSIONS)
if(GLM_TEST_ENABLE_FAST_MATH)
if(CMAKE_COMPILER_IS_GNUCXX)
add_definitions(-ffast-math)
endif()
if(MSVC)
add_definitions(/fp:fast)
endif()
elseif(NOT GLM_TEST_ENABLE_FAST_MATH)
if(MSVC)
add_definitions(/fp:precise)
endif()
endif()
else()
if(("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC") OR (("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Intel") AND WIN32))
add_definitions(/Za)
elseif(("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang") OR ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU"))
add_definitions(-pedantic)
endif()
endif()
if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC")
add_definitions(/FAs)
endif()
option(GLM_TEST_ENABLE_SIMD_SSE2 "Enable SSE2 optimizations" OFF)
option(GLM_TEST_ENABLE_SIMD_SSE3 "Enable SSE3 optimizations" OFF)
option(GLM_TEST_ENABLE_SIMD_AVX "Enable AVX optimizations" OFF)
option(GLM_TEST_ENABLE_SIMD_AVX2 "Enable AVX2 optimizations" OFF)
option(GLM_TEST_FORCE_PURE "Force 'pure' instructions" OFF)
if(GLM_TEST_FORCE_PURE)
add_definitions(-DGLM_FORCE_PURE)
if(CMAKE_COMPILER_IS_GNUCXX)
add_definitions(-mfpmath=387)
endif()
message(STATUS "GLM: No SIMD instruction set")
elseif(GLM_TEST_ENABLE_SIMD_AVX2)
if(CMAKE_COMPILER_IS_GNUCXX OR ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang"))
add_definitions(-mavx2)
elseif(GLM_USE_INTEL)
add_definitions(/QxAVX2)
elseif("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC")
add_definitions(/arch:AVX2)
endif()
message(STATUS "GLM: AVX2 instruction set")
elseif(GLM_TEST_ENABLE_SIMD_AVX)
if(CMAKE_COMPILER_IS_GNUCXX OR ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang"))
add_definitions(-mavx)
elseif(GLM_USE_INTEL)
add_definitions(/QxAVX)
elseif("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC")
add_definitions(/arch:AVX)
endif()
message(STATUS "GLM: AVX instruction set")
elseif(GLM_TEST_ENABLE_SIMD_SSE3)
if(CMAKE_COMPILER_IS_GNUCXX OR ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang"))
add_definitions(-msse3)
elseif(GLM_USE_INTEL)
add_definitions(/QxSSE3)
elseif(("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC") AND NOT CMAKE_CL_64)
add_definitions(/arch:SSE2) # VC doesn't support /arch:SSE3
endif()
message(STATUS "GLM: SSE3 instruction set")
elseif(GLM_TEST_ENABLE_SIMD_SSE2)
if(CMAKE_COMPILER_IS_GNUCXX OR ("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang"))
add_definitions(-msse2)
elseif(GLM_USE_INTEL)
add_definitions(/QxSSE2)
elseif(("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC") AND NOT CMAKE_CL_64)
add_definitions(/arch:SSE2)
endif()
message(STATUS "GLM: SSE2 instruction set")
endif()
if(CMAKE_COMPILER_IS_GNUCXX)
#add_definitions(-S)
#add_definitions(-s)
add_definitions(-O2)
#add_definitions(-fprofile-arcs -ftest-coverage) gcov
#ctest_enable_coverage()
endif()
if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC")
add_definitions(/FAs)
endif()
include_directories("${PROJECT_SOURCE_DIR}")
include_directories("${PROJECT_SOURCE_DIR}/test/external")
add_subdirectory(glm)
add_subdirectory(test)
set(GLM_INSTALL_CONFIGDIR "${CMAKE_INSTALL_LIBDIR}/cmake/glm")
if (GLM_INSTALL_ENABLE)
install(DIRECTORY glm DESTINATION ${CMAKE_INSTALL_INCLUDEDIR})
endif()
write_basic_package_version_file("${CMAKE_CURRENT_BINARY_DIR}/glmConfigVersion.cmake" VERSION ${GLM_VERSION} COMPATIBILITY AnyNewerVersion)
# build tree package config
configure_file(cmake/glmBuildConfig.cmake.in glmConfig.cmake @ONLY)
# install tree package config
configure_package_config_file(
cmake/glmConfig.cmake.in
${GLM_INSTALL_CONFIGDIR}/glmConfig.cmake
INSTALL_DESTINATION ${GLM_INSTALL_CONFIGDIR}
PATH_VARS CMAKE_INSTALL_INCLUDEDIR
NO_CHECK_REQUIRED_COMPONENTS_MACRO)
if (GLM_INSTALL_ENABLE)
install(FILES
"${CMAKE_CURRENT_BINARY_DIR}/${GLM_INSTALL_CONFIGDIR}/glmConfig.cmake"
"${CMAKE_CURRENT_BINARY_DIR}/glmConfigVersion.cmake"
DESTINATION ${GLM_INSTALL_CONFIGDIR})
endif()
if (NOT CMAKE_VERSION VERSION_LESS "3.0")
add_library(glm INTERFACE)
target_include_directories(glm INTERFACE
$<INSTALL_INTERFACE:${CMAKE_INSTALL_INCLUDEDIR}>
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}>)
install(TARGETS glm EXPORT glmTargets)
export(EXPORT glmTargets FILE "${CMAKE_CURRENT_BINARY_DIR}/glmTargets.cmake")
if (GLM_INSTALL_ENABLE)
install(EXPORT glmTargets FILE glmTargets.cmake DESTINATION ${GLM_INSTALL_CONFIGDIR})
endif()
endif()
# build pkg-config file
configure_file("./cmake/glm.pc.in" "glm.pc" @ONLY)
# install pkg-config file
if (GLM_INSTALL_ENABLE)
install(FILES "${CMAKE_CURRENT_BINARY_DIR}/glm.pc" DESTINATION "${CMAKE_INSTALL_LIBDIR}/pkgconfig")
endif()
export(PACKAGE glm)

7
external/glm/cmake/glm.pc.in vendored 100644
View File

@ -0,0 +1,7 @@
prefix=@CMAKE_INSTALL_PREFIX@
includedir=${prefix}/include
Name: GLM
Description: OpenGL Mathematics
Version: @GLM_VERSION@
Cflags: -I${includedir}

6
external/glm/cmake/glmBuildConfig.cmake.in vendored 100644
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@ -0,0 +1,6 @@
set(GLM_VERSION "@GLM_VERSION@")
set(GLM_INCLUDE_DIRS "@CMAKE_CURRENT_SOURCE_DIR@")
if (NOT CMAKE_VERSION VERSION_LESS "3.0")
include("${CMAKE_CURRENT_LIST_DIR}/glmTargets.cmake")
endif()

9
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<a href="a00001.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00004"></a><span class="lineno"> 4</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00005"></a><span class="lineno"> 5</span>&#160;</div>
<div class="line"><a name="l00006"></a><span class="lineno"> 6</span>&#160;<span class="comment">// #define GLM_CXX98_EXCEPTIONS</span></div>
<div class="line"><a name="l00007"></a><span class="lineno"> 7</span>&#160;<span class="comment">// #define GLM_CXX98_RTTI</span></div>
<div class="line"><a name="l00008"></a><span class="lineno"> 8</span>&#160;</div>
<div class="line"><a name="l00009"></a><span class="lineno"> 9</span>&#160;<span class="comment">// #define GLM_CXX11_RVALUE_REFERENCES</span></div>
<div class="line"><a name="l00010"></a><span class="lineno"> 10</span>&#160;<span class="comment">// Rvalue references - GCC 4.3</span></div>
<div class="line"><a name="l00011"></a><span class="lineno"> 11</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n2118.html</span></div>
<div class="line"><a name="l00012"></a><span class="lineno"> 12</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="comment">// GLM_CXX11_TRAILING_RETURN</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;<span class="comment">// Rvalue references for *this - GCC not supported</span></div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2439.htm</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;</div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="comment">// GLM_CXX11_NONSTATIC_MEMBER_INIT</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="comment">// Initialization of class objects by rvalues - GCC any</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1610.html</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;</div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="comment">// GLM_CXX11_NONSTATIC_MEMBER_INIT</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="comment">// Non-static data member initializers - GCC 4.7</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="comment">// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2008/n2756.htm</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;</div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="comment">// #define GLM_CXX11_VARIADIC_TEMPLATE</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="comment">// Variadic templates - GCC 4.3</span></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2242.pdf</span></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;</div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;<span class="comment">// Extending variadic template template parameters - GCC 4.4</span></div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2555.pdf</span></div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160;<span class="comment">// #define GLM_CXX11_GENERALIZED_INITIALIZERS</span></div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;<span class="comment">// Initializer lists - GCC 4.4</span></div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2672.htm</span></div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160;<span class="comment">// #define GLM_CXX11_STATIC_ASSERT </span></div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;<span class="comment">// Static assertions - GCC 4.3</span></div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1720.html</span></div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160;</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160;<span class="comment">// #define GLM_CXX11_AUTO_TYPE</span></div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;<span class="comment">// auto-typed variables - GCC 4.4</span></div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1984.pdf</span></div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;<span class="comment">// #define GLM_CXX11_AUTO_TYPE</span></div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;<span class="comment">// Multi-declarator auto - GCC 4.4</span></div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1737.pdf</span></div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;<span class="comment">// #define GLM_CXX11_AUTO_TYPE</span></div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160;<span class="comment">// Removal of auto as a storage-class specifier - GCC 4.4</span></div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2546.htm</span></div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160;<span class="comment">// #define GLM_CXX11_AUTO_TYPE</span></div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;<span class="comment">// New function declarator syntax - GCC 4.4</span></div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2541.htm</span></div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;</div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160;<span class="comment">// #define GLM_CXX11_LAMBDAS</span></div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160;<span class="comment">// New wording for C++0x lambdas - GCC 4.5</span></div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160;<span class="comment">// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2009/n2927.pdf</span></div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160;</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160;<span class="comment">// #define GLM_CXX11_DECLTYPE</span></div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160;<span class="comment">// Declared type of an expression - GCC 4.3</span></div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2343.pdf</span></div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160;</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160;<span class="comment">// Right angle brackets - GCC 4.3</span></div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1757.html</span></div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160;</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;<span class="comment">// Default template arguments for function templates DR226 GCC 4.3</span></div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/cwg_defects.html#226</span></div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;</div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160;<span class="comment">// Solving the SFINAE problem for expressions DR339 GCC 4.4</span></div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2634.html</span></div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;</div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160;<span class="comment">// #define GLM_CXX11_ALIAS_TEMPLATE</span></div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160;<span class="comment">// Template aliases N2258 GCC 4.7</span></div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2258.pdf</span></div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160;</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160;<span class="comment">// Extern templates N1987 Yes</span></div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1987.htm</span></div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160;<span class="comment">// #define GLM_CXX11_NULLPTR</span></div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160;<span class="comment">// Null pointer constant N2431 GCC 4.6</span></div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2431.pdf</span></div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160;</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160;<span class="comment">// #define GLM_CXX11_STRONG_ENUMS</span></div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160;<span class="comment">// Strongly-typed enums N2347 GCC 4.4</span></div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2347.pdf</span></div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160;<span class="comment">// Forward declarations for enums N2764 GCC 4.6</span></div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2764.pdf</span></div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160;</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160;<span class="comment">// Generalized attributes N2761 GCC 4.8</span></div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2761.pdf</span></div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160;</div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160;<span class="comment">// Generalized constant expressions N2235 GCC 4.6</span></div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2235.pdf</span></div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160;</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160;<span class="comment">// Alignment support N2341 GCC 4.8</span></div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2341.pdf</span></div>
<div class="line"><a name="l00108"></a><span class="lineno"> 108</span>&#160;</div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160;<span class="comment">// #define GLM_CXX11_DELEGATING_CONSTRUCTORS</span></div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160;<span class="comment">// Delegating constructors N1986 GCC 4.7</span></div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1986.pdf</span></div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160;</div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160;<span class="comment">// Inheriting constructors N2540 GCC 4.8</span></div>
<div class="line"><a name="l00115"></a><span class="lineno"> 115</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2540.htm</span></div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160;</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160;<span class="comment">// #define GLM_CXX11_EXPLICIT_CONVERSIONS</span></div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160;<span class="comment">// Explicit conversion operators N2437 GCC 4.5</span></div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2437.pdf</span></div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160;</div>
<div class="line"><a name="l00121"></a><span class="lineno"> 121</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00122"></a><span class="lineno"> 122</span>&#160;<span class="comment">// New character types N2249 GCC 4.4</span></div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2249.html</span></div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160;</div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160;<span class="comment">// Unicode string literals N2442 GCC 4.5</span></div>
<div class="line"><a name="l00127"></a><span class="lineno"> 127</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2442.htm</span></div>
<div class="line"><a name="l00128"></a><span class="lineno"> 128</span>&#160;</div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160;<span class="comment">// Raw string literals N2442 GCC 4.5</span></div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2442.htm</span></div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160;</div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160;<span class="comment">// Universal character name literals N2170 GCC 4.5</span></div>
<div class="line"><a name="l00135"></a><span class="lineno"> 135</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2170.html</span></div>
<div class="line"><a name="l00136"></a><span class="lineno"> 136</span>&#160;</div>
<div class="line"><a name="l00137"></a><span class="lineno"> 137</span>&#160;<span class="comment">// #define GLM_CXX11_USER_LITERALS</span></div>
<div class="line"><a name="l00138"></a><span class="lineno"> 138</span>&#160;<span class="comment">// User-defined literals N2765 GCC 4.7</span></div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2765.pdf</span></div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160;</div>
<div class="line"><a name="l00141"></a><span class="lineno"> 141</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00142"></a><span class="lineno"> 142</span>&#160;<span class="comment">// Standard Layout Types N2342 GCC 4.5</span></div>
<div class="line"><a name="l00143"></a><span class="lineno"> 143</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2342.htm</span></div>
<div class="line"><a name="l00144"></a><span class="lineno"> 144</span>&#160;</div>
<div class="line"><a name="l00145"></a><span class="lineno"> 145</span>&#160;<span class="comment">// #define GLM_CXX11_DEFAULTED_FUNCTIONS</span></div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160;<span class="comment">// #define GLM_CXX11_DELETED_FUNCTIONS</span></div>
<div class="line"><a name="l00147"></a><span class="lineno"> 147</span>&#160;<span class="comment">// Defaulted and deleted functions N2346 GCC 4.4</span></div>
<div class="line"><a name="l00148"></a><span class="lineno"> 148</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2346.htm</span></div>
<div class="line"><a name="l00149"></a><span class="lineno"> 149</span>&#160;</div>
<div class="line"><a name="l00150"></a><span class="lineno"> 150</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00151"></a><span class="lineno"> 151</span>&#160;<span class="comment">// Extended friend declarations N1791 GCC 4.7</span></div>
<div class="line"><a name="l00152"></a><span class="lineno"> 152</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1791.pdf</span></div>
<div class="line"><a name="l00153"></a><span class="lineno"> 153</span>&#160;</div>
<div class="line"><a name="l00154"></a><span class="lineno"> 154</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00155"></a><span class="lineno"> 155</span>&#160;<span class="comment">// Extending sizeof N2253 GCC 4.4</span></div>
<div class="line"><a name="l00156"></a><span class="lineno"> 156</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2253.html</span></div>
<div class="line"><a name="l00157"></a><span class="lineno"> 157</span>&#160;</div>
<div class="line"><a name="l00158"></a><span class="lineno"> 158</span>&#160;<span class="comment">// #define GLM_CXX11_INLINE_NAMESPACES</span></div>
<div class="line"><a name="l00159"></a><span class="lineno"> 159</span>&#160;<span class="comment">// Inline namespaces N2535 GCC 4.4</span></div>
<div class="line"><a name="l00160"></a><span class="lineno"> 160</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2535.htm</span></div>
<div class="line"><a name="l00161"></a><span class="lineno"> 161</span>&#160;</div>
<div class="line"><a name="l00162"></a><span class="lineno"> 162</span>&#160;<span class="comment">// #define GLM_CXX11_UNRESTRICTED_UNIONS</span></div>
<div class="line"><a name="l00163"></a><span class="lineno"> 163</span>&#160;<span class="comment">// Unrestricted unions N2544 GCC 4.6</span></div>
<div class="line"><a name="l00164"></a><span class="lineno"> 164</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2544.pdf</span></div>
<div class="line"><a name="l00165"></a><span class="lineno"> 165</span>&#160;</div>
<div class="line"><a name="l00166"></a><span class="lineno"> 166</span>&#160;<span class="comment">// #define GLM_CXX11_LOCAL_TYPE_TEMPLATE_ARGS</span></div>
<div class="line"><a name="l00167"></a><span class="lineno"> 167</span>&#160;<span class="comment">// Local and unnamed types as template arguments N2657 GCC 4.5</span></div>
<div class="line"><a name="l00168"></a><span class="lineno"> 168</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2657.htm</span></div>
<div class="line"><a name="l00169"></a><span class="lineno"> 169</span>&#160;</div>
<div class="line"><a name="l00170"></a><span class="lineno"> 170</span>&#160;<span class="comment">// #define GLM_CXX11_RANGE_FOR</span></div>
<div class="line"><a name="l00171"></a><span class="lineno"> 171</span>&#160;<span class="comment">// Range-based for N2930 GCC 4.6</span></div>
<div class="line"><a name="l00172"></a><span class="lineno"> 172</span>&#160;<span class="comment">// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2009/n2930.html</span></div>
<div class="line"><a name="l00173"></a><span class="lineno"> 173</span>&#160;</div>
<div class="line"><a name="l00174"></a><span class="lineno"> 174</span>&#160;<span class="comment">// #define GLM_CXX11_OVERRIDE_CONTROL</span></div>
<div class="line"><a name="l00175"></a><span class="lineno"> 175</span>&#160;<span class="comment">// Explicit virtual overrides N2928 N3206 N3272 GCC 4.7</span></div>
<div class="line"><a name="l00176"></a><span class="lineno"> 176</span>&#160;<span class="comment">// http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2009/n2928.htm</span></div>
<div class="line"><a name="l00177"></a><span class="lineno"> 177</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2010/n3206.htm</span></div>
<div class="line"><a name="l00178"></a><span class="lineno"> 178</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2011/n3272.htm</span></div>
<div class="line"><a name="l00179"></a><span class="lineno"> 179</span>&#160;</div>
<div class="line"><a name="l00180"></a><span class="lineno"> 180</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00181"></a><span class="lineno"> 181</span>&#160;<span class="comment">// Minimal support for garbage collection and reachability-based leak detection N2670 No</span></div>
<div class="line"><a name="l00182"></a><span class="lineno"> 182</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2670.htm</span></div>
<div class="line"><a name="l00183"></a><span class="lineno"> 183</span>&#160;</div>
<div class="line"><a name="l00184"></a><span class="lineno"> 184</span>&#160;<span class="comment">// #define GLM_CXX11_NOEXCEPT</span></div>
<div class="line"><a name="l00185"></a><span class="lineno"> 185</span>&#160;<span class="comment">// Allowing move constructors to throw [noexcept] N3050 GCC 4.6 (core language only)</span></div>
<div class="line"><a name="l00186"></a><span class="lineno"> 186</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2010/n3050.html</span></div>
<div class="line"><a name="l00187"></a><span class="lineno"> 187</span>&#160;</div>
<div class="line"><a name="l00188"></a><span class="lineno"> 188</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00189"></a><span class="lineno"> 189</span>&#160;<span class="comment">// Defining move special member functions N3053 GCC 4.6</span></div>
<div class="line"><a name="l00190"></a><span class="lineno"> 190</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2010/n3053.html</span></div>
<div class="line"><a name="l00191"></a><span class="lineno"> 191</span>&#160;</div>
<div class="line"><a name="l00192"></a><span class="lineno"> 192</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00193"></a><span class="lineno"> 193</span>&#160;<span class="comment">// Sequence points N2239 Yes</span></div>
<div class="line"><a name="l00194"></a><span class="lineno"> 194</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2239.html</span></div>
<div class="line"><a name="l00195"></a><span class="lineno"> 195</span>&#160;</div>
<div class="line"><a name="l00196"></a><span class="lineno"> 196</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00197"></a><span class="lineno"> 197</span>&#160;<span class="comment">// Atomic operations N2427 GCC 4.4</span></div>
<div class="line"><a name="l00198"></a><span class="lineno"> 198</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2239.html</span></div>
<div class="line"><a name="l00199"></a><span class="lineno"> 199</span>&#160;</div>
<div class="line"><a name="l00200"></a><span class="lineno"> 200</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00201"></a><span class="lineno"> 201</span>&#160;<span class="comment">// Strong Compare and Exchange N2748 GCC 4.5</span></div>
<div class="line"><a name="l00202"></a><span class="lineno"> 202</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2427.html</span></div>
<div class="line"><a name="l00203"></a><span class="lineno"> 203</span>&#160;</div>
<div class="line"><a name="l00204"></a><span class="lineno"> 204</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00205"></a><span class="lineno"> 205</span>&#160;<span class="comment">// Bidirectional Fences N2752 GCC 4.8</span></div>
<div class="line"><a name="l00206"></a><span class="lineno"> 206</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2752.htm</span></div>
<div class="line"><a name="l00207"></a><span class="lineno"> 207</span>&#160;</div>
<div class="line"><a name="l00208"></a><span class="lineno"> 208</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00209"></a><span class="lineno"> 209</span>&#160;<span class="comment">// Memory model N2429 GCC 4.8</span></div>
<div class="line"><a name="l00210"></a><span class="lineno"> 210</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2429.htm</span></div>
<div class="line"><a name="l00211"></a><span class="lineno"> 211</span>&#160;</div>
<div class="line"><a name="l00212"></a><span class="lineno"> 212</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00213"></a><span class="lineno"> 213</span>&#160;<span class="comment">// Data-dependency ordering: atomics and memory model N2664 GCC 4.4</span></div>
<div class="line"><a name="l00214"></a><span class="lineno"> 214</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2664.htm</span></div>
<div class="line"><a name="l00215"></a><span class="lineno"> 215</span>&#160;</div>
<div class="line"><a name="l00216"></a><span class="lineno"> 216</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00217"></a><span class="lineno"> 217</span>&#160;<span class="comment">// Propagating exceptions N2179 GCC 4.4</span></div>
<div class="line"><a name="l00218"></a><span class="lineno"> 218</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2179.html</span></div>
<div class="line"><a name="l00219"></a><span class="lineno"> 219</span>&#160;</div>
<div class="line"><a name="l00220"></a><span class="lineno"> 220</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00221"></a><span class="lineno"> 221</span>&#160;<span class="comment">// Abandoning a process and at_quick_exit N2440 GCC 4.8</span></div>
<div class="line"><a name="l00222"></a><span class="lineno"> 222</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2440.htm</span></div>
<div class="line"><a name="l00223"></a><span class="lineno"> 223</span>&#160;</div>
<div class="line"><a name="l00224"></a><span class="lineno"> 224</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00225"></a><span class="lineno"> 225</span>&#160;<span class="comment">// Allow atomics use in signal handlers N2547 Yes</span></div>
<div class="line"><a name="l00226"></a><span class="lineno"> 226</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2547.htm</span></div>
<div class="line"><a name="l00227"></a><span class="lineno"> 227</span>&#160;</div>
<div class="line"><a name="l00228"></a><span class="lineno"> 228</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00229"></a><span class="lineno"> 229</span>&#160;<span class="comment">// Thread-local storage N2659 GCC 4.8</span></div>
<div class="line"><a name="l00230"></a><span class="lineno"> 230</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2659.htm</span></div>
<div class="line"><a name="l00231"></a><span class="lineno"> 231</span>&#160;</div>
<div class="line"><a name="l00232"></a><span class="lineno"> 232</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00233"></a><span class="lineno"> 233</span>&#160;<span class="comment">// Dynamic initialization and destruction with concurrency N2660 GCC 4.3</span></div>
<div class="line"><a name="l00234"></a><span class="lineno"> 234</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2660.htm</span></div>
<div class="line"><a name="l00235"></a><span class="lineno"> 235</span>&#160;</div>
<div class="line"><a name="l00236"></a><span class="lineno"> 236</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00237"></a><span class="lineno"> 237</span>&#160;<span class="comment">// __func__ predefined identifier N2340 GCC 4.3</span></div>
<div class="line"><a name="l00238"></a><span class="lineno"> 238</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2340.htm</span></div>
<div class="line"><a name="l00239"></a><span class="lineno"> 239</span>&#160;</div>
<div class="line"><a name="l00240"></a><span class="lineno"> 240</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00241"></a><span class="lineno"> 241</span>&#160;<span class="comment">// C99 preprocessor N1653 GCC 4.3</span></div>
<div class="line"><a name="l00242"></a><span class="lineno"> 242</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1653.htm</span></div>
<div class="line"><a name="l00243"></a><span class="lineno"> 243</span>&#160;</div>
<div class="line"><a name="l00244"></a><span class="lineno"> 244</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00245"></a><span class="lineno"> 245</span>&#160;<span class="comment">// long long N1811 GCC 4.3</span></div>
<div class="line"><a name="l00246"></a><span class="lineno"> 246</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1811.pdf</span></div>
<div class="line"><a name="l00247"></a><span class="lineno"> 247</span>&#160;</div>
<div class="line"><a name="l00248"></a><span class="lineno"> 248</span>&#160;<span class="comment">// </span></div>
<div class="line"><a name="l00249"></a><span class="lineno"> 249</span>&#160;<span class="comment">// Extended integral types N1988 Yes</span></div>
<div class="line"><a name="l00250"></a><span class="lineno"> 250</span>&#160;<span class="comment">// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2006/n1988.pdf</span></div>
<div class="line"><a name="l00251"></a><span class="lineno"> 251</span>&#160;</div>
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<div class="line"><a name="l00257"></a><span class="lineno"> 257</span>&#160;</div>
<div class="line"><a name="l00258"></a><span class="lineno"> 258</span>&#160;<span class="preprocessor">#elif(GLM_COMPILER &amp; GLM_COMPILER_CLANG)</span></div>
<div class="line"><a name="l00259"></a><span class="lineno"> 259</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_exceptions))</span></div>
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<div class="line"><a name="l00262"></a><span class="lineno"> 262</span>&#160;</div>
<div class="line"><a name="l00263"></a><span class="lineno"> 263</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_rtti))</span></div>
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<div class="line"><a name="l00266"></a><span class="lineno"> 266</span>&#160;</div>
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<div class="line"><a name="l00270"></a><span class="lineno"> 270</span>&#160;</div>
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<div class="line"><a name="l00274"></a><span class="lineno"> 274</span>&#160;</div>
<div class="line"><a name="l00275"></a><span class="lineno"> 275</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_alignas))</span></div>
<div class="line"><a name="l00276"></a><span class="lineno"> 276</span>&#160;<span class="preprocessor"># define GLM_CXX11_ALIGNAS</span></div>
<div class="line"><a name="l00277"></a><span class="lineno"> 277</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00278"></a><span class="lineno"> 278</span>&#160;</div>
<div class="line"><a name="l00279"></a><span class="lineno"> 279</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_attributes))</span></div>
<div class="line"><a name="l00280"></a><span class="lineno"> 280</span>&#160;<span class="preprocessor"># define GLM_CXX11_ATTRIBUTES</span></div>
<div class="line"><a name="l00281"></a><span class="lineno"> 281</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00282"></a><span class="lineno"> 282</span>&#160;</div>
<div class="line"><a name="l00283"></a><span class="lineno"> 283</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_constexpr))</span></div>
<div class="line"><a name="l00284"></a><span class="lineno"> 284</span>&#160;<span class="preprocessor"># define GLM_CXX11_CONSTEXPR</span></div>
<div class="line"><a name="l00285"></a><span class="lineno"> 285</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00286"></a><span class="lineno"> 286</span>&#160;</div>
<div class="line"><a name="l00287"></a><span class="lineno"> 287</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_decltype))</span></div>
<div class="line"><a name="l00288"></a><span class="lineno"> 288</span>&#160;<span class="preprocessor"># define GLM_CXX11_DECLTYPE</span></div>
<div class="line"><a name="l00289"></a><span class="lineno"> 289</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00290"></a><span class="lineno"> 290</span>&#160;</div>
<div class="line"><a name="l00291"></a><span class="lineno"> 291</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_default_function_template_args))</span></div>
<div class="line"><a name="l00292"></a><span class="lineno"> 292</span>&#160;<span class="preprocessor"># define GLM_CXX11_DEFAULT_FUNCTION_TEMPLATE_ARGS</span></div>
<div class="line"><a name="l00293"></a><span class="lineno"> 293</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00294"></a><span class="lineno"> 294</span>&#160;</div>
<div class="line"><a name="l00295"></a><span class="lineno"> 295</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_defaulted_functions))</span></div>
<div class="line"><a name="l00296"></a><span class="lineno"> 296</span>&#160;<span class="preprocessor"># define GLM_CXX11_DEFAULTED_FUNCTIONS</span></div>
<div class="line"><a name="l00297"></a><span class="lineno"> 297</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00298"></a><span class="lineno"> 298</span>&#160;</div>
<div class="line"><a name="l00299"></a><span class="lineno"> 299</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_delegating_constructors))</span></div>
<div class="line"><a name="l00300"></a><span class="lineno"> 300</span>&#160;<span class="preprocessor"># define GLM_CXX11_DELEGATING_CONSTRUCTORS</span></div>
<div class="line"><a name="l00301"></a><span class="lineno"> 301</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00302"></a><span class="lineno"> 302</span>&#160;</div>
<div class="line"><a name="l00303"></a><span class="lineno"> 303</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_deleted_functions))</span></div>
<div class="line"><a name="l00304"></a><span class="lineno"> 304</span>&#160;<span class="preprocessor"># define GLM_CXX11_DELETED_FUNCTIONS</span></div>
<div class="line"><a name="l00305"></a><span class="lineno"> 305</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00306"></a><span class="lineno"> 306</span>&#160;</div>
<div class="line"><a name="l00307"></a><span class="lineno"> 307</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_explicit_conversions))</span></div>
<div class="line"><a name="l00308"></a><span class="lineno"> 308</span>&#160;<span class="preprocessor"># define GLM_CXX11_EXPLICIT_CONVERSIONS</span></div>
<div class="line"><a name="l00309"></a><span class="lineno"> 309</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00310"></a><span class="lineno"> 310</span>&#160;</div>
<div class="line"><a name="l00311"></a><span class="lineno"> 311</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_generalized_initializers))</span></div>
<div class="line"><a name="l00312"></a><span class="lineno"> 312</span>&#160;<span class="preprocessor"># define GLM_CXX11_GENERALIZED_INITIALIZERS</span></div>
<div class="line"><a name="l00313"></a><span class="lineno"> 313</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00314"></a><span class="lineno"> 314</span>&#160;</div>
<div class="line"><a name="l00315"></a><span class="lineno"> 315</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_implicit_moves))</span></div>
<div class="line"><a name="l00316"></a><span class="lineno"> 316</span>&#160;<span class="preprocessor"># define GLM_CXX11_IMPLICIT_MOVES</span></div>
<div class="line"><a name="l00317"></a><span class="lineno"> 317</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00318"></a><span class="lineno"> 318</span>&#160;</div>
<div class="line"><a name="l00319"></a><span class="lineno"> 319</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_inheriting_constructors))</span></div>
<div class="line"><a name="l00320"></a><span class="lineno"> 320</span>&#160;<span class="preprocessor"># define GLM_CXX11_INHERITING_CONSTRUCTORS</span></div>
<div class="line"><a name="l00321"></a><span class="lineno"> 321</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00322"></a><span class="lineno"> 322</span>&#160;</div>
<div class="line"><a name="l00323"></a><span class="lineno"> 323</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_inline_namespaces))</span></div>
<div class="line"><a name="l00324"></a><span class="lineno"> 324</span>&#160;<span class="preprocessor"># define GLM_CXX11_INLINE_NAMESPACES</span></div>
<div class="line"><a name="l00325"></a><span class="lineno"> 325</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00326"></a><span class="lineno"> 326</span>&#160;</div>
<div class="line"><a name="l00327"></a><span class="lineno"> 327</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_lambdas))</span></div>
<div class="line"><a name="l00328"></a><span class="lineno"> 328</span>&#160;<span class="preprocessor"># define GLM_CXX11_LAMBDAS</span></div>
<div class="line"><a name="l00329"></a><span class="lineno"> 329</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00330"></a><span class="lineno"> 330</span>&#160;</div>
<div class="line"><a name="l00331"></a><span class="lineno"> 331</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_local_type_template_args))</span></div>
<div class="line"><a name="l00332"></a><span class="lineno"> 332</span>&#160;<span class="preprocessor"># define GLM_CXX11_LOCAL_TYPE_TEMPLATE_ARGS</span></div>
<div class="line"><a name="l00333"></a><span class="lineno"> 333</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00334"></a><span class="lineno"> 334</span>&#160;</div>
<div class="line"><a name="l00335"></a><span class="lineno"> 335</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_noexcept))</span></div>
<div class="line"><a name="l00336"></a><span class="lineno"> 336</span>&#160;<span class="preprocessor"># define GLM_CXX11_NOEXCEPT</span></div>
<div class="line"><a name="l00337"></a><span class="lineno"> 337</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00338"></a><span class="lineno"> 338</span>&#160;</div>
<div class="line"><a name="l00339"></a><span class="lineno"> 339</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_nonstatic_member_init))</span></div>
<div class="line"><a name="l00340"></a><span class="lineno"> 340</span>&#160;<span class="preprocessor"># define GLM_CXX11_NONSTATIC_MEMBER_INIT</span></div>
<div class="line"><a name="l00341"></a><span class="lineno"> 341</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00342"></a><span class="lineno"> 342</span>&#160;</div>
<div class="line"><a name="l00343"></a><span class="lineno"> 343</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_nullptr))</span></div>
<div class="line"><a name="l00344"></a><span class="lineno"> 344</span>&#160;<span class="preprocessor"># define GLM_CXX11_NULLPTR</span></div>
<div class="line"><a name="l00345"></a><span class="lineno"> 345</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00346"></a><span class="lineno"> 346</span>&#160;</div>
<div class="line"><a name="l00347"></a><span class="lineno"> 347</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_override_control))</span></div>
<div class="line"><a name="l00348"></a><span class="lineno"> 348</span>&#160;<span class="preprocessor"># define GLM_CXX11_OVERRIDE_CONTROL</span></div>
<div class="line"><a name="l00349"></a><span class="lineno"> 349</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00350"></a><span class="lineno"> 350</span>&#160;</div>
<div class="line"><a name="l00351"></a><span class="lineno"> 351</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_reference_qualified_functions))</span></div>
<div class="line"><a name="l00352"></a><span class="lineno"> 352</span>&#160;<span class="preprocessor"># define GLM_CXX11_REFERENCE_QUALIFIED_FUNCTIONS</span></div>
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<div class="line"><a name="l00354"></a><span class="lineno"> 354</span>&#160;</div>
<div class="line"><a name="l00355"></a><span class="lineno"> 355</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_range_for))</span></div>
<div class="line"><a name="l00356"></a><span class="lineno"> 356</span>&#160;<span class="preprocessor"># define GLM_CXX11_RANGE_FOR</span></div>
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<div class="line"><a name="l00358"></a><span class="lineno"> 358</span>&#160;</div>
<div class="line"><a name="l00359"></a><span class="lineno"> 359</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_raw_string_literals))</span></div>
<div class="line"><a name="l00360"></a><span class="lineno"> 360</span>&#160;<span class="preprocessor"># define GLM_CXX11_RAW_STRING_LITERALS</span></div>
<div class="line"><a name="l00361"></a><span class="lineno"> 361</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00362"></a><span class="lineno"> 362</span>&#160;</div>
<div class="line"><a name="l00363"></a><span class="lineno"> 363</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_rvalue_references))</span></div>
<div class="line"><a name="l00364"></a><span class="lineno"> 364</span>&#160;<span class="preprocessor"># define GLM_CXX11_RVALUE_REFERENCES</span></div>
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<div class="line"><a name="l00366"></a><span class="lineno"> 366</span>&#160;</div>
<div class="line"><a name="l00367"></a><span class="lineno"> 367</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_static_assert))</span></div>
<div class="line"><a name="l00368"></a><span class="lineno"> 368</span>&#160;<span class="preprocessor"># define GLM_CXX11_STATIC_ASSERT</span></div>
<div class="line"><a name="l00369"></a><span class="lineno"> 369</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00370"></a><span class="lineno"> 370</span>&#160;</div>
<div class="line"><a name="l00371"></a><span class="lineno"> 371</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_auto_type))</span></div>
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<div class="line"><a name="l00373"></a><span class="lineno"> 373</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00374"></a><span class="lineno"> 374</span>&#160;</div>
<div class="line"><a name="l00375"></a><span class="lineno"> 375</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_strong_enums))</span></div>
<div class="line"><a name="l00376"></a><span class="lineno"> 376</span>&#160;<span class="preprocessor"># define GLM_CXX11_STRONG_ENUMS</span></div>
<div class="line"><a name="l00377"></a><span class="lineno"> 377</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00378"></a><span class="lineno"> 378</span>&#160;</div>
<div class="line"><a name="l00379"></a><span class="lineno"> 379</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_trailing_return))</span></div>
<div class="line"><a name="l00380"></a><span class="lineno"> 380</span>&#160;<span class="preprocessor"># define GLM_CXX11_TRAILING_RETURN</span></div>
<div class="line"><a name="l00381"></a><span class="lineno"> 381</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00382"></a><span class="lineno"> 382</span>&#160;</div>
<div class="line"><a name="l00383"></a><span class="lineno"> 383</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_unicode_literals))</span></div>
<div class="line"><a name="l00384"></a><span class="lineno"> 384</span>&#160;<span class="preprocessor"># define GLM_CXX11_UNICODE_LITERALS</span></div>
<div class="line"><a name="l00385"></a><span class="lineno"> 385</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00386"></a><span class="lineno"> 386</span>&#160;</div>
<div class="line"><a name="l00387"></a><span class="lineno"> 387</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_unrestricted_unions))</span></div>
<div class="line"><a name="l00388"></a><span class="lineno"> 388</span>&#160;<span class="preprocessor"># define GLM_CXX11_UNRESTRICTED_UNIONS</span></div>
<div class="line"><a name="l00389"></a><span class="lineno"> 389</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00390"></a><span class="lineno"> 390</span>&#160;</div>
<div class="line"><a name="l00391"></a><span class="lineno"> 391</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_user_literals))</span></div>
<div class="line"><a name="l00392"></a><span class="lineno"> 392</span>&#160;<span class="preprocessor"># define GLM_CXX11_USER_LITERALS</span></div>
<div class="line"><a name="l00393"></a><span class="lineno"> 393</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00394"></a><span class="lineno"> 394</span>&#160;</div>
<div class="line"><a name="l00395"></a><span class="lineno"> 395</span>&#160;<span class="preprocessor"># if(__has_feature(cxx_variadic_templates))</span></div>
<div class="line"><a name="l00396"></a><span class="lineno"> 396</span>&#160;<span class="preprocessor"># define GLM_CXX11_VARIADIC_TEMPLATES</span></div>
<div class="line"><a name="l00397"></a><span class="lineno"> 397</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00398"></a><span class="lineno"> 398</span>&#160;</div>
<div class="line"><a name="l00399"></a><span class="lineno"> 399</span>&#160;<span class="preprocessor">#endif//(GLM_COMPILER &amp; GLM_COMPILER_CLANG)</span></div>
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<a href="a00003.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00004"></a><span class="lineno"> 4</span>&#160;<span class="preprocessor">#pragma once</span></div>
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<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160; GLM_FUNC_QUALIFIER tvec2&lt;T, P&gt; permute(tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; x)</div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160; {</div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160; <span class="keywordflow">return</span> mod289(((x * static_cast&lt;T&gt;(34)) + static_cast&lt;T&gt;(1)) * x);</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160; }</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160; </div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; GLM_FUNC_QUALIFIER tvec3&lt;T, P&gt; permute(tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; x)</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; {</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; <span class="keywordflow">return</span> mod289(((x * static_cast&lt;T&gt;(34)) + static_cast&lt;T&gt;(1)) * x);</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; }</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; </div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; GLM_FUNC_QUALIFIER tvec4&lt;T, P&gt; permute(tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; x)</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; {</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; <span class="keywordflow">return</span> mod289(((x * static_cast&lt;T&gt;(34)) + static_cast&lt;T&gt;(1)) * x);</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; }</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;<span class="comment">/*</span></div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160;<span class="comment"> template &lt;typename T, precision P, template&lt;typename&gt; class vecType&gt;</span></div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;<span class="comment"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; permute(vecType&lt;T, P&gt; const &amp; x)</span></div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;<span class="comment"> {</span></div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160;<span class="comment"> return mod289(((x * T(34)) + T(1)) * x);</span></div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;<span class="comment"> }</span></div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;<span class="comment">*/</span></div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; GLM_FUNC_QUALIFIER T taylorInvSqrt(T <span class="keyword">const</span> &amp; r)</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160; {</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; <span class="keywordflow">return</span> T(1.79284291400159) - T(0.85373472095314) * r;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; }</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160; </div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160; GLM_FUNC_QUALIFIER tvec2&lt;T, P&gt; taylorInvSqrt(tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; r)</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; {</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; <span class="keywordflow">return</span> T(1.79284291400159) - T(0.85373472095314) * r;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; }</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; </div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; GLM_FUNC_QUALIFIER tvec3&lt;T, P&gt; taylorInvSqrt(tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; r)</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; {</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; <span class="keywordflow">return</span> T(1.79284291400159) - T(0.85373472095314) * r;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; }</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; </div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; GLM_FUNC_QUALIFIER tvec4&lt;T, P&gt; taylorInvSqrt(tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; r)</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160; {</div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160; <span class="keywordflow">return</span> T(1.79284291400159) - T(0.85373472095314) * r;</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160; }</div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160;<span class="comment">/*</span></div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160;<span class="comment"> template &lt;typename T, precision P, template&lt;typename&gt; class vecType&gt;</span></div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160;<span class="comment"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; taylorInvSqrt(vecType&lt;T, P&gt; const &amp; r)</span></div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;<span class="comment"> {</span></div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160;<span class="comment"> return T(1.79284291400159) - T(0.85373472095314) * r;</span></div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160;<span class="comment"> }</span></div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160;<span class="comment">*/</span></div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; </div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160; GLM_FUNC_QUALIFIER tvec2&lt;T, P&gt; fade(tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; t)</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160; {</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; <span class="keywordflow">return</span> (t * t * t) * (t * (t * T(6) - T(15)) + T(10));</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; }</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; </div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160; GLM_FUNC_QUALIFIER tvec3&lt;T, P&gt; fade(tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; t)</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; {</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160; <span class="keywordflow">return</span> (t * t * t) * (t * (t * T(6) - T(15)) + T(10));</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160; }</div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160; </div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160; GLM_FUNC_QUALIFIER tvec4&lt;T, P&gt; fade(tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; t)</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160; {</div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160; <span class="keywordflow">return</span> (t * t * t) * (t * (t * T(6) - T(15)) + T(10));</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160; }</div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160;<span class="comment">/*</span></div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160;<span class="comment"> template &lt;typename T, precision P, template &lt;typename&gt; class vecType&gt;</span></div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160;<span class="comment"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; fade(vecType&lt;T, P&gt; const &amp; t)</span></div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160;<span class="comment"> {</span></div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160;<span class="comment"> return (t * t * t) * (t * (t * T(6) - T(15)) + T(10));</span></div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160;<span class="comment"> }</span></div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160;<span class="comment">*/</span></div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160;}<span class="comment">//namespace detail</span></div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160;</div>
<div class="ttc" id="a00145_html_ga568b822b78f045f77c3325e165b44d5d"><div class="ttname"><a href="a00145.html#ga568b822b78f045f77c3325e165b44d5d">glm::floor</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; floor(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Returns a value equal to the nearest integer that is less then or equal to x. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
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<a href="a00004.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00004"></a><span class="lineno"> 4</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00005"></a><span class="lineno"> 5</span>&#160;</div>
<div class="line"><a name="l00006"></a><span class="lineno"> 6</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a>{</div>
<div class="line"><a name="l00007"></a><span class="lineno"> 7</span>&#160;<span class="keyword">namespace </span>detail</div>
<div class="line"><a name="l00008"></a><span class="lineno"> 8</span>&#160;{</div>
<div class="line"><a name="l00009"></a><span class="lineno"> 9</span>&#160; <span class="comment">// Internal class for implementing swizzle operators</span></div>
<div class="line"><a name="l00010"></a><span class="lineno"> 10</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keywordtype">int</span> N&gt;</div>
<div class="line"><a name="l00011"></a><span class="lineno"> 11</span>&#160; <span class="keyword">struct </span>_swizzle_base0</div>
<div class="line"><a name="l00012"></a><span class="lineno"> 12</span>&#160; {</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160; <span class="keyword">protected</span>:</div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160; GLM_FUNC_QUALIFIER T&amp; elem(<span class="keywordtype">size_t</span> i){ <span class="keywordflow">return</span> (reinterpret_cast&lt;T*&gt;(_buffer))[i]; }</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160; GLM_FUNC_QUALIFIER T <span class="keyword">const</span>&amp; elem(<span class="keywordtype">size_t</span> i)<span class="keyword"> const</span>{ <span class="keywordflow">return</span> (reinterpret_cast&lt;const T*&gt;(_buffer))[i]; }</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;</div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160; <span class="comment">// Use an opaque buffer to *ensure* the compiler doesn&#39;t call a constructor.</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160; <span class="comment">// The size 1 buffer is assumed to aligned to the actual members so that the</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160; <span class="comment">// elem() </span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160; <span class="keywordtype">char</span> _buffer[1];</div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160; };</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;</div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160; <span class="keyword">template</span> &lt;<span class="keywordtype">int</span> N, <span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType, <span class="keywordtype">int</span> E0, <span class="keywordtype">int</span> E1, <span class="keywordtype">int</span> E2, <span class="keywordtype">int</span> E3, <span class="keywordtype">bool</span> Aligned&gt;</div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160; <span class="keyword">struct </span>_swizzle_base1 : <span class="keyword">public</span> _swizzle_base0&lt;T, N&gt;</div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160; {</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160; };</div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;</div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType, <span class="keywordtype">int</span> E0, <span class="keywordtype">int</span> E1, <span class="keywordtype">bool</span> Aligned&gt;</div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160; <span class="keyword">struct </span>_swizzle_base1&lt;2, T, P, vecType, E0,E1,-1,-2, Aligned&gt; : <span class="keyword">public</span> _swizzle_base0&lt;T, 2&gt;</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160; {</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160; GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator ()()<span class="keyword"> const </span>{ <span class="keywordflow">return</span> vecType&lt;T, P&gt;(this-&gt;elem(E0), this-&gt;elem(E1)); }</div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160; };</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType, <span class="keywordtype">int</span> E0, <span class="keywordtype">int</span> E1, <span class="keywordtype">int</span> E2, <span class="keywordtype">bool</span> Aligned&gt;</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; <span class="keyword">struct </span>_swizzle_base1&lt;3, T, P, vecType, E0,E1,E2,-1, Aligned&gt; : <span class="keyword">public</span> _swizzle_base0&lt;T, 3&gt;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; {</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator ()()<span class="keyword"> const </span>{ <span class="keywordflow">return</span> vecType&lt;T, P&gt;(this-&gt;elem(E0), this-&gt;elem(E1), this-&gt;elem(E2)); }</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; };</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType, <span class="keywordtype">int</span> E0, <span class="keywordtype">int</span> E1, <span class="keywordtype">int</span> E2, <span class="keywordtype">int</span> E3, <span class="keywordtype">bool</span> Aligned&gt;</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; <span class="keyword">struct </span>_swizzle_base1&lt;4, T, P, vecType, E0,E1,E2,E3, Aligned&gt; : <span class="keyword">public</span> _swizzle_base0&lt;T, 4&gt;</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; { </div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160; GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator ()()<span class="keyword"> const </span>{ <span class="keywordflow">return</span> vecType&lt;T, P&gt;(this-&gt;elem(E0), this-&gt;elem(E1), this-&gt;elem(E2), this-&gt;elem(E3)); }</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; };</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160; <span class="comment">// Internal class for implementing swizzle operators</span></div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; <span class="comment">/*</span></div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;<span class="comment"> Template parameters:</span></div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;<span class="comment"></span></div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160;<span class="comment"> ValueType = type of scalar values (e.g. float, double)</span></div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160;<span class="comment"> VecType = class the swizzle is applies to (e.g. tvec3&lt;float&gt;)</span></div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;<span class="comment"> N = number of components in the vector (e.g. 3)</span></div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160;<span class="comment"> E0...3 = what index the n-th element of this swizzle refers to in the unswizzled vec</span></div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;<span class="comment"></span></div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;<span class="comment"> DUPLICATE_ELEMENTS = 1 if there is a repeated element, 0 otherwise (used to specialize swizzles</span></div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;<span class="comment"> containing duplicate elements so that they cannot be used as r-values). </span></div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160;<span class="comment"> */</span></div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; <span class="keyword">template</span> &lt;<span class="keywordtype">int</span> N, <span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType, <span class="keywordtype">int</span> E0, <span class="keywordtype">int</span> E1, <span class="keywordtype">int</span> E2, <span class="keywordtype">int</span> E3, <span class="keywordtype">int</span> DUPLICATE_ELEMENTS&gt;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; <span class="keyword">struct </span>_swizzle_base2 : <span class="keyword">public</span> _swizzle_base1&lt;N, T, P, vecType, E0,E1,E2,E3, detail::is_aligned&lt;P&gt;::value&gt;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; {</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; GLM_FUNC_QUALIFIER _swizzle_base2&amp; operator= (<span class="keyword">const</span> T&amp; t)</div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; {</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; <span class="keywordflow">for</span> (<span class="keywordtype">int</span> i = 0; i &lt; N; ++i)</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; (*<span class="keyword">this</span>)[i] = t;</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; <span class="keywordflow">return</span> *<span class="keyword">this</span>;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; }</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160;</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; GLM_FUNC_QUALIFIER _swizzle_base2&amp; operator= (vecType&lt;T, P&gt; <span class="keyword">const</span>&amp; that)</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; {</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160; <span class="keyword">struct </span>op { </div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator() (T&amp; <a class="code" href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">e</a>, T&amp; t) { e = t; } </div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160; };</div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160; _apply_op(that, op());</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; <span class="keywordflow">return</span> *<span class="keyword">this</span>;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; }</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;</div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator -= (vecType&lt;T, P&gt; <span class="keyword">const</span>&amp; that)</div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160; {</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; <span class="keyword">struct </span>op { </div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator() (T&amp; <a class="code" href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">e</a>, T&amp; t) { e -= t; } </div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160; };</div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160; _apply_op(that, op());</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160; }</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator += (vecType&lt;T, P&gt; <span class="keyword">const</span>&amp; that)</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; {</div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; <span class="keyword">struct </span>op { </div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator() (T&amp; <a class="code" href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">e</a>, T&amp; t) { e += t; } </div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; };</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160; _apply_op(that, op());</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160; }</div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator *= (vecType&lt;T, P&gt; <span class="keyword">const</span>&amp; that)</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160; {</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160; <span class="keyword">struct </span>op { </div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator() (T&amp; <a class="code" href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">e</a>, T&amp; t) { e *= t; } </div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160; };</div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160; _apply_op(that, op());</div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160; }</div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160;</div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator /= (vecType&lt;T, P&gt; <span class="keyword">const</span>&amp; that)</div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160; {</div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160; <span class="keyword">struct </span>op { </div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> operator() (T&amp; <a class="code" href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">e</a>, T&amp; t) { e /= t; } </div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160; };</div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160; _apply_op(that, op());</div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160; }</div>
<div class="line"><a name="l00108"></a><span class="lineno"> 108</span>&#160;</div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160; GLM_FUNC_QUALIFIER T&amp; operator[](<span class="keywordtype">size_t</span> i)</div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160; {</div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160; <span class="keyword">const</span> <span class="keywordtype">int</span> offset_dst[4] = { E0, E1, E2, E3 };</div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160; <span class="keywordflow">return</span> this-&gt;elem(offset_dst[i]);</div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160; }</div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160; GLM_FUNC_QUALIFIER T operator[](<span class="keywordtype">size_t</span> i)<span class="keyword"> const</span></div>
<div class="line"><a name="l00115"></a><span class="lineno"> 115</span>&#160;<span class="keyword"> </span>{</div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160; <span class="keyword">const</span> <span class="keywordtype">int</span> offset_dst[4] = { E0, E1, E2, E3 };</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160; <span class="keywordflow">return</span> this-&gt;elem(offset_dst[i]);</div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160; }</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160;</div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160; <span class="keyword">protected</span>:</div>
<div class="line"><a name="l00121"></a><span class="lineno"> 121</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> U&gt;</div>
<div class="line"><a name="l00122"></a><span class="lineno"> 122</span>&#160; GLM_FUNC_QUALIFIER <span class="keywordtype">void</span> _apply_op(vecType&lt;T, P&gt; <span class="keyword">const</span>&amp; that, U op)</div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160; {</div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160; <span class="comment">// Make a copy of the data in this == &amp;that.</span></div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160; <span class="comment">// The copier should optimize out the copy in cases where the function is</span></div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160; <span class="comment">// properly inlined and the copy is not necessary.</span></div>
<div class="line"><a name="l00127"></a><span class="lineno"> 127</span>&#160; T t[N];</div>
<div class="line"><a name="l00128"></a><span class="lineno"> 128</span>&#160; <span class="keywordflow">for</span> (<span class="keywordtype">int</span> i = 0; i &lt; N; ++i)</div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160; t[i] = that[i];</div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160; <span class="keywordflow">for</span> (<span class="keywordtype">int</span> i = 0; i &lt; N; ++i)</div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160; op( (*<span class="keyword">this</span>)[i], t[i] );</div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160; }</div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160; };</div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160;</div>
<div class="line"><a name="l00135"></a><span class="lineno"> 135</span>&#160; <span class="comment">// Specialization for swizzles containing duplicate elements. These cannot be modified.</span></div>
<div class="line"><a name="l00136"></a><span class="lineno"> 136</span>&#160; <span class="keyword">template</span> &lt;<span class="keywordtype">int</span> N, <span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType, <span class="keywordtype">int</span> E0, <span class="keywordtype">int</span> E1, <span class="keywordtype">int</span> E2, <span class="keywordtype">int</span> E3&gt;</div>
<div class="line"><a name="l00137"></a><span class="lineno"> 137</span>&#160; <span class="keyword">struct </span>_swizzle_base2&lt;N, T, P, vecType, E0,E1,E2,E3, 1&gt; : <span class="keyword">public</span> _swizzle_base1&lt;N, T, P, vecType, E0,E1,E2,E3, detail::is_aligned&lt;P&gt;::value&gt;</div>
<div class="line"><a name="l00138"></a><span class="lineno"> 138</span>&#160; {</div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160; <span class="keyword">struct </span>Stub {};</div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160;</div>
<div class="line"><a name="l00141"></a><span class="lineno"> 141</span>&#160; GLM_FUNC_QUALIFIER _swizzle_base2&amp; operator= (Stub <span class="keyword">const</span> &amp;) { <span class="keywordflow">return</span> *<span class="keyword">this</span>; }</div>
<div class="line"><a name="l00142"></a><span class="lineno"> 142</span>&#160;</div>
<div class="line"><a name="l00143"></a><span class="lineno"> 143</span>&#160; GLM_FUNC_QUALIFIER T operator[] (<span class="keywordtype">size_t</span> i)<span class="keyword"> const</span></div>
<div class="line"><a name="l00144"></a><span class="lineno"> 144</span>&#160;<span class="keyword"> </span>{</div>
<div class="line"><a name="l00145"></a><span class="lineno"> 145</span>&#160; <span class="keyword">const</span> <span class="keywordtype">int</span> offset_dst[4] = { E0, E1, E2, E3 };</div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160; <span class="keywordflow">return</span> this-&gt;elem(offset_dst[i]);</div>
<div class="line"><a name="l00147"></a><span class="lineno"> 147</span>&#160; }</div>
<div class="line"><a name="l00148"></a><span class="lineno"> 148</span>&#160; };</div>
<div class="line"><a name="l00149"></a><span class="lineno"> 149</span>&#160;</div>
<div class="line"><a name="l00150"></a><span class="lineno"> 150</span>&#160; <span class="keyword">template</span> &lt;<span class="keywordtype">int</span> N, <span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType, <span class="keywordtype">int</span> E0, <span class="keywordtype">int</span> E1, <span class="keywordtype">int</span> E2, <span class="keywordtype">int</span> E3&gt;</div>
<div class="line"><a name="l00151"></a><span class="lineno"> 151</span>&#160; <span class="keyword">struct </span>_swizzle : <span class="keyword">public</span> _swizzle_base2&lt;N, T, P, vecType, E0, E1, E2, E3, (E0 == E1 || E0 == E2 || E0 == E3 || E1 == E2 || E1 == E3 || E2 == E3)&gt;</div>
<div class="line"><a name="l00152"></a><span class="lineno"> 152</span>&#160; {</div>
<div class="line"><a name="l00153"></a><span class="lineno"> 153</span>&#160; <span class="keyword">typedef</span> _swizzle_base2&lt;N, T, P, vecType, E0, E1, E2, E3, (E0 == E1 || E0 == E2 || E0 == E3 || E1 == E2 || E1 == E3 || E2 == E3)&gt; base_type;</div>
<div class="line"><a name="l00154"></a><span class="lineno"> 154</span>&#160;</div>
<div class="line"><a name="l00155"></a><span class="lineno"> 155</span>&#160; <span class="keyword">using</span> base_type::operator=;</div>
<div class="line"><a name="l00156"></a><span class="lineno"> 156</span>&#160;</div>
<div class="line"><a name="l00157"></a><span class="lineno"> 157</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">operator</span> vecType&lt;T, P&gt; () <span class="keyword">const</span> { <span class="keywordflow">return</span> (*<span class="keyword">this</span>)(); }</div>
<div class="line"><a name="l00158"></a><span class="lineno"> 158</span>&#160; };</div>
<div class="line"><a name="l00159"></a><span class="lineno"> 159</span>&#160;</div>
<div class="line"><a name="l00160"></a><span class="lineno"> 160</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00161"></a><span class="lineno"> 161</span>&#160;<span class="comment">// To prevent the C++ syntax from getting entirely overwhelming, define some alias macros</span></div>
<div class="line"><a name="l00162"></a><span class="lineno"> 162</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00163"></a><span class="lineno"> 163</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_TEMPLATE1 template &lt;int N, typename T, precision P, template &lt;typename, precision&gt; class vecType, int E0, int E1, int E2, int E3&gt;</span></div>
<div class="line"><a name="l00164"></a><span class="lineno"> 164</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_TEMPLATE2 template &lt;int N, typename T, precision P, template &lt;typename, precision&gt; class vecType, int E0, int E1, int E2, int E3, int F0, int F1, int F2, int F3&gt;</span></div>
<div class="line"><a name="l00165"></a><span class="lineno"> 165</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_TYPE1 _swizzle&lt;N, T, P, vecType, E0, E1, E2, E3&gt;</span></div>
<div class="line"><a name="l00166"></a><span class="lineno"> 166</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_TYPE2 _swizzle&lt;N, T, P, vecType, F0, F1, F2, F3&gt;</span></div>
<div class="line"><a name="l00167"></a><span class="lineno"> 167</span>&#160;</div>
<div class="line"><a name="l00168"></a><span class="lineno"> 168</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00169"></a><span class="lineno"> 169</span>&#160;<span class="comment">// Wrapper for a binary operator (e.g. u.yy + v.zy)</span></div>
<div class="line"><a name="l00170"></a><span class="lineno"> 170</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00171"></a><span class="lineno"> 171</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(OPERAND) \</span></div>
<div class="line"><a name="l00172"></a><span class="lineno"> 172</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE2 \</span></div>
<div class="line"><a name="l00173"></a><span class="lineno"> 173</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator OPERAND ( const _GLM_SWIZZLE_TYPE1&amp; a, const _GLM_SWIZZLE_TYPE2&amp; b) \</span></div>
<div class="line"><a name="l00174"></a><span class="lineno"> 174</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00175"></a><span class="lineno"> 175</span>&#160;<span class="preprocessor"> return a() OPERAND b(); \</span></div>
<div class="line"><a name="l00176"></a><span class="lineno"> 176</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00177"></a><span class="lineno"> 177</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00178"></a><span class="lineno"> 178</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator OPERAND ( const _GLM_SWIZZLE_TYPE1&amp; a, const vecType&lt;T, P&gt;&amp; b) \</span></div>
<div class="line"><a name="l00179"></a><span class="lineno"> 179</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00180"></a><span class="lineno"> 180</span>&#160;<span class="preprocessor"> return a() OPERAND b; \</span></div>
<div class="line"><a name="l00181"></a><span class="lineno"> 181</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00182"></a><span class="lineno"> 182</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00183"></a><span class="lineno"> 183</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator OPERAND ( const vecType&lt;T, P&gt;&amp; a, const _GLM_SWIZZLE_TYPE1&amp; b) \</span></div>
<div class="line"><a name="l00184"></a><span class="lineno"> 184</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00185"></a><span class="lineno"> 185</span>&#160;<span class="preprocessor"> return a OPERAND b(); \</span></div>
<div class="line"><a name="l00186"></a><span class="lineno"> 186</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00187"></a><span class="lineno"> 187</span>&#160;</div>
<div class="line"><a name="l00188"></a><span class="lineno"> 188</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00189"></a><span class="lineno"> 189</span>&#160;<span class="comment">// Wrapper for a operand between a swizzle and a binary (e.g. 1.0f - u.xyz)</span></div>
<div class="line"><a name="l00190"></a><span class="lineno"> 190</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00191"></a><span class="lineno"> 191</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_SCALAR_BINARY_OPERATOR_IMPLEMENTATION(OPERAND) \</span></div>
<div class="line"><a name="l00192"></a><span class="lineno"> 192</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00193"></a><span class="lineno"> 193</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator OPERAND ( const _GLM_SWIZZLE_TYPE1&amp; a, const T&amp; b) \</span></div>
<div class="line"><a name="l00194"></a><span class="lineno"> 194</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00195"></a><span class="lineno"> 195</span>&#160;<span class="preprocessor"> return a() OPERAND b; \</span></div>
<div class="line"><a name="l00196"></a><span class="lineno"> 196</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00197"></a><span class="lineno"> 197</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00198"></a><span class="lineno"> 198</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER vecType&lt;T, P&gt; operator OPERAND ( const T&amp; a, const _GLM_SWIZZLE_TYPE1&amp; b) \</span></div>
<div class="line"><a name="l00199"></a><span class="lineno"> 199</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00200"></a><span class="lineno"> 200</span>&#160;<span class="preprocessor"> return a OPERAND b(); \</span></div>
<div class="line"><a name="l00201"></a><span class="lineno"> 201</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00202"></a><span class="lineno"> 202</span>&#160;</div>
<div class="line"><a name="l00203"></a><span class="lineno"> 203</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00204"></a><span class="lineno"> 204</span>&#160;<span class="comment">// Macro for wrapping a function taking one argument (e.g. abs())</span></div>
<div class="line"><a name="l00205"></a><span class="lineno"> 205</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00206"></a><span class="lineno"> 206</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_FUNCTION_1_ARGS(RETURN_TYPE,FUNCTION) \</span></div>
<div class="line"><a name="l00207"></a><span class="lineno"> 207</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00208"></a><span class="lineno"> 208</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const _GLM_SWIZZLE_TYPE1&amp; a) \</span></div>
<div class="line"><a name="l00209"></a><span class="lineno"> 209</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00210"></a><span class="lineno"> 210</span>&#160;<span class="preprocessor"> return FUNCTION(a()); \</span></div>
<div class="line"><a name="l00211"></a><span class="lineno"> 211</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00212"></a><span class="lineno"> 212</span>&#160;</div>
<div class="line"><a name="l00213"></a><span class="lineno"> 213</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00214"></a><span class="lineno"> 214</span>&#160;<span class="comment">// Macro for wrapping a function taking two vector arguments (e.g. dot()).</span></div>
<div class="line"><a name="l00215"></a><span class="lineno"> 215</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00216"></a><span class="lineno"> 216</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_FUNCTION_2_ARGS(RETURN_TYPE,FUNCTION) \</span></div>
<div class="line"><a name="l00217"></a><span class="lineno"> 217</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE2 \</span></div>
<div class="line"><a name="l00218"></a><span class="lineno"> 218</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const _GLM_SWIZZLE_TYPE1&amp; a, const _GLM_SWIZZLE_TYPE2&amp; b) \</span></div>
<div class="line"><a name="l00219"></a><span class="lineno"> 219</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00220"></a><span class="lineno"> 220</span>&#160;<span class="preprocessor"> return FUNCTION(a(), b()); \</span></div>
<div class="line"><a name="l00221"></a><span class="lineno"> 221</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00222"></a><span class="lineno"> 222</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00223"></a><span class="lineno"> 223</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const _GLM_SWIZZLE_TYPE1&amp; a, const _GLM_SWIZZLE_TYPE1&amp; b) \</span></div>
<div class="line"><a name="l00224"></a><span class="lineno"> 224</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00225"></a><span class="lineno"> 225</span>&#160;<span class="preprocessor"> return FUNCTION(a(), b()); \</span></div>
<div class="line"><a name="l00226"></a><span class="lineno"> 226</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00227"></a><span class="lineno"> 227</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00228"></a><span class="lineno"> 228</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const _GLM_SWIZZLE_TYPE1&amp; a, const typename V&amp; b) \</span></div>
<div class="line"><a name="l00229"></a><span class="lineno"> 229</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00230"></a><span class="lineno"> 230</span>&#160;<span class="preprocessor"> return FUNCTION(a(), b); \</span></div>
<div class="line"><a name="l00231"></a><span class="lineno"> 231</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00232"></a><span class="lineno"> 232</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00233"></a><span class="lineno"> 233</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const V&amp; a, const _GLM_SWIZZLE_TYPE1&amp; b) \</span></div>
<div class="line"><a name="l00234"></a><span class="lineno"> 234</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00235"></a><span class="lineno"> 235</span>&#160;<span class="preprocessor"> return FUNCTION(a, b()); \</span></div>
<div class="line"><a name="l00236"></a><span class="lineno"> 236</span>&#160;<span class="preprocessor"> } </span></div>
<div class="line"><a name="l00237"></a><span class="lineno"> 237</span>&#160;</div>
<div class="line"><a name="l00238"></a><span class="lineno"> 238</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00239"></a><span class="lineno"> 239</span>&#160;<span class="comment">// Macro for wrapping a function take 2 vec arguments followed by a scalar (e.g. mix()).</span></div>
<div class="line"><a name="l00240"></a><span class="lineno"> 240</span>&#160;<span class="comment">//</span></div>
<div class="line"><a name="l00241"></a><span class="lineno"> 241</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE_FUNCTION_2_ARGS_SCALAR(RETURN_TYPE,FUNCTION) \</span></div>
<div class="line"><a name="l00242"></a><span class="lineno"> 242</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE2 \</span></div>
<div class="line"><a name="l00243"></a><span class="lineno"> 243</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const _GLM_SWIZZLE_TYPE1&amp; a, const _GLM_SWIZZLE_TYPE2&amp; b, const T&amp; c) \</span></div>
<div class="line"><a name="l00244"></a><span class="lineno"> 244</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00245"></a><span class="lineno"> 245</span>&#160;<span class="preprocessor"> return FUNCTION(a(), b(), c); \</span></div>
<div class="line"><a name="l00246"></a><span class="lineno"> 246</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00247"></a><span class="lineno"> 247</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00248"></a><span class="lineno"> 248</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const _GLM_SWIZZLE_TYPE1&amp; a, const _GLM_SWIZZLE_TYPE1&amp; b, const T&amp; c) \</span></div>
<div class="line"><a name="l00249"></a><span class="lineno"> 249</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00250"></a><span class="lineno"> 250</span>&#160;<span class="preprocessor"> return FUNCTION(a(), b(), c); \</span></div>
<div class="line"><a name="l00251"></a><span class="lineno"> 251</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00252"></a><span class="lineno"> 252</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00253"></a><span class="lineno"> 253</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const _GLM_SWIZZLE_TYPE1&amp; a, const typename S0::vec_type&amp; b, const T&amp; c)\</span></div>
<div class="line"><a name="l00254"></a><span class="lineno"> 254</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00255"></a><span class="lineno"> 255</span>&#160;<span class="preprocessor"> return FUNCTION(a(), b, c); \</span></div>
<div class="line"><a name="l00256"></a><span class="lineno"> 256</span>&#160;<span class="preprocessor"> } \</span></div>
<div class="line"><a name="l00257"></a><span class="lineno"> 257</span>&#160;<span class="preprocessor"> _GLM_SWIZZLE_TEMPLATE1 \</span></div>
<div class="line"><a name="l00258"></a><span class="lineno"> 258</span>&#160;<span class="preprocessor"> GLM_FUNC_QUALIFIER typename _GLM_SWIZZLE_TYPE1::RETURN_TYPE FUNCTION(const typename V&amp; a, const _GLM_SWIZZLE_TYPE1&amp; b, const T&amp; c) \</span></div>
<div class="line"><a name="l00259"></a><span class="lineno"> 259</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00260"></a><span class="lineno"> 260</span>&#160;<span class="preprocessor"> return FUNCTION(a, b(), c); \</span></div>
<div class="line"><a name="l00261"></a><span class="lineno"> 261</span>&#160;<span class="preprocessor"> } </span></div>
<div class="line"><a name="l00262"></a><span class="lineno"> 262</span>&#160; </div>
<div class="line"><a name="l00263"></a><span class="lineno"> 263</span>&#160;}<span class="comment">//namespace detail </span></div>
<div class="line"><a name="l00264"></a><span class="lineno"> 264</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00265"></a><span class="lineno"> 265</span>&#160;</div>
<div class="line"><a name="l00266"></a><span class="lineno"> 266</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00267"></a><span class="lineno"> 267</span>&#160;{</div>
<div class="line"><a name="l00268"></a><span class="lineno"> 268</span>&#160; <span class="keyword">namespace </span>detail</div>
<div class="line"><a name="l00269"></a><span class="lineno"> 269</span>&#160; {</div>
<div class="line"><a name="l00270"></a><span class="lineno"> 270</span>&#160; _GLM_SWIZZLE_SCALAR_BINARY_OPERATOR_IMPLEMENTATION(-)</div>
<div class="line"><a name="l00271"></a><span class="lineno"> 271</span>&#160; _GLM_SWIZZLE_SCALAR_BINARY_OPERATOR_IMPLEMENTATION(*)</div>
<div class="line"><a name="l00272"></a><span class="lineno"> 272</span>&#160; _GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(+)</div>
<div class="line"><a name="l00273"></a><span class="lineno"> 273</span>&#160; _GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(-)</div>
<div class="line"><a name="l00274"></a><span class="lineno"> 274</span>&#160; _GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(*)</div>
<div class="line"><a name="l00275"></a><span class="lineno"> 275</span>&#160; _GLM_SWIZZLE_VECTOR_BINARY_OPERATOR_IMPLEMENTATION(/)</div>
<div class="line"><a name="l00276"></a><span class="lineno"> 276</span>&#160; }</div>
<div class="line"><a name="l00277"></a><span class="lineno"> 277</span>&#160;</div>
<div class="line"><a name="l00278"></a><span class="lineno"> 278</span>&#160; <span class="comment">//</span></div>
<div class="line"><a name="l00279"></a><span class="lineno"> 279</span>&#160; <span class="comment">// Swizzles are distinct types from the unswizzled type. The below macros will</span></div>
<div class="line"><a name="l00280"></a><span class="lineno"> 280</span>&#160; <span class="comment">// provide template specializations for the swizzle types for the given functions</span></div>
<div class="line"><a name="l00281"></a><span class="lineno"> 281</span>&#160; <span class="comment">// so that the compiler does not have any ambiguity to choosing how to handle</span></div>
<div class="line"><a name="l00282"></a><span class="lineno"> 282</span>&#160; <span class="comment">// the function.</span></div>
<div class="line"><a name="l00283"></a><span class="lineno"> 283</span>&#160; <span class="comment">//</span></div>
<div class="line"><a name="l00284"></a><span class="lineno"> 284</span>&#160; <span class="comment">// The alternative is to use the operator()() when calling the function in order</span></div>
<div class="line"><a name="l00285"></a><span class="lineno"> 285</span>&#160; <span class="comment">// to explicitly convert the swizzled type to the unswizzled type.</span></div>
<div class="line"><a name="l00286"></a><span class="lineno"> 286</span>&#160; <span class="comment">//</span></div>
<div class="line"><a name="l00287"></a><span class="lineno"> 287</span>&#160;</div>
<div class="line"><a name="l00288"></a><span class="lineno"> 288</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, abs);</span></div>
<div class="line"><a name="l00289"></a><span class="lineno"> 289</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, acos);</span></div>
<div class="line"><a name="l00290"></a><span class="lineno"> 290</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, acosh);</span></div>
<div class="line"><a name="l00291"></a><span class="lineno"> 291</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, all);</span></div>
<div class="line"><a name="l00292"></a><span class="lineno"> 292</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_1_ARGS(vec_type, any);</span></div>
<div class="line"><a name="l00293"></a><span class="lineno"> 293</span>&#160;</div>
<div class="line"><a name="l00294"></a><span class="lineno"> 294</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_2_ARGS(value_type, dot);</span></div>
<div class="line"><a name="l00295"></a><span class="lineno"> 295</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_2_ARGS(vec_type, cross);</span></div>
<div class="line"><a name="l00296"></a><span class="lineno"> 296</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_2_ARGS(vec_type, step); </span></div>
<div class="line"><a name="l00297"></a><span class="lineno"> 297</span>&#160; <span class="comment">//_GLM_SWIZZLE_FUNCTION_2_ARGS_SCALAR(vec_type, mix);</span></div>
<div class="line"><a name="l00298"></a><span class="lineno"> 298</span>&#160;}</div>
<div class="line"><a name="l00299"></a><span class="lineno"> 299</span>&#160;</div>
<div class="line"><a name="l00300"></a><span class="lineno"> 300</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE2_2_MEMBERS(T, P, V, E0,E1) \</span></div>
<div class="line"><a name="l00301"></a><span class="lineno"> 301</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2, T, P, V, 0,0,-1,-2&gt; E0 ## E0; }; \</span></div>
<div class="line"><a name="l00302"></a><span class="lineno"> 302</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2, T, P, V, 0,1,-1,-2&gt; E0 ## E1; }; \</span></div>
<div class="line"><a name="l00303"></a><span class="lineno"> 303</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2, T, P, V, 1,0,-1,-2&gt; E1 ## E0; }; \</span></div>
<div class="line"><a name="l00304"></a><span class="lineno"> 304</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2, T, P, V, 1,1,-1,-2&gt; E1 ## E1; }; </span></div>
<div class="line"><a name="l00305"></a><span class="lineno"> 305</span>&#160;</div>
<div class="line"><a name="l00306"></a><span class="lineno"> 306</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE2_3_MEMBERS(T, P, V, E0,E1) \</span></div>
<div class="line"><a name="l00307"></a><span class="lineno"> 307</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 0,0,0,-1&gt; E0 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00308"></a><span class="lineno"> 308</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 0,0,1,-1&gt; E0 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00309"></a><span class="lineno"> 309</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 0,1,0,-1&gt; E0 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00310"></a><span class="lineno"> 310</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 0,1,1,-1&gt; E0 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00311"></a><span class="lineno"> 311</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 1,0,0,-1&gt; E1 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00312"></a><span class="lineno"> 312</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 1,0,1,-1&gt; E1 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00313"></a><span class="lineno"> 313</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 1,1,0,-1&gt; E1 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00314"></a><span class="lineno"> 314</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3,T, P, V, 1,1,1,-1&gt; E1 ## E1 ## E1; }; </span></div>
<div class="line"><a name="l00315"></a><span class="lineno"> 315</span>&#160;</div>
<div class="line"><a name="l00316"></a><span class="lineno"> 316</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE2_4_MEMBERS(T, P, V, E0,E1) \</span></div>
<div class="line"><a name="l00317"></a><span class="lineno"> 317</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,0,0&gt; E0 ## E0 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00318"></a><span class="lineno"> 318</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,0,1&gt; E0 ## E0 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00319"></a><span class="lineno"> 319</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,1,0&gt; E0 ## E0 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00320"></a><span class="lineno"> 320</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,1,1&gt; E0 ## E0 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00321"></a><span class="lineno"> 321</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,0,0&gt; E0 ## E1 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00322"></a><span class="lineno"> 322</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,0,1&gt; E0 ## E1 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00323"></a><span class="lineno"> 323</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,1,0&gt; E0 ## E1 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00324"></a><span class="lineno"> 324</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,1,1&gt; E0 ## E1 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00325"></a><span class="lineno"> 325</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,0,0,0&gt; E1 ## E0 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00326"></a><span class="lineno"> 326</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,0,0,1&gt; E1 ## E0 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00327"></a><span class="lineno"> 327</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,0,1,0&gt; E1 ## E0 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00328"></a><span class="lineno"> 328</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,0,1,1&gt; E1 ## E0 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00329"></a><span class="lineno"> 329</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,1,0,0&gt; E1 ## E1 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00330"></a><span class="lineno"> 330</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,1,0,1&gt; E1 ## E1 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00331"></a><span class="lineno"> 331</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,1,1,0&gt; E1 ## E1 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00332"></a><span class="lineno"> 332</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 1,1,1,1&gt; E1 ## E1 ## E1 ## E1; };</span></div>
<div class="line"><a name="l00333"></a><span class="lineno"> 333</span>&#160;</div>
<div class="line"><a name="l00334"></a><span class="lineno"> 334</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE3_2_MEMBERS(T, P, V, E0,E1,E2) \</span></div>
<div class="line"><a name="l00335"></a><span class="lineno"> 335</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 0,0,-1,-2&gt; E0 ## E0; }; \</span></div>
<div class="line"><a name="l00336"></a><span class="lineno"> 336</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 0,1,-1,-2&gt; E0 ## E1; }; \</span></div>
<div class="line"><a name="l00337"></a><span class="lineno"> 337</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 0,2,-1,-2&gt; E0 ## E2; }; \</span></div>
<div class="line"><a name="l00338"></a><span class="lineno"> 338</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 1,0,-1,-2&gt; E1 ## E0; }; \</span></div>
<div class="line"><a name="l00339"></a><span class="lineno"> 339</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 1,1,-1,-2&gt; E1 ## E1; }; \</span></div>
<div class="line"><a name="l00340"></a><span class="lineno"> 340</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 1,2,-1,-2&gt; E1 ## E2; }; \</span></div>
<div class="line"><a name="l00341"></a><span class="lineno"> 341</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 2,0,-1,-2&gt; E2 ## E0; }; \</span></div>
<div class="line"><a name="l00342"></a><span class="lineno"> 342</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 2,1,-1,-2&gt; E2 ## E1; }; \</span></div>
<div class="line"><a name="l00343"></a><span class="lineno"> 343</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;2,T, P, V, 2,2,-1,-2&gt; E2 ## E2; };</span></div>
<div class="line"><a name="l00344"></a><span class="lineno"> 344</span>&#160;</div>
<div class="line"><a name="l00345"></a><span class="lineno"> 345</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE3_3_MEMBERS(T, P, V ,E0,E1,E2) \</span></div>
<div class="line"><a name="l00346"></a><span class="lineno"> 346</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,0,0,-1&gt; E0 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00347"></a><span class="lineno"> 347</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,0,1,-1&gt; E0 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00348"></a><span class="lineno"> 348</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,0,2,-1&gt; E0 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00349"></a><span class="lineno"> 349</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,1,0,-1&gt; E0 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00350"></a><span class="lineno"> 350</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,1,1,-1&gt; E0 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00351"></a><span class="lineno"> 351</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,1,2,-1&gt; E0 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00352"></a><span class="lineno"> 352</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,2,0,-1&gt; E0 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00353"></a><span class="lineno"> 353</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,2,1,-1&gt; E0 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00354"></a><span class="lineno"> 354</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,2,2,-1&gt; E0 ## E2 ## E2; }; \</span></div>
<div class="line"><a name="l00355"></a><span class="lineno"> 355</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,0,0,-1&gt; E1 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00356"></a><span class="lineno"> 356</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,0,1,-1&gt; E1 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00357"></a><span class="lineno"> 357</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,0,2,-1&gt; E1 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00358"></a><span class="lineno"> 358</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,1,0,-1&gt; E1 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00359"></a><span class="lineno"> 359</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,1,1,-1&gt; E1 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00360"></a><span class="lineno"> 360</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,1,2,-1&gt; E1 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00361"></a><span class="lineno"> 361</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,2,0,-1&gt; E1 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00362"></a><span class="lineno"> 362</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,2,1,-1&gt; E1 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00363"></a><span class="lineno"> 363</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 1,2,2,-1&gt; E1 ## E2 ## E2; }; \</span></div>
<div class="line"><a name="l00364"></a><span class="lineno"> 364</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,0,0,-1&gt; E2 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00365"></a><span class="lineno"> 365</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,0,1,-1&gt; E2 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00366"></a><span class="lineno"> 366</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,0,2,-1&gt; E2 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00367"></a><span class="lineno"> 367</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,1,0,-1&gt; E2 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00368"></a><span class="lineno"> 368</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,1,1,-1&gt; E2 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00369"></a><span class="lineno"> 369</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,1,2,-1&gt; E2 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00370"></a><span class="lineno"> 370</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,2,0,-1&gt; E2 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00371"></a><span class="lineno"> 371</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,2,1,-1&gt; E2 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00372"></a><span class="lineno"> 372</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 2,2,2,-1&gt; E2 ## E2 ## E2; };</span></div>
<div class="line"><a name="l00373"></a><span class="lineno"> 373</span>&#160;</div>
<div class="line"><a name="l00374"></a><span class="lineno"> 374</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE3_4_MEMBERS(T, P, V, E0,E1,E2) \</span></div>
<div class="line"><a name="l00375"></a><span class="lineno"> 375</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,0,0&gt; E0 ## E0 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00376"></a><span class="lineno"> 376</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,0,1&gt; E0 ## E0 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00377"></a><span class="lineno"> 377</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,0,2&gt; E0 ## E0 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00378"></a><span class="lineno"> 378</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,1,0&gt; E0 ## E0 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00379"></a><span class="lineno"> 379</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,1,1&gt; E0 ## E0 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00380"></a><span class="lineno"> 380</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,1,2&gt; E0 ## E0 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00381"></a><span class="lineno"> 381</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,2,0&gt; E0 ## E0 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00382"></a><span class="lineno"> 382</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,2,1&gt; E0 ## E0 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00383"></a><span class="lineno"> 383</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,0,2,2&gt; E0 ## E0 ## E2 ## E2; }; \</span></div>
<div class="line"><a name="l00384"></a><span class="lineno"> 384</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,0,0&gt; E0 ## E1 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00385"></a><span class="lineno"> 385</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,0,1&gt; E0 ## E1 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00386"></a><span class="lineno"> 386</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,0,2&gt; E0 ## E1 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00387"></a><span class="lineno"> 387</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,1,0&gt; E0 ## E1 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00388"></a><span class="lineno"> 388</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,1,1&gt; E0 ## E1 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00389"></a><span class="lineno"> 389</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,1,2&gt; E0 ## E1 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00390"></a><span class="lineno"> 390</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,2,0&gt; E0 ## E1 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00391"></a><span class="lineno"> 391</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,2,1&gt; E0 ## E1 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00392"></a><span class="lineno"> 392</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,1,2,2&gt; E0 ## E1 ## E2 ## E2; }; \</span></div>
<div class="line"><a name="l00393"></a><span class="lineno"> 393</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,2,0,0&gt; E0 ## E2 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00394"></a><span class="lineno"> 394</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 0,2,0,1&gt; E0 ## E2 ## E0 ## E1; }; \</span></div>
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<div class="line"><a name="l00453"></a><span class="lineno"> 453</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 2,2,2,0&gt; E2 ## E2 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00454"></a><span class="lineno"> 454</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4,T, P, V, 2,2,2,1&gt; E2 ## E2 ## E2 ## E1; }; \</span></div>
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<div class="line"><a name="l00456"></a><span class="lineno"> 456</span>&#160;</div>
<div class="line"><a name="l00457"></a><span class="lineno"> 457</span>&#160;<span class="preprocessor">#define _GLM_SWIZZLE4_2_MEMBERS(T, P, V, E0,E1,E2,E3) \</span></div>
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<div class="line"><a name="l00474"></a><span class="lineno"> 474</span>&#160;</div>
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<div class="line"><a name="l00490"></a><span class="lineno"> 490</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;3, T, P, V, 0,3,2,-1&gt; E0 ## E3 ## E2; }; \</span></div>
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<div class="line"><a name="l00687"></a><span class="lineno"> 687</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,0,1&gt; E2 ## E1 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00688"></a><span class="lineno"> 688</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,0,2&gt; E2 ## E1 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00689"></a><span class="lineno"> 689</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,0,3&gt; E2 ## E1 ## E0 ## E3; }; \</span></div>
<div class="line"><a name="l00690"></a><span class="lineno"> 690</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,1,0&gt; E2 ## E1 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00691"></a><span class="lineno"> 691</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,1,1&gt; E2 ## E1 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00692"></a><span class="lineno"> 692</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,1,2&gt; E2 ## E1 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00693"></a><span class="lineno"> 693</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,1,3&gt; E2 ## E1 ## E1 ## E3; }; \</span></div>
<div class="line"><a name="l00694"></a><span class="lineno"> 694</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,2,0&gt; E2 ## E1 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00695"></a><span class="lineno"> 695</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,2,1&gt; E2 ## E1 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00696"></a><span class="lineno"> 696</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,2,2&gt; E2 ## E1 ## E2 ## E2; }; \</span></div>
<div class="line"><a name="l00697"></a><span class="lineno"> 697</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,2,3&gt; E2 ## E1 ## E2 ## E3; }; \</span></div>
<div class="line"><a name="l00698"></a><span class="lineno"> 698</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,3,0&gt; E2 ## E1 ## E3 ## E0; }; \</span></div>
<div class="line"><a name="l00699"></a><span class="lineno"> 699</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,3,1&gt; E2 ## E1 ## E3 ## E1; }; \</span></div>
<div class="line"><a name="l00700"></a><span class="lineno"> 700</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,1,3,2&gt; E2 ## E1 ## E3 ## E2; }; \</span></div>
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<div class="line"><a name="l00702"></a><span class="lineno"> 702</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,0,0&gt; E2 ## E2 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00703"></a><span class="lineno"> 703</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,0,1&gt; E2 ## E2 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00704"></a><span class="lineno"> 704</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,0,2&gt; E2 ## E2 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00705"></a><span class="lineno"> 705</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,0,3&gt; E2 ## E2 ## E0 ## E3; }; \</span></div>
<div class="line"><a name="l00706"></a><span class="lineno"> 706</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,1,0&gt; E2 ## E2 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00707"></a><span class="lineno"> 707</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,1,1&gt; E2 ## E2 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00708"></a><span class="lineno"> 708</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,1,2&gt; E2 ## E2 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00709"></a><span class="lineno"> 709</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,1,3&gt; E2 ## E2 ## E1 ## E3; }; \</span></div>
<div class="line"><a name="l00710"></a><span class="lineno"> 710</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,2,0&gt; E2 ## E2 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00711"></a><span class="lineno"> 711</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,2,1&gt; E2 ## E2 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00712"></a><span class="lineno"> 712</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,2,2&gt; E2 ## E2 ## E2 ## E2; }; \</span></div>
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<div class="line"><a name="l00714"></a><span class="lineno"> 714</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,3,0&gt; E2 ## E2 ## E3 ## E0; }; \</span></div>
<div class="line"><a name="l00715"></a><span class="lineno"> 715</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,3,1&gt; E2 ## E2 ## E3 ## E1; }; \</span></div>
<div class="line"><a name="l00716"></a><span class="lineno"> 716</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,3,2&gt; E2 ## E2 ## E3 ## E2; }; \</span></div>
<div class="line"><a name="l00717"></a><span class="lineno"> 717</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,2,3,3&gt; E2 ## E2 ## E3 ## E3; }; \</span></div>
<div class="line"><a name="l00718"></a><span class="lineno"> 718</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,0,0&gt; E2 ## E3 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00719"></a><span class="lineno"> 719</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,0,1&gt; E2 ## E3 ## E0 ## E1; }; \</span></div>
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<div class="line"><a name="l00721"></a><span class="lineno"> 721</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,0,3&gt; E2 ## E3 ## E0 ## E3; }; \</span></div>
<div class="line"><a name="l00722"></a><span class="lineno"> 722</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,1,0&gt; E2 ## E3 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00723"></a><span class="lineno"> 723</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,1,1&gt; E2 ## E3 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00724"></a><span class="lineno"> 724</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,1,2&gt; E2 ## E3 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00725"></a><span class="lineno"> 725</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,1,3&gt; E2 ## E3 ## E1 ## E3; }; \</span></div>
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<div class="line"><a name="l00728"></a><span class="lineno"> 728</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,2,2&gt; E2 ## E3 ## E2 ## E2; }; \</span></div>
<div class="line"><a name="l00729"></a><span class="lineno"> 729</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,2,3&gt; E2 ## E3 ## E2 ## E3; }; \</span></div>
<div class="line"><a name="l00730"></a><span class="lineno"> 730</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,3,0&gt; E2 ## E3 ## E3 ## E0; }; \</span></div>
<div class="line"><a name="l00731"></a><span class="lineno"> 731</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,3,1&gt; E2 ## E3 ## E3 ## E1; }; \</span></div>
<div class="line"><a name="l00732"></a><span class="lineno"> 732</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,3,2&gt; E2 ## E3 ## E3 ## E2; }; \</span></div>
<div class="line"><a name="l00733"></a><span class="lineno"> 733</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 2,3,3,3&gt; E2 ## E3 ## E3 ## E3; }; \</span></div>
<div class="line"><a name="l00734"></a><span class="lineno"> 734</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,0,0&gt; E3 ## E0 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00735"></a><span class="lineno"> 735</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,0,1&gt; E3 ## E0 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00736"></a><span class="lineno"> 736</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,0,2&gt; E3 ## E0 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00737"></a><span class="lineno"> 737</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,0,3&gt; E3 ## E0 ## E0 ## E3; }; \</span></div>
<div class="line"><a name="l00738"></a><span class="lineno"> 738</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,1,0&gt; E3 ## E0 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00739"></a><span class="lineno"> 739</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,1,1&gt; E3 ## E0 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00740"></a><span class="lineno"> 740</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,1,2&gt; E3 ## E0 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00741"></a><span class="lineno"> 741</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,1,3&gt; E3 ## E0 ## E1 ## E3; }; \</span></div>
<div class="line"><a name="l00742"></a><span class="lineno"> 742</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,2,0&gt; E3 ## E0 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00743"></a><span class="lineno"> 743</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,2,1&gt; E3 ## E0 ## E2 ## E1; }; \</span></div>
<div class="line"><a name="l00744"></a><span class="lineno"> 744</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,2,2&gt; E3 ## E0 ## E2 ## E2; }; \</span></div>
<div class="line"><a name="l00745"></a><span class="lineno"> 745</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,2,3&gt; E3 ## E0 ## E2 ## E3; }; \</span></div>
<div class="line"><a name="l00746"></a><span class="lineno"> 746</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,3,0&gt; E3 ## E0 ## E3 ## E0; }; \</span></div>
<div class="line"><a name="l00747"></a><span class="lineno"> 747</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,3,1&gt; E3 ## E0 ## E3 ## E1; }; \</span></div>
<div class="line"><a name="l00748"></a><span class="lineno"> 748</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,3,2&gt; E3 ## E0 ## E3 ## E2; }; \</span></div>
<div class="line"><a name="l00749"></a><span class="lineno"> 749</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,0,3,3&gt; E3 ## E0 ## E3 ## E3; }; \</span></div>
<div class="line"><a name="l00750"></a><span class="lineno"> 750</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,0,0&gt; E3 ## E1 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00751"></a><span class="lineno"> 751</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,0,1&gt; E3 ## E1 ## E0 ## E1; }; \</span></div>
<div class="line"><a name="l00752"></a><span class="lineno"> 752</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,0,2&gt; E3 ## E1 ## E0 ## E2; }; \</span></div>
<div class="line"><a name="l00753"></a><span class="lineno"> 753</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,0,3&gt; E3 ## E1 ## E0 ## E3; }; \</span></div>
<div class="line"><a name="l00754"></a><span class="lineno"> 754</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,1,0&gt; E3 ## E1 ## E1 ## E0; }; \</span></div>
<div class="line"><a name="l00755"></a><span class="lineno"> 755</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,1,1&gt; E3 ## E1 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00756"></a><span class="lineno"> 756</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,1,2&gt; E3 ## E1 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00757"></a><span class="lineno"> 757</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,1,3&gt; E3 ## E1 ## E1 ## E3; }; \</span></div>
<div class="line"><a name="l00758"></a><span class="lineno"> 758</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,2,0&gt; E3 ## E1 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00759"></a><span class="lineno"> 759</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,2,1&gt; E3 ## E1 ## E2 ## E1; }; \</span></div>
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<div class="line"><a name="l00761"></a><span class="lineno"> 761</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,2,3&gt; E3 ## E1 ## E2 ## E3; }; \</span></div>
<div class="line"><a name="l00762"></a><span class="lineno"> 762</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,3,0&gt; E3 ## E1 ## E3 ## E0; }; \</span></div>
<div class="line"><a name="l00763"></a><span class="lineno"> 763</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,3,1&gt; E3 ## E1 ## E3 ## E1; }; \</span></div>
<div class="line"><a name="l00764"></a><span class="lineno"> 764</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,3,2&gt; E3 ## E1 ## E3 ## E2; }; \</span></div>
<div class="line"><a name="l00765"></a><span class="lineno"> 765</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,1,3,3&gt; E3 ## E1 ## E3 ## E3; }; \</span></div>
<div class="line"><a name="l00766"></a><span class="lineno"> 766</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,2,0,0&gt; E3 ## E2 ## E0 ## E0; }; \</span></div>
<div class="line"><a name="l00767"></a><span class="lineno"> 767</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,2,0,1&gt; E3 ## E2 ## E0 ## E1; }; \</span></div>
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<div class="line"><a name="l00771"></a><span class="lineno"> 771</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,2,1,1&gt; E3 ## E2 ## E1 ## E1; }; \</span></div>
<div class="line"><a name="l00772"></a><span class="lineno"> 772</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,2,1,2&gt; E3 ## E2 ## E1 ## E2; }; \</span></div>
<div class="line"><a name="l00773"></a><span class="lineno"> 773</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,2,1,3&gt; E3 ## E2 ## E1 ## E3; }; \</span></div>
<div class="line"><a name="l00774"></a><span class="lineno"> 774</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,2,2,0&gt; E3 ## E2 ## E2 ## E0; }; \</span></div>
<div class="line"><a name="l00775"></a><span class="lineno"> 775</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,2,2,1&gt; E3 ## E2 ## E2 ## E1; }; \</span></div>
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<div class="line"><a name="l00797"></a><span class="lineno"> 797</span>&#160;<span class="preprocessor"> struct { detail::_swizzle&lt;4, T, P, V, 3,3,3,3&gt; E3 ## E3 ## E3 ## E3; };</span></div>
<div class="ttc" id="a00162_html_ga4b7956eb6e2fbedfc7cf2e46e85c5139"><div class="ttname"><a href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">glm::e</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType e()</div><div class="ttdoc">Return e constant. </div></div>
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<a href="a00005.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00004"></a><span class="lineno"> 4</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00005"></a><span class="lineno"> 5</span>&#160;</div>
<div class="line"><a name="l00006"></a><span class="lineno"> 6</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, CONST, A, B) \</span></div>
<div class="line"><a name="l00007"></a><span class="lineno"> 7</span>&#160;<span class="preprocessor"> SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt; A ## B() CONST \</span></div>
<div class="line"><a name="l00008"></a><span class="lineno"> 8</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00009"></a><span class="lineno"> 9</span>&#160;<span class="preprocessor"> return SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt;(this-&gt;A, this-&gt;B); \</span></div>
<div class="line"><a name="l00010"></a><span class="lineno"> 10</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00011"></a><span class="lineno"> 11</span>&#160;</div>
<div class="line"><a name="l00012"></a><span class="lineno"> 12</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, CONST, A, B, C) \</span></div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor"> SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt; A ## B ## C() CONST \</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="preprocessor"> return SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt;(this-&gt;A, this-&gt;B, this-&gt;C); \</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, CONST, A, B, C, D) \</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"> SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt; A ## B ## C ## D() CONST \</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor"> return SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt;(this-&gt;A, this-&gt;B, this-&gt;C, this-&gt;D); \</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;</div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC2_ENTRY_DEF(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, CONST, A, B) \</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="preprocessor"> template &lt;typename TMPL_TYPE&gt; \</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="preprocessor"> SWIZZLED_TYPE&lt;TMPL_TYPE&gt; CLASS_TYPE&lt;TMPL_TYPE, PRECISION&gt;::A ## B() CONST \</span></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;<span class="preprocessor"> return SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt;(this-&gt;A, this-&gt;B); \</span></div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC3_ENTRY_DEF(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, CONST, A, B, C) \</span></div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160;<span class="preprocessor"> template &lt;typename TMPL_TYPE&gt; \</span></div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160;<span class="preprocessor"> SWIZZLED_TYPE&lt;TMPL_TYPE&gt; CLASS_TYPE&lt;TMPL_TYPE, PRECISION&gt;::A ## B ## C() CONST \</span></div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160;<span class="preprocessor"> return SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt;(this-&gt;A, this-&gt;B, this-&gt;C); \</span></div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160;</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC4_ENTRY_DEF(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, CONST, A, B, C, D) \</span></div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160;<span class="preprocessor"> template &lt;typename TMPL_TYPE&gt; \</span></div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160;<span class="preprocessor"> SWIZZLED_TYPE&lt;TMPL_TYPE&gt; CLASS_TYPE&lt;TMPL_TYPE, PRECISION&gt;::A ## B ## C ## D() CONST \</span></div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160;<span class="preprocessor"> { \</span></div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;<span class="preprocessor"> return SWIZZLED_TYPE&lt;TMPL_TYPE, PRECISION&gt;(this-&gt;A, this-&gt;B, this-&gt;C, this-&gt;D); \</span></div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;<span class="preprocessor"> }</span></div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;<span class="preprocessor">#define GLM_MUTABLE</span></div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B) \</span></div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, B) \</span></div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, A)</span></div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160;</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF_FROM_VEC2(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE) \</span></div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, x, y) \</span></div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, r, g) \</span></div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF2_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, s, t)</span></div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;<span class="comment">//GLM_SWIZZLE_GEN_REF_FROM_VEC2(valType, detail::vec2, detail::ref2)</span></div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160;</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF2_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, B) \</span></div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, C) \</span></div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, A) \</span></div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, C) \</span></div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, C, A) \</span></div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, C, B)</span></div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF3_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, B, C) \</span></div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, C, B) \</span></div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, A, C) \</span></div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, C, A) \</span></div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, C, A, B) \</span></div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, C, B, A)</span></div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160;</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF3_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC3_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF2_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, A, B, C)</span></div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160;</div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF_FROM_VEC3(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE) \</span></div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, x, y, z) \</span></div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, r, g, b) \</span></div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, s, t, p)</span></div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160;</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160;<span class="comment">//GLM_SWIZZLE_GEN_REF_FROM_VEC3(valType, detail::vec3, detail::ref2, detail::ref3)</span></div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF2_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, B) \</span></div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, C) \</span></div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, A, D) \</span></div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, A) \</span></div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, C) \</span></div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, B, D) \</span></div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, C, A) \</span></div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, C, B) \</span></div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, C, D) \</span></div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, D, A) \</span></div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, D, B) \</span></div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, GLM_MUTABLE, D, C)</span></div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160;</div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF3_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, B, C) \</span></div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, B, D) \</span></div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, C, B) \</span></div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, C, D) \</span></div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, D, B) \</span></div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, D, C) \</span></div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, A, C) \</span></div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, A, D) \</span></div>
<div class="line"><a name="l00108"></a><span class="lineno"> 108</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, C, A) \</span></div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, C, D) \</span></div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, D, A) \</span></div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, D, C) \</span></div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, A, B) \</span></div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, A, D) \</span></div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, B, A) \</span></div>
<div class="line"><a name="l00115"></a><span class="lineno"> 115</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, B, D) \</span></div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, D, A) \</span></div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, D, B) \</span></div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, A, B) \</span></div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, A, C) \</span></div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, B, A) \</span></div>
<div class="line"><a name="l00121"></a><span class="lineno"> 121</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, B, C) \</span></div>
<div class="line"><a name="l00122"></a><span class="lineno"> 122</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, C, A) \</span></div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, C, B)</span></div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160;</div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF4_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, C, B, D) \</span></div>
<div class="line"><a name="l00127"></a><span class="lineno"> 127</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, C, D, B) \</span></div>
<div class="line"><a name="l00128"></a><span class="lineno"> 128</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, D, B, C) \</span></div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, D, C, B) \</span></div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, B, D, C) \</span></div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , A, B, C, D) \</span></div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, C, A, D) \</span></div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, C, D, A) \</span></div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, D, A, C) \</span></div>
<div class="line"><a name="l00135"></a><span class="lineno"> 135</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, D, C, A) \</span></div>
<div class="line"><a name="l00136"></a><span class="lineno"> 136</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, A, D, C) \</span></div>
<div class="line"><a name="l00137"></a><span class="lineno"> 137</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , B, A, C, D) \</span></div>
<div class="line"><a name="l00138"></a><span class="lineno"> 138</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, B, A, D) \</span></div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, B, D, A) \</span></div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, D, A, B) \</span></div>
<div class="line"><a name="l00141"></a><span class="lineno"> 141</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, D, B, A) \</span></div>
<div class="line"><a name="l00142"></a><span class="lineno"> 142</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, A, D, B) \</span></div>
<div class="line"><a name="l00143"></a><span class="lineno"> 143</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , C, A, B, D) \</span></div>
<div class="line"><a name="l00144"></a><span class="lineno"> 144</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, C, B, A) \</span></div>
<div class="line"><a name="l00145"></a><span class="lineno"> 145</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, C, A, B) \</span></div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, A, B, C) \</span></div>
<div class="line"><a name="l00147"></a><span class="lineno"> 147</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, A, C, B) \</span></div>
<div class="line"><a name="l00148"></a><span class="lineno"> 148</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, B, A, C) \</span></div>
<div class="line"><a name="l00149"></a><span class="lineno"> 149</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, , D, B, C, A)</span></div>
<div class="line"><a name="l00150"></a><span class="lineno"> 150</span>&#160;</div>
<div class="line"><a name="l00151"></a><span class="lineno"> 151</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00152"></a><span class="lineno"> 152</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF2_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00153"></a><span class="lineno"> 153</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF3_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC3_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00154"></a><span class="lineno"> 154</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF4_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC4_TYPE, A, B, C, D)</span></div>
<div class="line"><a name="l00155"></a><span class="lineno"> 155</span>&#160;</div>
<div class="line"><a name="l00156"></a><span class="lineno"> 156</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_REF_FROM_VEC4(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE) \</span></div>
<div class="line"><a name="l00157"></a><span class="lineno"> 157</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, x, y, z, w) \</span></div>
<div class="line"><a name="l00158"></a><span class="lineno"> 158</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, r, g, b, a) \</span></div>
<div class="line"><a name="l00159"></a><span class="lineno"> 159</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_REF_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, s, t, p, q)</span></div>
<div class="line"><a name="l00160"></a><span class="lineno"> 160</span>&#160;</div>
<div class="line"><a name="l00161"></a><span class="lineno"> 161</span>&#160;<span class="comment">//GLM_SWIZZLE_GEN_REF_FROM_VEC4(valType, detail::vec4, detail::ref2, detail::ref3, detail::ref4)</span></div>
<div class="line"><a name="l00162"></a><span class="lineno"> 162</span>&#160;</div>
<div class="line"><a name="l00163"></a><span class="lineno"> 163</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC2_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B) \</span></div>
<div class="line"><a name="l00164"></a><span class="lineno"> 164</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A) \</span></div>
<div class="line"><a name="l00165"></a><span class="lineno"> 165</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B) \</span></div>
<div class="line"><a name="l00166"></a><span class="lineno"> 166</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A) \</span></div>
<div class="line"><a name="l00167"></a><span class="lineno"> 167</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B)</span></div>
<div class="line"><a name="l00168"></a><span class="lineno"> 168</span>&#160;</div>
<div class="line"><a name="l00169"></a><span class="lineno"> 169</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC3_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B) \</span></div>
<div class="line"><a name="l00170"></a><span class="lineno"> 170</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A) \</span></div>
<div class="line"><a name="l00171"></a><span class="lineno"> 171</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B) \</span></div>
<div class="line"><a name="l00172"></a><span class="lineno"> 172</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A) \</span></div>
<div class="line"><a name="l00173"></a><span class="lineno"> 173</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B) \</span></div>
<div class="line"><a name="l00174"></a><span class="lineno"> 174</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A) \</span></div>
<div class="line"><a name="l00175"></a><span class="lineno"> 175</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B) \</span></div>
<div class="line"><a name="l00176"></a><span class="lineno"> 176</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A) \</span></div>
<div class="line"><a name="l00177"></a><span class="lineno"> 177</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B)</span></div>
<div class="line"><a name="l00178"></a><span class="lineno"> 178</span>&#160;</div>
<div class="line"><a name="l00179"></a><span class="lineno"> 179</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC4_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B) \</span></div>
<div class="line"><a name="l00180"></a><span class="lineno"> 180</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, A) \</span></div>
<div class="line"><a name="l00181"></a><span class="lineno"> 181</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, B) \</span></div>
<div class="line"><a name="l00182"></a><span class="lineno"> 182</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, A) \</span></div>
<div class="line"><a name="l00183"></a><span class="lineno"> 183</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, B) \</span></div>
<div class="line"><a name="l00184"></a><span class="lineno"> 184</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, A) \</span></div>
<div class="line"><a name="l00185"></a><span class="lineno"> 185</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, B) \</span></div>
<div class="line"><a name="l00186"></a><span class="lineno"> 186</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, A) \</span></div>
<div class="line"><a name="l00187"></a><span class="lineno"> 187</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, B) \</span></div>
<div class="line"><a name="l00188"></a><span class="lineno"> 188</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, A) \</span></div>
<div class="line"><a name="l00189"></a><span class="lineno"> 189</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, B) \</span></div>
<div class="line"><a name="l00190"></a><span class="lineno"> 190</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, A) \</span></div>
<div class="line"><a name="l00191"></a><span class="lineno"> 191</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, B) \</span></div>
<div class="line"><a name="l00192"></a><span class="lineno"> 192</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, A) \</span></div>
<div class="line"><a name="l00193"></a><span class="lineno"> 193</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, B) \</span></div>
<div class="line"><a name="l00194"></a><span class="lineno"> 194</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, A) \</span></div>
<div class="line"><a name="l00195"></a><span class="lineno"> 195</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, B)</span></div>
<div class="line"><a name="l00196"></a><span class="lineno"> 196</span>&#160;</div>
<div class="line"><a name="l00197"></a><span class="lineno"> 197</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, A, B) \</span></div>
<div class="line"><a name="l00198"></a><span class="lineno"> 198</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, A, B) \</span></div>
<div class="line"><a name="l00199"></a><span class="lineno"> 199</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC3_TYPE, A, B) \</span></div>
<div class="line"><a name="l00200"></a><span class="lineno"> 200</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_FROM_VEC2_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC4_TYPE, A, B)</span></div>
<div class="line"><a name="l00201"></a><span class="lineno"> 201</span>&#160;</div>
<div class="line"><a name="l00202"></a><span class="lineno"> 202</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC_FROM_VEC2(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE) \</span></div>
<div class="line"><a name="l00203"></a><span class="lineno"> 203</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, x, y) \</span></div>
<div class="line"><a name="l00204"></a><span class="lineno"> 204</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, r, g) \</span></div>
<div class="line"><a name="l00205"></a><span class="lineno"> 205</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC2_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, s, t)</span></div>
<div class="line"><a name="l00206"></a><span class="lineno"> 206</span>&#160;</div>
<div class="line"><a name="l00207"></a><span class="lineno"> 207</span>&#160;<span class="comment">//GLM_SWIZZLE_GEN_VEC_FROM_VEC2(valType, detail::vec2, detail::vec2, detail::vec3, detail::vec4)</span></div>
<div class="line"><a name="l00208"></a><span class="lineno"> 208</span>&#160;</div>
<div class="line"><a name="l00209"></a><span class="lineno"> 209</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC2_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00210"></a><span class="lineno"> 210</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A) \</span></div>
<div class="line"><a name="l00211"></a><span class="lineno"> 211</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B) \</span></div>
<div class="line"><a name="l00212"></a><span class="lineno"> 212</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C) \</span></div>
<div class="line"><a name="l00213"></a><span class="lineno"> 213</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A) \</span></div>
<div class="line"><a name="l00214"></a><span class="lineno"> 214</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B) \</span></div>
<div class="line"><a name="l00215"></a><span class="lineno"> 215</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C) \</span></div>
<div class="line"><a name="l00216"></a><span class="lineno"> 216</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A) \</span></div>
<div class="line"><a name="l00217"></a><span class="lineno"> 217</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B) \</span></div>
<div class="line"><a name="l00218"></a><span class="lineno"> 218</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C)</span></div>
<div class="line"><a name="l00219"></a><span class="lineno"> 219</span>&#160;</div>
<div class="line"><a name="l00220"></a><span class="lineno"> 220</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC3_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00221"></a><span class="lineno"> 221</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A) \</span></div>
<div class="line"><a name="l00222"></a><span class="lineno"> 222</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B) \</span></div>
<div class="line"><a name="l00223"></a><span class="lineno"> 223</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C) \</span></div>
<div class="line"><a name="l00224"></a><span class="lineno"> 224</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A) \</span></div>
<div class="line"><a name="l00225"></a><span class="lineno"> 225</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B) \</span></div>
<div class="line"><a name="l00226"></a><span class="lineno"> 226</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C) \</span></div>
<div class="line"><a name="l00227"></a><span class="lineno"> 227</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A) \</span></div>
<div class="line"><a name="l00228"></a><span class="lineno"> 228</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B) \</span></div>
<div class="line"><a name="l00229"></a><span class="lineno"> 229</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C) \</span></div>
<div class="line"><a name="l00230"></a><span class="lineno"> 230</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A) \</span></div>
<div class="line"><a name="l00231"></a><span class="lineno"> 231</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B) \</span></div>
<div class="line"><a name="l00232"></a><span class="lineno"> 232</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C) \</span></div>
<div class="line"><a name="l00233"></a><span class="lineno"> 233</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A) \</span></div>
<div class="line"><a name="l00234"></a><span class="lineno"> 234</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B) \</span></div>
<div class="line"><a name="l00235"></a><span class="lineno"> 235</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C) \</span></div>
<div class="line"><a name="l00236"></a><span class="lineno"> 236</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A) \</span></div>
<div class="line"><a name="l00237"></a><span class="lineno"> 237</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B) \</span></div>
<div class="line"><a name="l00238"></a><span class="lineno"> 238</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C) \</span></div>
<div class="line"><a name="l00239"></a><span class="lineno"> 239</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A) \</span></div>
<div class="line"><a name="l00240"></a><span class="lineno"> 240</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B) \</span></div>
<div class="line"><a name="l00241"></a><span class="lineno"> 241</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C) \</span></div>
<div class="line"><a name="l00242"></a><span class="lineno"> 242</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A) \</span></div>
<div class="line"><a name="l00243"></a><span class="lineno"> 243</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B) \</span></div>
<div class="line"><a name="l00244"></a><span class="lineno"> 244</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C) \</span></div>
<div class="line"><a name="l00245"></a><span class="lineno"> 245</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A) \</span></div>
<div class="line"><a name="l00246"></a><span class="lineno"> 246</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B) \</span></div>
<div class="line"><a name="l00247"></a><span class="lineno"> 247</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C)</span></div>
<div class="line"><a name="l00248"></a><span class="lineno"> 248</span>&#160;</div>
<div class="line"><a name="l00249"></a><span class="lineno"> 249</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC4_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00250"></a><span class="lineno"> 250</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, A) \</span></div>
<div class="line"><a name="l00251"></a><span class="lineno"> 251</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, B) \</span></div>
<div class="line"><a name="l00252"></a><span class="lineno"> 252</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, C) \</span></div>
<div class="line"><a name="l00253"></a><span class="lineno"> 253</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, A) \</span></div>
<div class="line"><a name="l00254"></a><span class="lineno"> 254</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, B) \</span></div>
<div class="line"><a name="l00255"></a><span class="lineno"> 255</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, C) \</span></div>
<div class="line"><a name="l00256"></a><span class="lineno"> 256</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C, A) \</span></div>
<div class="line"><a name="l00257"></a><span class="lineno"> 257</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C, B) \</span></div>
<div class="line"><a name="l00258"></a><span class="lineno"> 258</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C, C) \</span></div>
<div class="line"><a name="l00259"></a><span class="lineno"> 259</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, A) \</span></div>
<div class="line"><a name="l00260"></a><span class="lineno"> 260</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, B) \</span></div>
<div class="line"><a name="l00261"></a><span class="lineno"> 261</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, C) \</span></div>
<div class="line"><a name="l00262"></a><span class="lineno"> 262</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, A) \</span></div>
<div class="line"><a name="l00263"></a><span class="lineno"> 263</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, B) \</span></div>
<div class="line"><a name="l00264"></a><span class="lineno"> 264</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, C) \</span></div>
<div class="line"><a name="l00265"></a><span class="lineno"> 265</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C, A) \</span></div>
<div class="line"><a name="l00266"></a><span class="lineno"> 266</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C, B) \</span></div>
<div class="line"><a name="l00267"></a><span class="lineno"> 267</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C, C) \</span></div>
<div class="line"><a name="l00268"></a><span class="lineno"> 268</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A, A) \</span></div>
<div class="line"><a name="l00269"></a><span class="lineno"> 269</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A, B) \</span></div>
<div class="line"><a name="l00270"></a><span class="lineno"> 270</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A, C) \</span></div>
<div class="line"><a name="l00271"></a><span class="lineno"> 271</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B, A) \</span></div>
<div class="line"><a name="l00272"></a><span class="lineno"> 272</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B, B) \</span></div>
<div class="line"><a name="l00273"></a><span class="lineno"> 273</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B, C) \</span></div>
<div class="line"><a name="l00274"></a><span class="lineno"> 274</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C, A) \</span></div>
<div class="line"><a name="l00275"></a><span class="lineno"> 275</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C, B) \</span></div>
<div class="line"><a name="l00276"></a><span class="lineno"> 276</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C, C) \</span></div>
<div class="line"><a name="l00277"></a><span class="lineno"> 277</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, A) \</span></div>
<div class="line"><a name="l00278"></a><span class="lineno"> 278</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, B) \</span></div>
<div class="line"><a name="l00279"></a><span class="lineno"> 279</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, C) \</span></div>
<div class="line"><a name="l00280"></a><span class="lineno"> 280</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, A) \</span></div>
<div class="line"><a name="l00281"></a><span class="lineno"> 281</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, B) \</span></div>
<div class="line"><a name="l00282"></a><span class="lineno"> 282</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, C) \</span></div>
<div class="line"><a name="l00283"></a><span class="lineno"> 283</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C, A) \</span></div>
<div class="line"><a name="l00284"></a><span class="lineno"> 284</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C, B) \</span></div>
<div class="line"><a name="l00285"></a><span class="lineno"> 285</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C, C) \</span></div>
<div class="line"><a name="l00286"></a><span class="lineno"> 286</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, A) \</span></div>
<div class="line"><a name="l00287"></a><span class="lineno"> 287</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, B) \</span></div>
<div class="line"><a name="l00288"></a><span class="lineno"> 288</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, C) \</span></div>
<div class="line"><a name="l00289"></a><span class="lineno"> 289</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, A) \</span></div>
<div class="line"><a name="l00290"></a><span class="lineno"> 290</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, B) \</span></div>
<div class="line"><a name="l00291"></a><span class="lineno"> 291</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, C) \</span></div>
<div class="line"><a name="l00292"></a><span class="lineno"> 292</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C, A) \</span></div>
<div class="line"><a name="l00293"></a><span class="lineno"> 293</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C, B) \</span></div>
<div class="line"><a name="l00294"></a><span class="lineno"> 294</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C, C) \</span></div>
<div class="line"><a name="l00295"></a><span class="lineno"> 295</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A, A) \</span></div>
<div class="line"><a name="l00296"></a><span class="lineno"> 296</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A, B) \</span></div>
<div class="line"><a name="l00297"></a><span class="lineno"> 297</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A, C) \</span></div>
<div class="line"><a name="l00298"></a><span class="lineno"> 298</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B, A) \</span></div>
<div class="line"><a name="l00299"></a><span class="lineno"> 299</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B, B) \</span></div>
<div class="line"><a name="l00300"></a><span class="lineno"> 300</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B, C) \</span></div>
<div class="line"><a name="l00301"></a><span class="lineno"> 301</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C, A) \</span></div>
<div class="line"><a name="l00302"></a><span class="lineno"> 302</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C, B) \</span></div>
<div class="line"><a name="l00303"></a><span class="lineno"> 303</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C, C) \</span></div>
<div class="line"><a name="l00304"></a><span class="lineno"> 304</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A, A) \</span></div>
<div class="line"><a name="l00305"></a><span class="lineno"> 305</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A, B) \</span></div>
<div class="line"><a name="l00306"></a><span class="lineno"> 306</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A, C) \</span></div>
<div class="line"><a name="l00307"></a><span class="lineno"> 307</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B, A) \</span></div>
<div class="line"><a name="l00308"></a><span class="lineno"> 308</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B, B) \</span></div>
<div class="line"><a name="l00309"></a><span class="lineno"> 309</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B, C) \</span></div>
<div class="line"><a name="l00310"></a><span class="lineno"> 310</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C, A) \</span></div>
<div class="line"><a name="l00311"></a><span class="lineno"> 311</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C, B) \</span></div>
<div class="line"><a name="l00312"></a><span class="lineno"> 312</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C, C) \</span></div>
<div class="line"><a name="l00313"></a><span class="lineno"> 313</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A, A) \</span></div>
<div class="line"><a name="l00314"></a><span class="lineno"> 314</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A, B) \</span></div>
<div class="line"><a name="l00315"></a><span class="lineno"> 315</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A, C) \</span></div>
<div class="line"><a name="l00316"></a><span class="lineno"> 316</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B, A) \</span></div>
<div class="line"><a name="l00317"></a><span class="lineno"> 317</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B, B) \</span></div>
<div class="line"><a name="l00318"></a><span class="lineno"> 318</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B, C) \</span></div>
<div class="line"><a name="l00319"></a><span class="lineno"> 319</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C, A) \</span></div>
<div class="line"><a name="l00320"></a><span class="lineno"> 320</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C, B) \</span></div>
<div class="line"><a name="l00321"></a><span class="lineno"> 321</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C, C) \</span></div>
<div class="line"><a name="l00322"></a><span class="lineno"> 322</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A, A) \</span></div>
<div class="line"><a name="l00323"></a><span class="lineno"> 323</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A, B) \</span></div>
<div class="line"><a name="l00324"></a><span class="lineno"> 324</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A, C) \</span></div>
<div class="line"><a name="l00325"></a><span class="lineno"> 325</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B, A) \</span></div>
<div class="line"><a name="l00326"></a><span class="lineno"> 326</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B, B) \</span></div>
<div class="line"><a name="l00327"></a><span class="lineno"> 327</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B, C) \</span></div>
<div class="line"><a name="l00328"></a><span class="lineno"> 328</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C, A) \</span></div>
<div class="line"><a name="l00329"></a><span class="lineno"> 329</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C, B) \</span></div>
<div class="line"><a name="l00330"></a><span class="lineno"> 330</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C, C)</span></div>
<div class="line"><a name="l00331"></a><span class="lineno"> 331</span>&#160;</div>
<div class="line"><a name="l00332"></a><span class="lineno"> 332</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00333"></a><span class="lineno"> 333</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00334"></a><span class="lineno"> 334</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC3_TYPE, A, B, C) \</span></div>
<div class="line"><a name="l00335"></a><span class="lineno"> 335</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_FROM_VEC3_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC4_TYPE, A, B, C)</span></div>
<div class="line"><a name="l00336"></a><span class="lineno"> 336</span>&#160;</div>
<div class="line"><a name="l00337"></a><span class="lineno"> 337</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC_FROM_VEC3(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE) \</span></div>
<div class="line"><a name="l00338"></a><span class="lineno"> 338</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, x, y, z) \</span></div>
<div class="line"><a name="l00339"></a><span class="lineno"> 339</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, r, g, b) \</span></div>
<div class="line"><a name="l00340"></a><span class="lineno"> 340</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC3_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, s, t, p)</span></div>
<div class="line"><a name="l00341"></a><span class="lineno"> 341</span>&#160;</div>
<div class="line"><a name="l00342"></a><span class="lineno"> 342</span>&#160;<span class="comment">//GLM_SWIZZLE_GEN_VEC_FROM_VEC3(valType, detail::vec3, detail::vec2, detail::vec3, detail::vec4)</span></div>
<div class="line"><a name="l00343"></a><span class="lineno"> 343</span>&#160;</div>
<div class="line"><a name="l00344"></a><span class="lineno"> 344</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC2_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00345"></a><span class="lineno"> 345</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A) \</span></div>
<div class="line"><a name="l00346"></a><span class="lineno"> 346</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B) \</span></div>
<div class="line"><a name="l00347"></a><span class="lineno"> 347</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C) \</span></div>
<div class="line"><a name="l00348"></a><span class="lineno"> 348</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D) \</span></div>
<div class="line"><a name="l00349"></a><span class="lineno"> 349</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A) \</span></div>
<div class="line"><a name="l00350"></a><span class="lineno"> 350</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B) \</span></div>
<div class="line"><a name="l00351"></a><span class="lineno"> 351</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C) \</span></div>
<div class="line"><a name="l00352"></a><span class="lineno"> 352</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D) \</span></div>
<div class="line"><a name="l00353"></a><span class="lineno"> 353</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A) \</span></div>
<div class="line"><a name="l00354"></a><span class="lineno"> 354</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B) \</span></div>
<div class="line"><a name="l00355"></a><span class="lineno"> 355</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C) \</span></div>
<div class="line"><a name="l00356"></a><span class="lineno"> 356</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D) \</span></div>
<div class="line"><a name="l00357"></a><span class="lineno"> 357</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A) \</span></div>
<div class="line"><a name="l00358"></a><span class="lineno"> 358</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B) \</span></div>
<div class="line"><a name="l00359"></a><span class="lineno"> 359</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C) \</span></div>
<div class="line"><a name="l00360"></a><span class="lineno"> 360</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D)</span></div>
<div class="line"><a name="l00361"></a><span class="lineno"> 361</span>&#160;</div>
<div class="line"><a name="l00362"></a><span class="lineno"> 362</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC3_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00363"></a><span class="lineno"> 363</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A) \</span></div>
<div class="line"><a name="l00364"></a><span class="lineno"> 364</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B) \</span></div>
<div class="line"><a name="l00365"></a><span class="lineno"> 365</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C) \</span></div>
<div class="line"><a name="l00366"></a><span class="lineno"> 366</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, D) \</span></div>
<div class="line"><a name="l00367"></a><span class="lineno"> 367</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A) \</span></div>
<div class="line"><a name="l00368"></a><span class="lineno"> 368</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B) \</span></div>
<div class="line"><a name="l00369"></a><span class="lineno"> 369</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C) \</span></div>
<div class="line"><a name="l00370"></a><span class="lineno"> 370</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, D) \</span></div>
<div class="line"><a name="l00371"></a><span class="lineno"> 371</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A) \</span></div>
<div class="line"><a name="l00372"></a><span class="lineno"> 372</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B) \</span></div>
<div class="line"><a name="l00373"></a><span class="lineno"> 373</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C) \</span></div>
<div class="line"><a name="l00374"></a><span class="lineno"> 374</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, D) \</span></div>
<div class="line"><a name="l00375"></a><span class="lineno"> 375</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, A) \</span></div>
<div class="line"><a name="l00376"></a><span class="lineno"> 376</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, B) \</span></div>
<div class="line"><a name="l00377"></a><span class="lineno"> 377</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, C) \</span></div>
<div class="line"><a name="l00378"></a><span class="lineno"> 378</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, D) \</span></div>
<div class="line"><a name="l00379"></a><span class="lineno"> 379</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A) \</span></div>
<div class="line"><a name="l00380"></a><span class="lineno"> 380</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B) \</span></div>
<div class="line"><a name="l00381"></a><span class="lineno"> 381</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C) \</span></div>
<div class="line"><a name="l00382"></a><span class="lineno"> 382</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, D) \</span></div>
<div class="line"><a name="l00383"></a><span class="lineno"> 383</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A) \</span></div>
<div class="line"><a name="l00384"></a><span class="lineno"> 384</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B) \</span></div>
<div class="line"><a name="l00385"></a><span class="lineno"> 385</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C) \</span></div>
<div class="line"><a name="l00386"></a><span class="lineno"> 386</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, D) \</span></div>
<div class="line"><a name="l00387"></a><span class="lineno"> 387</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A) \</span></div>
<div class="line"><a name="l00388"></a><span class="lineno"> 388</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B) \</span></div>
<div class="line"><a name="l00389"></a><span class="lineno"> 389</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C) \</span></div>
<div class="line"><a name="l00390"></a><span class="lineno"> 390</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, D) \</span></div>
<div class="line"><a name="l00391"></a><span class="lineno"> 391</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, A) \</span></div>
<div class="line"><a name="l00392"></a><span class="lineno"> 392</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, B) \</span></div>
<div class="line"><a name="l00393"></a><span class="lineno"> 393</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, C) \</span></div>
<div class="line"><a name="l00394"></a><span class="lineno"> 394</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, D) \</span></div>
<div class="line"><a name="l00395"></a><span class="lineno"> 395</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A) \</span></div>
<div class="line"><a name="l00396"></a><span class="lineno"> 396</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B) \</span></div>
<div class="line"><a name="l00397"></a><span class="lineno"> 397</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C) \</span></div>
<div class="line"><a name="l00398"></a><span class="lineno"> 398</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, D) \</span></div>
<div class="line"><a name="l00399"></a><span class="lineno"> 399</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A) \</span></div>
<div class="line"><a name="l00400"></a><span class="lineno"> 400</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B) \</span></div>
<div class="line"><a name="l00401"></a><span class="lineno"> 401</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C) \</span></div>
<div class="line"><a name="l00402"></a><span class="lineno"> 402</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, D) \</span></div>
<div class="line"><a name="l00403"></a><span class="lineno"> 403</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A) \</span></div>
<div class="line"><a name="l00404"></a><span class="lineno"> 404</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B) \</span></div>
<div class="line"><a name="l00405"></a><span class="lineno"> 405</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C) \</span></div>
<div class="line"><a name="l00406"></a><span class="lineno"> 406</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, D) \</span></div>
<div class="line"><a name="l00407"></a><span class="lineno"> 407</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, A) \</span></div>
<div class="line"><a name="l00408"></a><span class="lineno"> 408</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, B) \</span></div>
<div class="line"><a name="l00409"></a><span class="lineno"> 409</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, C) \</span></div>
<div class="line"><a name="l00410"></a><span class="lineno"> 410</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, D) \</span></div>
<div class="line"><a name="l00411"></a><span class="lineno"> 411</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, A) \</span></div>
<div class="line"><a name="l00412"></a><span class="lineno"> 412</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, B) \</span></div>
<div class="line"><a name="l00413"></a><span class="lineno"> 413</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, C) \</span></div>
<div class="line"><a name="l00414"></a><span class="lineno"> 414</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, D) \</span></div>
<div class="line"><a name="l00415"></a><span class="lineno"> 415</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, A) \</span></div>
<div class="line"><a name="l00416"></a><span class="lineno"> 416</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, B) \</span></div>
<div class="line"><a name="l00417"></a><span class="lineno"> 417</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, C) \</span></div>
<div class="line"><a name="l00418"></a><span class="lineno"> 418</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, D) \</span></div>
<div class="line"><a name="l00419"></a><span class="lineno"> 419</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, A) \</span></div>
<div class="line"><a name="l00420"></a><span class="lineno"> 420</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, B) \</span></div>
<div class="line"><a name="l00421"></a><span class="lineno"> 421</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, C) \</span></div>
<div class="line"><a name="l00422"></a><span class="lineno"> 422</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, D) \</span></div>
<div class="line"><a name="l00423"></a><span class="lineno"> 423</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, A) \</span></div>
<div class="line"><a name="l00424"></a><span class="lineno"> 424</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, B) \</span></div>
<div class="line"><a name="l00425"></a><span class="lineno"> 425</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, C) \</span></div>
<div class="line"><a name="l00426"></a><span class="lineno"> 426</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, D)</span></div>
<div class="line"><a name="l00427"></a><span class="lineno"> 427</span>&#160;</div>
<div class="line"><a name="l00428"></a><span class="lineno"> 428</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC4_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00429"></a><span class="lineno"> 429</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, A) \</span></div>
<div class="line"><a name="l00430"></a><span class="lineno"> 430</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, B) \</span></div>
<div class="line"><a name="l00431"></a><span class="lineno"> 431</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, C) \</span></div>
<div class="line"><a name="l00432"></a><span class="lineno"> 432</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, A, D) \</span></div>
<div class="line"><a name="l00433"></a><span class="lineno"> 433</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, A) \</span></div>
<div class="line"><a name="l00434"></a><span class="lineno"> 434</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, B) \</span></div>
<div class="line"><a name="l00435"></a><span class="lineno"> 435</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, C) \</span></div>
<div class="line"><a name="l00436"></a><span class="lineno"> 436</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, B, D) \</span></div>
<div class="line"><a name="l00437"></a><span class="lineno"> 437</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C, A) \</span></div>
<div class="line"><a name="l00438"></a><span class="lineno"> 438</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C, B) \</span></div>
<div class="line"><a name="l00439"></a><span class="lineno"> 439</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C, C) \</span></div>
<div class="line"><a name="l00440"></a><span class="lineno"> 440</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, C, D) \</span></div>
<div class="line"><a name="l00441"></a><span class="lineno"> 441</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, D, A) \</span></div>
<div class="line"><a name="l00442"></a><span class="lineno"> 442</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, D, B) \</span></div>
<div class="line"><a name="l00443"></a><span class="lineno"> 443</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, D, C) \</span></div>
<div class="line"><a name="l00444"></a><span class="lineno"> 444</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, A, D, D) \</span></div>
<div class="line"><a name="l00445"></a><span class="lineno"> 445</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, A) \</span></div>
<div class="line"><a name="l00446"></a><span class="lineno"> 446</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, B) \</span></div>
<div class="line"><a name="l00447"></a><span class="lineno"> 447</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, C) \</span></div>
<div class="line"><a name="l00448"></a><span class="lineno"> 448</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, A, D) \</span></div>
<div class="line"><a name="l00449"></a><span class="lineno"> 449</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, A) \</span></div>
<div class="line"><a name="l00450"></a><span class="lineno"> 450</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, B) \</span></div>
<div class="line"><a name="l00451"></a><span class="lineno"> 451</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, C) \</span></div>
<div class="line"><a name="l00452"></a><span class="lineno"> 452</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, B, D) \</span></div>
<div class="line"><a name="l00453"></a><span class="lineno"> 453</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C, A) \</span></div>
<div class="line"><a name="l00454"></a><span class="lineno"> 454</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C, B) \</span></div>
<div class="line"><a name="l00455"></a><span class="lineno"> 455</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C, C) \</span></div>
<div class="line"><a name="l00456"></a><span class="lineno"> 456</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, C, D) \</span></div>
<div class="line"><a name="l00457"></a><span class="lineno"> 457</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, D, A) \</span></div>
<div class="line"><a name="l00458"></a><span class="lineno"> 458</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, D, B) \</span></div>
<div class="line"><a name="l00459"></a><span class="lineno"> 459</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, D, C) \</span></div>
<div class="line"><a name="l00460"></a><span class="lineno"> 460</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, B, D, D) \</span></div>
<div class="line"><a name="l00461"></a><span class="lineno"> 461</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A, A) \</span></div>
<div class="line"><a name="l00462"></a><span class="lineno"> 462</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A, B) \</span></div>
<div class="line"><a name="l00463"></a><span class="lineno"> 463</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A, C) \</span></div>
<div class="line"><a name="l00464"></a><span class="lineno"> 464</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, A, D) \</span></div>
<div class="line"><a name="l00465"></a><span class="lineno"> 465</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B, A) \</span></div>
<div class="line"><a name="l00466"></a><span class="lineno"> 466</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B, B) \</span></div>
<div class="line"><a name="l00467"></a><span class="lineno"> 467</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B, C) \</span></div>
<div class="line"><a name="l00468"></a><span class="lineno"> 468</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, B, D) \</span></div>
<div class="line"><a name="l00469"></a><span class="lineno"> 469</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C, A) \</span></div>
<div class="line"><a name="l00470"></a><span class="lineno"> 470</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C, B) \</span></div>
<div class="line"><a name="l00471"></a><span class="lineno"> 471</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C, C) \</span></div>
<div class="line"><a name="l00472"></a><span class="lineno"> 472</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, C, D) \</span></div>
<div class="line"><a name="l00473"></a><span class="lineno"> 473</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, D, A) \</span></div>
<div class="line"><a name="l00474"></a><span class="lineno"> 474</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, D, B) \</span></div>
<div class="line"><a name="l00475"></a><span class="lineno"> 475</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, D, C) \</span></div>
<div class="line"><a name="l00476"></a><span class="lineno"> 476</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, C, D, D) \</span></div>
<div class="line"><a name="l00477"></a><span class="lineno"> 477</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, A, A) \</span></div>
<div class="line"><a name="l00478"></a><span class="lineno"> 478</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, A, B) \</span></div>
<div class="line"><a name="l00479"></a><span class="lineno"> 479</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, A, C) \</span></div>
<div class="line"><a name="l00480"></a><span class="lineno"> 480</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, A, D) \</span></div>
<div class="line"><a name="l00481"></a><span class="lineno"> 481</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, B, A) \</span></div>
<div class="line"><a name="l00482"></a><span class="lineno"> 482</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, B, B) \</span></div>
<div class="line"><a name="l00483"></a><span class="lineno"> 483</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, B, C) \</span></div>
<div class="line"><a name="l00484"></a><span class="lineno"> 484</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, B, D) \</span></div>
<div class="line"><a name="l00485"></a><span class="lineno"> 485</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, C, A) \</span></div>
<div class="line"><a name="l00486"></a><span class="lineno"> 486</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, C, B) \</span></div>
<div class="line"><a name="l00487"></a><span class="lineno"> 487</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, C, C) \</span></div>
<div class="line"><a name="l00488"></a><span class="lineno"> 488</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, C, D) \</span></div>
<div class="line"><a name="l00489"></a><span class="lineno"> 489</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, D, A) \</span></div>
<div class="line"><a name="l00490"></a><span class="lineno"> 490</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, D, B) \</span></div>
<div class="line"><a name="l00491"></a><span class="lineno"> 491</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, D, C) \</span></div>
<div class="line"><a name="l00492"></a><span class="lineno"> 492</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, A, D, D, D) \</span></div>
<div class="line"><a name="l00493"></a><span class="lineno"> 493</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, A) \</span></div>
<div class="line"><a name="l00494"></a><span class="lineno"> 494</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, B) \</span></div>
<div class="line"><a name="l00495"></a><span class="lineno"> 495</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, C) \</span></div>
<div class="line"><a name="l00496"></a><span class="lineno"> 496</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, A, D) \</span></div>
<div class="line"><a name="l00497"></a><span class="lineno"> 497</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, A) \</span></div>
<div class="line"><a name="l00498"></a><span class="lineno"> 498</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, B) \</span></div>
<div class="line"><a name="l00499"></a><span class="lineno"> 499</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, C) \</span></div>
<div class="line"><a name="l00500"></a><span class="lineno"> 500</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, B, D) \</span></div>
<div class="line"><a name="l00501"></a><span class="lineno"> 501</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C, A) \</span></div>
<div class="line"><a name="l00502"></a><span class="lineno"> 502</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C, B) \</span></div>
<div class="line"><a name="l00503"></a><span class="lineno"> 503</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C, C) \</span></div>
<div class="line"><a name="l00504"></a><span class="lineno"> 504</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, C, D) \</span></div>
<div class="line"><a name="l00505"></a><span class="lineno"> 505</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, D, A) \</span></div>
<div class="line"><a name="l00506"></a><span class="lineno"> 506</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, D, B) \</span></div>
<div class="line"><a name="l00507"></a><span class="lineno"> 507</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, D, C) \</span></div>
<div class="line"><a name="l00508"></a><span class="lineno"> 508</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, A, D, D) \</span></div>
<div class="line"><a name="l00509"></a><span class="lineno"> 509</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, A) \</span></div>
<div class="line"><a name="l00510"></a><span class="lineno"> 510</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, B) \</span></div>
<div class="line"><a name="l00511"></a><span class="lineno"> 511</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, C) \</span></div>
<div class="line"><a name="l00512"></a><span class="lineno"> 512</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, A, D) \</span></div>
<div class="line"><a name="l00513"></a><span class="lineno"> 513</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, A) \</span></div>
<div class="line"><a name="l00514"></a><span class="lineno"> 514</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, B) \</span></div>
<div class="line"><a name="l00515"></a><span class="lineno"> 515</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, C) \</span></div>
<div class="line"><a name="l00516"></a><span class="lineno"> 516</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, B, D) \</span></div>
<div class="line"><a name="l00517"></a><span class="lineno"> 517</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C, A) \</span></div>
<div class="line"><a name="l00518"></a><span class="lineno"> 518</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C, B) \</span></div>
<div class="line"><a name="l00519"></a><span class="lineno"> 519</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C, C) \</span></div>
<div class="line"><a name="l00520"></a><span class="lineno"> 520</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, C, D) \</span></div>
<div class="line"><a name="l00521"></a><span class="lineno"> 521</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, D, A) \</span></div>
<div class="line"><a name="l00522"></a><span class="lineno"> 522</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, D, B) \</span></div>
<div class="line"><a name="l00523"></a><span class="lineno"> 523</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, D, C) \</span></div>
<div class="line"><a name="l00524"></a><span class="lineno"> 524</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, B, D, D) \</span></div>
<div class="line"><a name="l00525"></a><span class="lineno"> 525</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A, A) \</span></div>
<div class="line"><a name="l00526"></a><span class="lineno"> 526</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A, B) \</span></div>
<div class="line"><a name="l00527"></a><span class="lineno"> 527</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A, C) \</span></div>
<div class="line"><a name="l00528"></a><span class="lineno"> 528</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, A, D) \</span></div>
<div class="line"><a name="l00529"></a><span class="lineno"> 529</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B, A) \</span></div>
<div class="line"><a name="l00530"></a><span class="lineno"> 530</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B, B) \</span></div>
<div class="line"><a name="l00531"></a><span class="lineno"> 531</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B, C) \</span></div>
<div class="line"><a name="l00532"></a><span class="lineno"> 532</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, B, D) \</span></div>
<div class="line"><a name="l00533"></a><span class="lineno"> 533</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C, A) \</span></div>
<div class="line"><a name="l00534"></a><span class="lineno"> 534</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C, B) \</span></div>
<div class="line"><a name="l00535"></a><span class="lineno"> 535</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C, C) \</span></div>
<div class="line"><a name="l00536"></a><span class="lineno"> 536</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, C, D) \</span></div>
<div class="line"><a name="l00537"></a><span class="lineno"> 537</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, D, A) \</span></div>
<div class="line"><a name="l00538"></a><span class="lineno"> 538</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, D, B) \</span></div>
<div class="line"><a name="l00539"></a><span class="lineno"> 539</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, D, C) \</span></div>
<div class="line"><a name="l00540"></a><span class="lineno"> 540</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, C, D, D) \</span></div>
<div class="line"><a name="l00541"></a><span class="lineno"> 541</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, A, A) \</span></div>
<div class="line"><a name="l00542"></a><span class="lineno"> 542</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, A, B) \</span></div>
<div class="line"><a name="l00543"></a><span class="lineno"> 543</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, A, C) \</span></div>
<div class="line"><a name="l00544"></a><span class="lineno"> 544</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, A, D) \</span></div>
<div class="line"><a name="l00545"></a><span class="lineno"> 545</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, B, A) \</span></div>
<div class="line"><a name="l00546"></a><span class="lineno"> 546</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, B, B) \</span></div>
<div class="line"><a name="l00547"></a><span class="lineno"> 547</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, B, C) \</span></div>
<div class="line"><a name="l00548"></a><span class="lineno"> 548</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, B, D) \</span></div>
<div class="line"><a name="l00549"></a><span class="lineno"> 549</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, C, A) \</span></div>
<div class="line"><a name="l00550"></a><span class="lineno"> 550</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, C, B) \</span></div>
<div class="line"><a name="l00551"></a><span class="lineno"> 551</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, C, C) \</span></div>
<div class="line"><a name="l00552"></a><span class="lineno"> 552</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, C, D) \</span></div>
<div class="line"><a name="l00553"></a><span class="lineno"> 553</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, D, A) \</span></div>
<div class="line"><a name="l00554"></a><span class="lineno"> 554</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, D, B) \</span></div>
<div class="line"><a name="l00555"></a><span class="lineno"> 555</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, D, C) \</span></div>
<div class="line"><a name="l00556"></a><span class="lineno"> 556</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, B, D, D, D) \</span></div>
<div class="line"><a name="l00557"></a><span class="lineno"> 557</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A, A) \</span></div>
<div class="line"><a name="l00558"></a><span class="lineno"> 558</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A, B) \</span></div>
<div class="line"><a name="l00559"></a><span class="lineno"> 559</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A, C) \</span></div>
<div class="line"><a name="l00560"></a><span class="lineno"> 560</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, A, D) \</span></div>
<div class="line"><a name="l00561"></a><span class="lineno"> 561</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B, A) \</span></div>
<div class="line"><a name="l00562"></a><span class="lineno"> 562</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B, B) \</span></div>
<div class="line"><a name="l00563"></a><span class="lineno"> 563</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B, C) \</span></div>
<div class="line"><a name="l00564"></a><span class="lineno"> 564</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, B, D) \</span></div>
<div class="line"><a name="l00565"></a><span class="lineno"> 565</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C, A) \</span></div>
<div class="line"><a name="l00566"></a><span class="lineno"> 566</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C, B) \</span></div>
<div class="line"><a name="l00567"></a><span class="lineno"> 567</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C, C) \</span></div>
<div class="line"><a name="l00568"></a><span class="lineno"> 568</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, C, D) \</span></div>
<div class="line"><a name="l00569"></a><span class="lineno"> 569</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, D, A) \</span></div>
<div class="line"><a name="l00570"></a><span class="lineno"> 570</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, D, B) \</span></div>
<div class="line"><a name="l00571"></a><span class="lineno"> 571</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, D, C) \</span></div>
<div class="line"><a name="l00572"></a><span class="lineno"> 572</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, A, D, D) \</span></div>
<div class="line"><a name="l00573"></a><span class="lineno"> 573</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A, A) \</span></div>
<div class="line"><a name="l00574"></a><span class="lineno"> 574</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A, B) \</span></div>
<div class="line"><a name="l00575"></a><span class="lineno"> 575</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A, C) \</span></div>
<div class="line"><a name="l00576"></a><span class="lineno"> 576</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, A, D) \</span></div>
<div class="line"><a name="l00577"></a><span class="lineno"> 577</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B, A) \</span></div>
<div class="line"><a name="l00578"></a><span class="lineno"> 578</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B, B) \</span></div>
<div class="line"><a name="l00579"></a><span class="lineno"> 579</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B, C) \</span></div>
<div class="line"><a name="l00580"></a><span class="lineno"> 580</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, B, D) \</span></div>
<div class="line"><a name="l00581"></a><span class="lineno"> 581</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C, A) \</span></div>
<div class="line"><a name="l00582"></a><span class="lineno"> 582</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C, B) \</span></div>
<div class="line"><a name="l00583"></a><span class="lineno"> 583</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C, C) \</span></div>
<div class="line"><a name="l00584"></a><span class="lineno"> 584</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, C, D) \</span></div>
<div class="line"><a name="l00585"></a><span class="lineno"> 585</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, D, A) \</span></div>
<div class="line"><a name="l00586"></a><span class="lineno"> 586</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, D, B) \</span></div>
<div class="line"><a name="l00587"></a><span class="lineno"> 587</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, D, C) \</span></div>
<div class="line"><a name="l00588"></a><span class="lineno"> 588</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, B, D, D) \</span></div>
<div class="line"><a name="l00589"></a><span class="lineno"> 589</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A, A) \</span></div>
<div class="line"><a name="l00590"></a><span class="lineno"> 590</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A, B) \</span></div>
<div class="line"><a name="l00591"></a><span class="lineno"> 591</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A, C) \</span></div>
<div class="line"><a name="l00592"></a><span class="lineno"> 592</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, A, D) \</span></div>
<div class="line"><a name="l00593"></a><span class="lineno"> 593</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B, A) \</span></div>
<div class="line"><a name="l00594"></a><span class="lineno"> 594</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B, B) \</span></div>
<div class="line"><a name="l00595"></a><span class="lineno"> 595</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B, C) \</span></div>
<div class="line"><a name="l00596"></a><span class="lineno"> 596</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, B, D) \</span></div>
<div class="line"><a name="l00597"></a><span class="lineno"> 597</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C, A) \</span></div>
<div class="line"><a name="l00598"></a><span class="lineno"> 598</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C, B) \</span></div>
<div class="line"><a name="l00599"></a><span class="lineno"> 599</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C, C) \</span></div>
<div class="line"><a name="l00600"></a><span class="lineno"> 600</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, C, D) \</span></div>
<div class="line"><a name="l00601"></a><span class="lineno"> 601</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, D, A) \</span></div>
<div class="line"><a name="l00602"></a><span class="lineno"> 602</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, D, B) \</span></div>
<div class="line"><a name="l00603"></a><span class="lineno"> 603</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, D, C) \</span></div>
<div class="line"><a name="l00604"></a><span class="lineno"> 604</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, C, D, D) \</span></div>
<div class="line"><a name="l00605"></a><span class="lineno"> 605</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, A, A) \</span></div>
<div class="line"><a name="l00606"></a><span class="lineno"> 606</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, A, B) \</span></div>
<div class="line"><a name="l00607"></a><span class="lineno"> 607</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, A, C) \</span></div>
<div class="line"><a name="l00608"></a><span class="lineno"> 608</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, A, D) \</span></div>
<div class="line"><a name="l00609"></a><span class="lineno"> 609</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, B, A) \</span></div>
<div class="line"><a name="l00610"></a><span class="lineno"> 610</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, B, B) \</span></div>
<div class="line"><a name="l00611"></a><span class="lineno"> 611</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, B, C) \</span></div>
<div class="line"><a name="l00612"></a><span class="lineno"> 612</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, B, D) \</span></div>
<div class="line"><a name="l00613"></a><span class="lineno"> 613</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, C, A) \</span></div>
<div class="line"><a name="l00614"></a><span class="lineno"> 614</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, C, B) \</span></div>
<div class="line"><a name="l00615"></a><span class="lineno"> 615</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, C, C) \</span></div>
<div class="line"><a name="l00616"></a><span class="lineno"> 616</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, C, D) \</span></div>
<div class="line"><a name="l00617"></a><span class="lineno"> 617</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, D, A) \</span></div>
<div class="line"><a name="l00618"></a><span class="lineno"> 618</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, D, B) \</span></div>
<div class="line"><a name="l00619"></a><span class="lineno"> 619</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, D, C) \</span></div>
<div class="line"><a name="l00620"></a><span class="lineno"> 620</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, C, D, D, D) \</span></div>
<div class="line"><a name="l00621"></a><span class="lineno"> 621</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, A, A) \</span></div>
<div class="line"><a name="l00622"></a><span class="lineno"> 622</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, A, B) \</span></div>
<div class="line"><a name="l00623"></a><span class="lineno"> 623</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, A, C) \</span></div>
<div class="line"><a name="l00624"></a><span class="lineno"> 624</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, A, D) \</span></div>
<div class="line"><a name="l00625"></a><span class="lineno"> 625</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, B, A) \</span></div>
<div class="line"><a name="l00626"></a><span class="lineno"> 626</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, B, B) \</span></div>
<div class="line"><a name="l00627"></a><span class="lineno"> 627</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, B, C) \</span></div>
<div class="line"><a name="l00628"></a><span class="lineno"> 628</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, B, D) \</span></div>
<div class="line"><a name="l00629"></a><span class="lineno"> 629</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, C, A) \</span></div>
<div class="line"><a name="l00630"></a><span class="lineno"> 630</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, C, B) \</span></div>
<div class="line"><a name="l00631"></a><span class="lineno"> 631</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, C, C) \</span></div>
<div class="line"><a name="l00632"></a><span class="lineno"> 632</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, C, D) \</span></div>
<div class="line"><a name="l00633"></a><span class="lineno"> 633</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, D, A) \</span></div>
<div class="line"><a name="l00634"></a><span class="lineno"> 634</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, D, B) \</span></div>
<div class="line"><a name="l00635"></a><span class="lineno"> 635</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, D, C) \</span></div>
<div class="line"><a name="l00636"></a><span class="lineno"> 636</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, A, D, D) \</span></div>
<div class="line"><a name="l00637"></a><span class="lineno"> 637</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, A, A) \</span></div>
<div class="line"><a name="l00638"></a><span class="lineno"> 638</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, A, B) \</span></div>
<div class="line"><a name="l00639"></a><span class="lineno"> 639</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, A, C) \</span></div>
<div class="line"><a name="l00640"></a><span class="lineno"> 640</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, A, D) \</span></div>
<div class="line"><a name="l00641"></a><span class="lineno"> 641</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, B, A) \</span></div>
<div class="line"><a name="l00642"></a><span class="lineno"> 642</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, B, B) \</span></div>
<div class="line"><a name="l00643"></a><span class="lineno"> 643</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, B, C) \</span></div>
<div class="line"><a name="l00644"></a><span class="lineno"> 644</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, B, D) \</span></div>
<div class="line"><a name="l00645"></a><span class="lineno"> 645</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, C, A) \</span></div>
<div class="line"><a name="l00646"></a><span class="lineno"> 646</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, C, B) \</span></div>
<div class="line"><a name="l00647"></a><span class="lineno"> 647</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, C, C) \</span></div>
<div class="line"><a name="l00648"></a><span class="lineno"> 648</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, C, D) \</span></div>
<div class="line"><a name="l00649"></a><span class="lineno"> 649</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, D, A) \</span></div>
<div class="line"><a name="l00650"></a><span class="lineno"> 650</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, D, B) \</span></div>
<div class="line"><a name="l00651"></a><span class="lineno"> 651</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, D, C) \</span></div>
<div class="line"><a name="l00652"></a><span class="lineno"> 652</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, B, D, D) \</span></div>
<div class="line"><a name="l00653"></a><span class="lineno"> 653</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, A, A) \</span></div>
<div class="line"><a name="l00654"></a><span class="lineno"> 654</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, A, B) \</span></div>
<div class="line"><a name="l00655"></a><span class="lineno"> 655</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, A, C) \</span></div>
<div class="line"><a name="l00656"></a><span class="lineno"> 656</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, A, D) \</span></div>
<div class="line"><a name="l00657"></a><span class="lineno"> 657</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, B, A) \</span></div>
<div class="line"><a name="l00658"></a><span class="lineno"> 658</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, B, B) \</span></div>
<div class="line"><a name="l00659"></a><span class="lineno"> 659</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, B, C) \</span></div>
<div class="line"><a name="l00660"></a><span class="lineno"> 660</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, B, D) \</span></div>
<div class="line"><a name="l00661"></a><span class="lineno"> 661</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, C, A) \</span></div>
<div class="line"><a name="l00662"></a><span class="lineno"> 662</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, C, B) \</span></div>
<div class="line"><a name="l00663"></a><span class="lineno"> 663</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, C, C) \</span></div>
<div class="line"><a name="l00664"></a><span class="lineno"> 664</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, C, D) \</span></div>
<div class="line"><a name="l00665"></a><span class="lineno"> 665</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, D, A) \</span></div>
<div class="line"><a name="l00666"></a><span class="lineno"> 666</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, D, B) \</span></div>
<div class="line"><a name="l00667"></a><span class="lineno"> 667</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, D, C) \</span></div>
<div class="line"><a name="l00668"></a><span class="lineno"> 668</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, C, D, D) \</span></div>
<div class="line"><a name="l00669"></a><span class="lineno"> 669</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, A, A) \</span></div>
<div class="line"><a name="l00670"></a><span class="lineno"> 670</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, A, B) \</span></div>
<div class="line"><a name="l00671"></a><span class="lineno"> 671</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, A, C) \</span></div>
<div class="line"><a name="l00672"></a><span class="lineno"> 672</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, A, D) \</span></div>
<div class="line"><a name="l00673"></a><span class="lineno"> 673</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, B, A) \</span></div>
<div class="line"><a name="l00674"></a><span class="lineno"> 674</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, B, B) \</span></div>
<div class="line"><a name="l00675"></a><span class="lineno"> 675</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, B, C) \</span></div>
<div class="line"><a name="l00676"></a><span class="lineno"> 676</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, B, D) \</span></div>
<div class="line"><a name="l00677"></a><span class="lineno"> 677</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, C, A) \</span></div>
<div class="line"><a name="l00678"></a><span class="lineno"> 678</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, C, B) \</span></div>
<div class="line"><a name="l00679"></a><span class="lineno"> 679</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, C, C) \</span></div>
<div class="line"><a name="l00680"></a><span class="lineno"> 680</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, C, D) \</span></div>
<div class="line"><a name="l00681"></a><span class="lineno"> 681</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, D, A) \</span></div>
<div class="line"><a name="l00682"></a><span class="lineno"> 682</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, D, B) \</span></div>
<div class="line"><a name="l00683"></a><span class="lineno"> 683</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, D, C) \</span></div>
<div class="line"><a name="l00684"></a><span class="lineno"> 684</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_ENTRY(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_TYPE, const, D, D, D, D)</span></div>
<div class="line"><a name="l00685"></a><span class="lineno"> 685</span>&#160;</div>
<div class="line"><a name="l00686"></a><span class="lineno"> 686</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00687"></a><span class="lineno"> 687</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC2_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00688"></a><span class="lineno"> 688</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC3_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC3_TYPE, A, B, C, D) \</span></div>
<div class="line"><a name="l00689"></a><span class="lineno"> 689</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC4_FROM_VEC4_SWIZZLE(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC4_TYPE, A, B, C, D)</span></div>
<div class="line"><a name="l00690"></a><span class="lineno"> 690</span>&#160;</div>
<div class="line"><a name="l00691"></a><span class="lineno"> 691</span>&#160;<span class="preprocessor">#define GLM_SWIZZLE_GEN_VEC_FROM_VEC4(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE) \</span></div>
<div class="line"><a name="l00692"></a><span class="lineno"> 692</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, x, y, z, w) \</span></div>
<div class="line"><a name="l00693"></a><span class="lineno"> 693</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, r, g, b, a) \</span></div>
<div class="line"><a name="l00694"></a><span class="lineno"> 694</span>&#160;<span class="preprocessor"> GLM_SWIZZLE_GEN_VEC_FROM_VEC4_COMP(TMPL_TYPE, PRECISION, CLASS_TYPE, SWIZZLED_VEC2_TYPE, SWIZZLED_VEC3_TYPE, SWIZZLED_VEC4_TYPE, s, t, p, q)</span></div>
<div class="line"><a name="l00695"></a><span class="lineno"> 695</span>&#160;</div>
<div class="line"><a name="l00696"></a><span class="lineno"> 696</span>&#160;<span class="comment">//GLM_SWIZZLE_GEN_VEC_FROM_VEC4(valType, detail::vec4, detail::vec2, detail::vec3, detail::vec4)</span></div>
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<a href="a00006.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00004"></a><span class="lineno"> 4</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00005"></a><span class="lineno"> 5</span>&#160;</div>
<div class="line"><a name="l00006"></a><span class="lineno"> 6</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00126.html">type_vec1.hpp</a>&quot;</span></div>
<div class="line"><a name="l00007"></a><span class="lineno"> 7</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00127.html">type_vec2.hpp</a>&quot;</span></div>
<div class="line"><a name="l00008"></a><span class="lineno"> 8</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00128.html">type_vec3.hpp</a>&quot;</span></div>
<div class="line"><a name="l00009"></a><span class="lineno"> 9</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00129.html">type_vec4.hpp</a>&quot;</span></div>
<div class="line"><a name="l00010"></a><span class="lineno"> 10</span>&#160;</div>
<div class="line"><a name="l00011"></a><span class="lineno"> 11</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a>{</div>
<div class="line"><a name="l00012"></a><span class="lineno"> 12</span>&#160;<span class="keyword">namespace </span>detail</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;{</div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> R, <span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160; <span class="keyword">struct </span>functor1{};</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;</div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> R, <span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160; <span class="keyword">struct </span>functor1&lt;R, T, P, tvec1&gt;</div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160; {</div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec1&lt;R, P&gt; call(R (*Func) (T x), tvec1&lt;T, P&gt; <span class="keyword">const</span> &amp; v)</div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160; {</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160; <span class="keywordflow">return</span> tvec1&lt;R, P&gt;(Func(v.x));</div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160; }</div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160; };</div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> R, <span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160; <span class="keyword">struct </span>functor1&lt;R, T, P, tvec2&gt;</div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160; {</div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec2&lt;R, P&gt; call(R (*Func) (T x), tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; v)</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160; {</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160; <span class="keywordflow">return</span> tvec2&lt;R, P&gt;(Func(v.x), Func(v.y));</div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160; }</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; };</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> R, <span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; <span class="keyword">struct </span>functor1&lt;R, T, P, tvec3&gt;</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; {</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec3&lt;R, P&gt; call(R (*Func) (T x), tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; v)</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; {</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; <span class="keywordflow">return</span> tvec3&lt;R, P&gt;(Func(v.x), Func(v.y), Func(v.z));</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; }</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; };</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> R, <span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; <span class="keyword">struct </span>functor1&lt;R, T, P, tvec4&gt;</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160; {</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec4&lt;R, P&gt; call(R (*Func) (T x), tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; v)</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160; {</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160; <span class="keywordflow">return</span> tvec4&lt;R, P&gt;(Func(v.x), Func(v.y), Func(v.z), Func(v.w));</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; }</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; };</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; <span class="keyword">struct </span>functor2{};</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160; <span class="keyword">struct </span>functor2&lt;T, P, tvec1&gt;</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; {</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec1&lt;T, P&gt; call(T (*Func) (T x, T y), tvec1&lt;T, P&gt; <span class="keyword">const</span> &amp; a, tvec1&lt;T, P&gt; <span class="keyword">const</span> &amp; b)</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; {</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; <span class="keywordflow">return</span> tvec1&lt;T, P&gt;(Func(a.x, b.x));</div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; }</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; };</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160;</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; <span class="keyword">struct </span>functor2&lt;T, P, tvec2&gt;</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; {</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec2&lt;T, P&gt; call(T (*Func) (T x, T y), tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; a, tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; b)</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; {</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160; <span class="keywordflow">return</span> tvec2&lt;T, P&gt;(Func(a.x, b.x), Func(a.y, b.y));</div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160; }</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160; };</div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160;</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; <span class="keyword">struct </span>functor2&lt;T, P, tvec3&gt;</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160; {</div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec3&lt;T, P&gt; call(T (*Func) (T x, T y), tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; a, tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; b)</div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160; {</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; <span class="keywordflow">return</span> tvec3&lt;T, P&gt;(Func(a.x, b.x), Func(a.y, b.y), Func(a.z, b.z));</div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; }</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160; };</div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160;</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; <span class="keyword">struct </span>functor2&lt;T, P, tvec4&gt;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; {</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec4&lt;T, P&gt; call(T (*Func) (T x, T y), tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; a, tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; b)</div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; {</div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160; <span class="keywordflow">return</span> tvec4&lt;T, P&gt;(Func(a.x, b.x), Func(a.y, b.y), Func(a.z, b.z), Func(a.w, b.w));</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; }</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160; };</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;</div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160; <span class="keyword">struct </span>functor2_vec_sca{};</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160;</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160; <span class="keyword">struct </span>functor2_vec_sca&lt;T, P, tvec1&gt;</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160; {</div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec1&lt;T, P&gt; call(T (*Func) (T x, T y), tvec1&lt;T, P&gt; <span class="keyword">const</span> &amp; a, T b)</div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160; {</div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160; <span class="keywordflow">return</span> tvec1&lt;T, P&gt;(Func(a.x, b));</div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160; }</div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160; };</div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160;</div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160; <span class="keyword">struct </span>functor2_vec_sca&lt;T, P, tvec2&gt;</div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160; {</div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec2&lt;T, P&gt; call(T (*Func) (T x, T y), tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; a, T b)</div>
<div class="line"><a name="l00108"></a><span class="lineno"> 108</span>&#160; {</div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160; <span class="keywordflow">return</span> tvec2&lt;T, P&gt;(Func(a.x, b), Func(a.y, b));</div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160; }</div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160; };</div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160;</div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160; <span class="keyword">struct </span>functor2_vec_sca&lt;T, P, tvec3&gt;</div>
<div class="line"><a name="l00115"></a><span class="lineno"> 115</span>&#160; {</div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec3&lt;T, P&gt; call(T (*Func) (T x, T y), tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; a, T b)</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160; {</div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160; <span class="keywordflow">return</span> tvec3&lt;T, P&gt;(Func(a.x, b), Func(a.y, b), Func(a.z, b));</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160; }</div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160; };</div>
<div class="line"><a name="l00121"></a><span class="lineno"> 121</span>&#160;</div>
<div class="line"><a name="l00122"></a><span class="lineno"> 122</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160; <span class="keyword">struct </span>functor2_vec_sca&lt;T, P, tvec4&gt;</div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160; {</div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160; GLM_FUNC_QUALIFIER <span class="keyword">static</span> tvec4&lt;T, P&gt; call(T (*Func) (T x, T y), tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; a, T b)</div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160; {</div>
<div class="line"><a name="l00127"></a><span class="lineno"> 127</span>&#160; <span class="keywordflow">return</span> tvec4&lt;T, P&gt;(Func(a.x, b), Func(a.y, b), Func(a.z, b), Func(a.w, b));</div>
<div class="line"><a name="l00128"></a><span class="lineno"> 128</span>&#160; }</div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160; };</div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160;}<span class="comment">//namespace detail</span></div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160;}<span class="comment">//namespace glm</span></div>
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Functions</h2></td></tr>
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<tr class="memitem:ga62ca63cca6b21387b8a25474f441a869"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga62ca63cca6b21387b8a25474f441a869"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga62ca63cca6b21387b8a25474f441a869">associatedMax</a> (T x, vecType&lt; U, P &gt; const &amp;a, T y, vecType&lt; U, P &gt; const &amp;b)</td></tr>
<tr class="memdesc:ga62ca63cca6b21387b8a25474f441a869"><td class="mdescLeft">&#160;</td><td class="mdescRight">Maximum comparison between 2 variables and returns 2 associated variable values. <a href="a00181.html#ga62ca63cca6b21387b8a25474f441a869">More...</a><br /></td></tr>
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<tr class="memitem:ga5364520173815b66a9d9e452c38bf312"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga5364520173815b66a9d9e452c38bf312"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga5364520173815b66a9d9e452c38bf312">associatedMax</a> (vecType&lt; T, P &gt; const &amp;x, U a, vecType&lt; T, P &gt; const &amp;y, U b)</td></tr>
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<tr class="memitem:gaec891e363d91abbf3a4443cf2f652209"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL U&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#gaec891e363d91abbf3a4443cf2f652209">associatedMax</a> (T x, U a, T y, U b, T z, U c)</td></tr>
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<tr class="memitem:ga065a0c1eb7837118ef79be88dfd78487"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga065a0c1eb7837118ef79be88dfd78487"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga065a0c1eb7837118ef79be88dfd78487">associatedMax</a> (vecType&lt; T, P &gt; const &amp;x, vecType&lt; U, P &gt; const &amp;a, vecType&lt; T, P &gt; const &amp;y, vecType&lt; U, P &gt; const &amp;b, vecType&lt; T, P &gt; const &amp;z, vecType&lt; U, P &gt; const &amp;c)</td></tr>
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<tr class="memitem:ga553431a468e251623408603bcb51c9cb"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga553431a468e251623408603bcb51c9cb"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga553431a468e251623408603bcb51c9cb">associatedMax</a> (T x, vecType&lt; U, P &gt; const &amp;a, T y, vecType&lt; U, P &gt; const &amp;b, T z, vecType&lt; U, P &gt; const &amp;c)</td></tr>
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<tr class="memitem:ga327136e6a568569c03a056f90814b656"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga327136e6a568569c03a056f90814b656"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga327136e6a568569c03a056f90814b656">associatedMax</a> (vecType&lt; T, P &gt; const &amp;x, U a, vecType&lt; T, P &gt; const &amp;y, U b, vecType&lt; T, P &gt; const &amp;z, U c)</td></tr>
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<tr class="memitem:ga3038ffcb43eaa6af75897a99a5047ccc"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL U&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga3038ffcb43eaa6af75897a99a5047ccc">associatedMax</a> (T x, U a, T y, U b, T z, U c, T w, U d)</td></tr>
<tr class="memdesc:ga3038ffcb43eaa6af75897a99a5047ccc"><td class="mdescLeft">&#160;</td><td class="mdescRight">Maximum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#ga3038ffcb43eaa6af75897a99a5047ccc">More...</a><br /></td></tr>
<tr class="separator:ga3038ffcb43eaa6af75897a99a5047ccc"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaf607886421c35cd7e4f41a50d7c330e3"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gaf607886421c35cd7e4f41a50d7c330e3"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#gaf607886421c35cd7e4f41a50d7c330e3">associatedMax</a> (vecType&lt; T, P &gt; const &amp;x, vecType&lt; U, P &gt; const &amp;a, vecType&lt; T, P &gt; const &amp;y, vecType&lt; U, P &gt; const &amp;b, vecType&lt; T, P &gt; const &amp;z, vecType&lt; U, P &gt; const &amp;c, vecType&lt; T, P &gt; const &amp;w, vecType&lt; U, P &gt; const &amp;d)</td></tr>
<tr class="memdesc:gaf607886421c35cd7e4f41a50d7c330e3"><td class="mdescLeft">&#160;</td><td class="mdescRight">Maximum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#gaf607886421c35cd7e4f41a50d7c330e3">More...</a><br /></td></tr>
<tr class="separator:gaf607886421c35cd7e4f41a50d7c330e3"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga7a165de1af9a3f9193516a3b47407086"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga7a165de1af9a3f9193516a3b47407086"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga7a165de1af9a3f9193516a3b47407086">associatedMax</a> (T x, vecType&lt; U, P &gt; const &amp;a, T y, vecType&lt; U, P &gt; const &amp;b, T z, vecType&lt; U, P &gt; const &amp;c, T w, vecType&lt; U, P &gt; const &amp;d)</td></tr>
<tr class="memdesc:ga7a165de1af9a3f9193516a3b47407086"><td class="mdescLeft">&#160;</td><td class="mdescRight">Maximum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#ga7a165de1af9a3f9193516a3b47407086">More...</a><br /></td></tr>
<tr class="separator:ga7a165de1af9a3f9193516a3b47407086"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga3122fbe8133ea54749b10fb93e8a167e"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga3122fbe8133ea54749b10fb93e8a167e"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a> (vecType&lt; T, P &gt; const &amp;x, U a, vecType&lt; T, P &gt; const &amp;y, U b, vecType&lt; T, P &gt; const &amp;z, U c, vecType&lt; T, P &gt; const &amp;w, U d)</td></tr>
<tr class="memdesc:ga3122fbe8133ea54749b10fb93e8a167e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Maximum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">More...</a><br /></td></tr>
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<tr class="memitem:gacc01bd272359572fc28437ae214a02df"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P&gt; </td></tr>
<tr class="memitem:gacc01bd272359572fc28437ae214a02df"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL U&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#gacc01bd272359572fc28437ae214a02df">associatedMin</a> (T x, U a, T y, U b)</td></tr>
<tr class="memdesc:gacc01bd272359572fc28437ae214a02df"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 2 variables and returns 2 associated variable values. <a href="a00181.html#gacc01bd272359572fc28437ae214a02df">More...</a><br /></td></tr>
<tr class="separator:gacc01bd272359572fc28437ae214a02df"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga8b538d10872626668a078e2bd495af25"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga8b538d10872626668a078e2bd495af25"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec2&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga8b538d10872626668a078e2bd495af25">associatedMin</a> (vecType&lt; T, P &gt; const &amp;x, vecType&lt; U, P &gt; const &amp;a, vecType&lt; T, P &gt; const &amp;y, vecType&lt; U, P &gt; const &amp;b)</td></tr>
<tr class="memdesc:ga8b538d10872626668a078e2bd495af25"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 2 variables and returns 2 associated variable values. <a href="a00181.html#ga8b538d10872626668a078e2bd495af25">More...</a><br /></td></tr>
<tr class="separator:ga8b538d10872626668a078e2bd495af25"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga1dccff48fa5650c746533de83467da6e"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga1dccff48fa5650c746533de83467da6e"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga1dccff48fa5650c746533de83467da6e">associatedMin</a> (T x, const vecType&lt; U, P &gt; &amp;a, T y, const vecType&lt; U, P &gt; &amp;b)</td></tr>
<tr class="memdesc:ga1dccff48fa5650c746533de83467da6e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 2 variables and returns 2 associated variable values. <a href="a00181.html#ga1dccff48fa5650c746533de83467da6e">More...</a><br /></td></tr>
<tr class="separator:ga1dccff48fa5650c746533de83467da6e"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga076717f4e07c6ae725cc1382d1ac4869"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga076717f4e07c6ae725cc1382d1ac4869"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga076717f4e07c6ae725cc1382d1ac4869">associatedMin</a> (vecType&lt; T, P &gt; const &amp;x, U a, vecType&lt; T, P &gt; const &amp;y, U b)</td></tr>
<tr class="memdesc:ga076717f4e07c6ae725cc1382d1ac4869"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 2 variables and returns 2 associated variable values. <a href="a00181.html#ga076717f4e07c6ae725cc1382d1ac4869">More...</a><br /></td></tr>
<tr class="separator:ga076717f4e07c6ae725cc1382d1ac4869"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gad0aa8f86259a26d839d34a3577a923fc"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U &gt; </td></tr>
<tr class="memitem:gad0aa8f86259a26d839d34a3577a923fc"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL U&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#gad0aa8f86259a26d839d34a3577a923fc">associatedMin</a> (T x, U a, T y, U b, T z, U c)</td></tr>
<tr class="memdesc:gad0aa8f86259a26d839d34a3577a923fc"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 3 variables and returns 3 associated variable values. <a href="a00181.html#gad0aa8f86259a26d839d34a3577a923fc">More...</a><br /></td></tr>
<tr class="separator:gad0aa8f86259a26d839d34a3577a923fc"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga5bc6b9acbf9e060d58a342fbe3b73d43"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga5bc6b9acbf9e060d58a342fbe3b73d43"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga5bc6b9acbf9e060d58a342fbe3b73d43">associatedMin</a> (vecType&lt; T, P &gt; const &amp;x, vecType&lt; U, P &gt; const &amp;a, vecType&lt; T, P &gt; const &amp;y, vecType&lt; U, P &gt; const &amp;b, vecType&lt; T, P &gt; const &amp;z, vecType&lt; U, P &gt; const &amp;c)</td></tr>
<tr class="memdesc:ga5bc6b9acbf9e060d58a342fbe3b73d43"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 3 variables and returns 3 associated variable values. <a href="a00181.html#ga5bc6b9acbf9e060d58a342fbe3b73d43">More...</a><br /></td></tr>
<tr class="separator:ga5bc6b9acbf9e060d58a342fbe3b73d43"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga432224ebe2085eaa2b63a077ecbbbff6"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U &gt; </td></tr>
<tr class="memitem:ga432224ebe2085eaa2b63a077ecbbbff6"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL U&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga432224ebe2085eaa2b63a077ecbbbff6">associatedMin</a> (T x, U a, T y, U b, T z, U c, T w, U d)</td></tr>
<tr class="memdesc:ga432224ebe2085eaa2b63a077ecbbbff6"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#ga432224ebe2085eaa2b63a077ecbbbff6">More...</a><br /></td></tr>
<tr class="separator:ga432224ebe2085eaa2b63a077ecbbbff6"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga88e031f22b80215505928900d3dde549"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga88e031f22b80215505928900d3dde549"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga88e031f22b80215505928900d3dde549">associatedMin</a> (vecType&lt; T, P &gt; const &amp;x, vecType&lt; U, P &gt; const &amp;a, vecType&lt; T, P &gt; const &amp;y, vecType&lt; U, P &gt; const &amp;b, vecType&lt; T, P &gt; const &amp;z, vecType&lt; U, P &gt; const &amp;c, vecType&lt; T, P &gt; const &amp;w, vecType&lt; U, P &gt; const &amp;d)</td></tr>
<tr class="memdesc:ga88e031f22b80215505928900d3dde549"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#ga88e031f22b80215505928900d3dde549">More...</a><br /></td></tr>
<tr class="separator:ga88e031f22b80215505928900d3dde549"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga0f63b0dce5a5c3242cc6d9847e7d14f1"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga0f63b0dce5a5c3242cc6d9847e7d14f1"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga0f63b0dce5a5c3242cc6d9847e7d14f1">associatedMin</a> (T x, vecType&lt; U, P &gt; const &amp;a, T y, vecType&lt; U, P &gt; const &amp;b, T z, vecType&lt; U, P &gt; const &amp;c, T w, vecType&lt; U, P &gt; const &amp;d)</td></tr>
<tr class="memdesc:ga0f63b0dce5a5c3242cc6d9847e7d14f1"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#ga0f63b0dce5a5c3242cc6d9847e7d14f1">More...</a><br /></td></tr>
<tr class="separator:ga0f63b0dce5a5c3242cc6d9847e7d14f1"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga00a949fd345f4b31b259f033d3ab4a1c"><td class="memTemplParams" colspan="2">template&lt;typename T , typename U , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga00a949fd345f4b31b259f033d3ab4a1c"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; U, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a> (vecType&lt; T, P &gt; const &amp;x, U a, vecType&lt; T, P &gt; const &amp;y, U b, vecType&lt; T, P &gt; const &amp;z, U c, vecType&lt; T, P &gt; const &amp;w, U d)</td></tr>
<tr class="memdesc:ga00a949fd345f4b31b259f033d3ab4a1c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Minimum comparison between 4 variables and returns 4 associated variable values. <a href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">More...</a><br /></td></tr>
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</table>
<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00181.html">GLM_GTX_associated_min_max</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd>
<dd>
<a class="el" href="a00192.html" title="Min and max functions for 3 to 4 parameters. ">GLM_GTX_extented_min_max</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00007_source.html">associated_min_max.hpp</a>.</p>
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<a href="a00007.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># error &quot;GLM: GTX_associated_min_max is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_associated_min_max extension included&quot;)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P&gt;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; GLM_FUNC_DECL U <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(T x, U a, T y, U b);</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160;</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; GLM_FUNC_DECL tvec2&lt;U, P&gt; <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b);</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; T x, <span class="keyword">const</span> vecType&lt;U, P&gt;&amp; a,</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160; T y, <span class="keyword">const</span> vecType&lt;U, P&gt;&amp; b);</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, U a,</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, U b);</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U&gt;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; GLM_FUNC_DECL U <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; T x, U a,</div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; T y, U b,</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; T z, U c);</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160;</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b,</div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; z, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; c);</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U&gt;</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160; GLM_FUNC_DECL U <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160; T x, U a,</div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160; T y, U b,</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; T z, U c,</div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; T w, U d);</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b,</div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; z, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; c,</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; w, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; d);</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160; T x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160; T y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b,</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160; T z, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; c,</div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160; T w, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; d);</div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160;</div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">associatedMin</a>(</div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, U a,</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, U b,</div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; z, U c,</div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; w, U d);</div>
<div class="line"><a name="l00108"></a><span class="lineno"> 108</span>&#160;</div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U&gt;</div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160; GLM_FUNC_DECL U <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(T x, U a, T y, U b);</div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160;</div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160; GLM_FUNC_DECL tvec2&lt;U, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b);</div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160;</div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160; T x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160; T y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b);</div>
<div class="line"><a name="l00127"></a><span class="lineno"> 127</span>&#160;</div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, U a,</div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, U b);</div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160;</div>
<div class="line"><a name="l00137"></a><span class="lineno"> 137</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U&gt;</div>
<div class="line"><a name="l00138"></a><span class="lineno"> 138</span>&#160; GLM_FUNC_DECL U <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160; T x, U a,</div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160; T y, U b,</div>
<div class="line"><a name="l00141"></a><span class="lineno"> 141</span>&#160; T z, U c);</div>
<div class="line"><a name="l00142"></a><span class="lineno"> 142</span>&#160;</div>
<div class="line"><a name="l00145"></a><span class="lineno"> 145</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00147"></a><span class="lineno"> 147</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00148"></a><span class="lineno"> 148</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b,</div>
<div class="line"><a name="l00149"></a><span class="lineno"> 149</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; z, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; c);</div>
<div class="line"><a name="l00150"></a><span class="lineno"> 150</span>&#160;</div>
<div class="line"><a name="l00153"></a><span class="lineno"> 153</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00154"></a><span class="lineno"> 154</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00155"></a><span class="lineno"> 155</span>&#160; T x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00156"></a><span class="lineno"> 156</span>&#160; T y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b,</div>
<div class="line"><a name="l00157"></a><span class="lineno"> 157</span>&#160; T z, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; c);</div>
<div class="line"><a name="l00158"></a><span class="lineno"> 158</span>&#160;</div>
<div class="line"><a name="l00161"></a><span class="lineno"> 161</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00162"></a><span class="lineno"> 162</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00163"></a><span class="lineno"> 163</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, U a,</div>
<div class="line"><a name="l00164"></a><span class="lineno"> 164</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, U b,</div>
<div class="line"><a name="l00165"></a><span class="lineno"> 165</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; z, U c);</div>
<div class="line"><a name="l00166"></a><span class="lineno"> 166</span>&#160;</div>
<div class="line"><a name="l00169"></a><span class="lineno"> 169</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U&gt;</div>
<div class="line"><a name="l00170"></a><span class="lineno"> 170</span>&#160; GLM_FUNC_DECL U <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00171"></a><span class="lineno"> 171</span>&#160; T x, U a,</div>
<div class="line"><a name="l00172"></a><span class="lineno"> 172</span>&#160; T y, U b,</div>
<div class="line"><a name="l00173"></a><span class="lineno"> 173</span>&#160; T z, U c,</div>
<div class="line"><a name="l00174"></a><span class="lineno"> 174</span>&#160; T w, U d);</div>
<div class="line"><a name="l00175"></a><span class="lineno"> 175</span>&#160;</div>
<div class="line"><a name="l00178"></a><span class="lineno"> 178</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00179"></a><span class="lineno"> 179</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00180"></a><span class="lineno"> 180</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00181"></a><span class="lineno"> 181</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b,</div>
<div class="line"><a name="l00182"></a><span class="lineno"> 182</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; z, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; c,</div>
<div class="line"><a name="l00183"></a><span class="lineno"> 183</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; w, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; d);</div>
<div class="line"><a name="l00184"></a><span class="lineno"> 184</span>&#160;</div>
<div class="line"><a name="l00187"></a><span class="lineno"> 187</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00188"></a><span class="lineno"> 188</span>&#160; GLM_FUNC_DECL vecType&lt;U, P&gt; <a class="code" href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">associatedMax</a>(</div>
<div class="line"><a name="l00189"></a><span class="lineno"> 189</span>&#160; T x, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; a,</div>
<div class="line"><a name="l00190"></a><span class="lineno"> 190</span>&#160; T y, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; b,</div>
<div class="line"><a name="l00191"></a><span class="lineno"> 191</span>&#160; T z, vecType&lt;U, P&gt; <span class="keyword">const</span> &amp; c,</div>
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<div class="line"><a name="l00196"></a><span class="lineno"> 196</span>&#160; <span class="keyword">template</span>&lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> U, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
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<div class="line"><a name="l00198"></a><span class="lineno"> 198</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, U a,</div>
<div class="line"><a name="l00199"></a><span class="lineno"> 199</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y, U b,</div>
<div class="line"><a name="l00200"></a><span class="lineno"> 200</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; z, U c,</div>
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<div class="line"><a name="l00204"></a><span class="lineno"> 204</span>&#160;} <span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00205"></a><span class="lineno"> 205</span>&#160;</div>
<div class="line"><a name="l00206"></a><span class="lineno"> 206</span>&#160;<span class="preprocessor">#include &quot;associated_min_max.inl&quot;</span></div>
<div class="ttc" id="a00181_html_ga3122fbe8133ea54749b10fb93e8a167e"><div class="ttname"><a href="a00181.html#ga3122fbe8133ea54749b10fb93e8a167e">glm::associatedMax</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; U, P &gt; associatedMax(vecType&lt; T, P &gt; const &amp;x, U a, vecType&lt; T, P &gt; const &amp;y, U b, vecType&lt; T, P &gt; const &amp;z, U c, vecType&lt; T, P &gt; const &amp;w, U d)</div><div class="ttdoc">Maximum comparison between 4 variables and returns 4 associated variable values. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00181_html_ga00a949fd345f4b31b259f033d3ab4a1c"><div class="ttname"><a href="a00181.html#ga00a949fd345f4b31b259f033d3ab4a1c">glm::associatedMin</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; U, P &gt; associatedMin(vecType&lt; T, P &gt; const &amp;x, U a, vecType&lt; T, P &gt; const &amp;y, U b, vecType&lt; T, P &gt; const &amp;z, U c, vecType&lt; T, P &gt; const &amp;w, U d)</div><div class="ttdoc">Minimum comparison between 4 variables and returns 4 associated variable values. </div></div>
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Functions</h2></td></tr>
<tr class="memitem:ga0dcc8fe7c3d3ad60dea409281efa3d05"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga0dcc8fe7c3d3ad60dea409281efa3d05"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#ga0dcc8fe7c3d3ad60dea409281efa3d05">highestBitValue</a> (genIUType Value)</td></tr>
<tr class="separator:ga0dcc8fe7c3d3ad60dea409281efa3d05"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga5eea3a4d429040af13d39a7d7cd84d73"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga5eea3a4d429040af13d39a7d7cd84d73"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#ga5eea3a4d429040af13d39a7d7cd84d73">highestBitValue</a> (vecType&lt; T, P &gt; const &amp;value)</td></tr>
<tr class="memdesc:ga5eea3a4d429040af13d39a7d7cd84d73"><td class="mdescLeft">&#160;</td><td class="mdescRight">Find the highest bit set to 1 in a integer variable and return its value. <a href="a00182.html#ga5eea3a4d429040af13d39a7d7cd84d73">More...</a><br /></td></tr>
<tr class="separator:ga5eea3a4d429040af13d39a7d7cd84d73"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2ff6568089f3a9b67f5c30918855fc6f"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga2ff6568089f3a9b67f5c30918855fc6f"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#ga2ff6568089f3a9b67f5c30918855fc6f">lowestBitValue</a> (genIUType Value)</td></tr>
<tr class="separator:ga2ff6568089f3a9b67f5c30918855fc6f"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga8cda2459871f574a0aecbe702ac93291"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga8cda2459871f574a0aecbe702ac93291"><td class="memTemplItemLeft" align="right" valign="top">GLM_DEPRECATED GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#ga8cda2459871f574a0aecbe702ac93291">powerOfTwoAbove</a> (genIUType Value)</td></tr>
<tr class="memdesc:ga8cda2459871f574a0aecbe702ac93291"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the power of two number which value is just higher the input value. <a href="a00182.html#ga8cda2459871f574a0aecbe702ac93291">More...</a><br /></td></tr>
<tr class="separator:ga8cda2459871f574a0aecbe702ac93291"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gafe08808a50226b75b50e640a08b32ddc"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gafe08808a50226b75b50e640a08b32ddc"><td class="memTemplItemLeft" align="right" valign="top">GLM_DEPRECATED GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#gafe08808a50226b75b50e640a08b32ddc">powerOfTwoAbove</a> (vecType&lt; T, P &gt; const &amp;value)</td></tr>
<tr class="memdesc:gafe08808a50226b75b50e640a08b32ddc"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the power of two number which value is just higher the input value. <a href="a00182.html#gafe08808a50226b75b50e640a08b32ddc">More...</a><br /></td></tr>
<tr class="separator:gafe08808a50226b75b50e640a08b32ddc"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga3de7df63c589325101a2817a56f8e29d"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga3de7df63c589325101a2817a56f8e29d"><td class="memTemplItemLeft" align="right" valign="top">GLM_DEPRECATED GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#ga3de7df63c589325101a2817a56f8e29d">powerOfTwoBelow</a> (genIUType Value)</td></tr>
<tr class="memdesc:ga3de7df63c589325101a2817a56f8e29d"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the power of two number which value is just lower the input value. <a href="a00182.html#ga3de7df63c589325101a2817a56f8e29d">More...</a><br /></td></tr>
<tr class="separator:ga3de7df63c589325101a2817a56f8e29d"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gae33bb1ca2b55846b23a0f0796a679195"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gae33bb1ca2b55846b23a0f0796a679195"><td class="memTemplItemLeft" align="right" valign="top">GLM_DEPRECATED GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#gae33bb1ca2b55846b23a0f0796a679195">powerOfTwoBelow</a> (vecType&lt; T, P &gt; const &amp;value)</td></tr>
<tr class="memdesc:gae33bb1ca2b55846b23a0f0796a679195"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the power of two number which value is just lower the input value. <a href="a00182.html#gae33bb1ca2b55846b23a0f0796a679195">More...</a><br /></td></tr>
<tr class="separator:gae33bb1ca2b55846b23a0f0796a679195"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga5f65973a5d2ea38c719e6a663149ead9"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga5f65973a5d2ea38c719e6a663149ead9"><td class="memTemplItemLeft" align="right" valign="top">GLM_DEPRECATED GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#ga5f65973a5d2ea38c719e6a663149ead9">powerOfTwoNearest</a> (genIUType Value)</td></tr>
<tr class="memdesc:ga5f65973a5d2ea38c719e6a663149ead9"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the power of two number which value is the closet to the input value. <a href="a00182.html#ga5f65973a5d2ea38c719e6a663149ead9">More...</a><br /></td></tr>
<tr class="separator:ga5f65973a5d2ea38c719e6a663149ead9"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2d7e85995d097518b8d70cd409bda39e"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga2d7e85995d097518b8d70cd409bda39e"><td class="memTemplItemLeft" align="right" valign="top">GLM_DEPRECATED GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00182.html#ga2d7e85995d097518b8d70cd409bda39e">powerOfTwoNearest</a> (vecType&lt; T, P &gt; const &amp;value)</td></tr>
<tr class="memdesc:ga2d7e85995d097518b8d70cd409bda39e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the power of two number which value is the closet to the input value. <a href="a00182.html#ga2d7e85995d097518b8d70cd409bda39e">More...</a><br /></td></tr>
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<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00008_source.html">bit.hpp</a>.</p>
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<a href="a00008.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependencies</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../gtc/bitfield.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_bit is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_bit extension is deprecated, include GLM_GTC_bitfield and GLM_GTC_integer instead&quot;)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; GLM_FUNC_DECL genIUType <a class="code" href="a00182.html#ga5eea3a4d429040af13d39a7d7cd84d73">highestBitValue</a>(genIUType Value);</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; GLM_FUNC_DECL genIUType <a class="code" href="a00182.html#ga2ff6568089f3a9b67f5c30918855fc6f">lowestBitValue</a>(genIUType Value);</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00182.html#ga5eea3a4d429040af13d39a7d7cd84d73">highestBitValue</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; value);</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; GLM_DEPRECATED GLM_FUNC_DECL genIUType <a class="code" href="a00182.html#gafe08808a50226b75b50e640a08b32ddc">powerOfTwoAbove</a>(genIUType Value);</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; GLM_DEPRECATED GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00182.html#gafe08808a50226b75b50e640a08b32ddc">powerOfTwoAbove</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; value);</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; GLM_DEPRECATED GLM_FUNC_DECL genIUType <a class="code" href="a00182.html#gae33bb1ca2b55846b23a0f0796a679195">powerOfTwoBelow</a>(genIUType Value);</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160;</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; GLM_DEPRECATED GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00182.html#gae33bb1ca2b55846b23a0f0796a679195">powerOfTwoBelow</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; value);</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;</div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160; GLM_DEPRECATED GLM_FUNC_DECL genIUType <a class="code" href="a00182.html#ga2d7e85995d097518b8d70cd409bda39e">powerOfTwoNearest</a>(genIUType Value);</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160;</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160; GLM_DEPRECATED GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00182.html#ga2d7e85995d097518b8d70cd409bda39e">powerOfTwoNearest</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; value);</div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160;</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160;} <span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160;</div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160;</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160;<span class="preprocessor">#include &quot;bit.inl&quot;</span></div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160;</div>
<div class="ttc" id="a00182_html_gae33bb1ca2b55846b23a0f0796a679195"><div class="ttname"><a href="a00182.html#gae33bb1ca2b55846b23a0f0796a679195">glm::powerOfTwoBelow</a></div><div class="ttdeci">GLM_DEPRECATED GLM_FUNC_DECL vecType&lt; T, P &gt; powerOfTwoBelow(vecType&lt; T, P &gt; const &amp;value)</div><div class="ttdoc">Return the power of two number which value is just lower the input value. </div></div>
<div class="ttc" id="a00182_html_gafe08808a50226b75b50e640a08b32ddc"><div class="ttname"><a href="a00182.html#gafe08808a50226b75b50e640a08b32ddc">glm::powerOfTwoAbove</a></div><div class="ttdeci">GLM_DEPRECATED GLM_FUNC_DECL vecType&lt; T, P &gt; powerOfTwoAbove(vecType&lt; T, P &gt; const &amp;value)</div><div class="ttdoc">Return the power of two number which value is just higher the input value. </div></div>
<div class="ttc" id="a00182_html_ga2ff6568089f3a9b67f5c30918855fc6f"><div class="ttname"><a href="a00182.html#ga2ff6568089f3a9b67f5c30918855fc6f">glm::lowestBitValue</a></div><div class="ttdeci">GLM_FUNC_DECL genIUType lowestBitValue(genIUType Value)</div></div>
<div class="ttc" id="a00182_html_ga5eea3a4d429040af13d39a7d7cd84d73"><div class="ttname"><a href="a00182.html#ga5eea3a4d429040af13d39a7d7cd84d73">glm::highestBitValue</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; highestBitValue(vecType&lt; T, P &gt; const &amp;value)</div><div class="ttdoc">Find the highest bit set to 1 in a integer variable and return its value. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00182_html_ga2d7e85995d097518b8d70cd409bda39e"><div class="ttname"><a href="a00182.html#ga2d7e85995d097518b8d70cd409bda39e">glm::powerOfTwoNearest</a></div><div class="ttdeci">GLM_DEPRECATED GLM_FUNC_DECL vecType&lt; T, P &gt; powerOfTwoNearest(vecType&lt; T, P &gt; const &amp;value)</div><div class="ttdoc">Return the power of two number which value is the closet to the input value. </div></div>
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<p><a class="el" href="a00159.html">GLM_GTC_bitfield</a>
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Functions</h2></td></tr>
<tr class="memitem:ga46f9295abe3b5c7658f5b13c7f819f0a"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga46f9295abe3b5c7658f5b13c7f819f0a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#ga46f9295abe3b5c7658f5b13c7f819f0a">bitfieldFillOne</a> (genIUType Value, int FirstBit, int BitCount)</td></tr>
<tr class="memdesc:ga46f9295abe3b5c7658f5b13c7f819f0a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Set to 1 a range of bits. <a href="a00159.html#ga46f9295abe3b5c7658f5b13c7f819f0a">More...</a><br /></td></tr>
<tr class="separator:ga46f9295abe3b5c7658f5b13c7f819f0a"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gad789042e84e8292ae95dc1af856f2ad5"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gad789042e84e8292ae95dc1af856f2ad5"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#gad789042e84e8292ae95dc1af856f2ad5">bitfieldFillOne</a> (vecType&lt; T, P &gt; const &amp;Value, int FirstBit, int BitCount)</td></tr>
<tr class="memdesc:gad789042e84e8292ae95dc1af856f2ad5"><td class="mdescLeft">&#160;</td><td class="mdescRight">Set to 1 a range of bits. <a href="a00159.html#gad789042e84e8292ae95dc1af856f2ad5">More...</a><br /></td></tr>
<tr class="separator:gad789042e84e8292ae95dc1af856f2ad5"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga697b86998b7d74ee0a69d8e9f8819fee"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga697b86998b7d74ee0a69d8e9f8819fee"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#ga697b86998b7d74ee0a69d8e9f8819fee">bitfieldFillZero</a> (genIUType Value, int FirstBit, int BitCount)</td></tr>
<tr class="memdesc:ga697b86998b7d74ee0a69d8e9f8819fee"><td class="mdescLeft">&#160;</td><td class="mdescRight">Set to 0 a range of bits. <a href="a00159.html#ga697b86998b7d74ee0a69d8e9f8819fee">More...</a><br /></td></tr>
<tr class="separator:ga697b86998b7d74ee0a69d8e9f8819fee"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaddba3196316b0bd240295b09b43c2958"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gaddba3196316b0bd240295b09b43c2958"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#gaddba3196316b0bd240295b09b43c2958">bitfieldFillZero</a> (vecType&lt; T, P &gt; const &amp;Value, int FirstBit, int BitCount)</td></tr>
<tr class="memdesc:gaddba3196316b0bd240295b09b43c2958"><td class="mdescLeft">&#160;</td><td class="mdescRight">Set to 0 a range of bits. <a href="a00159.html#gaddba3196316b0bd240295b09b43c2958">More...</a><br /></td></tr>
<tr class="separator:gaddba3196316b0bd240295b09b43c2958"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga24cad0069f9a0450abd80b3e89501adf"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL int16&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga24cad0069f9a0450abd80b3e89501adf">bitfieldInterleave</a> (int8 x, int8 y)</td></tr>
<tr class="memdesc:ga24cad0069f9a0450abd80b3e89501adf"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x and y. <a href="a00159.html#ga24cad0069f9a0450abd80b3e89501adf">More...</a><br /></td></tr>
<tr class="separator:ga24cad0069f9a0450abd80b3e89501adf"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga9a4976a529aec2cee56525e1165da484"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL uint16&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga9a4976a529aec2cee56525e1165da484">bitfieldInterleave</a> (uint8 x, uint8 y)</td></tr>
<tr class="memdesc:ga9a4976a529aec2cee56525e1165da484"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x and y. <a href="a00159.html#ga9a4976a529aec2cee56525e1165da484">More...</a><br /></td></tr>
<tr class="separator:ga9a4976a529aec2cee56525e1165da484"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gac51c33a394593f0631fa3aa5bb778809"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL int32&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#gac51c33a394593f0631fa3aa5bb778809">bitfieldInterleave</a> (int16 x, int16 y)</td></tr>
<tr class="memdesc:gac51c33a394593f0631fa3aa5bb778809"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x and y. <a href="a00159.html#gac51c33a394593f0631fa3aa5bb778809">More...</a><br /></td></tr>
<tr class="separator:gac51c33a394593f0631fa3aa5bb778809"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga94f3646a5667f4be56f8dcf3310e963f"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL uint32&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga94f3646a5667f4be56f8dcf3310e963f">bitfieldInterleave</a> (uint16 x, uint16 y)</td></tr>
<tr class="memdesc:ga94f3646a5667f4be56f8dcf3310e963f"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x and y. <a href="a00159.html#ga94f3646a5667f4be56f8dcf3310e963f">More...</a><br /></td></tr>
<tr class="separator:ga94f3646a5667f4be56f8dcf3310e963f"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaebb756a24a0784e3d6fba8bd011ab77a"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL int64&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#gaebb756a24a0784e3d6fba8bd011ab77a">bitfieldInterleave</a> (int32 x, int32 y)</td></tr>
<tr class="memdesc:gaebb756a24a0784e3d6fba8bd011ab77a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x and y. <a href="a00159.html#gaebb756a24a0784e3d6fba8bd011ab77a">More...</a><br /></td></tr>
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<tr class="memitem:ga2f1e2b3fe699e7d897ae38b2115ddcbd"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL uint64&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga2f1e2b3fe699e7d897ae38b2115ddcbd">bitfieldInterleave</a> (uint32 x, uint32 y)</td></tr>
<tr class="memdesc:ga2f1e2b3fe699e7d897ae38b2115ddcbd"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x and y. <a href="a00159.html#ga2f1e2b3fe699e7d897ae38b2115ddcbd">More...</a><br /></td></tr>
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<tr class="memdesc:ga8fdb724dccd4a07d57efc01147102137"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y and z. <a href="a00159.html#ga8fdb724dccd4a07d57efc01147102137">More...</a><br /></td></tr>
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<tr class="memdesc:ga9fc2a0dd5dcf8b00e113f272a5feca93"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y and z. <a href="a00159.html#ga9fc2a0dd5dcf8b00e113f272a5feca93">More...</a><br /></td></tr>
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<tr class="memdesc:gaa901c36a842fa5d126ea650549f17b24"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y and z. <a href="a00159.html#gaa901c36a842fa5d126ea650549f17b24">More...</a><br /></td></tr>
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<tr class="memitem:ga3afd6d38881fe3948c53d4214d2197fd"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL uint64&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga3afd6d38881fe3948c53d4214d2197fd">bitfieldInterleave</a> (uint16 x, uint16 y, uint16 z)</td></tr>
<tr class="memdesc:ga3afd6d38881fe3948c53d4214d2197fd"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y and z. <a href="a00159.html#ga3afd6d38881fe3948c53d4214d2197fd">More...</a><br /></td></tr>
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<tr class="memdesc:gad2075d96a6640121edaa98ea534102ca"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y and z. <a href="a00159.html#gad2075d96a6640121edaa98ea534102ca">More...</a><br /></td></tr>
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<tr class="memdesc:gab19fbc739fc0cf7247978602c36f7da8"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y and z. <a href="a00159.html#gab19fbc739fc0cf7247978602c36f7da8">More...</a><br /></td></tr>
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<tr class="memitem:ga8a44ae22f5c953b296c42d067dccbe6d"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL int32&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga8a44ae22f5c953b296c42d067dccbe6d">bitfieldInterleave</a> (int8 x, int8 y, int8 z, int8 w)</td></tr>
<tr class="memdesc:ga8a44ae22f5c953b296c42d067dccbe6d"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y, z and w. <a href="a00159.html#ga8a44ae22f5c953b296c42d067dccbe6d">More...</a><br /></td></tr>
<tr class="separator:ga8a44ae22f5c953b296c42d067dccbe6d"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga14bb274d54a3c26f4919dd7ed0dd0c36"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL uint32&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga14bb274d54a3c26f4919dd7ed0dd0c36">bitfieldInterleave</a> (uint8 x, uint8 y, uint8 z, uint8 w)</td></tr>
<tr class="memdesc:ga14bb274d54a3c26f4919dd7ed0dd0c36"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y, z and w. <a href="a00159.html#ga14bb274d54a3c26f4919dd7ed0dd0c36">More...</a><br /></td></tr>
<tr class="separator:ga14bb274d54a3c26f4919dd7ed0dd0c36"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga180a63161e1319fbd5a53c84d0429c7a"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL int64&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#ga180a63161e1319fbd5a53c84d0429c7a">bitfieldInterleave</a> (int16 x, int16 y, int16 z, int16 w)</td></tr>
<tr class="memdesc:ga180a63161e1319fbd5a53c84d0429c7a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y, z and w. <a href="a00159.html#ga180a63161e1319fbd5a53c84d0429c7a">More...</a><br /></td></tr>
<tr class="separator:ga180a63161e1319fbd5a53c84d0429c7a"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gafca8768671a14c8016facccb66a89f26"><td class="memItemLeft" align="right" valign="top">GLM_FUNC_DECL uint64&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a> (uint16 x, uint16 y, uint16 z, uint16 w)</td></tr>
<tr class="memdesc:gafca8768671a14c8016facccb66a89f26"><td class="mdescLeft">&#160;</td><td class="mdescRight">Interleaves the bits of x, y, z and w. <a href="a00159.html#gafca8768671a14c8016facccb66a89f26">More...</a><br /></td></tr>
<tr class="separator:gafca8768671a14c8016facccb66a89f26"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2eb49678a344ce1495bdb5586d9896b9"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga2eb49678a344ce1495bdb5586d9896b9"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#ga2eb49678a344ce1495bdb5586d9896b9">bitfieldRotateLeft</a> (genIUType In, int Shift)</td></tr>
<tr class="memdesc:ga2eb49678a344ce1495bdb5586d9896b9"><td class="mdescLeft">&#160;</td><td class="mdescRight">Rotate all bits to the left. <a href="a00159.html#ga2eb49678a344ce1495bdb5586d9896b9">More...</a><br /></td></tr>
<tr class="separator:ga2eb49678a344ce1495bdb5586d9896b9"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga410d130917d85b865718e3ebc32cf0ef"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga410d130917d85b865718e3ebc32cf0ef"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#ga410d130917d85b865718e3ebc32cf0ef">bitfieldRotateLeft</a> (vecType&lt; T, P &gt; const &amp;In, int Shift)</td></tr>
<tr class="memdesc:ga410d130917d85b865718e3ebc32cf0ef"><td class="mdescLeft">&#160;</td><td class="mdescRight">Rotate all bits to the left. <a href="a00159.html#ga410d130917d85b865718e3ebc32cf0ef">More...</a><br /></td></tr>
<tr class="separator:ga410d130917d85b865718e3ebc32cf0ef"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga1c33d075c5fb8bd8dbfd5092bfc851ca"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:ga1c33d075c5fb8bd8dbfd5092bfc851ca"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#ga1c33d075c5fb8bd8dbfd5092bfc851ca">bitfieldRotateRight</a> (genIUType In, int Shift)</td></tr>
<tr class="memdesc:ga1c33d075c5fb8bd8dbfd5092bfc851ca"><td class="mdescLeft">&#160;</td><td class="mdescRight">Rotate all bits to the right. <a href="a00159.html#ga1c33d075c5fb8bd8dbfd5092bfc851ca">More...</a><br /></td></tr>
<tr class="separator:ga1c33d075c5fb8bd8dbfd5092bfc851ca"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga96b56fd2adad1eeaee9e10dfe83904ba"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga96b56fd2adad1eeaee9e10dfe83904ba"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#ga96b56fd2adad1eeaee9e10dfe83904ba">bitfieldRotateRight</a> (vecType&lt; T, P &gt; const &amp;In, int Shift)</td></tr>
<tr class="memdesc:ga96b56fd2adad1eeaee9e10dfe83904ba"><td class="mdescLeft">&#160;</td><td class="mdescRight">Rotate all bits to the right. <a href="a00159.html#ga96b56fd2adad1eeaee9e10dfe83904ba">More...</a><br /></td></tr>
<tr class="separator:ga96b56fd2adad1eeaee9e10dfe83904ba"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gad7eba518a0b71662114571ee76939f8a"><td class="memTemplParams" colspan="2">template&lt;typename genIUType &gt; </td></tr>
<tr class="memitem:gad7eba518a0b71662114571ee76939f8a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genIUType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#gad7eba518a0b71662114571ee76939f8a">mask</a> (genIUType Bits)</td></tr>
<tr class="memdesc:gad7eba518a0b71662114571ee76939f8a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Build a mask of 'count' bits. <a href="a00159.html#gad7eba518a0b71662114571ee76939f8a">More...</a><br /></td></tr>
<tr class="separator:gad7eba518a0b71662114571ee76939f8a"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga073dbd8642f550b51da3572541431c1c"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecIUType&gt; </td></tr>
<tr class="memitem:ga073dbd8642f550b51da3572541431c1c"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecIUType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00159.html#ga073dbd8642f550b51da3572541431c1c">mask</a> (vecIUType&lt; T, P &gt; const &amp;v)</td></tr>
<tr class="memdesc:ga073dbd8642f550b51da3572541431c1c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Build a mask of 'count' bits. <a href="a00159.html#ga073dbd8642f550b51da3572541431c1c">More...</a><br /></td></tr>
<tr class="separator:ga073dbd8642f550b51da3572541431c1c"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00159.html">GLM_GTC_bitfield</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd>
<dd>
<a class="el" href="a00159.html" title="Allow to perform bit operations on integer values. ">GLM_GTC_bitfield</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00009_source.html">bitfield.hpp</a>.</p>
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<a href="a00009.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="comment">// Dependencies</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="preprocessor">#include &quot;../detail/setup.hpp&quot;</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#include &quot;../detail/precision.hpp&quot;</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#include &quot;../detail/type_int.hpp&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#include &quot;../detail/_vectorize.hpp&quot;</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor">#include &lt;limits&gt;</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;</div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTC_bitfield extension included&quot;)</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;</div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;{</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; GLM_FUNC_DECL genIUType <a class="code" href="a00159.html#ga073dbd8642f550b51da3572541431c1c">mask</a>(genIUType Bits);</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; </div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecIUType&gt;</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; GLM_FUNC_DECL vecIUType&lt;T, P&gt; <a class="code" href="a00159.html#ga073dbd8642f550b51da3572541431c1c">mask</a>(vecIUType&lt;T, P&gt; <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160; GLM_FUNC_DECL genIUType <a class="code" href="a00159.html#ga96b56fd2adad1eeaee9e10dfe83904ba">bitfieldRotateRight</a>(genIUType In, <span class="keywordtype">int</span> Shift);</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00159.html#ga96b56fd2adad1eeaee9e10dfe83904ba">bitfieldRotateRight</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; In, <span class="keywordtype">int</span> Shift);</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; GLM_FUNC_DECL genIUType <a class="code" href="a00159.html#ga410d130917d85b865718e3ebc32cf0ef">bitfieldRotateLeft</a>(genIUType In, <span class="keywordtype">int</span> Shift);</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160;</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00159.html#ga410d130917d85b865718e3ebc32cf0ef">bitfieldRotateLeft</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; In, <span class="keywordtype">int</span> Shift);</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160;</div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160; GLM_FUNC_DECL genIUType <a class="code" href="a00159.html#gad789042e84e8292ae95dc1af856f2ad5">bitfieldFillOne</a>(genIUType Value, <span class="keywordtype">int</span> FirstBit, <span class="keywordtype">int</span> BitCount);</div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160;</div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00159.html#gad789042e84e8292ae95dc1af856f2ad5">bitfieldFillOne</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; Value, <span class="keywordtype">int</span> FirstBit, <span class="keywordtype">int</span> BitCount);</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160;</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genIUType&gt;</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; GLM_FUNC_DECL genIUType <a class="code" href="a00159.html#gaddba3196316b0bd240295b09b43c2958">bitfieldFillZero</a>(genIUType Value, <span class="keywordtype">int</span> FirstBit, <span class="keywordtype">int</span> BitCount);</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160;</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00159.html#gaddba3196316b0bd240295b09b43c2958">bitfieldFillZero</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; Value, <span class="keywordtype">int</span> FirstBit, <span class="keywordtype">int</span> BitCount);</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160; GLM_FUNC_DECL int16 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int8 x, int8 y);</div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160;</div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; GLM_FUNC_DECL uint16 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint8 x, uint8 y);</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160;</div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160; GLM_FUNC_DECL int32 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int16 x, int16 y);</div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160;</div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160; GLM_FUNC_DECL uint32 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint16 x, uint16 y);</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160;</div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160; GLM_FUNC_DECL int64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int32 x, int32 y);</div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160;</div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160; GLM_FUNC_DECL uint64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint32 x, uint32 y);</div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160;</div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160; GLM_FUNC_DECL int32 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int8 x, int8 y, int8 z);</div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160;</div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160; GLM_FUNC_DECL uint32 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint8 x, uint8 y, uint8 z);</div>
<div class="line"><a name="l00147"></a><span class="lineno"> 147</span>&#160;</div>
<div class="line"><a name="l00153"></a><span class="lineno"> 153</span>&#160; GLM_FUNC_DECL int64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int16 x, int16 y, int16 z);</div>
<div class="line"><a name="l00154"></a><span class="lineno"> 154</span>&#160;</div>
<div class="line"><a name="l00160"></a><span class="lineno"> 160</span>&#160; GLM_FUNC_DECL uint64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint16 x, uint16 y, uint16 z);</div>
<div class="line"><a name="l00161"></a><span class="lineno"> 161</span>&#160;</div>
<div class="line"><a name="l00167"></a><span class="lineno"> 167</span>&#160; GLM_FUNC_DECL int64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int32 x, int32 y, int32 z);</div>
<div class="line"><a name="l00168"></a><span class="lineno"> 168</span>&#160;</div>
<div class="line"><a name="l00174"></a><span class="lineno"> 174</span>&#160; GLM_FUNC_DECL uint64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint32 x, uint32 y, uint32 z);</div>
<div class="line"><a name="l00175"></a><span class="lineno"> 175</span>&#160;</div>
<div class="line"><a name="l00181"></a><span class="lineno"> 181</span>&#160; GLM_FUNC_DECL int32 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int8 x, int8 y, int8 z, int8 w);</div>
<div class="line"><a name="l00182"></a><span class="lineno"> 182</span>&#160;</div>
<div class="line"><a name="l00188"></a><span class="lineno"> 188</span>&#160; GLM_FUNC_DECL uint32 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint8 x, uint8 y, uint8 z, uint8 w);</div>
<div class="line"><a name="l00189"></a><span class="lineno"> 189</span>&#160;</div>
<div class="line"><a name="l00195"></a><span class="lineno"> 195</span>&#160; GLM_FUNC_DECL int64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(int16 x, int16 y, int16 z, int16 w);</div>
<div class="line"><a name="l00196"></a><span class="lineno"> 196</span>&#160;</div>
<div class="line"><a name="l00202"></a><span class="lineno"> 202</span>&#160; GLM_FUNC_DECL uint64 <a class="code" href="a00159.html#gafca8768671a14c8016facccb66a89f26">bitfieldInterleave</a>(uint16 x, uint16 y, uint16 z, uint16 w);</div>
<div class="line"><a name="l00203"></a><span class="lineno"> 203</span>&#160;</div>
<div class="line"><a name="l00205"></a><span class="lineno"> 205</span>&#160;} <span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00206"></a><span class="lineno"> 206</span>&#160;</div>
<div class="line"><a name="l00207"></a><span class="lineno"> 207</span>&#160;<span class="preprocessor">#include &quot;bitfield.inl&quot;</span></div>
<div class="ttc" id="a00159_html_ga96b56fd2adad1eeaee9e10dfe83904ba"><div class="ttname"><a href="a00159.html#ga96b56fd2adad1eeaee9e10dfe83904ba">glm::bitfieldRotateRight</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; bitfieldRotateRight(vecType&lt; T, P &gt; const &amp;In, int Shift)</div><div class="ttdoc">Rotate all bits to the right. </div></div>
<div class="ttc" id="a00159_html_gafca8768671a14c8016facccb66a89f26"><div class="ttname"><a href="a00159.html#gafca8768671a14c8016facccb66a89f26">glm::bitfieldInterleave</a></div><div class="ttdeci">GLM_FUNC_DECL uint64 bitfieldInterleave(uint16 x, uint16 y, uint16 z, uint16 w)</div><div class="ttdoc">Interleaves the bits of x, y, z and w. </div></div>
<div class="ttc" id="a00159_html_ga073dbd8642f550b51da3572541431c1c"><div class="ttname"><a href="a00159.html#ga073dbd8642f550b51da3572541431c1c">glm::mask</a></div><div class="ttdeci">GLM_FUNC_DECL vecIUType&lt; T, P &gt; mask(vecIUType&lt; T, P &gt; const &amp;v)</div><div class="ttdoc">Build a mask of &#39;count&#39; bits. </div></div>
<div class="ttc" id="a00159_html_gad789042e84e8292ae95dc1af856f2ad5"><div class="ttname"><a href="a00159.html#gad789042e84e8292ae95dc1af856f2ad5">glm::bitfieldFillOne</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; bitfieldFillOne(vecType&lt; T, P &gt; const &amp;Value, int FirstBit, int BitCount)</div><div class="ttdoc">Set to 1 a range of bits. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00159_html_gaddba3196316b0bd240295b09b43c2958"><div class="ttname"><a href="a00159.html#gaddba3196316b0bd240295b09b43c2958">glm::bitfieldFillZero</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; bitfieldFillZero(vecType&lt; T, P &gt; const &amp;Value, int FirstBit, int BitCount)</div><div class="ttdoc">Set to 0 a range of bits. </div></div>
<div class="ttc" id="a00159_html_ga410d130917d85b865718e3ebc32cf0ef"><div class="ttname"><a href="a00159.html#ga410d130917d85b865718e3ebc32cf0ef">glm::bitfieldRotateLeft</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; bitfieldRotateLeft(vecType&lt; T, P &gt; const &amp;In, int Shift)</div><div class="ttdoc">Rotate all bits to the left. </div></div>
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<div class="title">closest_point.hpp File Reference</div> </div>
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<p><a class="el" href="a00183.html">GLM_GTX_closest_point</a>
<a href="#details">More...</a></p>
<p><a href="a00010_source.html">Go to the source code of this file.</a></p>
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Functions</h2></td></tr>
<tr class="memitem:gac26353282a8213e469f5e33560c1200f"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gac26353282a8213e469f5e33560c1200f"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00183.html#gac26353282a8213e469f5e33560c1200f">closestPointOnLine</a> (tvec3&lt; T, P &gt; const &amp;point, tvec3&lt; T, P &gt; const &amp;a, tvec3&lt; T, P &gt; const &amp;b)</td></tr>
<tr class="memdesc:gac26353282a8213e469f5e33560c1200f"><td class="mdescLeft">&#160;</td><td class="mdescRight">Find the point on a straight line which is the closet of a point. <a href="a00183.html#gac26353282a8213e469f5e33560c1200f">More...</a><br /></td></tr>
<tr class="separator:gac26353282a8213e469f5e33560c1200f"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gadc7010070bb0cacd284f560299b21660"><td class="memTemplParams" colspan="2"><a class="anchor" id="gadc7010070bb0cacd284f560299b21660"></a>
template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gadc7010070bb0cacd284f560299b21660"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec2&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00183.html#gadc7010070bb0cacd284f560299b21660">closestPointOnLine</a> (tvec2&lt; T, P &gt; const &amp;point, tvec2&lt; T, P &gt; const &amp;a, tvec2&lt; T, P &gt; const &amp;b)</td></tr>
<tr class="memdesc:gadc7010070bb0cacd284f560299b21660"><td class="mdescLeft">&#160;</td><td class="mdescRight">2d lines work as well <br /></td></tr>
<tr class="separator:gadc7010070bb0cacd284f560299b21660"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00183.html">GLM_GTX_closest_point</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00010_source.html">closest_point.hpp</a>.</p>
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<a href="a00010.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_closest_point is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_closest_point extension included&quot;)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00183.html#gadc7010070bb0cacd284f560299b21660">closestPointOnLine</a>(</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; point,</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; a, </div>
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<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; </div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; GLM_FUNC_DECL tvec2&lt;T, P&gt; <a class="code" href="a00183.html#gadc7010070bb0cacd284f560299b21660">closestPointOnLine</a>(</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; point,</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160; tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; a, </div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; tvec2&lt;T, P&gt; <span class="keyword">const</span> &amp; b); </div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160;}<span class="comment">// namespace glm</span></div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;<span class="preprocessor">#include &quot;closest_point.inl&quot;</span></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00183_html_gadc7010070bb0cacd284f560299b21660"><div class="ttname"><a href="a00183.html#gadc7010070bb0cacd284f560299b21660">glm::closestPointOnLine</a></div><div class="ttdeci">GLM_FUNC_DECL tvec2&lt; T, P &gt; closestPointOnLine(tvec2&lt; T, P &gt; const &amp;point, tvec2&lt; T, P &gt; const &amp;a, tvec2&lt; T, P &gt; const &amp;b)</div><div class="ttdoc">2d lines work as well </div></div>
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Functions</h2></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
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<tr class="memdesc:gaf2829bca5bbbd99da0cb1d20170f0096"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a D50 YUV color to D65 YUV. <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gaee1990d4fdb1088c433e9ae4977795d2"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00160.html#gaee1990d4fdb1088c433e9ae4977795d2">convertD65XYZToD50XYZ</a> (tvec3&lt; T, P &gt; const &amp;ColorD65XYZ)</td></tr>
<tr class="memdesc:gaee1990d4fdb1088c433e9ae4977795d2"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a D65 YUV color to D50 YUV. <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
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<tr class="memdesc:ga395041b0447f08dd581496720a0a1eac"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a D65 YUV color to linear sRGB. <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gaa367a13bbf5d9775d6a96a4c2a398fb7"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00160.html#gaa367a13bbf5d9775d6a96a4c2a398fb7">convertLinearSRGBToD65XYZ</a> (tvec3&lt; T, P &gt; const &amp;ColorLinearSRGB)</td></tr>
<tr class="memdesc:gaa367a13bbf5d9775d6a96a4c2a398fb7"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a linear sRGB color to D65 YUV. <br /></td></tr>
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<div class="textblock"><p><a class="el" href="a00160.html">GLM_GTC_color_encoding</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd>
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<p>Definition in file <a class="el" href="a00011_source.html">color_encoding.hpp</a>.</p>
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<a href="a00011.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="comment">// Dependencies</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="preprocessor">#include &quot;../detail/setup.hpp&quot;</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#include &quot;../detail/precision.hpp&quot;</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#include &quot;../vec3.hpp&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#include &lt;limits&gt;</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTC_color_encoding extension included&quot;)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00160.html#gaa367a13bbf5d9775d6a96a4c2a398fb7">convertLinearSRGBToD65XYZ</a>(tvec3&lt;T, P&gt; <span class="keyword">const</span>&amp; ColorLinearSRGB);</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00160.html#ga395041b0447f08dd581496720a0a1eac">convertD65XYZToLinearSRGB</a>(tvec3&lt;T, P&gt; <span class="keyword">const</span>&amp; ColorD65XYZ);</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
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<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00160.html#gaee1990d4fdb1088c433e9ae4977795d2">convertD65XYZToD50XYZ</a>(tvec3&lt;T, P&gt; <span class="keyword">const</span>&amp; ColorD65XYZ);</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;} <span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160;<span class="preprocessor">#include &quot;color_encoding.inl&quot;</span></div>
<div class="ttc" id="a00160_html_gaa367a13bbf5d9775d6a96a4c2a398fb7"><div class="ttname"><a href="a00160.html#gaa367a13bbf5d9775d6a96a4c2a398fb7">glm::convertLinearSRGBToD65XYZ</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; convertLinearSRGBToD65XYZ(tvec3&lt; T, P &gt; const &amp;ColorLinearSRGB)</div><div class="ttdoc">Convert a linear sRGB color to D65 YUV. </div></div>
<div class="ttc" id="a00160_html_gaf2829bca5bbbd99da0cb1d20170f0096"><div class="ttname"><a href="a00160.html#gaf2829bca5bbbd99da0cb1d20170f0096">glm::convertD50XYZToD65XYZ</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; convertD50XYZToD65XYZ(tvec3&lt; T, P &gt; const &amp;ColorD50XYZ)</div><div class="ttdoc">Convert a D50 YUV color to D65 YUV. </div></div>
<div class="ttc" id="a00160_html_gaee1990d4fdb1088c433e9ae4977795d2"><div class="ttname"><a href="a00160.html#gaee1990d4fdb1088c433e9ae4977795d2">glm::convertD65XYZToD50XYZ</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; convertD65XYZToD50XYZ(tvec3&lt; T, P &gt; const &amp;ColorD65XYZ)</div><div class="ttdoc">Convert a D65 YUV color to D50 YUV. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00160_html_ga395041b0447f08dd581496720a0a1eac"><div class="ttname"><a href="a00160.html#ga395041b0447f08dd581496720a0a1eac">glm::convertD65XYZToLinearSRGB</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; convertD65XYZToLinearSRGB(tvec3&lt; T, P &gt; const &amp;ColorD65XYZ)</div><div class="ttdoc">Convert a D65 YUV color to linear sRGB. </div></div>
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<p><a class="el" href="a00161.html">GLM_GTC_color_space</a>
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Functions</h2></td></tr>
<tr class="memitem:gad813dcd99644cafc775e83d6504ccb93"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gad813dcd99644cafc775e83d6504ccb93"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00161.html#gad813dcd99644cafc775e83d6504ccb93">convertLinearToSRGB</a> (vecType&lt; T, P &gt; const &amp;ColorLinear)</td></tr>
<tr class="memdesc:gad813dcd99644cafc775e83d6504ccb93"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a linear color to sRGB color using a standard gamma correction. <a href="a00161.html#gad813dcd99644cafc775e83d6504ccb93">More...</a><br /></td></tr>
<tr class="separator:gad813dcd99644cafc775e83d6504ccb93"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga63f8b003da7acf44370eb47bfb8b3d42"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga63f8b003da7acf44370eb47bfb8b3d42"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00161.html#ga63f8b003da7acf44370eb47bfb8b3d42">convertLinearToSRGB</a> (vecType&lt; T, P &gt; const &amp;ColorLinear, T Gamma)</td></tr>
<tr class="memdesc:ga63f8b003da7acf44370eb47bfb8b3d42"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a linear color to sRGB color using a custom gamma correction. <a href="a00161.html#ga63f8b003da7acf44370eb47bfb8b3d42">More...</a><br /></td></tr>
<tr class="separator:ga63f8b003da7acf44370eb47bfb8b3d42"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga28e98e64347cf385cadc1ceb4def55c9"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga28e98e64347cf385cadc1ceb4def55c9"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00161.html#ga28e98e64347cf385cadc1ceb4def55c9">convertSRGBToLinear</a> (vecType&lt; T, P &gt; const &amp;ColorSRGB)</td></tr>
<tr class="memdesc:ga28e98e64347cf385cadc1ceb4def55c9"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a sRGB color to linear color using a standard gamma correction. <a href="a00161.html#ga28e98e64347cf385cadc1ceb4def55c9">More...</a><br /></td></tr>
<tr class="separator:ga28e98e64347cf385cadc1ceb4def55c9"><td class="memSeparator" colspan="2">&#160;</td></tr>
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template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga61c4f0efdf55c29d9cfbd26141fddef8"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00161.html#ga61c4f0efdf55c29d9cfbd26141fddef8">convertSRGBToLinear</a> (vecType&lt; T, P &gt; const &amp;ColorSRGB, T Gamma)</td></tr>
<tr class="memdesc:ga61c4f0efdf55c29d9cfbd26141fddef8"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a sRGB color to linear color using a custom gamma correction. <br /></td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00161.html">GLM_GTC_color_space</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd>
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<a class="el" href="a00161.html" title="Allow to perform bit operations on integer values. ">GLM_GTC_color_space</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00012_source.html">gtc/color_space.hpp</a>.</p>
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<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="comment">// Dependencies</span></div>
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<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;</div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;{</div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160;</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00161.html#ga63f8b003da7acf44370eb47bfb8b3d42">convertLinearToSRGB</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; ColorLinear);</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
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<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
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<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160; <span class="comment">// IEC 61966-2-1:1999 / Rec. 709 specification https://www.w3.org/Graphics/Color/srgb</span></div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00161.html#ga61c4f0efdf55c29d9cfbd26141fddef8">convertSRGBToLinear</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; ColorSRGB, T Gamma);</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;} <span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;<span class="preprocessor">#include &quot;color_space.inl&quot;</span></div>
<div class="ttc" id="a00161_html_ga61c4f0efdf55c29d9cfbd26141fddef8"><div class="ttname"><a href="a00161.html#ga61c4f0efdf55c29d9cfbd26141fddef8">glm::convertSRGBToLinear</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; convertSRGBToLinear(vecType&lt; T, P &gt; const &amp;ColorSRGB, T Gamma)</div><div class="ttdoc">Convert a sRGB color to linear color using a custom gamma correction. </div></div>
<div class="ttc" id="a00161_html_ga63f8b003da7acf44370eb47bfb8b3d42"><div class="ttname"><a href="a00161.html#ga63f8b003da7acf44370eb47bfb8b3d42">glm::convertLinearToSRGB</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; convertLinearToSRGB(vecType&lt; T, P &gt; const &amp;ColorLinear, T Gamma)</div><div class="ttdoc">Convert a linear color to sRGB color using a custom gamma correction. </div></div>
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Functions</h2></td></tr>
<tr class="memitem:gae72039c00a7be2f03a3b94b37a54349a"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gae72039c00a7be2f03a3b94b37a54349a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00184.html#gae72039c00a7be2f03a3b94b37a54349a">hsvColor</a> (tvec3&lt; T, P &gt; const &amp;rgbValue)</td></tr>
<tr class="memdesc:gae72039c00a7be2f03a3b94b37a54349a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Converts a color from RGB color space to its color in HSV color space. <a href="a00184.html#gae72039c00a7be2f03a3b94b37a54349a">More...</a><br /></td></tr>
<tr class="separator:gae72039c00a7be2f03a3b94b37a54349a"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaa2f38a5100c3e1c7d39920df43bd8cbe"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gaa2f38a5100c3e1c7d39920df43bd8cbe"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00184.html#gaa2f38a5100c3e1c7d39920df43bd8cbe">luminosity</a> (tvec3&lt; T, P &gt; const &amp;color)</td></tr>
<tr class="memdesc:gaa2f38a5100c3e1c7d39920df43bd8cbe"><td class="mdescLeft">&#160;</td><td class="mdescRight">Compute color luminosity associating ratios (0.33, 0.59, 0.11) to RGB canals. <a href="a00184.html#gaa2f38a5100c3e1c7d39920df43bd8cbe">More...</a><br /></td></tr>
<tr class="separator:gaa2f38a5100c3e1c7d39920df43bd8cbe"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga36b0619e31daf57bc4a54dac2dcf34b7"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga36b0619e31daf57bc4a54dac2dcf34b7"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00184.html#ga36b0619e31daf57bc4a54dac2dcf34b7">rgbColor</a> (tvec3&lt; T, P &gt; const &amp;hsvValue)</td></tr>
<tr class="memdesc:ga36b0619e31daf57bc4a54dac2dcf34b7"><td class="mdescLeft">&#160;</td><td class="mdescRight">Converts a color from HSV color space to its color in RGB color space. <a href="a00184.html#ga36b0619e31daf57bc4a54dac2dcf34b7">More...</a><br /></td></tr>
<tr class="separator:ga36b0619e31daf57bc4a54dac2dcf34b7"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gafecfb15d58da8445103745af3348e516"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gafecfb15d58da8445103745af3348e516"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00184.html#gafecfb15d58da8445103745af3348e516">saturation</a> (T const s)</td></tr>
<tr class="memdesc:gafecfb15d58da8445103745af3348e516"><td class="mdescLeft">&#160;</td><td class="mdescRight">Build a saturation matrix. <a href="a00184.html#gafecfb15d58da8445103745af3348e516">More...</a><br /></td></tr>
<tr class="separator:gafecfb15d58da8445103745af3348e516"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga632ee8dadb44e90a05885f6f8c07d46c"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga632ee8dadb44e90a05885f6f8c07d46c"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00184.html#ga632ee8dadb44e90a05885f6f8c07d46c">saturation</a> (T const s, tvec3&lt; T, P &gt; const &amp;color)</td></tr>
<tr class="memdesc:ga632ee8dadb44e90a05885f6f8c07d46c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Modify the saturation of a color. <a href="a00184.html#ga632ee8dadb44e90a05885f6f8c07d46c">More...</a><br /></td></tr>
<tr class="separator:ga632ee8dadb44e90a05885f6f8c07d46c"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2033e0566c595230714af396744e8a61"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga2033e0566c595230714af396744e8a61"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec4&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00184.html#ga2033e0566c595230714af396744e8a61">saturation</a> (T const s, tvec4&lt; T, P &gt; const &amp;color)</td></tr>
<tr class="memdesc:ga2033e0566c595230714af396744e8a61"><td class="mdescLeft">&#160;</td><td class="mdescRight">Modify the saturation of a color. <a href="a00184.html#ga2033e0566c595230714af396744e8a61">More...</a><br /></td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00184.html">GLM_GTX_color_space</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00013_source.html">gtx/color_space.hpp</a>.</p>
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<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
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<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
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<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
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<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; T <span class="keyword">const</span> s);</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
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<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; T <span class="keyword">const</span> s,</div>
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<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; GLM_FUNC_DECL tvec4&lt;T, P&gt; <a class="code" href="a00184.html#ga2033e0566c595230714af396744e8a61">saturation</a>(</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; T <span class="keyword">const</span> s,</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; tvec4&lt;T, P&gt; <span class="keyword">const</span> &amp; color);</div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; </div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00184.html#gaa2f38a5100c3e1c7d39920df43bd8cbe">luminosity</a>(</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; color);</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160;</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160;</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;<span class="preprocessor">#include &quot;color_space.inl&quot;</span></div>
<div class="ttc" id="a00184_html_ga2033e0566c595230714af396744e8a61"><div class="ttname"><a href="a00184.html#ga2033e0566c595230714af396744e8a61">glm::saturation</a></div><div class="ttdeci">GLM_FUNC_DECL tvec4&lt; T, P &gt; saturation(T const s, tvec4&lt; T, P &gt; const &amp;color)</div><div class="ttdoc">Modify the saturation of a color. </div></div>
<div class="ttc" id="a00184_html_gae72039c00a7be2f03a3b94b37a54349a"><div class="ttname"><a href="a00184.html#gae72039c00a7be2f03a3b94b37a54349a">glm::hsvColor</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; hsvColor(tvec3&lt; T, P &gt; const &amp;rgbValue)</div><div class="ttdoc">Converts a color from RGB color space to its color in HSV color space. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00184_html_ga36b0619e31daf57bc4a54dac2dcf34b7"><div class="ttname"><a href="a00184.html#ga36b0619e31daf57bc4a54dac2dcf34b7">glm::rgbColor</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; rgbColor(tvec3&lt; T, P &gt; const &amp;hsvValue)</div><div class="ttdoc">Converts a color from HSV color space to its color in RGB color space. </div></div>
<div class="ttc" id="a00184_html_gaa2f38a5100c3e1c7d39920df43bd8cbe"><div class="ttname"><a href="a00184.html#gaa2f38a5100c3e1c7d39920df43bd8cbe">glm::luminosity</a></div><div class="ttdeci">GLM_FUNC_DECL T luminosity(tvec3&lt; T, P &gt; const &amp;color)</div><div class="ttdoc">Compute color luminosity associating ratios (0.33, 0.59, 0.11) to RGB canals. </div></div>
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<p><a class="el" href="a00185.html">GLM_GTX_color_space_YCoCg</a>
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<p><a href="a00014_source.html">Go to the source code of this file.</a></p>
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Functions</h2></td></tr>
<tr class="memitem:ga19481f6947c5b5482debd41e71b8c941"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga19481f6947c5b5482debd41e71b8c941"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00185.html#ga19481f6947c5b5482debd41e71b8c941">rgb2YCoCg</a> (tvec3&lt; T, P &gt; const &amp;rgbColor)</td></tr>
<tr class="memdesc:ga19481f6947c5b5482debd41e71b8c941"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a color from RGB color space to YCoCg color space. <a href="a00185.html#ga19481f6947c5b5482debd41e71b8c941">More...</a><br /></td></tr>
<tr class="separator:ga19481f6947c5b5482debd41e71b8c941"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2e534594cc8ad252d23b14fb363ae9e2"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga2e534594cc8ad252d23b14fb363ae9e2"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00185.html#ga2e534594cc8ad252d23b14fb363ae9e2">rgb2YCoCgR</a> (tvec3&lt; T, P &gt; const &amp;rgbColor)</td></tr>
<tr class="memdesc:ga2e534594cc8ad252d23b14fb363ae9e2"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a color from RGB color space to YCoCgR color space. <a href="a00185.html#ga2e534594cc8ad252d23b14fb363ae9e2">More...</a><br /></td></tr>
<tr class="separator:ga2e534594cc8ad252d23b14fb363ae9e2"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga6d7e988a79b299ca1fa59f537e13800b"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga6d7e988a79b299ca1fa59f537e13800b"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00185.html#ga6d7e988a79b299ca1fa59f537e13800b">YCoCg2rgb</a> (tvec3&lt; T, P &gt; const &amp;YCoCgColor)</td></tr>
<tr class="memdesc:ga6d7e988a79b299ca1fa59f537e13800b"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a color from YCoCg color space to RGB color space. <a href="a00185.html#ga6d7e988a79b299ca1fa59f537e13800b">More...</a><br /></td></tr>
<tr class="separator:ga6d7e988a79b299ca1fa59f537e13800b"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga4bac5462c00df0ae89242ecdbbe5dbad"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga4bac5462c00df0ae89242ecdbbe5dbad"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00185.html#ga4bac5462c00df0ae89242ecdbbe5dbad">YCoCgR2rgb</a> (tvec3&lt; T, P &gt; const &amp;YCoCgColor)</td></tr>
<tr class="memdesc:ga4bac5462c00df0ae89242ecdbbe5dbad"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a color from YCoCgR color space to RGB color space. <a href="a00185.html#ga4bac5462c00df0ae89242ecdbbe5dbad">More...</a><br /></td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00185.html">GLM_GTX_color_space_YCoCg</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00014_source.html">color_space_YCoCg.hpp</a>.</p>
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<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_color_space_YCoCg is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_color_space_YCoCg extension included&quot;)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00185.html#ga19481f6947c5b5482debd41e71b8c941">rgb2YCoCg</a>(</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; <a class="code" href="a00184.html#ga36b0619e31daf57bc4a54dac2dcf34b7">rgbColor</a>);</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00185.html#ga6d7e988a79b299ca1fa59f537e13800b">YCoCg2rgb</a>(</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; YCoCgColor);</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00185.html#ga2e534594cc8ad252d23b14fb363ae9e2">rgb2YCoCgR</a>(</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160; tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; <a class="code" href="a00184.html#ga36b0619e31daf57bc4a54dac2dcf34b7">rgbColor</a>);</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; <a class="code" href="a00185.html#ga4bac5462c00df0ae89242ecdbbe5dbad">YCoCgR2rgb</a>(</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160; tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; YCoCgColor);</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160;<span class="preprocessor">#include &quot;color_space_YCoCg.inl&quot;</span></div>
<div class="ttc" id="a00185_html_ga6d7e988a79b299ca1fa59f537e13800b"><div class="ttname"><a href="a00185.html#ga6d7e988a79b299ca1fa59f537e13800b">glm::YCoCg2rgb</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; YCoCg2rgb(tvec3&lt; T, P &gt; const &amp;YCoCgColor)</div><div class="ttdoc">Convert a color from YCoCg color space to RGB color space. </div></div>
<div class="ttc" id="a00185_html_ga2e534594cc8ad252d23b14fb363ae9e2"><div class="ttname"><a href="a00185.html#ga2e534594cc8ad252d23b14fb363ae9e2">glm::rgb2YCoCgR</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; rgb2YCoCgR(tvec3&lt; T, P &gt; const &amp;rgbColor)</div><div class="ttdoc">Convert a color from RGB color space to YCoCgR color space. </div></div>
<div class="ttc" id="a00185_html_ga19481f6947c5b5482debd41e71b8c941"><div class="ttname"><a href="a00185.html#ga19481f6947c5b5482debd41e71b8c941">glm::rgb2YCoCg</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; rgb2YCoCg(tvec3&lt; T, P &gt; const &amp;rgbColor)</div><div class="ttdoc">Convert a color from RGB color space to YCoCg color space. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00184_html_ga36b0619e31daf57bc4a54dac2dcf34b7"><div class="ttname"><a href="a00184.html#ga36b0619e31daf57bc4a54dac2dcf34b7">glm::rgbColor</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; rgbColor(tvec3&lt; T, P &gt; const &amp;hsvValue)</div><div class="ttdoc">Converts a color from HSV color space to its color in RGB color space. </div></div>
<div class="ttc" id="a00185_html_ga4bac5462c00df0ae89242ecdbbe5dbad"><div class="ttname"><a href="a00185.html#ga4bac5462c00df0ae89242ecdbbe5dbad">glm::YCoCgR2rgb</a></div><div class="ttdeci">GLM_FUNC_DECL tvec3&lt; T, P &gt; YCoCgR2rgb(tvec3&lt; T, P &gt; const &amp;YCoCgColor)</div><div class="ttdoc">Convert a color from YCoCgR color space to RGB color space. </div></div>
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Functions</h2></td></tr>
<tr class="memitem:ga2580f50d4064557d62f4a533dfc6c7e3"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga2580f50d4064557d62f4a533dfc6c7e3"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00186.html#ga2580f50d4064557d62f4a533dfc6c7e3">fmod</a> (vecType&lt; T, P &gt; const &amp;v)</td></tr>
<tr class="memdesc:ga2580f50d4064557d62f4a533dfc6c7e3"><td class="mdescLeft">&#160;</td><td class="mdescRight">Similar to 'mod' but with a different rounding and integer support. <a href="a00186.html#ga2580f50d4064557d62f4a533dfc6c7e3">More...</a><br /></td></tr>
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<tr class="memitem:ga74aa7c7462245d83bd5a9edf9c6c2d91"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga74aa7c7462245d83bd5a9edf9c6c2d91"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType::bool_type&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00186.html#ga74aa7c7462245d83bd5a9edf9c6c2d91">isdenormal</a> (genType const &amp;x)</td></tr>
<tr class="memdesc:ga74aa7c7462245d83bd5a9edf9c6c2d91"><td class="mdescLeft">&#160;</td><td class="mdescRight">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. <a href="a00186.html#ga74aa7c7462245d83bd5a9edf9c6c2d91">More...</a><br /></td></tr>
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<div class="textblock"><p><a class="el" href="a00186.html">GLM_GTX_common</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00016_source.html">gtx/common.hpp</a>.</p>
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<a href="a00016.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependencies:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../vec2.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="preprocessor">#include &quot;../vec3.hpp&quot;</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#include &quot;../vec4.hpp&quot;</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#include &quot;../gtc/vec1.hpp&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;</div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_common is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;</div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_common extension included&quot;)</span></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;</div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;{</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160;</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160; GLM_FUNC_DECL <span class="keyword">typename</span> genType::bool_type <a class="code" href="a00186.html#ga74aa7c7462245d83bd5a9edf9c6c2d91">isdenormal</a>(genType <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00186.html#ga2580f50d4064557d62f4a533dfc6c7e3">fmod</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;<span class="preprocessor">#include &quot;common.inl&quot;</span></div>
<div class="ttc" id="a00186_html_ga74aa7c7462245d83bd5a9edf9c6c2d91"><div class="ttname"><a href="a00186.html#ga74aa7c7462245d83bd5a9edf9c6c2d91">glm::isdenormal</a></div><div class="ttdeci">GLM_FUNC_DECL genType::bool_type isdenormal(genType const &amp;x)</div><div class="ttdoc">Returns true if x is a denormalized number Numbers whose absolute value is too small to be represente...</div></div>
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<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
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Typedefs</h2></td></tr>
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typedef bool&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gaddcd7aa2e30e61af5b38660613d3979e">bool1</a></td></tr>
<tr class="memdesc:gaddcd7aa2e30e61af5b38660613d3979e"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean type with 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef bool&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga7f895c936f0c29c8729afbbf22806090">bool1x1</a></td></tr>
<tr class="memdesc:ga7f895c936f0c29c8729afbbf22806090"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 1 x 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
<tr class="separator:ga7f895c936f0c29c8729afbbf22806090"><td class="memSeparator" colspan="2">&#160;</td></tr>
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typedef tvec2&lt; bool, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gafa8d0bc8dfa7eeb928208305714f648d">bool2</a></td></tr>
<tr class="memdesc:gafa8d0bc8dfa7eeb928208305714f648d"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean type with 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
<tr class="separator:gafa8d0bc8dfa7eeb928208305714f648d"><td class="memSeparator" colspan="2">&#160;</td></tr>
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typedef tmat2x2&lt; bool, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga2bfb53bc320966c85149934fffb0329d">bool2x2</a></td></tr>
<tr class="memdesc:ga2bfb53bc320966c85149934fffb0329d"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
<tr class="separator:ga2bfb53bc320966c85149934fffb0329d"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gad02e7dff74039bb1454643e293d85dfe"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="gad02e7dff74039bb1454643e293d85dfe"></a>
typedef tmat2x3&lt; bool, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gad02e7dff74039bb1454643e293d85dfe">bool2x3</a></td></tr>
<tr class="memdesc:gad02e7dff74039bb1454643e293d85dfe"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat2x4&lt; bool, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga379c0869949e8a69c3d06d7637caa5d7">bool2x4</a></td></tr>
<tr class="memdesc:ga379c0869949e8a69c3d06d7637caa5d7"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tvec3&lt; bool, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gab8d74ea4c4f4bd980b650ffb27cdb659">bool3</a></td></tr>
<tr class="memdesc:gab8d74ea4c4f4bd980b650ffb27cdb659"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean type with 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x2&lt; bool, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga0fc7ecb53df5be5f9d766fbbfe5190d7">bool3x2</a></td></tr>
<tr class="memdesc:ga0fc7ecb53df5be5f9d766fbbfe5190d7"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gae621c9eabcba552eea5f6ade1f403605"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x4&lt; bool, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gad13f8250579ebf79760dcf64215ddb17">bool3x4</a></td></tr>
<tr class="memdesc:gad13f8250579ebf79760dcf64215ddb17"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:ga6e79dbfab5917c467a154638ba27898e"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean type with 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:ga184ee05ac2bbbf0a91dd364ba8e528db"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:ga83e4c62ab1addfe708dc3409cc0e5dfb"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:ga9770607032813e7b0ca7362a47efea1e"><td class="mdescLeft">&#160;</td><td class="mdescRight">boolean matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef double&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga20b861a9b6e2a300323671c57a02525b">double1</a></td></tr>
<tr class="memdesc:ga20b861a9b6e2a300323671c57a02525b"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point vector with 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef double&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga45f16a4dd0db1f199afaed9fd12fe9a8">double1x1</a></td></tr>
<tr class="memdesc:ga45f16a4dd0db1f199afaed9fd12fe9a8"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gaa16a13c6f2768e83ca133430e82ab89e"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point vector with 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:ga320d0a71a4ad9f14a1992d40546cffa7"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gade37cf30c69bacb41ceea7e32717eac7"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat2x4&lt; double, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gaf923922adf744404d5bfb3fafb7d0d8e">double2x4</a></td></tr>
<tr class="memdesc:gaf923922adf744404d5bfb3fafb7d0d8e"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gaed4bc64196bd25d46f6a1f417320a391"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point vector with 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gaeaac4d0e18164e4d2fe54432c0fbbcf6"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gac934f579ee5cf3cbdbb25b73f2640c0a"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gaad84a1ea83be8fce04c1570c5e719413"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gab8bbb086c9a6c2deffbe0e80afd6be56"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point vector with 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat4x2&lt; double, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga2f87500119da15e35e4a74780ba512bd">double4x2</a></td></tr>
<tr class="memdesc:ga2f87500119da15e35e4a74780ba512bd"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memdesc:gaa4e6d53c03780dfa76bd399324f9fe37"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memitem:ga686a3a5590f0a0e721faba08bda301d6"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="ga686a3a5590f0a0e721faba08bda301d6"></a>
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<tr class="memdesc:ga686a3a5590f0a0e721faba08bda301d6"><td class="mdescLeft">&#160;</td><td class="mdescRight">double-precision floating-point matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memitem:gaf5208d01f6c6fbcb7bb55d610b9c0ead"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="gaf5208d01f6c6fbcb7bb55d610b9c0ead"></a>
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<tr class="memdesc:gaf5208d01f6c6fbcb7bb55d610b9c0ead"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point vector with 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef float&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga73720b8dc4620835b17f74d428f98c0c">float1x1</a></td></tr>
<tr class="memdesc:ga73720b8dc4620835b17f74d428f98c0c"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memitem:ga872a70333dd25af68b1ebba485be9e42"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="ga872a70333dd25af68b1ebba485be9e42"></a>
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<tr class="memdesc:ga872a70333dd25af68b1ebba485be9e42"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point vector with 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memitem:gaad93cbc2b863e363d53d405d0451d03e"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="gaad93cbc2b863e363d53d405d0451d03e"></a>
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<tr class="memdesc:gaad93cbc2b863e363d53d405d0451d03e"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memitem:ga098c33a30f901f4f6a76969d6db6b01b"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="ga098c33a30f901f4f6a76969d6db6b01b"></a>
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<tr class="memdesc:ga098c33a30f901f4f6a76969d6db6b01b"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
<tr class="separator:ga098c33a30f901f4f6a76969d6db6b01b"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gab2ce4c366abc06c8bf7fe097ecea0dde"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="gab2ce4c366abc06c8bf7fe097ecea0dde"></a>
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<tr class="memdesc:gab2ce4c366abc06c8bf7fe097ecea0dde"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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<tr class="memitem:ga2bfa618285894e34f299e4984f092d56"><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="ga2bfa618285894e34f299e4984f092d56"></a>
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<tr class="memdesc:ga2bfa618285894e34f299e4984f092d56"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point vector with 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x2&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gaf30014e7b6874f45d58eb580d04764ff">float3x2</a></td></tr>
<tr class="memdesc:gaf30014e7b6874f45d58eb580d04764ff"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x3&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga2692a729a69615d72dbebbdd0eba2363">float3x3</a></td></tr>
<tr class="memdesc:ga2692a729a69615d72dbebbdd0eba2363"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x4&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gac38c8929ccc87a2dc81eaab97ad5190e">float3x4</a></td></tr>
<tr class="memdesc:gac38c8929ccc87a2dc81eaab97ad5190e"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tvec4&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga5d49ed44dd9a9e944abc30371fc9045b">float4</a></td></tr>
<tr class="memdesc:ga5d49ed44dd9a9e944abc30371fc9045b"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point vector with 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat4x2&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga39a2af7aa8f2d29ca40afd2256c0e7c8">float4x2</a></td></tr>
<tr class="memdesc:ga39a2af7aa8f2d29ca40afd2256c0e7c8"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat4x3&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gad749b26be059f35394fd71c7f7a44034">float4x3</a></td></tr>
<tr class="memdesc:gad749b26be059f35394fd71c7f7a44034"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat4x4&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gaf40529862492ded2f3b96a6c886f6136">float4x4</a></td></tr>
<tr class="memdesc:gaf40529862492ded2f3b96a6c886f6136"><td class="mdescLeft">&#160;</td><td class="mdescRight">single-precision floating-point matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef int&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga0670a2111b5e4a6410bd027fa0232fc3">int1</a></td></tr>
<tr class="memdesc:ga0670a2111b5e4a6410bd027fa0232fc3"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer vector with 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef int&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga056ffe02d3a45af626f8e62221881c7a">int1x1</a></td></tr>
<tr class="memdesc:ga056ffe02d3a45af626f8e62221881c7a"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 1 component. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tvec2&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga2eca687990bf3a08ef28bc4a9f2fe700">int2</a></td></tr>
<tr class="memdesc:ga2eca687990bf3a08ef28bc4a9f2fe700"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer vector with 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat2x2&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gab1c5d0631a6ae34e28bfb2851da387cc">int2x2</a></td></tr>
<tr class="memdesc:gab1c5d0631a6ae34e28bfb2851da387cc"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat2x3&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga6dc93f0794eb5fadd7f68b85141a2434">int2x3</a></td></tr>
<tr class="memdesc:ga6dc93f0794eb5fadd7f68b85141a2434"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat2x4&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gad5da9e1b4e0c64c5436b5696ab49540e">int2x4</a></td></tr>
<tr class="memdesc:gad5da9e1b4e0c64c5436b5696ab49540e"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tvec3&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gaaa6ceedf08a85e5fd73a482bc8b77b88">int3</a></td></tr>
<tr class="memdesc:gaaa6ceedf08a85e5fd73a482bc8b77b88"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer vector with 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x2&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gaa98b1a06b802c975f02a5583f43632db">int3x2</a></td></tr>
<tr class="memdesc:gaa98b1a06b802c975f02a5583f43632db"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x3&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga20c4d23defbc123ac4745c9b4262156f">int3x3</a></td></tr>
<tr class="memdesc:ga20c4d23defbc123ac4745c9b4262156f"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat3x4&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga7b00c53838143bce963177122ab92c39">int3x4</a></td></tr>
<tr class="memdesc:ga7b00c53838143bce963177122ab92c39"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tvec4&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gab19c2df22e9b14081390fabd074081f1">int4</a></td></tr>
<tr class="memdesc:gab19c2df22e9b14081390fabd074081f1"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer vector with 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat4x2&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#gaa53815539021200c4e10fd282832dcd3">int4x2</a></td></tr>
<tr class="memdesc:gaa53815539021200c4e10fd282832dcd3"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat4x3&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga4a3bf0ecd6f6ff60836c5bee26c14abe">int4x3</a></td></tr>
<tr class="memdesc:ga4a3bf0ecd6f6ff60836c5bee26c14abe"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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typedef tmat4x4&lt; int, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00187.html#ga3bacf576b4b29f2f2959abff7a36652d">int4x4</a></td></tr>
<tr class="memdesc:ga3bacf576b4b29f2f2959abff7a36652d"><td class="mdescLeft">&#160;</td><td class="mdescRight">integer matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) <br /></td></tr>
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</table><table class="memberdecls">
<tr class="heading"><td colspan="2"><h2 class="groupheader"><a name="func-members"></a>
Functions</h2></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gac63011205bf6d0be82589dc56dd26708"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#gac63011205bf6d0be82589dc56dd26708">atan2</a> (T x, T y)</td></tr>
<tr class="memdesc:gac63011205bf6d0be82589dc56dd26708"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga525f3e849d0fc64807f8ab571b4545f9"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec2&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga525f3e849d0fc64807f8ab571b4545f9">atan2</a> (const tvec2&lt; T, P &gt; &amp;x, const tvec2&lt; T, P &gt; &amp;y)</td></tr>
<tr class="memdesc:ga525f3e849d0fc64807f8ab571b4545f9"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gad328042b6734d3f2c49c0ec1328b14c0"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#gad328042b6734d3f2c49c0ec1328b14c0">atan2</a> (const tvec3&lt; T, P &gt; &amp;x, const tvec3&lt; T, P &gt; &amp;y)</td></tr>
<tr class="memdesc:gad328042b6734d3f2c49c0ec1328b14c0"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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<tr class="memitem:ga09d39c391a509a045b6c7061f15bdff5"><td class="memTemplParams" colspan="2"><a class="anchor" id="ga09d39c391a509a045b6c7061f15bdff5"></a>
template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga09d39c391a509a045b6c7061f15bdff5"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec4&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga09d39c391a509a045b6c7061f15bdff5">atan2</a> (const tvec4&lt; T, P &gt; &amp;x, const tvec4&lt; T, P &gt; &amp;y)</td></tr>
<tr class="memdesc:ga09d39c391a509a045b6c7061f15bdff5"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gaf4b04dcd3526996d68c1bfe17bfc8657"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL bool&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#gaf4b04dcd3526996d68c1bfe17bfc8657">isfinite</a> (genType const &amp;x)</td></tr>
<tr class="memdesc:gaf4b04dcd3526996d68c1bfe17bfc8657"><td class="mdescLeft">&#160;</td><td class="mdescRight">Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga553e2e95b06a0f70c718605998889d3b"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec1&lt; bool, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga553e2e95b06a0f70c718605998889d3b">isfinite</a> (const tvec1&lt; T, P &gt; &amp;x)</td></tr>
<tr class="memdesc:ga553e2e95b06a0f70c718605998889d3b"><td class="mdescLeft">&#160;</td><td class="mdescRight">Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga7dd492aa7d6ec21715f9a91b6e5e596a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec2&lt; bool, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga7dd492aa7d6ec21715f9a91b6e5e596a">isfinite</a> (const tvec2&lt; T, P &gt; &amp;x)</td></tr>
<tr class="memdesc:ga7dd492aa7d6ec21715f9a91b6e5e596a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
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<tr class="memdesc:ga1be9593d810fceb278a2854da8a25273"><td class="mdescLeft">&#160;</td><td class="mdescRight">Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga8c6a59e2f2ac84fba0c5932f1c35bf7a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tvec4&lt; bool, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga8c6a59e2f2ac84fba0c5932f1c35bf7a">isfinite</a> (const tvec4&lt; T, P &gt; &amp;x)</td></tr>
<tr class="memdesc:ga8c6a59e2f2ac84fba0c5932f1c35bf7a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility) <br /></td></tr>
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template&lt;typename T &gt; </td></tr>
<tr class="memitem:ga5494ba3a95ea6594c86fc75236886864"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga5494ba3a95ea6594c86fc75236886864">lerp</a> (T x, T y, T a)</td></tr>
<tr class="memdesc:ga5494ba3a95ea6594c86fc75236886864"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
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<tr class="memdesc:ga0aa79a146332650a1eb18ae996c653fe"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gaf4c885ac72b8879b05777cb516c555c9"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#gaf4c885ac72b8879b05777cb516c555c9">lerp</a> (const tvec3&lt; T, P &gt; &amp;x, const tvec3&lt; T, P &gt; &amp;y, T a)</td></tr>
<tr class="memdesc:gaf4c885ac72b8879b05777cb516c555c9"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga363d5d069d31a6c2cdd1e9589dde4a60"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec4&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga363d5d069d31a6c2cdd1e9589dde4a60">lerp</a> (const tvec4&lt; T, P &gt; &amp;x, const tvec4&lt; T, P &gt; &amp;y, T a)</td></tr>
<tr class="memdesc:ga363d5d069d31a6c2cdd1e9589dde4a60"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
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<tr class="memdesc:ga7609b44d8aefc5a277efe73395ff4070"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga90a1d1364a8d078846857178bdcc9af1"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga90a1d1364a8d078846857178bdcc9af1">lerp</a> (const tvec3&lt; T, P &gt; &amp;x, const tvec3&lt; T, P &gt; &amp;y, const tvec3&lt; T, P &gt; &amp;a)</td></tr>
<tr class="memdesc:ga90a1d1364a8d078846857178bdcc9af1"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
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<tr class="memdesc:gae4b0244b0d882657bed0a99dfa33f379"><td class="mdescLeft">&#160;</td><td class="mdescRight">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) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga0fd09e616d122bc2ed9726682ffd44b7"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga0fd09e616d122bc2ed9726682ffd44b7">saturate</a> (T x)</td></tr>
<tr class="memdesc:ga0fd09e616d122bc2ed9726682ffd44b7"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) <br /></td></tr>
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template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga5815a26488231dfdf92242cf0c2d2107"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec2&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga5815a26488231dfdf92242cf0c2d2107">saturate</a> (const tvec2&lt; T, P &gt; &amp;x)</td></tr>
<tr class="memdesc:ga5815a26488231dfdf92242cf0c2d2107"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) <br /></td></tr>
<tr class="separator:ga5815a26488231dfdf92242cf0c2d2107"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga02ed1a53c6df104d56b69f8fb5e9af1b"><td class="memTemplParams" colspan="2"><a class="anchor" id="ga02ed1a53c6df104d56b69f8fb5e9af1b"></a>
template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga02ed1a53c6df104d56b69f8fb5e9af1b"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga02ed1a53c6df104d56b69f8fb5e9af1b">saturate</a> (const tvec3&lt; T, P &gt; &amp;x)</td></tr>
<tr class="memdesc:ga02ed1a53c6df104d56b69f8fb5e9af1b"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) <br /></td></tr>
<tr class="separator:ga02ed1a53c6df104d56b69f8fb5e9af1b"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga63791409bdef9745b956406afe3157f1"><td class="memTemplParams" colspan="2"><a class="anchor" id="ga63791409bdef9745b956406afe3157f1"></a>
template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga63791409bdef9745b956406afe3157f1"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_QUALIFIER tvec4&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00187.html#ga63791409bdef9745b956406afe3157f1">saturate</a> (const tvec4&lt; T, P &gt; &amp;x)</td></tr>
<tr class="memdesc:ga63791409bdef9745b956406afe3157f1"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) <br /></td></tr>
<tr class="separator:ga63791409bdef9745b956406afe3157f1"><td class="memSeparator" colspan="2">&#160;</td></tr>
</table>
<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00187.html">GLM_GTX_compatibility</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00017_source.html">compatibility.hpp</a>.</p>
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<div class="title">compatibility.hpp</div> </div>
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<a href="a00017.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="preprocessor">#include &quot;../gtc/quaternion.hpp&quot;</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;</div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_compatibility is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;</div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_compatibility extension included&quot;)</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;</div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="preprocessor">#if GLM_COMPILER &amp; GLM_COMPILER_VC</span></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;<span class="preprocessor"># include &lt;cfloat&gt;</span></div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;<span class="preprocessor">#elif GLM_COMPILER &amp; GLM_COMPILER_GCC</span></div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;<span class="preprocessor"># include &lt;cmath&gt;</span></div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;<span class="preprocessor"># if(GLM_PLATFORM &amp; GLM_PLATFORM_ANDROID)</span></div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160;<span class="preprocessor"># undef isfinite</span></div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160;<span class="preprocessor"># endif</span></div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;<span class="preprocessor">#endif//GLM_COMPILER</span></div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160;{</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160;</div>
<div class="line"><a name="l00041"></a><span class="lineno"><a class="line" href="a00187.html#ga5494ba3a95ea6594c86fc75236886864"> 41</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt; GLM_FUNC_QUALIFIER T <a class="code" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">lerp</a>(T x, T y, T a){<span class="keywordflow">return</span> <a class="code" href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">mix</a>(x, y, a);} </div>
<div class="line"><a name="l00042"></a><span class="lineno"><a class="line" href="a00187.html#ga0aa79a146332650a1eb18ae996c653fe"> 42</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec2&lt;T, P&gt; <a class="code" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">lerp</a>(<span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; y, T a){<span class="keywordflow">return</span> <a class="code" href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">mix</a>(x, y, a);} </div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;</div>
<div class="line"><a name="l00044"></a><span class="lineno"><a class="line" href="a00187.html#gaf4c885ac72b8879b05777cb516c555c9"> 44</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec3&lt;T, P&gt; <a class="code" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">lerp</a>(<span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; y, T a){<span class="keywordflow">return</span> <a class="code" href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">mix</a>(x, y, a);} </div>
<div class="line"><a name="l00045"></a><span class="lineno"><a class="line" href="a00187.html#ga363d5d069d31a6c2cdd1e9589dde4a60"> 45</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec4&lt;T, P&gt; <a class="code" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">lerp</a>(<span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; y, T a){<span class="keywordflow">return</span> <a class="code" href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">mix</a>(x, y, a);} </div>
<div class="line"><a name="l00046"></a><span class="lineno"><a class="line" href="a00187.html#ga7609b44d8aefc5a277efe73395ff4070"> 46</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec2&lt;T, P&gt; <a class="code" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">lerp</a>(<span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; y, <span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; a){<span class="keywordflow">return</span> <a class="code" href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">mix</a>(x, y, a);} </div>
<div class="line"><a name="l00047"></a><span class="lineno"><a class="line" href="a00187.html#ga90a1d1364a8d078846857178bdcc9af1"> 47</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec3&lt;T, P&gt; <a class="code" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">lerp</a>(<span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; y, <span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; a){<span class="keywordflow">return</span> <a class="code" href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">mix</a>(x, y, a);} </div>
<div class="line"><a name="l00048"></a><span class="lineno"><a class="line" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379"> 48</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec4&lt;T, P&gt; <a class="code" href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">lerp</a>(<span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; y, <span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; a){<span class="keywordflow">return</span> <a class="code" href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">mix</a>(x, y, a);} </div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;</div>
<div class="line"><a name="l00050"></a><span class="lineno"><a class="line" href="a00187.html#ga0fd09e616d122bc2ed9726682ffd44b7"> 50</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER T <a class="code" href="a00187.html#ga63791409bdef9745b956406afe3157f1">saturate</a>(T x){<span class="keywordflow">return</span> <a class="code" href="a00145.html#ga93bce26c7d80d30a62f5c508f8498a6c">clamp</a>(x, T(0), T(1));} </div>
<div class="line"><a name="l00051"></a><span class="lineno"><a class="line" href="a00187.html#ga5815a26488231dfdf92242cf0c2d2107"> 51</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec2&lt;T, P&gt; <a class="code" href="a00187.html#ga63791409bdef9745b956406afe3157f1">saturate</a>(<span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; x){<span class="keywordflow">return</span> <a class="code" href="a00145.html#ga93bce26c7d80d30a62f5c508f8498a6c">clamp</a>(x, T(0), T(1));} </div>
<div class="line"><a name="l00052"></a><span class="lineno"><a class="line" href="a00187.html#ga02ed1a53c6df104d56b69f8fb5e9af1b"> 52</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec3&lt;T, P&gt; <a class="code" href="a00187.html#ga63791409bdef9745b956406afe3157f1">saturate</a>(<span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; x){<span class="keywordflow">return</span> <a class="code" href="a00145.html#ga93bce26c7d80d30a62f5c508f8498a6c">clamp</a>(x, T(0), T(1));} </div>
<div class="line"><a name="l00053"></a><span class="lineno"><a class="line" href="a00187.html#ga63791409bdef9745b956406afe3157f1"> 53</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec4&lt;T, P&gt; <a class="code" href="a00187.html#ga63791409bdef9745b956406afe3157f1">saturate</a>(<span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; x){<span class="keywordflow">return</span> <a class="code" href="a00145.html#ga93bce26c7d80d30a62f5c508f8498a6c">clamp</a>(x, T(0), T(1));} </div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;</div>
<div class="line"><a name="l00055"></a><span class="lineno"><a class="line" href="a00187.html#gac63011205bf6d0be82589dc56dd26708"> 55</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER T <a class="code" href="a00187.html#ga09d39c391a509a045b6c7061f15bdff5">atan2</a>(T x, T y){<span class="keywordflow">return</span> <a class="code" href="a00151.html#ga461e769acb8b8cb695a5a89334546611">atan</a>(x, y);} </div>
<div class="line"><a name="l00056"></a><span class="lineno"><a class="line" href="a00187.html#ga525f3e849d0fc64807f8ab571b4545f9"> 56</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec2&lt;T, P&gt; <a class="code" href="a00187.html#ga09d39c391a509a045b6c7061f15bdff5">atan2</a>(<span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; y){<span class="keywordflow">return</span> <a class="code" href="a00151.html#ga461e769acb8b8cb695a5a89334546611">atan</a>(x, y);} </div>
<div class="line"><a name="l00057"></a><span class="lineno"><a class="line" href="a00187.html#gad328042b6734d3f2c49c0ec1328b14c0"> 57</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec3&lt;T, P&gt; <a class="code" href="a00187.html#ga09d39c391a509a045b6c7061f15bdff5">atan2</a>(<span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; y){<span class="keywordflow">return</span> <a class="code" href="a00151.html#ga461e769acb8b8cb695a5a89334546611">atan</a>(x, y);} </div>
<div class="line"><a name="l00058"></a><span class="lineno"><a class="line" href="a00187.html#ga09d39c391a509a045b6c7061f15bdff5"> 58</a></span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_QUALIFIER tvec4&lt;T, P&gt; <a class="code" href="a00187.html#ga09d39c391a509a045b6c7061f15bdff5">atan2</a>(<span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; x, <span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; y){<span class="keywordflow">return</span> <a class="code" href="a00151.html#ga461e769acb8b8cb695a5a89334546611">atan</a>(x, y);} </div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; GLM_FUNC_DECL <span class="keywordtype">bool</span> <a class="code" href="a00187.html#ga8c6a59e2f2ac84fba0c5932f1c35bf7a">isfinite</a>(genType <span class="keyword">const</span> &amp; x); </div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_DECL tvec1&lt;bool, P&gt; <a class="code" href="a00187.html#ga8c6a59e2f2ac84fba0c5932f1c35bf7a">isfinite</a>(<span class="keyword">const</span> tvec1&lt;T, P&gt;&amp; x); </div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_DECL tvec2&lt;bool, P&gt; <a class="code" href="a00187.html#ga8c6a59e2f2ac84fba0c5932f1c35bf7a">isfinite</a>(<span class="keyword">const</span> tvec2&lt;T, P&gt;&amp; x); </div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_DECL tvec3&lt;bool, P&gt; <a class="code" href="a00187.html#ga8c6a59e2f2ac84fba0c5932f1c35bf7a">isfinite</a>(<span class="keyword">const</span> tvec3&lt;T, P&gt;&amp; x); </div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt; GLM_FUNC_DECL tvec4&lt;bool, P&gt; <a class="code" href="a00187.html#ga8c6a59e2f2ac84fba0c5932f1c35bf7a">isfinite</a>(<span class="keyword">const</span> tvec4&lt;T, P&gt;&amp; x); </div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160;</div>
<div class="line"><a name="l00066"></a><span class="lineno"><a class="line" href="a00187.html#gaddcd7aa2e30e61af5b38660613d3979e"> 66</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">bool</span> <a class="code" href="a00187.html#gaddcd7aa2e30e61af5b38660613d3979e">bool1</a>; </div>
<div class="line"><a name="l00067"></a><span class="lineno"><a class="line" href="a00187.html#gafa8d0bc8dfa7eeb928208305714f648d"> 67</a></span>&#160; <span class="keyword">typedef</span> tvec2&lt;bool, highp&gt; <a class="code" href="a00187.html#gafa8d0bc8dfa7eeb928208305714f648d">bool2</a>; </div>
<div class="line"><a name="l00068"></a><span class="lineno"><a class="line" href="a00187.html#gab8d74ea4c4f4bd980b650ffb27cdb659"> 68</a></span>&#160; <span class="keyword">typedef</span> tvec3&lt;bool, highp&gt; <a class="code" href="a00187.html#gab8d74ea4c4f4bd980b650ffb27cdb659">bool3</a>; </div>
<div class="line"><a name="l00069"></a><span class="lineno"><a class="line" href="a00187.html#ga6e79dbfab5917c467a154638ba27898e"> 69</a></span>&#160; <span class="keyword">typedef</span> tvec4&lt;bool, highp&gt; <a class="code" href="a00187.html#ga6e79dbfab5917c467a154638ba27898e">bool4</a>; </div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;</div>
<div class="line"><a name="l00071"></a><span class="lineno"><a class="line" href="a00187.html#ga7f895c936f0c29c8729afbbf22806090"> 71</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">bool</span> <a class="code" href="a00187.html#ga7f895c936f0c29c8729afbbf22806090">bool1x1</a>; </div>
<div class="line"><a name="l00072"></a><span class="lineno"><a class="line" href="a00187.html#ga2bfb53bc320966c85149934fffb0329d"> 72</a></span>&#160; <span class="keyword">typedef</span> tmat2x2&lt;bool, highp&gt; <a class="code" href="a00187.html#ga2bfb53bc320966c85149934fffb0329d">bool2x2</a>; </div>
<div class="line"><a name="l00073"></a><span class="lineno"><a class="line" href="a00187.html#gad02e7dff74039bb1454643e293d85dfe"> 73</a></span>&#160; <span class="keyword">typedef</span> tmat2x3&lt;bool, highp&gt; <a class="code" href="a00187.html#gad02e7dff74039bb1454643e293d85dfe">bool2x3</a>; </div>
<div class="line"><a name="l00074"></a><span class="lineno"><a class="line" href="a00187.html#ga379c0869949e8a69c3d06d7637caa5d7"> 74</a></span>&#160; <span class="keyword">typedef</span> tmat2x4&lt;bool, highp&gt; <a class="code" href="a00187.html#ga379c0869949e8a69c3d06d7637caa5d7">bool2x4</a>; </div>
<div class="line"><a name="l00075"></a><span class="lineno"><a class="line" href="a00187.html#ga0fc7ecb53df5be5f9d766fbbfe5190d7"> 75</a></span>&#160; <span class="keyword">typedef</span> tmat3x2&lt;bool, highp&gt; <a class="code" href="a00187.html#ga0fc7ecb53df5be5f9d766fbbfe5190d7">bool3x2</a>; </div>
<div class="line"><a name="l00076"></a><span class="lineno"><a class="line" href="a00187.html#gae621c9eabcba552eea5f6ade1f403605"> 76</a></span>&#160; <span class="keyword">typedef</span> tmat3x3&lt;bool, highp&gt; <a class="code" href="a00187.html#gae621c9eabcba552eea5f6ade1f403605">bool3x3</a>; </div>
<div class="line"><a name="l00077"></a><span class="lineno"><a class="line" href="a00187.html#gad13f8250579ebf79760dcf64215ddb17"> 77</a></span>&#160; <span class="keyword">typedef</span> tmat3x4&lt;bool, highp&gt; <a class="code" href="a00187.html#gad13f8250579ebf79760dcf64215ddb17">bool3x4</a>; </div>
<div class="line"><a name="l00078"></a><span class="lineno"><a class="line" href="a00187.html#ga184ee05ac2bbbf0a91dd364ba8e528db"> 78</a></span>&#160; <span class="keyword">typedef</span> tmat4x2&lt;bool, highp&gt; <a class="code" href="a00187.html#ga184ee05ac2bbbf0a91dd364ba8e528db">bool4x2</a>; </div>
<div class="line"><a name="l00079"></a><span class="lineno"><a class="line" href="a00187.html#ga83e4c62ab1addfe708dc3409cc0e5dfb"> 79</a></span>&#160; <span class="keyword">typedef</span> tmat4x3&lt;bool, highp&gt; <a class="code" href="a00187.html#ga83e4c62ab1addfe708dc3409cc0e5dfb">bool4x3</a>; </div>
<div class="line"><a name="l00080"></a><span class="lineno"><a class="line" href="a00187.html#ga9770607032813e7b0ca7362a47efea1e"> 80</a></span>&#160; <span class="keyword">typedef</span> tmat4x4&lt;bool, highp&gt; <a class="code" href="a00187.html#ga9770607032813e7b0ca7362a47efea1e">bool4x4</a>; </div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;</div>
<div class="line"><a name="l00082"></a><span class="lineno"><a class="line" href="a00187.html#ga0670a2111b5e4a6410bd027fa0232fc3"> 82</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">int</span> <a class="code" href="a00187.html#ga0670a2111b5e4a6410bd027fa0232fc3">int1</a>; </div>
<div class="line"><a name="l00083"></a><span class="lineno"><a class="line" href="a00187.html#ga2eca687990bf3a08ef28bc4a9f2fe700"> 83</a></span>&#160; <span class="keyword">typedef</span> tvec2&lt;int, highp&gt; <a class="code" href="a00187.html#ga2eca687990bf3a08ef28bc4a9f2fe700">int2</a>; </div>
<div class="line"><a name="l00084"></a><span class="lineno"><a class="line" href="a00187.html#gaaa6ceedf08a85e5fd73a482bc8b77b88"> 84</a></span>&#160; <span class="keyword">typedef</span> tvec3&lt;int, highp&gt; <a class="code" href="a00187.html#gaaa6ceedf08a85e5fd73a482bc8b77b88">int3</a>; </div>
<div class="line"><a name="l00085"></a><span class="lineno"><a class="line" href="a00187.html#gab19c2df22e9b14081390fabd074081f1"> 85</a></span>&#160; <span class="keyword">typedef</span> tvec4&lt;int, highp&gt; <a class="code" href="a00187.html#gab19c2df22e9b14081390fabd074081f1">int4</a>; </div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160;</div>
<div class="line"><a name="l00087"></a><span class="lineno"><a class="line" href="a00187.html#ga056ffe02d3a45af626f8e62221881c7a"> 87</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">int</span> <a class="code" href="a00187.html#ga056ffe02d3a45af626f8e62221881c7a">int1x1</a>; </div>
<div class="line"><a name="l00088"></a><span class="lineno"><a class="line" href="a00187.html#gab1c5d0631a6ae34e28bfb2851da387cc"> 88</a></span>&#160; <span class="keyword">typedef</span> tmat2x2&lt;int, highp&gt; <a class="code" href="a00187.html#gab1c5d0631a6ae34e28bfb2851da387cc">int2x2</a>; </div>
<div class="line"><a name="l00089"></a><span class="lineno"><a class="line" href="a00187.html#ga6dc93f0794eb5fadd7f68b85141a2434"> 89</a></span>&#160; <span class="keyword">typedef</span> tmat2x3&lt;int, highp&gt; <a class="code" href="a00187.html#ga6dc93f0794eb5fadd7f68b85141a2434">int2x3</a>; </div>
<div class="line"><a name="l00090"></a><span class="lineno"><a class="line" href="a00187.html#gad5da9e1b4e0c64c5436b5696ab49540e"> 90</a></span>&#160; <span class="keyword">typedef</span> tmat2x4&lt;int, highp&gt; <a class="code" href="a00187.html#gad5da9e1b4e0c64c5436b5696ab49540e">int2x4</a>; </div>
<div class="line"><a name="l00091"></a><span class="lineno"><a class="line" href="a00187.html#gaa98b1a06b802c975f02a5583f43632db"> 91</a></span>&#160; <span class="keyword">typedef</span> tmat3x2&lt;int, highp&gt; <a class="code" href="a00187.html#gaa98b1a06b802c975f02a5583f43632db">int3x2</a>; </div>
<div class="line"><a name="l00092"></a><span class="lineno"><a class="line" href="a00187.html#ga20c4d23defbc123ac4745c9b4262156f"> 92</a></span>&#160; <span class="keyword">typedef</span> tmat3x3&lt;int, highp&gt; <a class="code" href="a00187.html#ga20c4d23defbc123ac4745c9b4262156f">int3x3</a>; </div>
<div class="line"><a name="l00093"></a><span class="lineno"><a class="line" href="a00187.html#ga7b00c53838143bce963177122ab92c39"> 93</a></span>&#160; <span class="keyword">typedef</span> tmat3x4&lt;int, highp&gt; <a class="code" href="a00187.html#ga7b00c53838143bce963177122ab92c39">int3x4</a>; </div>
<div class="line"><a name="l00094"></a><span class="lineno"><a class="line" href="a00187.html#gaa53815539021200c4e10fd282832dcd3"> 94</a></span>&#160; <span class="keyword">typedef</span> tmat4x2&lt;int, highp&gt; <a class="code" href="a00187.html#gaa53815539021200c4e10fd282832dcd3">int4x2</a>; </div>
<div class="line"><a name="l00095"></a><span class="lineno"><a class="line" href="a00187.html#ga4a3bf0ecd6f6ff60836c5bee26c14abe"> 95</a></span>&#160; <span class="keyword">typedef</span> tmat4x3&lt;int, highp&gt; <a class="code" href="a00187.html#ga4a3bf0ecd6f6ff60836c5bee26c14abe">int4x3</a>; </div>
<div class="line"><a name="l00096"></a><span class="lineno"><a class="line" href="a00187.html#ga3bacf576b4b29f2f2959abff7a36652d"> 96</a></span>&#160; <span class="keyword">typedef</span> tmat4x4&lt;int, highp&gt; <a class="code" href="a00187.html#ga3bacf576b4b29f2f2959abff7a36652d">int4x4</a>; </div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160;</div>
<div class="line"><a name="l00098"></a><span class="lineno"><a class="line" href="a00187.html#gaf5208d01f6c6fbcb7bb55d610b9c0ead"> 98</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">float</span> <a class="code" href="a00187.html#gaf5208d01f6c6fbcb7bb55d610b9c0ead">float1</a>; </div>
<div class="line"><a name="l00099"></a><span class="lineno"><a class="line" href="a00187.html#ga872a70333dd25af68b1ebba485be9e42"> 99</a></span>&#160; <span class="keyword">typedef</span> tvec2&lt;float, highp&gt; <a class="code" href="a00187.html#ga872a70333dd25af68b1ebba485be9e42">float2</a>; </div>
<div class="line"><a name="l00100"></a><span class="lineno"><a class="line" href="a00187.html#ga2bfa618285894e34f299e4984f092d56"> 100</a></span>&#160; <span class="keyword">typedef</span> tvec3&lt;float, highp&gt; <a class="code" href="a00187.html#ga2bfa618285894e34f299e4984f092d56">float3</a>; </div>
<div class="line"><a name="l00101"></a><span class="lineno"><a class="line" href="a00187.html#ga5d49ed44dd9a9e944abc30371fc9045b"> 101</a></span>&#160; <span class="keyword">typedef</span> tvec4&lt;float, highp&gt; <a class="code" href="a00187.html#ga5d49ed44dd9a9e944abc30371fc9045b">float4</a>; </div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160;</div>
<div class="line"><a name="l00103"></a><span class="lineno"><a class="line" href="a00187.html#ga73720b8dc4620835b17f74d428f98c0c"> 103</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">float</span> <a class="code" href="a00187.html#ga73720b8dc4620835b17f74d428f98c0c">float1x1</a>; </div>
<div class="line"><a name="l00104"></a><span class="lineno"><a class="line" href="a00187.html#gaad93cbc2b863e363d53d405d0451d03e"> 104</a></span>&#160; <span class="keyword">typedef</span> tmat2x2&lt;float, highp&gt; <a class="code" href="a00187.html#gaad93cbc2b863e363d53d405d0451d03e">float2x2</a>; </div>
<div class="line"><a name="l00105"></a><span class="lineno"><a class="line" href="a00187.html#ga098c33a30f901f4f6a76969d6db6b01b"> 105</a></span>&#160; <span class="keyword">typedef</span> tmat2x3&lt;float, highp&gt; <a class="code" href="a00187.html#ga098c33a30f901f4f6a76969d6db6b01b">float2x3</a>; </div>
<div class="line"><a name="l00106"></a><span class="lineno"><a class="line" href="a00187.html#gab2ce4c366abc06c8bf7fe097ecea0dde"> 106</a></span>&#160; <span class="keyword">typedef</span> tmat2x4&lt;float, highp&gt; <a class="code" href="a00187.html#gab2ce4c366abc06c8bf7fe097ecea0dde">float2x4</a>; </div>
<div class="line"><a name="l00107"></a><span class="lineno"><a class="line" href="a00187.html#gaf30014e7b6874f45d58eb580d04764ff"> 107</a></span>&#160; <span class="keyword">typedef</span> tmat3x2&lt;float, highp&gt; <a class="code" href="a00187.html#gaf30014e7b6874f45d58eb580d04764ff">float3x2</a>; </div>
<div class="line"><a name="l00108"></a><span class="lineno"><a class="line" href="a00187.html#ga2692a729a69615d72dbebbdd0eba2363"> 108</a></span>&#160; <span class="keyword">typedef</span> tmat3x3&lt;float, highp&gt; <a class="code" href="a00187.html#ga2692a729a69615d72dbebbdd0eba2363">float3x3</a>; </div>
<div class="line"><a name="l00109"></a><span class="lineno"><a class="line" href="a00187.html#gac38c8929ccc87a2dc81eaab97ad5190e"> 109</a></span>&#160; <span class="keyword">typedef</span> tmat3x4&lt;float, highp&gt; <a class="code" href="a00187.html#gac38c8929ccc87a2dc81eaab97ad5190e">float3x4</a>; </div>
<div class="line"><a name="l00110"></a><span class="lineno"><a class="line" href="a00187.html#ga39a2af7aa8f2d29ca40afd2256c0e7c8"> 110</a></span>&#160; <span class="keyword">typedef</span> tmat4x2&lt;float, highp&gt; <a class="code" href="a00187.html#ga39a2af7aa8f2d29ca40afd2256c0e7c8">float4x2</a>; </div>
<div class="line"><a name="l00111"></a><span class="lineno"><a class="line" href="a00187.html#gad749b26be059f35394fd71c7f7a44034"> 111</a></span>&#160; <span class="keyword">typedef</span> tmat4x3&lt;float, highp&gt; <a class="code" href="a00187.html#gad749b26be059f35394fd71c7f7a44034">float4x3</a>; </div>
<div class="line"><a name="l00112"></a><span class="lineno"><a class="line" href="a00187.html#gaf40529862492ded2f3b96a6c886f6136"> 112</a></span>&#160; <span class="keyword">typedef</span> tmat4x4&lt;float, highp&gt; <a class="code" href="a00187.html#gaf40529862492ded2f3b96a6c886f6136">float4x4</a>; </div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160;</div>
<div class="line"><a name="l00114"></a><span class="lineno"><a class="line" href="a00187.html#ga20b861a9b6e2a300323671c57a02525b"> 114</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">double</span> <a class="code" href="a00187.html#ga20b861a9b6e2a300323671c57a02525b">double1</a>; </div>
<div class="line"><a name="l00115"></a><span class="lineno"><a class="line" href="a00187.html#gaa16a13c6f2768e83ca133430e82ab89e"> 115</a></span>&#160; <span class="keyword">typedef</span> tvec2&lt;double, highp&gt; <a class="code" href="a00187.html#gaa16a13c6f2768e83ca133430e82ab89e">double2</a>; </div>
<div class="line"><a name="l00116"></a><span class="lineno"><a class="line" href="a00187.html#gaed4bc64196bd25d46f6a1f417320a391"> 116</a></span>&#160; <span class="keyword">typedef</span> tvec3&lt;double, highp&gt; <a class="code" href="a00187.html#gaed4bc64196bd25d46f6a1f417320a391">double3</a>; </div>
<div class="line"><a name="l00117"></a><span class="lineno"><a class="line" href="a00187.html#gab8bbb086c9a6c2deffbe0e80afd6be56"> 117</a></span>&#160; <span class="keyword">typedef</span> tvec4&lt;double, highp&gt; <a class="code" href="a00187.html#gab8bbb086c9a6c2deffbe0e80afd6be56">double4</a>; </div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160;</div>
<div class="line"><a name="l00119"></a><span class="lineno"><a class="line" href="a00187.html#ga45f16a4dd0db1f199afaed9fd12fe9a8"> 119</a></span>&#160; <span class="keyword">typedef</span> <span class="keywordtype">double</span> <a class="code" href="a00187.html#ga45f16a4dd0db1f199afaed9fd12fe9a8">double1x1</a>; </div>
<div class="line"><a name="l00120"></a><span class="lineno"><a class="line" href="a00187.html#ga320d0a71a4ad9f14a1992d40546cffa7"> 120</a></span>&#160; <span class="keyword">typedef</span> tmat2x2&lt;double, highp&gt; <a class="code" href="a00187.html#ga320d0a71a4ad9f14a1992d40546cffa7">double2x2</a>; </div>
<div class="line"><a name="l00121"></a><span class="lineno"><a class="line" href="a00187.html#gade37cf30c69bacb41ceea7e32717eac7"> 121</a></span>&#160; <span class="keyword">typedef</span> tmat2x3&lt;double, highp&gt; <a class="code" href="a00187.html#gade37cf30c69bacb41ceea7e32717eac7">double2x3</a>; </div>
<div class="line"><a name="l00122"></a><span class="lineno"><a class="line" href="a00187.html#gaf923922adf744404d5bfb3fafb7d0d8e"> 122</a></span>&#160; <span class="keyword">typedef</span> tmat2x4&lt;double, highp&gt; <a class="code" href="a00187.html#gaf923922adf744404d5bfb3fafb7d0d8e">double2x4</a>; </div>
<div class="line"><a name="l00123"></a><span class="lineno"><a class="line" href="a00187.html#gaeaac4d0e18164e4d2fe54432c0fbbcf6"> 123</a></span>&#160; <span class="keyword">typedef</span> tmat3x2&lt;double, highp&gt; <a class="code" href="a00187.html#gaeaac4d0e18164e4d2fe54432c0fbbcf6">double3x2</a>; </div>
<div class="line"><a name="l00124"></a><span class="lineno"><a class="line" href="a00187.html#gac934f579ee5cf3cbdbb25b73f2640c0a"> 124</a></span>&#160; <span class="keyword">typedef</span> tmat3x3&lt;double, highp&gt; <a class="code" href="a00187.html#gac934f579ee5cf3cbdbb25b73f2640c0a">double3x3</a>; </div>
<div class="line"><a name="l00125"></a><span class="lineno"><a class="line" href="a00187.html#gaad84a1ea83be8fce04c1570c5e719413"> 125</a></span>&#160; <span class="keyword">typedef</span> tmat3x4&lt;double, highp&gt; <a class="code" href="a00187.html#gaad84a1ea83be8fce04c1570c5e719413">double3x4</a>; </div>
<div class="line"><a name="l00126"></a><span class="lineno"><a class="line" href="a00187.html#ga2f87500119da15e35e4a74780ba512bd"> 126</a></span>&#160; <span class="keyword">typedef</span> tmat4x2&lt;double, highp&gt; <a class="code" href="a00187.html#ga2f87500119da15e35e4a74780ba512bd">double4x2</a>; </div>
<div class="line"><a name="l00127"></a><span class="lineno"><a class="line" href="a00187.html#gaa4e6d53c03780dfa76bd399324f9fe37"> 127</a></span>&#160; <span class="keyword">typedef</span> tmat4x3&lt;double, highp&gt; <a class="code" href="a00187.html#gaa4e6d53c03780dfa76bd399324f9fe37">double4x3</a>; </div>
<div class="line"><a name="l00128"></a><span class="lineno"><a class="line" href="a00187.html#ga686a3a5590f0a0e721faba08bda301d6"> 128</a></span>&#160; <span class="keyword">typedef</span> tmat4x4&lt;double, highp&gt; <a class="code" href="a00187.html#ga686a3a5590f0a0e721faba08bda301d6">double4x4</a>; </div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160;</div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160;</div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160;<span class="preprocessor">#include &quot;compatibility.inl&quot;</span></div>
<div class="ttc" id="a00187_html_ga056ffe02d3a45af626f8e62221881c7a"><div class="ttname"><a href="a00187.html#ga056ffe02d3a45af626f8e62221881c7a">glm::int1x1</a></div><div class="ttdeci">int int1x1</div><div class="ttdoc">integer matrix with 1 component. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00087">compatibility.hpp:87</a></div></div>
<div class="ttc" id="a00187_html_gae621c9eabcba552eea5f6ade1f403605"><div class="ttname"><a href="a00187.html#gae621c9eabcba552eea5f6ade1f403605">glm::bool3x3</a></div><div class="ttdeci">tmat3x3&lt; bool, highp &gt; bool3x3</div><div class="ttdoc">boolean matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00076">compatibility.hpp:76</a></div></div>
<div class="ttc" id="a00187_html_ga2692a729a69615d72dbebbdd0eba2363"><div class="ttname"><a href="a00187.html#ga2692a729a69615d72dbebbdd0eba2363">glm::float3x3</a></div><div class="ttdeci">tmat3x3&lt; float, highp &gt; float3x3</div><div class="ttdoc">single-precision floating-point matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00108">compatibility.hpp:108</a></div></div>
<div class="ttc" id="a00187_html_gad5da9e1b4e0c64c5436b5696ab49540e"><div class="ttname"><a href="a00187.html#gad5da9e1b4e0c64c5436b5696ab49540e">glm::int2x4</a></div><div class="ttdeci">tmat2x4&lt; int, highp &gt; int2x4</div><div class="ttdoc">integer matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00090">compatibility.hpp:90</a></div></div>
<div class="ttc" id="a00187_html_gab2ce4c366abc06c8bf7fe097ecea0dde"><div class="ttname"><a href="a00187.html#gab2ce4c366abc06c8bf7fe097ecea0dde">glm::float2x4</a></div><div class="ttdeci">tmat2x4&lt; float, highp &gt; float2x4</div><div class="ttdoc">single-precision floating-point matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00106">compatibility.hpp:106</a></div></div>
<div class="ttc" id="a00187_html_gad749b26be059f35394fd71c7f7a44034"><div class="ttname"><a href="a00187.html#gad749b26be059f35394fd71c7f7a44034">glm::float4x3</a></div><div class="ttdeci">tmat4x3&lt; float, highp &gt; float4x3</div><div class="ttdoc">single-precision floating-point matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00111">compatibility.hpp:111</a></div></div>
<div class="ttc" id="a00187_html_ga20b861a9b6e2a300323671c57a02525b"><div class="ttname"><a href="a00187.html#ga20b861a9b6e2a300323671c57a02525b">glm::double1</a></div><div class="ttdeci">double double1</div><div class="ttdoc">double-precision floating-point vector with 1 component. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00114">compatibility.hpp:114</a></div></div>
<div class="ttc" id="a00187_html_ga320d0a71a4ad9f14a1992d40546cffa7"><div class="ttname"><a href="a00187.html#ga320d0a71a4ad9f14a1992d40546cffa7">glm::double2x2</a></div><div class="ttdeci">tmat2x2&lt; double, highp &gt; double2x2</div><div class="ttdoc">double-precision floating-point matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00120">compatibility.hpp:120</a></div></div>
<div class="ttc" id="a00187_html_gaad84a1ea83be8fce04c1570c5e719413"><div class="ttname"><a href="a00187.html#gaad84a1ea83be8fce04c1570c5e719413">glm::double3x4</a></div><div class="ttdeci">tmat3x4&lt; double, highp &gt; double3x4</div><div class="ttdoc">double-precision floating-point matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00125">compatibility.hpp:125</a></div></div>
<div class="ttc" id="a00187_html_gab1c5d0631a6ae34e28bfb2851da387cc"><div class="ttname"><a href="a00187.html#gab1c5d0631a6ae34e28bfb2851da387cc">glm::int2x2</a></div><div class="ttdeci">tmat2x2&lt; int, highp &gt; int2x2</div><div class="ttdoc">integer matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00088">compatibility.hpp:88</a></div></div>
<div class="ttc" id="a00187_html_ga2eca687990bf3a08ef28bc4a9f2fe700"><div class="ttname"><a href="a00187.html#ga2eca687990bf3a08ef28bc4a9f2fe700">glm::int2</a></div><div class="ttdeci">tvec2&lt; int, highp &gt; int2</div><div class="ttdoc">integer vector with 2 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00083">compatibility.hpp:83</a></div></div>
<div class="ttc" id="a00187_html_gaed4bc64196bd25d46f6a1f417320a391"><div class="ttname"><a href="a00187.html#gaed4bc64196bd25d46f6a1f417320a391">glm::double3</a></div><div class="ttdeci">tvec3&lt; double, highp &gt; double3</div><div class="ttdoc">double-precision floating-point vector with 3 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00116">compatibility.hpp:116</a></div></div>
<div class="ttc" id="a00187_html_gae4b0244b0d882657bed0a99dfa33f379"><div class="ttname"><a href="a00187.html#gae4b0244b0d882657bed0a99dfa33f379">glm::lerp</a></div><div class="ttdeci">GLM_FUNC_QUALIFIER tvec4&lt; T, P &gt; lerp(const tvec4&lt; T, P &gt; &amp;x, const tvec4&lt; T, P &gt; &amp;y, const tvec4&lt; T, P &gt; &amp;a)</div><div class="ttdoc">Returns the component-wise result of x * (1.0 - a) + y * a, i.e., the linear blend of x and y using v...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00048">compatibility.hpp:48</a></div></div>
<div class="ttc" id="a00187_html_ga20c4d23defbc123ac4745c9b4262156f"><div class="ttname"><a href="a00187.html#ga20c4d23defbc123ac4745c9b4262156f">glm::int3x3</a></div><div class="ttdeci">tmat3x3&lt; int, highp &gt; int3x3</div><div class="ttdoc">integer matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00092">compatibility.hpp:92</a></div></div>
<div class="ttc" id="a00187_html_gac934f579ee5cf3cbdbb25b73f2640c0a"><div class="ttname"><a href="a00187.html#gac934f579ee5cf3cbdbb25b73f2640c0a">glm::double3x3</a></div><div class="ttdeci">tmat3x3&lt; double, highp &gt; double3x3</div><div class="ttdoc">double-precision floating-point matrix with 3 x 3 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00124">compatibility.hpp:124</a></div></div>
<div class="ttc" id="a00187_html_gad02e7dff74039bb1454643e293d85dfe"><div class="ttname"><a href="a00187.html#gad02e7dff74039bb1454643e293d85dfe">glm::bool2x3</a></div><div class="ttdeci">tmat2x3&lt; bool, highp &gt; bool2x3</div><div class="ttdoc">boolean matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00073">compatibility.hpp:73</a></div></div>
<div class="ttc" id="a00187_html_ga9770607032813e7b0ca7362a47efea1e"><div class="ttname"><a href="a00187.html#ga9770607032813e7b0ca7362a47efea1e">glm::bool4x4</a></div><div class="ttdeci">tmat4x4&lt; bool, highp &gt; bool4x4</div><div class="ttdoc">boolean matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00080">compatibility.hpp:80</a></div></div>
<div class="ttc" id="a00187_html_ga83e4c62ab1addfe708dc3409cc0e5dfb"><div class="ttname"><a href="a00187.html#ga83e4c62ab1addfe708dc3409cc0e5dfb">glm::bool4x3</a></div><div class="ttdeci">tmat4x3&lt; bool, highp &gt; bool4x3</div><div class="ttdoc">boolean matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00079">compatibility.hpp:79</a></div></div>
<div class="ttc" id="a00187_html_gaad93cbc2b863e363d53d405d0451d03e"><div class="ttname"><a href="a00187.html#gaad93cbc2b863e363d53d405d0451d03e">glm::float2x2</a></div><div class="ttdeci">tmat2x2&lt; float, highp &gt; float2x2</div><div class="ttdoc">single-precision floating-point matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00104">compatibility.hpp:104</a></div></div>
<div class="ttc" id="a00187_html_ga63791409bdef9745b956406afe3157f1"><div class="ttname"><a href="a00187.html#ga63791409bdef9745b956406afe3157f1">glm::saturate</a></div><div class="ttdeci">GLM_FUNC_QUALIFIER tvec4&lt; T, P &gt; saturate(const tvec4&lt; T, P &gt; &amp;x)</div><div class="ttdoc">Returns clamp(x, 0, 1) for each component in x. (From GLM_GTX_compatibility) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00053">compatibility.hpp:53</a></div></div>
<div class="ttc" id="a00187_html_gafa8d0bc8dfa7eeb928208305714f648d"><div class="ttname"><a href="a00187.html#gafa8d0bc8dfa7eeb928208305714f648d">glm::bool2</a></div><div class="ttdeci">tvec2&lt; bool, highp &gt; bool2</div><div class="ttdoc">boolean type with 2 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00067">compatibility.hpp:67</a></div></div>
<div class="ttc" id="a00187_html_ga8c6a59e2f2ac84fba0c5932f1c35bf7a"><div class="ttname"><a href="a00187.html#ga8c6a59e2f2ac84fba0c5932f1c35bf7a">glm::isfinite</a></div><div class="ttdeci">GLM_FUNC_DECL tvec4&lt; bool, P &gt; isfinite(const tvec4&lt; T, P &gt; &amp;x)</div><div class="ttdoc">Test whether or not a scalar or each vector component is a finite value. (From GLM_GTX_compatibility)...</div></div>
<div class="ttc" id="a00187_html_ga5d49ed44dd9a9e944abc30371fc9045b"><div class="ttname"><a href="a00187.html#ga5d49ed44dd9a9e944abc30371fc9045b">glm::float4</a></div><div class="ttdeci">tvec4&lt; float, highp &gt; float4</div><div class="ttdoc">single-precision floating-point vector with 4 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00101">compatibility.hpp:101</a></div></div>
<div class="ttc" id="a00187_html_gaf40529862492ded2f3b96a6c886f6136"><div class="ttname"><a href="a00187.html#gaf40529862492ded2f3b96a6c886f6136">glm::float4x4</a></div><div class="ttdeci">tmat4x4&lt; float, highp &gt; float4x4</div><div class="ttdoc">single-precision floating-point matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00112">compatibility.hpp:112</a></div></div>
<div class="ttc" id="a00187_html_ga39a2af7aa8f2d29ca40afd2256c0e7c8"><div class="ttname"><a href="a00187.html#ga39a2af7aa8f2d29ca40afd2256c0e7c8">glm::float4x2</a></div><div class="ttdeci">tmat4x2&lt; float, highp &gt; float4x2</div><div class="ttdoc">single-precision floating-point matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00110">compatibility.hpp:110</a></div></div>
<div class="ttc" id="a00187_html_gaf5208d01f6c6fbcb7bb55d610b9c0ead"><div class="ttname"><a href="a00187.html#gaf5208d01f6c6fbcb7bb55d610b9c0ead">glm::float1</a></div><div class="ttdeci">float float1</div><div class="ttdoc">single-precision floating-point vector with 1 component. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00098">compatibility.hpp:98</a></div></div>
<div class="ttc" id="a00187_html_gaf30014e7b6874f45d58eb580d04764ff"><div class="ttname"><a href="a00187.html#gaf30014e7b6874f45d58eb580d04764ff">glm::float3x2</a></div><div class="ttdeci">tmat3x2&lt; float, highp &gt; float3x2</div><div class="ttdoc">single-precision floating-point matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00107">compatibility.hpp:107</a></div></div>
<div class="ttc" id="a00187_html_ga2f87500119da15e35e4a74780ba512bd"><div class="ttname"><a href="a00187.html#ga2f87500119da15e35e4a74780ba512bd">glm::double4x2</a></div><div class="ttdeci">tmat4x2&lt; double, highp &gt; double4x2</div><div class="ttdoc">double-precision floating-point matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00126">compatibility.hpp:126</a></div></div>
<div class="ttc" id="a00187_html_gaa4e6d53c03780dfa76bd399324f9fe37"><div class="ttname"><a href="a00187.html#gaa4e6d53c03780dfa76bd399324f9fe37">glm::double4x3</a></div><div class="ttdeci">tmat4x3&lt; double, highp &gt; double4x3</div><div class="ttdoc">double-precision floating-point matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00127">compatibility.hpp:127</a></div></div>
<div class="ttc" id="a00187_html_ga45f16a4dd0db1f199afaed9fd12fe9a8"><div class="ttname"><a href="a00187.html#ga45f16a4dd0db1f199afaed9fd12fe9a8">glm::double1x1</a></div><div class="ttdeci">double double1x1</div><div class="ttdoc">double-precision floating-point matrix with 1 component. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00119">compatibility.hpp:119</a></div></div>
<div class="ttc" id="a00187_html_gaa53815539021200c4e10fd282832dcd3"><div class="ttname"><a href="a00187.html#gaa53815539021200c4e10fd282832dcd3">glm::int4x2</a></div><div class="ttdeci">tmat4x2&lt; int, highp &gt; int4x2</div><div class="ttdoc">integer matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00094">compatibility.hpp:94</a></div></div>
<div class="ttc" id="a00187_html_gab19c2df22e9b14081390fabd074081f1"><div class="ttname"><a href="a00187.html#gab19c2df22e9b14081390fabd074081f1">glm::int4</a></div><div class="ttdeci">tvec4&lt; int, highp &gt; int4</div><div class="ttdoc">integer vector with 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00085">compatibility.hpp:85</a></div></div>
<div class="ttc" id="a00187_html_gab8d74ea4c4f4bd980b650ffb27cdb659"><div class="ttname"><a href="a00187.html#gab8d74ea4c4f4bd980b650ffb27cdb659">glm::bool3</a></div><div class="ttdeci">tvec3&lt; bool, highp &gt; bool3</div><div class="ttdoc">boolean type with 3 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00068">compatibility.hpp:68</a></div></div>
<div class="ttc" id="a00145_html_ga93bce26c7d80d30a62f5c508f8498a6c"><div class="ttname"><a href="a00145.html#ga93bce26c7d80d30a62f5c508f8498a6c">glm::clamp</a></div><div class="ttdeci">GLM_FUNC_DECL genType clamp(genType x, genType minVal, genType maxVal)</div><div class="ttdoc">Returns min(max(x, minVal), maxVal) for each component in x using the floating-point values minVal an...</div></div>
<div class="ttc" id="a00187_html_gaa98b1a06b802c975f02a5583f43632db"><div class="ttname"><a href="a00187.html#gaa98b1a06b802c975f02a5583f43632db">glm::int3x2</a></div><div class="ttdeci">tmat3x2&lt; int, highp &gt; int3x2</div><div class="ttdoc">integer matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00091">compatibility.hpp:91</a></div></div>
<div class="ttc" id="a00187_html_gaeaac4d0e18164e4d2fe54432c0fbbcf6"><div class="ttname"><a href="a00187.html#gaeaac4d0e18164e4d2fe54432c0fbbcf6">glm::double3x2</a></div><div class="ttdeci">tmat3x2&lt; double, highp &gt; double3x2</div><div class="ttdoc">double-precision floating-point matrix with 3 x 2 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00123">compatibility.hpp:123</a></div></div>
<div class="ttc" id="a00187_html_ga09d39c391a509a045b6c7061f15bdff5"><div class="ttname"><a href="a00187.html#ga09d39c391a509a045b6c7061f15bdff5">glm::atan2</a></div><div class="ttdeci">GLM_FUNC_QUALIFIER tvec4&lt; T, P &gt; atan2(const tvec4&lt; T, P &gt; &amp;x, const tvec4&lt; T, P &gt; &amp;y)</div><div class="ttdoc">Arc tangent. Returns an angle whose tangent is y/x. The signs of x and y are used to determine what q...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00058">compatibility.hpp:58</a></div></div>
<div class="ttc" id="a00187_html_gab8bbb086c9a6c2deffbe0e80afd6be56"><div class="ttname"><a href="a00187.html#gab8bbb086c9a6c2deffbe0e80afd6be56">glm::double4</a></div><div class="ttdeci">tvec4&lt; double, highp &gt; double4</div><div class="ttdoc">double-precision floating-point vector with 4 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00117">compatibility.hpp:117</a></div></div>
<div class="ttc" id="a00187_html_ga184ee05ac2bbbf0a91dd364ba8e528db"><div class="ttname"><a href="a00187.html#ga184ee05ac2bbbf0a91dd364ba8e528db">glm::bool4x2</a></div><div class="ttdeci">tmat4x2&lt; bool, highp &gt; bool4x2</div><div class="ttdoc">boolean matrix with 4 x 2 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00078">compatibility.hpp:78</a></div></div>
<div class="ttc" id="a00187_html_gaf923922adf744404d5bfb3fafb7d0d8e"><div class="ttname"><a href="a00187.html#gaf923922adf744404d5bfb3fafb7d0d8e">glm::double2x4</a></div><div class="ttdeci">tmat2x4&lt; double, highp &gt; double2x4</div><div class="ttdoc">double-precision floating-point matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00122">compatibility.hpp:122</a></div></div>
<div class="ttc" id="a00187_html_ga4a3bf0ecd6f6ff60836c5bee26c14abe"><div class="ttname"><a href="a00187.html#ga4a3bf0ecd6f6ff60836c5bee26c14abe">glm::int4x3</a></div><div class="ttdeci">tmat4x3&lt; int, highp &gt; int4x3</div><div class="ttdoc">integer matrix with 4 x 3 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00095">compatibility.hpp:95</a></div></div>
<div class="ttc" id="a00187_html_gade37cf30c69bacb41ceea7e32717eac7"><div class="ttname"><a href="a00187.html#gade37cf30c69bacb41ceea7e32717eac7">glm::double2x3</a></div><div class="ttdeci">tmat2x3&lt; double, highp &gt; double2x3</div><div class="ttdoc">double-precision floating-point matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00121">compatibility.hpp:121</a></div></div>
<div class="ttc" id="a00187_html_ga098c33a30f901f4f6a76969d6db6b01b"><div class="ttname"><a href="a00187.html#ga098c33a30f901f4f6a76969d6db6b01b">glm::float2x3</a></div><div class="ttdeci">tmat2x3&lt; float, highp &gt; float2x3</div><div class="ttdoc">single-precision floating-point matrix with 2 x 3 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00105">compatibility.hpp:105</a></div></div>
<div class="ttc" id="a00187_html_ga7b00c53838143bce963177122ab92c39"><div class="ttname"><a href="a00187.html#ga7b00c53838143bce963177122ab92c39">glm::int3x4</a></div><div class="ttdeci">tmat3x4&lt; int, highp &gt; int3x4</div><div class="ttdoc">integer matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00093">compatibility.hpp:93</a></div></div>
<div class="ttc" id="a00187_html_ga379c0869949e8a69c3d06d7637caa5d7"><div class="ttname"><a href="a00187.html#ga379c0869949e8a69c3d06d7637caa5d7">glm::bool2x4</a></div><div class="ttdeci">tmat2x4&lt; bool, highp &gt; bool2x4</div><div class="ttdoc">boolean matrix with 2 x 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00074">compatibility.hpp:74</a></div></div>
<div class="ttc" id="a00187_html_ga3bacf576b4b29f2f2959abff7a36652d"><div class="ttname"><a href="a00187.html#ga3bacf576b4b29f2f2959abff7a36652d">glm::int4x4</a></div><div class="ttdeci">tmat4x4&lt; int, highp &gt; int4x4</div><div class="ttdoc">integer matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00096">compatibility.hpp:96</a></div></div>
<div class="ttc" id="a00187_html_ga0670a2111b5e4a6410bd027fa0232fc3"><div class="ttname"><a href="a00187.html#ga0670a2111b5e4a6410bd027fa0232fc3">glm::int1</a></div><div class="ttdeci">int int1</div><div class="ttdoc">integer vector with 1 component. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00082">compatibility.hpp:82</a></div></div>
<div class="ttc" id="a00187_html_ga872a70333dd25af68b1ebba485be9e42"><div class="ttname"><a href="a00187.html#ga872a70333dd25af68b1ebba485be9e42">glm::float2</a></div><div class="ttdeci">tvec2&lt; float, highp &gt; float2</div><div class="ttdoc">single-precision floating-point vector with 2 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00099">compatibility.hpp:99</a></div></div>
<div class="ttc" id="a00187_html_ga2bfb53bc320966c85149934fffb0329d"><div class="ttname"><a href="a00187.html#ga2bfb53bc320966c85149934fffb0329d">glm::bool2x2</a></div><div class="ttdeci">tmat2x2&lt; bool, highp &gt; bool2x2</div><div class="ttdoc">boolean matrix with 2 x 2 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00072">compatibility.hpp:72</a></div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00187_html_ga6e79dbfab5917c467a154638ba27898e"><div class="ttname"><a href="a00187.html#ga6e79dbfab5917c467a154638ba27898e">glm::bool4</a></div><div class="ttdeci">tvec4&lt; bool, highp &gt; bool4</div><div class="ttdoc">boolean type with 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00069">compatibility.hpp:69</a></div></div>
<div class="ttc" id="a00187_html_ga686a3a5590f0a0e721faba08bda301d6"><div class="ttname"><a href="a00187.html#ga686a3a5590f0a0e721faba08bda301d6">glm::double4x4</a></div><div class="ttdeci">tmat4x4&lt; double, highp &gt; double4x4</div><div class="ttdoc">double-precision floating-point matrix with 4 x 4 components. (From GLM_GTX_compatibility extension) ...</div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00128">compatibility.hpp:128</a></div></div>
<div class="ttc" id="a00187_html_gaddcd7aa2e30e61af5b38660613d3979e"><div class="ttname"><a href="a00187.html#gaddcd7aa2e30e61af5b38660613d3979e">glm::bool1</a></div><div class="ttdeci">bool bool1</div><div class="ttdoc">boolean type with 1 component. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00066">compatibility.hpp:66</a></div></div>
<div class="ttc" id="a00187_html_gad13f8250579ebf79760dcf64215ddb17"><div class="ttname"><a href="a00187.html#gad13f8250579ebf79760dcf64215ddb17">glm::bool3x4</a></div><div class="ttdeci">tmat3x4&lt; bool, highp &gt; bool3x4</div><div class="ttdoc">boolean matrix with 3 x 4 components. (From GLM_GTX_compatibility extension) </div><div class="ttdef"><b>Definition:</b> <a href="a00017_source.html#l00077">compatibility.hpp:77</a></div></div>
<div class="ttc" id="a00145_html_gadccbaffe46f369cf1a96b2aef92cbfdd"><div class="ttname"><a href="a00145.html#gadccbaffe46f369cf1a96b2aef92cbfdd">glm::mix</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; mix(vecType&lt; T, P &gt; const &amp;x, vecType&lt; T, P &gt; const &amp;y, vecType&lt; U, P &gt; const &amp;a)</div><div class="ttdoc">If genTypeU is a floating scalar or vector: Returns x * (1.0 - a) + y * a, i.e., the linear blend of ...</div></div>
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Functions</h2></td></tr>
<tr class="memitem:gaf71833350e15e74d31cbf8a3e7f27051"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gaf71833350e15e74d31cbf8a3e7f27051"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType::value_type&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00188.html#gaf71833350e15e74d31cbf8a3e7f27051">compAdd</a> (genType const &amp;v)</td></tr>
<tr class="memdesc:gaf71833350e15e74d31cbf8a3e7f27051"><td class="mdescLeft">&#160;</td><td class="mdescRight">Add all vector components together. <a href="a00188.html#gaf71833350e15e74d31cbf8a3e7f27051">More...</a><br /></td></tr>
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<tr class="memitem:gabfa4bb19298c8c73d4217ba759c496b6"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType::value_type&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00188.html#gabfa4bb19298c8c73d4217ba759c496b6">compMax</a> (genType const &amp;v)</td></tr>
<tr class="memdesc:gabfa4bb19298c8c73d4217ba759c496b6"><td class="mdescLeft">&#160;</td><td class="mdescRight">Find the maximum value between single vector components. <a href="a00188.html#gabfa4bb19298c8c73d4217ba759c496b6">More...</a><br /></td></tr>
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<tr class="memitem:gab5d0832b5c7bb01b8d7395973bfb1425"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gab5d0832b5c7bb01b8d7395973bfb1425"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType::value_type&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00188.html#gab5d0832b5c7bb01b8d7395973bfb1425">compMin</a> (genType const &amp;v)</td></tr>
<tr class="memdesc:gab5d0832b5c7bb01b8d7395973bfb1425"><td class="mdescLeft">&#160;</td><td class="mdescRight">Find the minimum value between single vector components. <a href="a00188.html#gab5d0832b5c7bb01b8d7395973bfb1425">More...</a><br /></td></tr>
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<tr class="memitem:gae8ab88024197202c9479d33bdc5a8a5d"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gae8ab88024197202c9479d33bdc5a8a5d"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType::value_type&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00188.html#gae8ab88024197202c9479d33bdc5a8a5d">compMul</a> (genType const &amp;v)</td></tr>
<tr class="memdesc:gae8ab88024197202c9479d33bdc5a8a5d"><td class="mdescLeft">&#160;</td><td class="mdescRight">Multiply all vector components together. <a href="a00188.html#gae8ab88024197202c9479d33bdc5a8a5d">More...</a><br /></td></tr>
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<tr class="memitem:gaeb34fdf090d2d4da9babcdfec267f09e"><td class="memTemplParams" colspan="2">template&lt;typename floatType , typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gaeb34fdf090d2d4da9babcdfec267f09e"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; floatType, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00188.html#gaeb34fdf090d2d4da9babcdfec267f09e">compNormalize</a> (vecType&lt; T, P &gt; const &amp;v)</td></tr>
<tr class="memdesc:gaeb34fdf090d2d4da9babcdfec267f09e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert an integer vector to a normalized float vector. <a href="a00188.html#gaeb34fdf090d2d4da9babcdfec267f09e">More...</a><br /></td></tr>
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<tr class="memitem:gaea99a3271016bfd331d9fa7587f3db37"><td class="memTemplParams" colspan="2">template&lt;typename T , typename floatType , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gaea99a3271016bfd331d9fa7587f3db37"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00188.html#gaea99a3271016bfd331d9fa7587f3db37">compScale</a> (vecType&lt; floatType, P &gt; const &amp;v)</td></tr>
<tr class="memdesc:gaea99a3271016bfd331d9fa7587f3db37"><td class="mdescLeft">&#160;</td><td class="mdescRight">Convert a normalized float vector to an integer vector. <a href="a00188.html#gaea99a3271016bfd331d9fa7587f3db37">More...</a><br /></td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00188.html">GLM_GTX_component_wise</a> </p>
<dl class="section date"><dt>Date</dt><dd>2007-05-21 / 2011-06-07 </dd></dl>
<dl class="section author"><dt>Author</dt><dd>Christophe Riccio</dd></dl>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00018_source.html">component_wise.hpp</a>.</p>
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<a href="a00018.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;</div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="comment">// Dependencies</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#include &quot;../detail/setup.hpp&quot;</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#include &quot;../detail/precision.hpp&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;</div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_component_wise is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;</div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_component_wise extension included&quot;)</span></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;</div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;{</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160;</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> <span class="keywordtype">float</span>Type, <span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; GLM_FUNC_DECL vecType&lt;floatType, P&gt; <a class="code" href="a00188.html#gaeb34fdf090d2d4da9babcdfec267f09e">compNormalize</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160;</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">typename</span> <span class="keywordtype">float</span>Type, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00188.html#gaea99a3271016bfd331d9fa7587f3db37">compScale</a>(vecType&lt;floatType, P&gt; <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160; GLM_FUNC_DECL <span class="keyword">typename</span> genType::value_type <a class="code" href="a00188.html#gaf71833350e15e74d31cbf8a3e7f27051">compAdd</a>(genType <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160;</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; GLM_FUNC_DECL <span class="keyword">typename</span> genType::value_type <a class="code" href="a00188.html#gae8ab88024197202c9479d33bdc5a8a5d">compMul</a>(genType <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; GLM_FUNC_DECL <span class="keyword">typename</span> genType::value_type <a class="code" href="a00188.html#gab5d0832b5c7bb01b8d7395973bfb1425">compMin</a>(genType <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160;</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; GLM_FUNC_DECL <span class="keyword">typename</span> genType::value_type <a class="code" href="a00188.html#gabfa4bb19298c8c73d4217ba759c496b6">compMax</a>(genType <span class="keyword">const</span> &amp; v);</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160;</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160;</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160;<span class="preprocessor">#include &quot;component_wise.inl&quot;</span></div>
<div class="ttc" id="a00188_html_gaf71833350e15e74d31cbf8a3e7f27051"><div class="ttname"><a href="a00188.html#gaf71833350e15e74d31cbf8a3e7f27051">glm::compAdd</a></div><div class="ttdeci">GLM_FUNC_DECL genType::value_type compAdd(genType const &amp;v)</div><div class="ttdoc">Add all vector components together. </div></div>
<div class="ttc" id="a00188_html_gaea99a3271016bfd331d9fa7587f3db37"><div class="ttname"><a href="a00188.html#gaea99a3271016bfd331d9fa7587f3db37">glm::compScale</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; compScale(vecType&lt; floatType, P &gt; const &amp;v)</div><div class="ttdoc">Convert a normalized float vector to an integer vector. </div></div>
<div class="ttc" id="a00188_html_gae8ab88024197202c9479d33bdc5a8a5d"><div class="ttname"><a href="a00188.html#gae8ab88024197202c9479d33bdc5a8a5d">glm::compMul</a></div><div class="ttdeci">GLM_FUNC_DECL genType::value_type compMul(genType const &amp;v)</div><div class="ttdoc">Multiply all vector components together. </div></div>
<div class="ttc" id="a00188_html_gaeb34fdf090d2d4da9babcdfec267f09e"><div class="ttname"><a href="a00188.html#gaeb34fdf090d2d4da9babcdfec267f09e">glm::compNormalize</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; floatType, P &gt; compNormalize(vecType&lt; T, P &gt; const &amp;v)</div><div class="ttdoc">Convert an integer vector to a normalized float vector. </div></div>
<div class="ttc" id="a00188_html_gab5d0832b5c7bb01b8d7395973bfb1425"><div class="ttname"><a href="a00188.html#gab5d0832b5c7bb01b8d7395973bfb1425">glm::compMin</a></div><div class="ttdeci">GLM_FUNC_DECL genType::value_type compMin(genType const &amp;v)</div><div class="ttdoc">Find the minimum value between single vector components. </div></div>
<div class="ttc" id="a00188_html_gabfa4bb19298c8c73d4217ba759c496b6"><div class="ttname"><a href="a00188.html#gabfa4bb19298c8c73d4217ba759c496b6">glm::compMax</a></div><div class="ttdeci">GLM_FUNC_DECL genType::value_type compMax(genType const &amp;v)</div><div class="ttdoc">Find the maximum value between single vector components. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
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<tr class="memdesc:ga2a1e57fc5592b69cfae84174cbfc9429"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the epsilon constant for floating point types. <a href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">More...</a><br /></td></tr>
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<tr class="memdesc:gad8fe2e6f90bce9d829e9723b649fbd42"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return Euler's constant. <a href="a00162.html#gad8fe2e6f90bce9d829e9723b649fbd42">More...</a><br /></td></tr>
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<tr class="memdesc:ga753950e5140e4ea6a88e4a18ba61dc09"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 4 / pi. <a href="a00162.html#ga753950e5140e4ea6a88e4a18ba61dc09">More...</a><br /></td></tr>
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<tr class="memdesc:ga748cf8642830657c5b7eae04d0a80899"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the golden ratio constant. <a href="a00162.html#ga748cf8642830657c5b7eae04d0a80899">More...</a><br /></td></tr>
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<tr class="memdesc:ga0c36b41d462e45641faf7d7938948bac"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return pi / 2. <a href="a00162.html#ga0c36b41d462e45641faf7d7938948bac">More...</a><br /></td></tr>
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<tr class="memdesc:gaca94292c839ed31a405ab7a81ae7e850"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return ln(ln(2)). <a href="a00162.html#gaca94292c839ed31a405ab7a81ae7e850">More...</a><br /></td></tr>
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<tr class="memdesc:gaf97ebc6c059ffd788e6c4946f71ef66c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return ln(10). <a href="a00162.html#gaf97ebc6c059ffd788e6c4946f71ef66c">More...</a><br /></td></tr>
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<tr class="memdesc:ga24f4d27765678116f41a2f336ab7975c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return ln(2). <a href="a00162.html#ga24f4d27765678116f41a2f336ab7975c">More...</a><br /></td></tr>
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<tr class="memdesc:ga39c2fb227631ca25894326529bdd1ee5"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 1. <a href="a00162.html#ga39c2fb227631ca25894326529bdd1ee5">More...</a><br /></td></tr>
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<tr class="memitem:ga555150da2b06d23c8738981d5013e0eb"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga555150da2b06d23c8738981d5013e0eb"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga555150da2b06d23c8738981d5013e0eb">one_over_pi</a> ()</td></tr>
<tr class="memdesc:ga555150da2b06d23c8738981d5013e0eb"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 1 / pi. <a href="a00162.html#ga555150da2b06d23c8738981d5013e0eb">More...</a><br /></td></tr>
<tr class="separator:ga555150da2b06d23c8738981d5013e0eb"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga788fa23a0939bac4d1d0205fb4f35818"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga788fa23a0939bac4d1d0205fb4f35818"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga788fa23a0939bac4d1d0205fb4f35818">one_over_root_two</a> ()</td></tr>
<tr class="memdesc:ga788fa23a0939bac4d1d0205fb4f35818"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 1 / sqrt(2). <a href="a00162.html#ga788fa23a0939bac4d1d0205fb4f35818">More...</a><br /></td></tr>
<tr class="separator:ga788fa23a0939bac4d1d0205fb4f35818"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga7c922b427986cbb2e4c6ac69874eefbc"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga7c922b427986cbb2e4c6ac69874eefbc"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga7c922b427986cbb2e4c6ac69874eefbc">one_over_two_pi</a> ()</td></tr>
<tr class="memdesc:ga7c922b427986cbb2e4c6ac69874eefbc"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 1 / (pi * 2). <a href="a00162.html#ga7c922b427986cbb2e4c6ac69874eefbc">More...</a><br /></td></tr>
<tr class="separator:ga7c922b427986cbb2e4c6ac69874eefbc"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga94bafeb2a0f23ab6450fed1f98ee4e45"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga94bafeb2a0f23ab6450fed1f98ee4e45"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga94bafeb2a0f23ab6450fed1f98ee4e45">pi</a> ()</td></tr>
<tr class="memdesc:ga94bafeb2a0f23ab6450fed1f98ee4e45"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the pi constant. <a href="a00162.html#ga94bafeb2a0f23ab6450fed1f98ee4e45">More...</a><br /></td></tr>
<tr class="separator:ga94bafeb2a0f23ab6450fed1f98ee4e45"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga3c9df42bd73c519a995c43f0f99e77e0"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga3c9df42bd73c519a995c43f0f99e77e0"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga3c9df42bd73c519a995c43f0f99e77e0">quarter_pi</a> ()</td></tr>
<tr class="memdesc:ga3c9df42bd73c519a995c43f0f99e77e0"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return pi / 4. <a href="a00162.html#ga3c9df42bd73c519a995c43f0f99e77e0">More...</a><br /></td></tr>
<tr class="separator:ga3c9df42bd73c519a995c43f0f99e77e0"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gae9ebbded75b53d4faeb1e4ef8b3347a2"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gae9ebbded75b53d4faeb1e4ef8b3347a2"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#gae9ebbded75b53d4faeb1e4ef8b3347a2">root_five</a> ()</td></tr>
<tr class="memdesc:gae9ebbded75b53d4faeb1e4ef8b3347a2"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return sqrt(5). <a href="a00162.html#gae9ebbded75b53d4faeb1e4ef8b3347a2">More...</a><br /></td></tr>
<tr class="separator:gae9ebbded75b53d4faeb1e4ef8b3347a2"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga4e276cb823cc5e612d4f89ed99c75039"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga4e276cb823cc5e612d4f89ed99c75039"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga4e276cb823cc5e612d4f89ed99c75039">root_half_pi</a> ()</td></tr>
<tr class="memdesc:ga4e276cb823cc5e612d4f89ed99c75039"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return sqrt(pi / 2). <a href="a00162.html#ga4e276cb823cc5e612d4f89ed99c75039">More...</a><br /></td></tr>
<tr class="separator:ga4e276cb823cc5e612d4f89ed99c75039"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga4129412e96b33707a77c1a07652e23e2"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga4129412e96b33707a77c1a07652e23e2"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga4129412e96b33707a77c1a07652e23e2">root_ln_four</a> ()</td></tr>
<tr class="memdesc:ga4129412e96b33707a77c1a07652e23e2"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return sqrt(ln(4)). <a href="a00162.html#ga4129412e96b33707a77c1a07652e23e2">More...</a><br /></td></tr>
<tr class="separator:ga4129412e96b33707a77c1a07652e23e2"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga261380796b2cd496f68d2cf1d08b8eb9"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga261380796b2cd496f68d2cf1d08b8eb9"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga261380796b2cd496f68d2cf1d08b8eb9">root_pi</a> ()</td></tr>
<tr class="memdesc:ga261380796b2cd496f68d2cf1d08b8eb9"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return square root of pi. <a href="a00162.html#ga261380796b2cd496f68d2cf1d08b8eb9">More...</a><br /></td></tr>
<tr class="separator:ga261380796b2cd496f68d2cf1d08b8eb9"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga4f286be4abe88be1eed7d2a9f6cb193e"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga4f286be4abe88be1eed7d2a9f6cb193e"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga4f286be4abe88be1eed7d2a9f6cb193e">root_three</a> ()</td></tr>
<tr class="memdesc:ga4f286be4abe88be1eed7d2a9f6cb193e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return sqrt(3). <a href="a00162.html#ga4f286be4abe88be1eed7d2a9f6cb193e">More...</a><br /></td></tr>
<tr class="separator:ga4f286be4abe88be1eed7d2a9f6cb193e"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga74e607d29020f100c0d0dc46ce2ca950"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga74e607d29020f100c0d0dc46ce2ca950"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga74e607d29020f100c0d0dc46ce2ca950">root_two</a> ()</td></tr>
<tr class="memdesc:ga74e607d29020f100c0d0dc46ce2ca950"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return sqrt(2). <a href="a00162.html#ga74e607d29020f100c0d0dc46ce2ca950">More...</a><br /></td></tr>
<tr class="separator:ga74e607d29020f100c0d0dc46ce2ca950"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2bcedc575039fe0cd765742f8bbb0bd3"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga2bcedc575039fe0cd765742f8bbb0bd3"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga2bcedc575039fe0cd765742f8bbb0bd3">root_two_pi</a> ()</td></tr>
<tr class="memdesc:ga2bcedc575039fe0cd765742f8bbb0bd3"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return sqrt(2 * pi). <a href="a00162.html#ga2bcedc575039fe0cd765742f8bbb0bd3">More...</a><br /></td></tr>
<tr class="separator:ga2bcedc575039fe0cd765742f8bbb0bd3"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga3077c6311010a214b69ddc8214ec13b5"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga3077c6311010a214b69ddc8214ec13b5"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga3077c6311010a214b69ddc8214ec13b5">third</a> ()</td></tr>
<tr class="memdesc:ga3077c6311010a214b69ddc8214ec13b5"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 1 / 3. <a href="a00162.html#ga3077c6311010a214b69ddc8214ec13b5">More...</a><br /></td></tr>
<tr class="separator:ga3077c6311010a214b69ddc8214ec13b5"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gae94950df74b0ce382b1fc1d978ef7394"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gae94950df74b0ce382b1fc1d978ef7394"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#gae94950df74b0ce382b1fc1d978ef7394">three_over_two_pi</a> ()</td></tr>
<tr class="memdesc:gae94950df74b0ce382b1fc1d978ef7394"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return pi / 2 * 3. <a href="a00162.html#gae94950df74b0ce382b1fc1d978ef7394">More...</a><br /></td></tr>
<tr class="separator:gae94950df74b0ce382b1fc1d978ef7394"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga74eadc8a211253079683219a3ea0462a"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga74eadc8a211253079683219a3ea0462a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga74eadc8a211253079683219a3ea0462a">two_over_pi</a> ()</td></tr>
<tr class="memdesc:ga74eadc8a211253079683219a3ea0462a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 2 / pi. <a href="a00162.html#ga74eadc8a211253079683219a3ea0462a">More...</a><br /></td></tr>
<tr class="separator:ga74eadc8a211253079683219a3ea0462a"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga5827301817640843cf02026a8d493894"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga5827301817640843cf02026a8d493894"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga5827301817640843cf02026a8d493894">two_over_root_pi</a> ()</td></tr>
<tr class="memdesc:ga5827301817640843cf02026a8d493894"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 2 / sqrt(pi). <a href="a00162.html#ga5827301817640843cf02026a8d493894">More...</a><br /></td></tr>
<tr class="separator:ga5827301817640843cf02026a8d493894"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaa5276a4617566abcfe49286f40e3a256"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gaa5276a4617566abcfe49286f40e3a256"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#gaa5276a4617566abcfe49286f40e3a256">two_pi</a> ()</td></tr>
<tr class="memdesc:gaa5276a4617566abcfe49286f40e3a256"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return pi * 2. <a href="a00162.html#gaa5276a4617566abcfe49286f40e3a256">More...</a><br /></td></tr>
<tr class="separator:gaa5276a4617566abcfe49286f40e3a256"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga9b4d2f4322edcf63a6737b92a29dd1f5"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga9b4d2f4322edcf63a6737b92a29dd1f5"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga9b4d2f4322edcf63a6737b92a29dd1f5">two_thirds</a> ()</td></tr>
<tr class="memdesc:ga9b4d2f4322edcf63a6737b92a29dd1f5"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 2 / 3. <a href="a00162.html#ga9b4d2f4322edcf63a6737b92a29dd1f5">More...</a><br /></td></tr>
<tr class="separator:ga9b4d2f4322edcf63a6737b92a29dd1f5"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga788f5a421fc0f40a1296ebc094cbaa8a"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga788f5a421fc0f40a1296ebc094cbaa8a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL GLM_CONSTEXPR genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00162.html#ga788f5a421fc0f40a1296ebc094cbaa8a">zero</a> ()</td></tr>
<tr class="memdesc:ga788f5a421fc0f40a1296ebc094cbaa8a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return 0. <a href="a00162.html#ga788f5a421fc0f40a1296ebc094cbaa8a">More...</a><br /></td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00162.html">GLM_GTC_constants</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00019_source.html">constants.hpp</a>.</p>
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<a href="a00019.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependencies</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../detail/setup.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTC_constants extension included&quot;)</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;{</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;</div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">epsilon</a>();</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga788f5a421fc0f40a1296ebc094cbaa8a">zero</a>();</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga39c2fb227631ca25894326529bdd1ee5">one</a>();</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga94bafeb2a0f23ab6450fed1f98ee4e45">pi</a>();</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#gaa5276a4617566abcfe49286f40e3a256">two_pi</a>();</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga261380796b2cd496f68d2cf1d08b8eb9">root_pi</a>();</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga0c36b41d462e45641faf7d7938948bac">half_pi</a>();</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160;</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#gae94950df74b0ce382b1fc1d978ef7394">three_over_two_pi</a>();</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160;</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga3c9df42bd73c519a995c43f0f99e77e0">quarter_pi</a>();</div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160;</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga555150da2b06d23c8738981d5013e0eb">one_over_pi</a>();</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga7c922b427986cbb2e4c6ac69874eefbc">one_over_two_pi</a>();</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga74eadc8a211253079683219a3ea0462a">two_over_pi</a>();</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160;</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga753950e5140e4ea6a88e4a18ba61dc09">four_over_pi</a>();</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga5827301817640843cf02026a8d493894">two_over_root_pi</a>();</div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160;</div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga788fa23a0939bac4d1d0205fb4f35818">one_over_root_two</a>();</div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160;</div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga4e276cb823cc5e612d4f89ed99c75039">root_half_pi</a>();</div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160;</div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga2bcedc575039fe0cd765742f8bbb0bd3">root_two_pi</a>();</div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160;</div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00115"></a><span class="lineno"> 115</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga4129412e96b33707a77c1a07652e23e2">root_ln_four</a>();</div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160;</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">e</a>();</div>
<div class="line"><a name="l00121"></a><span class="lineno"> 121</span>&#160;</div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#gad8fe2e6f90bce9d829e9723b649fbd42">euler</a>();</div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160;</div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga74e607d29020f100c0d0dc46ce2ca950">root_two</a>();</div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160;</div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00135"></a><span class="lineno"> 135</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga4f286be4abe88be1eed7d2a9f6cb193e">root_three</a>();</div>
<div class="line"><a name="l00136"></a><span class="lineno"> 136</span>&#160;</div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#gae9ebbded75b53d4faeb1e4ef8b3347a2">root_five</a>();</div>
<div class="line"><a name="l00141"></a><span class="lineno"> 141</span>&#160;</div>
<div class="line"><a name="l00144"></a><span class="lineno"> 144</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00145"></a><span class="lineno"> 145</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga24f4d27765678116f41a2f336ab7975c">ln_two</a>();</div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160;</div>
<div class="line"><a name="l00149"></a><span class="lineno"> 149</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00150"></a><span class="lineno"> 150</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#gaf97ebc6c059ffd788e6c4946f71ef66c">ln_ten</a>();</div>
<div class="line"><a name="l00151"></a><span class="lineno"> 151</span>&#160;</div>
<div class="line"><a name="l00154"></a><span class="lineno"> 154</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00155"></a><span class="lineno"> 155</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#gaca94292c839ed31a405ab7a81ae7e850">ln_ln_two</a>();</div>
<div class="line"><a name="l00156"></a><span class="lineno"> 156</span>&#160;</div>
<div class="line"><a name="l00159"></a><span class="lineno"> 159</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00160"></a><span class="lineno"> 160</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga3077c6311010a214b69ddc8214ec13b5">third</a>();</div>
<div class="line"><a name="l00161"></a><span class="lineno"> 161</span>&#160;</div>
<div class="line"><a name="l00164"></a><span class="lineno"> 164</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00165"></a><span class="lineno"> 165</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga9b4d2f4322edcf63a6737b92a29dd1f5">two_thirds</a>();</div>
<div class="line"><a name="l00166"></a><span class="lineno"> 166</span>&#160;</div>
<div class="line"><a name="l00169"></a><span class="lineno"> 169</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00170"></a><span class="lineno"> 170</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR genType <a class="code" href="a00162.html#ga748cf8642830657c5b7eae04d0a80899">golden_ratio</a>();</div>
<div class="line"><a name="l00171"></a><span class="lineno"> 171</span>&#160;</div>
<div class="line"><a name="l00173"></a><span class="lineno"> 173</span>&#160;} <span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00174"></a><span class="lineno"> 174</span>&#160;</div>
<div class="line"><a name="l00175"></a><span class="lineno"> 175</span>&#160;<span class="preprocessor">#include &quot;constants.inl&quot;</span></div>
<div class="ttc" id="a00162_html_ga74e607d29020f100c0d0dc46ce2ca950"><div class="ttname"><a href="a00162.html#ga74e607d29020f100c0d0dc46ce2ca950">glm::root_two</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType root_two()</div><div class="ttdoc">Return sqrt(2). </div></div>
<div class="ttc" id="a00162_html_ga261380796b2cd496f68d2cf1d08b8eb9"><div class="ttname"><a href="a00162.html#ga261380796b2cd496f68d2cf1d08b8eb9">glm::root_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType root_pi()</div><div class="ttdoc">Return square root of pi. </div></div>
<div class="ttc" id="a00162_html_ga788f5a421fc0f40a1296ebc094cbaa8a"><div class="ttname"><a href="a00162.html#ga788f5a421fc0f40a1296ebc094cbaa8a">glm::zero</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType zero()</div><div class="ttdoc">Return 0. </div></div>
<div class="ttc" id="a00162_html_ga39c2fb227631ca25894326529bdd1ee5"><div class="ttname"><a href="a00162.html#ga39c2fb227631ca25894326529bdd1ee5">glm::one</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType one()</div><div class="ttdoc">Return 1. </div></div>
<div class="ttc" id="a00162_html_gad8fe2e6f90bce9d829e9723b649fbd42"><div class="ttname"><a href="a00162.html#gad8fe2e6f90bce9d829e9723b649fbd42">glm::euler</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType euler()</div><div class="ttdoc">Return Euler&#39;s constant. </div></div>
<div class="ttc" id="a00162_html_ga2a1e57fc5592b69cfae84174cbfc9429"><div class="ttname"><a href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">glm::epsilon</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType epsilon()</div><div class="ttdoc">Return the epsilon constant for floating point types. </div></div>
<div class="ttc" id="a00162_html_ga4b7956eb6e2fbedfc7cf2e46e85c5139"><div class="ttname"><a href="a00162.html#ga4b7956eb6e2fbedfc7cf2e46e85c5139">glm::e</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType e()</div><div class="ttdoc">Return e constant. </div></div>
<div class="ttc" id="a00162_html_ga5827301817640843cf02026a8d493894"><div class="ttname"><a href="a00162.html#ga5827301817640843cf02026a8d493894">glm::two_over_root_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType two_over_root_pi()</div><div class="ttdoc">Return 2 / sqrt(pi). </div></div>
<div class="ttc" id="a00162_html_ga4f286be4abe88be1eed7d2a9f6cb193e"><div class="ttname"><a href="a00162.html#ga4f286be4abe88be1eed7d2a9f6cb193e">glm::root_three</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType root_three()</div><div class="ttdoc">Return sqrt(3). </div></div>
<div class="ttc" id="a00162_html_gaf97ebc6c059ffd788e6c4946f71ef66c"><div class="ttname"><a href="a00162.html#gaf97ebc6c059ffd788e6c4946f71ef66c">glm::ln_ten</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType ln_ten()</div><div class="ttdoc">Return ln(10). </div></div>
<div class="ttc" id="a00162_html_ga3077c6311010a214b69ddc8214ec13b5"><div class="ttname"><a href="a00162.html#ga3077c6311010a214b69ddc8214ec13b5">glm::third</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType third()</div><div class="ttdoc">Return 1 / 3. </div></div>
<div class="ttc" id="a00162_html_ga24f4d27765678116f41a2f336ab7975c"><div class="ttname"><a href="a00162.html#ga24f4d27765678116f41a2f336ab7975c">glm::ln_two</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType ln_two()</div><div class="ttdoc">Return ln(2). </div></div>
<div class="ttc" id="a00162_html_ga788fa23a0939bac4d1d0205fb4f35818"><div class="ttname"><a href="a00162.html#ga788fa23a0939bac4d1d0205fb4f35818">glm::one_over_root_two</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType one_over_root_two()</div><div class="ttdoc">Return 1 / sqrt(2). </div></div>
<div class="ttc" id="a00162_html_gaca94292c839ed31a405ab7a81ae7e850"><div class="ttname"><a href="a00162.html#gaca94292c839ed31a405ab7a81ae7e850">glm::ln_ln_two</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType ln_ln_two()</div><div class="ttdoc">Return ln(ln(2)). </div></div>
<div class="ttc" id="a00162_html_gae94950df74b0ce382b1fc1d978ef7394"><div class="ttname"><a href="a00162.html#gae94950df74b0ce382b1fc1d978ef7394">glm::three_over_two_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType three_over_two_pi()</div><div class="ttdoc">Return pi / 2 * 3. </div></div>
<div class="ttc" id="a00162_html_ga0c36b41d462e45641faf7d7938948bac"><div class="ttname"><a href="a00162.html#ga0c36b41d462e45641faf7d7938948bac">glm::half_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType half_pi()</div><div class="ttdoc">Return pi / 2. </div></div>
<div class="ttc" id="a00162_html_ga7c922b427986cbb2e4c6ac69874eefbc"><div class="ttname"><a href="a00162.html#ga7c922b427986cbb2e4c6ac69874eefbc">glm::one_over_two_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType one_over_two_pi()</div><div class="ttdoc">Return 1 / (pi * 2). </div></div>
<div class="ttc" id="a00162_html_gae9ebbded75b53d4faeb1e4ef8b3347a2"><div class="ttname"><a href="a00162.html#gae9ebbded75b53d4faeb1e4ef8b3347a2">glm::root_five</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType root_five()</div><div class="ttdoc">Return sqrt(5). </div></div>
<div class="ttc" id="a00162_html_ga4e276cb823cc5e612d4f89ed99c75039"><div class="ttname"><a href="a00162.html#ga4e276cb823cc5e612d4f89ed99c75039">glm::root_half_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType root_half_pi()</div><div class="ttdoc">Return sqrt(pi / 2). </div></div>
<div class="ttc" id="a00162_html_ga2bcedc575039fe0cd765742f8bbb0bd3"><div class="ttname"><a href="a00162.html#ga2bcedc575039fe0cd765742f8bbb0bd3">glm::root_two_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType root_two_pi()</div><div class="ttdoc">Return sqrt(2 * pi). </div></div>
<div class="ttc" id="a00162_html_ga753950e5140e4ea6a88e4a18ba61dc09"><div class="ttname"><a href="a00162.html#ga753950e5140e4ea6a88e4a18ba61dc09">glm::four_over_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType four_over_pi()</div><div class="ttdoc">Return 4 / pi. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00162_html_ga4129412e96b33707a77c1a07652e23e2"><div class="ttname"><a href="a00162.html#ga4129412e96b33707a77c1a07652e23e2">glm::root_ln_four</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType root_ln_four()</div><div class="ttdoc">Return sqrt(ln(4)). </div></div>
<div class="ttc" id="a00162_html_ga555150da2b06d23c8738981d5013e0eb"><div class="ttname"><a href="a00162.html#ga555150da2b06d23c8738981d5013e0eb">glm::one_over_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType one_over_pi()</div><div class="ttdoc">Return 1 / pi. </div></div>
<div class="ttc" id="a00162_html_ga9b4d2f4322edcf63a6737b92a29dd1f5"><div class="ttname"><a href="a00162.html#ga9b4d2f4322edcf63a6737b92a29dd1f5">glm::two_thirds</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType two_thirds()</div><div class="ttdoc">Return 2 / 3. </div></div>
<div class="ttc" id="a00162_html_ga3c9df42bd73c519a995c43f0f99e77e0"><div class="ttname"><a href="a00162.html#ga3c9df42bd73c519a995c43f0f99e77e0">glm::quarter_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType quarter_pi()</div><div class="ttdoc">Return pi / 4. </div></div>
<div class="ttc" id="a00162_html_ga94bafeb2a0f23ab6450fed1f98ee4e45"><div class="ttname"><a href="a00162.html#ga94bafeb2a0f23ab6450fed1f98ee4e45">glm::pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType pi()</div><div class="ttdoc">Return the pi constant. </div></div>
<div class="ttc" id="a00162_html_ga74eadc8a211253079683219a3ea0462a"><div class="ttname"><a href="a00162.html#ga74eadc8a211253079683219a3ea0462a">glm::two_over_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType two_over_pi()</div><div class="ttdoc">Return 2 / pi. </div></div>
<div class="ttc" id="a00162_html_ga748cf8642830657c5b7eae04d0a80899"><div class="ttname"><a href="a00162.html#ga748cf8642830657c5b7eae04d0a80899">glm::golden_ratio</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType golden_ratio()</div><div class="ttdoc">Return the golden ratio constant. </div></div>
<div class="ttc" id="a00162_html_gaa5276a4617566abcfe49286f40e3a256"><div class="ttname"><a href="a00162.html#gaa5276a4617566abcfe49286f40e3a256">glm::two_pi</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType two_pi()</div><div class="ttdoc">Return pi * 2. </div></div>
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Typedefs</h2></td></tr>
<tr class="memitem:ga3d71f98d84ba59dfe4e369fde4714cd6"><td class="memItemLeft" align="right" valign="top">typedef highp_ddualquat&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#ga3d71f98d84ba59dfe4e369fde4714cd6">ddualquat</a></td></tr>
<tr class="memdesc:ga3d71f98d84ba59dfe4e369fde4714cd6"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of default double-precision floating-point numbers. <a href="a00189.html#ga3d71f98d84ba59dfe4e369fde4714cd6">More...</a><br /></td></tr>
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<tr class="memdesc:gae93abee0c979902fbec6a7bee0f6fae1"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of floating-point numbers. <a href="a00189.html#gae93abee0c979902fbec6a7bee0f6fae1">More...</a><br /></td></tr>
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<tr class="memdesc:ga237c2b9b42c9a930e49de5840ae0f930"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of single-precision floating-point numbers. <a href="a00189.html#ga237c2b9b42c9a930e49de5840ae0f930">More...</a><br /></td></tr>
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<tr class="memitem:ga8f67eafa7197d7a668dad5105a463d2a"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; double, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#ga8f67eafa7197d7a668dad5105a463d2a">highp_ddualquat</a></td></tr>
<tr class="memdesc:ga8f67eafa7197d7a668dad5105a463d2a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of high double-precision floating-point numbers. <a href="a00189.html#ga8f67eafa7197d7a668dad5105a463d2a">More...</a><br /></td></tr>
<tr class="separator:ga8f67eafa7197d7a668dad5105a463d2a"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga9ef5bf1da52a9d4932335a517086ceaf"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#ga9ef5bf1da52a9d4932335a517086ceaf">highp_dualquat</a></td></tr>
<tr class="memdesc:ga9ef5bf1da52a9d4932335a517086ceaf"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of high single-precision floating-point numbers. <a href="a00189.html#ga9ef5bf1da52a9d4932335a517086ceaf">More...</a><br /></td></tr>
<tr class="separator:ga9ef5bf1da52a9d4932335a517086ceaf"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga4c4e55e9c99dc57b299ed590968da564"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; float, highp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#ga4c4e55e9c99dc57b299ed590968da564">highp_fdualquat</a></td></tr>
<tr class="memdesc:ga4c4e55e9c99dc57b299ed590968da564"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of high single-precision floating-point numbers. <a href="a00189.html#ga4c4e55e9c99dc57b299ed590968da564">More...</a><br /></td></tr>
<tr class="separator:ga4c4e55e9c99dc57b299ed590968da564"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gab4c5103338af3dac7e0fbc86895a3f1a"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; double, lowp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#gab4c5103338af3dac7e0fbc86895a3f1a">lowp_ddualquat</a></td></tr>
<tr class="memdesc:gab4c5103338af3dac7e0fbc86895a3f1a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of low double-precision floating-point numbers. <a href="a00189.html#gab4c5103338af3dac7e0fbc86895a3f1a">More...</a><br /></td></tr>
<tr class="separator:gab4c5103338af3dac7e0fbc86895a3f1a"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gade05d29ebd4deea0f883d0e1bb4169aa"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; float, lowp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#gade05d29ebd4deea0f883d0e1bb4169aa">lowp_dualquat</a></td></tr>
<tr class="memdesc:gade05d29ebd4deea0f883d0e1bb4169aa"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of low single-precision floating-point numbers. <a href="a00189.html#gade05d29ebd4deea0f883d0e1bb4169aa">More...</a><br /></td></tr>
<tr class="separator:gade05d29ebd4deea0f883d0e1bb4169aa"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaa38f671be25a7f3b136a452a8bb42860"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; float, lowp &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#gaa38f671be25a7f3b136a452a8bb42860">lowp_fdualquat</a></td></tr>
<tr class="memdesc:gaa38f671be25a7f3b136a452a8bb42860"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of low single-precision floating-point numbers. <a href="a00189.html#gaa38f671be25a7f3b136a452a8bb42860">More...</a><br /></td></tr>
<tr class="separator:gaa38f671be25a7f3b136a452a8bb42860"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga0fb11e48e2d16348ccb06a25213641b4"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; double, mediump &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#ga0fb11e48e2d16348ccb06a25213641b4">mediump_ddualquat</a></td></tr>
<tr class="memdesc:ga0fb11e48e2d16348ccb06a25213641b4"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of medium double-precision floating-point numbers. <a href="a00189.html#ga0fb11e48e2d16348ccb06a25213641b4">More...</a><br /></td></tr>
<tr class="separator:ga0fb11e48e2d16348ccb06a25213641b4"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaa7aeb54c167712b38f2178a1be2360ad"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; float, mediump &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#gaa7aeb54c167712b38f2178a1be2360ad">mediump_dualquat</a></td></tr>
<tr class="memdesc:gaa7aeb54c167712b38f2178a1be2360ad"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of medium single-precision floating-point numbers. <a href="a00189.html#gaa7aeb54c167712b38f2178a1be2360ad">More...</a><br /></td></tr>
<tr class="separator:gaa7aeb54c167712b38f2178a1be2360ad"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga4a6b594ff7e81150d8143001367a9431"><td class="memItemLeft" align="right" valign="top">typedef tdualquat&lt; float, mediump &gt;&#160;</td><td class="memItemRight" valign="bottom"><a class="el" href="a00189.html#ga4a6b594ff7e81150d8143001367a9431">mediump_fdualquat</a></td></tr>
<tr class="memdesc:ga4a6b594ff7e81150d8143001367a9431"><td class="mdescLeft">&#160;</td><td class="mdescRight">Dual-quaternion of medium single-precision floating-point numbers. <a href="a00189.html#ga4a6b594ff7e81150d8143001367a9431">More...</a><br /></td></tr>
<tr class="separator:ga4a6b594ff7e81150d8143001367a9431"><td class="memSeparator" colspan="2">&#160;</td></tr>
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Functions</h2></td></tr>
<tr class="memitem:gada9799afe2b62394dc498534beb5bc78"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:gada9799afe2b62394dc498534beb5bc78"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tdualquat&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00189.html#gada9799afe2b62394dc498534beb5bc78">dualquat_cast</a> (tmat2x4&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:gada9799afe2b62394dc498534beb5bc78"><td class="mdescLeft">&#160;</td><td class="mdescRight">Converts a 2 * 4 matrix (matrix which holds real and dual parts) to a quaternion. <a href="a00189.html#gada9799afe2b62394dc498534beb5bc78">More...</a><br /></td></tr>
<tr class="separator:gada9799afe2b62394dc498534beb5bc78"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga20eb5758beb73cc6dbc2d9104f03ec20"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga20eb5758beb73cc6dbc2d9104f03ec20"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tdualquat&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00189.html#ga20eb5758beb73cc6dbc2d9104f03ec20">dualquat_cast</a> (tmat3x4&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:ga20eb5758beb73cc6dbc2d9104f03ec20"><td class="mdescLeft">&#160;</td><td class="mdescRight">Converts a 3 * 4 matrix (augmented matrix rotation + translation) to a quaternion. <a href="a00189.html#ga20eb5758beb73cc6dbc2d9104f03ec20">More...</a><br /></td></tr>
<tr class="separator:ga20eb5758beb73cc6dbc2d9104f03ec20"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2149d3cb8af04d9530de0cd16aa1aab2"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga2149d3cb8af04d9530de0cd16aa1aab2"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tdualquat&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00189.html#ga2149d3cb8af04d9530de0cd16aa1aab2">inverse</a> (tdualquat&lt; T, P &gt; const &amp;q)</td></tr>
<tr class="memdesc:ga2149d3cb8af04d9530de0cd16aa1aab2"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns the q inverse. <a href="a00189.html#ga2149d3cb8af04d9530de0cd16aa1aab2">More...</a><br /></td></tr>
<tr class="separator:ga2149d3cb8af04d9530de0cd16aa1aab2"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga8039b88397ca09275be924a26a806a59"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga8039b88397ca09275be924a26a806a59"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tdualquat&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00189.html#ga8039b88397ca09275be924a26a806a59">lerp</a> (tdualquat&lt; T, P &gt; const &amp;x, tdualquat&lt; T, P &gt; const &amp;y, T const &amp;a)</td></tr>
<tr class="memdesc:ga8039b88397ca09275be924a26a806a59"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns the linear interpolation of two dual quaternion. <a href="a00189.html#ga8039b88397ca09275be924a26a806a59">More...</a><br /></td></tr>
<tr class="separator:ga8039b88397ca09275be924a26a806a59"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga2d124748183e12db8288eeaca350298e"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga2d124748183e12db8288eeaca350298e"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat2x4&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00189.html#ga2d124748183e12db8288eeaca350298e">mat2x4_cast</a> (tdualquat&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:ga2d124748183e12db8288eeaca350298e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Converts a quaternion to a 2 * 4 matrix. <a href="a00189.html#ga2d124748183e12db8288eeaca350298e">More...</a><br /></td></tr>
<tr class="separator:ga2d124748183e12db8288eeaca350298e"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga576745d979e3c079a64152490c816954"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga576745d979e3c079a64152490c816954"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat3x4&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00189.html#ga576745d979e3c079a64152490c816954">mat3x4_cast</a> (tdualquat&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:ga576745d979e3c079a64152490c816954"><td class="mdescLeft">&#160;</td><td class="mdescRight">Converts a quaternion to a 3 * 4 matrix. <a href="a00189.html#ga576745d979e3c079a64152490c816954">More...</a><br /></td></tr>
<tr class="separator:ga576745d979e3c079a64152490c816954"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga495818aa48c23e9e730f87a3c337d1d5"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga495818aa48c23e9e730f87a3c337d1d5"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tdualquat&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00189.html#ga495818aa48c23e9e730f87a3c337d1d5">normalize</a> (tdualquat&lt; T, P &gt; const &amp;q)</td></tr>
<tr class="memdesc:ga495818aa48c23e9e730f87a3c337d1d5"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns the normalized quaternion. <a href="a00189.html#ga495818aa48c23e9e730f87a3c337d1d5">More...</a><br /></td></tr>
<tr class="separator:ga495818aa48c23e9e730f87a3c337d1d5"><td class="memSeparator" colspan="2">&#160;</td></tr>
</table>
<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00189.html">GLM_GTX_dual_quaternion</a> </p>
<dl class="section author"><dt>Author</dt><dd>Maksim Vorobiev (<a href="#" onclick="location.href='mai'+'lto:'+'mso'+'me'+'one'+'@g'+'mai'+'l.'+'com'; return false;">msome<span style="display: none;">.nosp@m.</span>one@<span style="display: none;">.nosp@m.</span>gmail<span style="display: none;">.nosp@m.</span>.com</a>)</dd></dl>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd>
<dd>
<a class="el" href="a00162.html" title="Provide a list of constants and precomputed useful values. ">GLM_GTC_constants</a> (dependence) </dd>
<dd>
<a class="el" href="a00172.html" title="Defines a templated quaternion type and several quaternion operations. ">GLM_GTC_quaternion</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00020_source.html">dual_quaternion.hpp</a>.</p>
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<a href="a00020.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#include &quot;../gtc/constants.hpp&quot;</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor">#include &quot;../gtc/quaternion.hpp&quot;</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;</div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_dual_quaternion is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;</div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_dual_quaternion extension included&quot;)</span></div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160;{</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160;</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P = defaultp&gt;</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; <span class="keyword">struct </span>tdualquat</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; {</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; <span class="comment">// -- Implementation detail --</span></div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160;</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; <span class="keyword">typedef</span> T value_type;</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; <span class="keyword">typedef</span> glm::tquat&lt;T, P&gt; part_type;</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; <span class="comment">// -- Data --</span></div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160; glm::tquat&lt;T, P&gt; real, dual;</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160;</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160; <span class="comment">// -- Component accesses --</span></div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; <span class="keyword">typedef</span> length_t length_type;</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160; GLM_FUNC_DECL <span class="keyword">static</span> length_type <a class="code" href="a00147.html#ga18d45e3d4c7705e67ccfabd99e521604">length</a>(){<span class="keywordflow">return</span> 2;}</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; GLM_FUNC_DECL part_type &amp; operator[](length_type i);</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160; GLM_FUNC_DECL part_type <span class="keyword">const</span> &amp; operator[](length_type i) <span class="keyword">const</span>;</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;</div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160; <span class="comment">// -- Implicit basic constructors --</span></div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR tdualquat() GLM_DEFAULT_CTOR;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(tdualquat&lt;T, P&gt; const &amp; d) GLM_DEFAULT;</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; template &lt;precision Q&gt;</div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(tdualquat&lt;T, Q&gt; const &amp; d);</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160;</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; <span class="comment">// -- Explicit basic constructors --</span></div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR_CTOR explicit tdualquat(ctor);</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(tquat&lt;T, P&gt; const &amp; real);</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(tquat&lt;T, P&gt; const &amp; <a class="code" href="a00224.html#ga49b4d082305cdfcfe0a5c184f684a902">orientation</a>, tvec3&lt;T, P&gt; const &amp; translation);</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR tdualquat(tquat&lt;T, P&gt; const &amp; real, tquat&lt;T, P&gt; const &amp; dual);</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;</div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160; <span class="comment">// -- Conversion constructors --</span></div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;</div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160; template &lt;typename U, precision Q&gt;</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; GLM_FUNC_DECL GLM_CONSTEXPR GLM_EXPLICIT tdualquat(tdualquat&lt;U, Q&gt; const &amp; q);</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160;</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160; GLM_FUNC_DECL GLM_EXPLICIT tdualquat(tmat2x4&lt;T, P&gt; const &amp; holder_mat);</div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160; GLM_FUNC_DECL GLM_EXPLICIT tdualquat(tmat3x4&lt;T, P&gt; const &amp; aug_mat);</div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160;</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; <span class="comment">// -- Unary arithmetic operators --</span></div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160;</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; &amp; operator=(tdualquat&lt;T, P&gt; const &amp; m) GLM_DEFAULT;</div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160;</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160; template &lt;typename U&gt;</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; &amp; operator=(tdualquat&lt;U, P&gt; const &amp; m);</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; template &lt;typename U&gt;</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; &amp; operator*=(U s);</div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; template &lt;typename U&gt;</div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; &amp; operator/=(U s);</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; };</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160;</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160; <span class="comment">// -- Unary bit operators --</span></div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; operator+(tdualquat&lt;T, P&gt; const &amp; q);</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160;</div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; operator-(tdualquat&lt;T, P&gt; const &amp; q);</div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160;</div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160; <span class="comment">// -- Binary operators --</span></div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160;</div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; operator+(tdualquat&lt;T, P&gt; const &amp; q, tdualquat&lt;T, P&gt; const &amp; p);</div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160;</div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; operator*(tdualquat&lt;T, P&gt; const &amp; q, tdualquat&lt;T, P&gt; const &amp; p);</div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160;</div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00108"></a><span class="lineno"> 108</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; operator*(tdualquat&lt;T, P&gt; const &amp; q, tvec3&lt;T, P&gt; const &amp; v);</div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160;</div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160; GLM_FUNC_DECL tvec3&lt;T, P&gt; operator*(tvec3&lt;T, P&gt; const &amp; v, tdualquat&lt;T, P&gt; const &amp; q);</div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160;</div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160; GLM_FUNC_DECL tvec4&lt;T, P&gt; operator*(tdualquat&lt;T, P&gt; const &amp; q, tvec4&lt;T, P&gt; const &amp; v);</div>
<div class="line"><a name="l00115"></a><span class="lineno"> 115</span>&#160;</div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160; GLM_FUNC_DECL tvec4&lt;T, P&gt; operator*(tvec4&lt;T, P&gt; const &amp; v, tdualquat&lt;T, P&gt; const &amp; q);</div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160;</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; operator*(tdualquat&lt;T, P&gt; const &amp; q, T const &amp; s);</div>
<div class="line"><a name="l00121"></a><span class="lineno"> 121</span>&#160;</div>
<div class="line"><a name="l00122"></a><span class="lineno"> 122</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; operator*(T const &amp; s, tdualquat&lt;T, P&gt; const &amp; q);</div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160;</div>
<div class="line"><a name="l00125"></a><span class="lineno"> 125</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00126"></a><span class="lineno"> 126</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; operator/(tdualquat&lt;T, P&gt; const &amp; q, T const &amp; s);</div>
<div class="line"><a name="l00127"></a><span class="lineno"> 127</span>&#160;</div>
<div class="line"><a name="l00128"></a><span class="lineno"> 128</span>&#160; <span class="comment">// -- Boolean operators --</span></div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160;</div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160; GLM_FUNC_DECL <span class="keywordtype">bool</span> operator==(tdualquat&lt;T, P&gt; const &amp; q1, tdualquat&lt;T, P&gt; const &amp; q2);</div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160;</div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160; GLM_FUNC_DECL <span class="keywordtype">bool</span> operator!=(tdualquat&lt;T, P&gt; const &amp; q1, tdualquat&lt;T, P&gt; const &amp; q2);</div>
<div class="line"><a name="l00135"></a><span class="lineno"> 135</span>&#160;</div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; <a class="code" href="a00189.html#ga495818aa48c23e9e730f87a3c337d1d5">normalize</a>(tdualquat&lt;T, P&gt; const &amp; q);</div>
<div class="line"><a name="l00141"></a><span class="lineno"> 141</span>&#160;</div>
<div class="line"><a name="l00145"></a><span class="lineno"> 145</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; <a class="code" href="a00189.html#ga8039b88397ca09275be924a26a806a59">lerp</a>(tdualquat&lt;T, P&gt; const &amp; x, tdualquat&lt;T, P&gt; const &amp; y, T const &amp; a);</div>
<div class="line"><a name="l00147"></a><span class="lineno"> 147</span>&#160;</div>
<div class="line"><a name="l00151"></a><span class="lineno"> 151</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00152"></a><span class="lineno"> 152</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; <a class="code" href="a00189.html#ga2149d3cb8af04d9530de0cd16aa1aab2">inverse</a>(tdualquat&lt;T, P&gt; const &amp; q);</div>
<div class="line"><a name="l00153"></a><span class="lineno"> 153</span>&#160;</div>
<div class="line"><a name="l00157"></a><span class="lineno"> 157</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00158"></a><span class="lineno"> 158</span>&#160; GLM_FUNC_DECL tmat2x4&lt;T, P&gt; <a class="code" href="a00189.html#ga2d124748183e12db8288eeaca350298e">mat2x4_cast</a>(tdualquat&lt;T, P&gt; const &amp; x);</div>
<div class="line"><a name="l00159"></a><span class="lineno"> 159</span>&#160;</div>
<div class="line"><a name="l00163"></a><span class="lineno"> 163</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00164"></a><span class="lineno"> 164</span>&#160; GLM_FUNC_DECL tmat3x4&lt;T, P&gt; <a class="code" href="a00189.html#ga576745d979e3c079a64152490c816954">mat3x4_cast</a>(tdualquat&lt;T, P&gt; const &amp; x);</div>
<div class="line"><a name="l00165"></a><span class="lineno"> 165</span>&#160;</div>
<div class="line"><a name="l00169"></a><span class="lineno"> 169</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00170"></a><span class="lineno"> 170</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; <a class="code" href="a00189.html#ga20eb5758beb73cc6dbc2d9104f03ec20">dualquat_cast</a>(tmat2x4&lt;T, P&gt; const &amp; x);</div>
<div class="line"><a name="l00171"></a><span class="lineno"> 171</span>&#160;</div>
<div class="line"><a name="l00175"></a><span class="lineno"> 175</span>&#160; template &lt;typename T, precision P&gt;</div>
<div class="line"><a name="l00176"></a><span class="lineno"> 176</span>&#160; GLM_FUNC_DECL tdualquat&lt;T, P&gt; <a class="code" href="a00189.html#ga20eb5758beb73cc6dbc2d9104f03ec20">dualquat_cast</a>(tmat3x4&lt;T, P&gt; const &amp; x);</div>
<div class="line"><a name="l00177"></a><span class="lineno"> 177</span>&#160;</div>
<div class="line"><a name="l00178"></a><span class="lineno"> 178</span>&#160;</div>
<div class="line"><a name="l00182"></a><span class="lineno"><a class="line" href="a00189.html#gade05d29ebd4deea0f883d0e1bb4169aa"> 182</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">float</span>, lowp&gt; <a class="code" href="a00189.html#gade05d29ebd4deea0f883d0e1bb4169aa">lowp_dualquat</a>;</div>
<div class="line"><a name="l00183"></a><span class="lineno"> 183</span>&#160;</div>
<div class="line"><a name="l00187"></a><span class="lineno"><a class="line" href="a00189.html#gaa7aeb54c167712b38f2178a1be2360ad"> 187</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">float</span>, mediump&gt; <a class="code" href="a00189.html#gaa7aeb54c167712b38f2178a1be2360ad">mediump_dualquat</a>;</div>
<div class="line"><a name="l00188"></a><span class="lineno"> 188</span>&#160;</div>
<div class="line"><a name="l00192"></a><span class="lineno"><a class="line" href="a00189.html#ga9ef5bf1da52a9d4932335a517086ceaf"> 192</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">float</span>, highp&gt; <a class="code" href="a00189.html#ga9ef5bf1da52a9d4932335a517086ceaf">highp_dualquat</a>;</div>
<div class="line"><a name="l00193"></a><span class="lineno"> 193</span>&#160;</div>
<div class="line"><a name="l00194"></a><span class="lineno"> 194</span>&#160;</div>
<div class="line"><a name="l00198"></a><span class="lineno"><a class="line" href="a00189.html#gaa38f671be25a7f3b136a452a8bb42860"> 198</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">float</span>, lowp&gt; <a class="code" href="a00189.html#gaa38f671be25a7f3b136a452a8bb42860">lowp_fdualquat</a>;</div>
<div class="line"><a name="l00199"></a><span class="lineno"> 199</span>&#160;</div>
<div class="line"><a name="l00203"></a><span class="lineno"><a class="line" href="a00189.html#ga4a6b594ff7e81150d8143001367a9431"> 203</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">float</span>, mediump&gt; <a class="code" href="a00189.html#ga4a6b594ff7e81150d8143001367a9431">mediump_fdualquat</a>;</div>
<div class="line"><a name="l00204"></a><span class="lineno"> 204</span>&#160;</div>
<div class="line"><a name="l00208"></a><span class="lineno"><a class="line" href="a00189.html#ga4c4e55e9c99dc57b299ed590968da564"> 208</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">float</span>, highp&gt; <a class="code" href="a00189.html#ga4c4e55e9c99dc57b299ed590968da564">highp_fdualquat</a>;</div>
<div class="line"><a name="l00209"></a><span class="lineno"> 209</span>&#160;</div>
<div class="line"><a name="l00210"></a><span class="lineno"> 210</span>&#160;</div>
<div class="line"><a name="l00214"></a><span class="lineno"><a class="line" href="a00189.html#gab4c5103338af3dac7e0fbc86895a3f1a"> 214</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">double</span>, lowp&gt; <a class="code" href="a00189.html#gab4c5103338af3dac7e0fbc86895a3f1a">lowp_ddualquat</a>;</div>
<div class="line"><a name="l00215"></a><span class="lineno"> 215</span>&#160;</div>
<div class="line"><a name="l00219"></a><span class="lineno"><a class="line" href="a00189.html#ga0fb11e48e2d16348ccb06a25213641b4"> 219</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">double</span>, mediump&gt; <a class="code" href="a00189.html#ga0fb11e48e2d16348ccb06a25213641b4">mediump_ddualquat</a>;</div>
<div class="line"><a name="l00220"></a><span class="lineno"> 220</span>&#160;</div>
<div class="line"><a name="l00224"></a><span class="lineno"><a class="line" href="a00189.html#ga8f67eafa7197d7a668dad5105a463d2a"> 224</a></span>&#160; typedef tdualquat&lt;<span class="keywordtype">double</span>, highp&gt; <a class="code" href="a00189.html#ga8f67eafa7197d7a668dad5105a463d2a">highp_ddualquat</a>;</div>
<div class="line"><a name="l00225"></a><span class="lineno"> 225</span>&#160;</div>
<div class="line"><a name="l00226"></a><span class="lineno"> 226</span>&#160;</div>
<div class="line"><a name="l00227"></a><span class="lineno"> 227</span>&#160;<span class="preprocessor">#if(!defined(GLM_PRECISION_HIGHP_FLOAT) &amp;&amp; !defined(GLM_PRECISION_MEDIUMP_FLOAT) &amp;&amp; !defined(GLM_PRECISION_LOWP_FLOAT))</span></div>
<div class="line"><a name="l00228"></a><span class="lineno"> 228</span>&#160; <span class="keyword">typedef</span> highp_fdualquat <a class="code" href="a00189.html#gae93abee0c979902fbec6a7bee0f6fae1">dualquat</a>;</div>
<div class="line"><a name="l00232"></a><span class="lineno"> 232</span>&#160;</div>
<div class="line"><a name="l00236"></a><span class="lineno"><a class="line" href="a00189.html#ga237c2b9b42c9a930e49de5840ae0f930"> 236</a></span>&#160; <span class="keyword">typedef</span> highp_fdualquat <a class="code" href="a00189.html#ga237c2b9b42c9a930e49de5840ae0f930">fdualquat</a>;</div>
<div class="line"><a name="l00237"></a><span class="lineno"> 237</span>&#160;<span class="preprocessor">#elif(defined(GLM_PRECISION_HIGHP_FLOAT) &amp;&amp; !defined(GLM_PRECISION_MEDIUMP_FLOAT) &amp;&amp; !defined(GLM_PRECISION_LOWP_FLOAT))</span></div>
<div class="line"><a name="l00238"></a><span class="lineno"> 238</span>&#160; <span class="keyword">typedef</span> highp_fdualquat <a class="code" href="a00189.html#gae93abee0c979902fbec6a7bee0f6fae1">dualquat</a>;</div>
<div class="line"><a name="l00239"></a><span class="lineno"> 239</span>&#160; <span class="keyword">typedef</span> highp_fdualquat <a class="code" href="a00189.html#ga237c2b9b42c9a930e49de5840ae0f930">fdualquat</a>;</div>
<div class="line"><a name="l00240"></a><span class="lineno"> 240</span>&#160;<span class="preprocessor">#elif(!defined(GLM_PRECISION_HIGHP_FLOAT) &amp;&amp; defined(GLM_PRECISION_MEDIUMP_FLOAT) &amp;&amp; !defined(GLM_PRECISION_LOWP_FLOAT))</span></div>
<div class="line"><a name="l00241"></a><span class="lineno"> 241</span>&#160; <span class="keyword">typedef</span> mediump_fdualquat <a class="code" href="a00189.html#gae93abee0c979902fbec6a7bee0f6fae1">dualquat</a>;</div>
<div class="line"><a name="l00242"></a><span class="lineno"> 242</span>&#160; <span class="keyword">typedef</span> mediump_fdualquat <a class="code" href="a00189.html#ga237c2b9b42c9a930e49de5840ae0f930">fdualquat</a>;</div>
<div class="line"><a name="l00243"></a><span class="lineno"> 243</span>&#160;<span class="preprocessor">#elif(!defined(GLM_PRECISION_HIGHP_FLOAT) &amp;&amp; !defined(GLM_PRECISION_MEDIUMP_FLOAT) &amp;&amp; defined(GLM_PRECISION_LOWP_FLOAT))</span></div>
<div class="line"><a name="l00244"></a><span class="lineno"> 244</span>&#160; <span class="keyword">typedef</span> lowp_fdualquat <a class="code" href="a00189.html#gae93abee0c979902fbec6a7bee0f6fae1">dualquat</a>;</div>
<div class="line"><a name="l00245"></a><span class="lineno"> 245</span>&#160; <span class="keyword">typedef</span> lowp_fdualquat <a class="code" href="a00189.html#ga237c2b9b42c9a930e49de5840ae0f930">fdualquat</a>;</div>
<div class="line"><a name="l00246"></a><span class="lineno"> 246</span>&#160;<span class="preprocessor">#else</span></div>
<div class="line"><a name="l00247"></a><span class="lineno"> 247</span>&#160;<span class="preprocessor"># error &quot;GLM error: multiple default precision requested for single-precision floating-point types&quot;</span></div>
<div class="line"><a name="l00248"></a><span class="lineno"> 248</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00249"></a><span class="lineno"> 249</span>&#160;</div>
<div class="line"><a name="l00250"></a><span class="lineno"> 250</span>&#160;</div>
<div class="line"><a name="l00251"></a><span class="lineno"> 251</span>&#160;<span class="preprocessor">#if(!defined(GLM_PRECISION_HIGHP_DOUBLE) &amp;&amp; !defined(GLM_PRECISION_MEDIUMP_DOUBLE) &amp;&amp; !defined(GLM_PRECISION_LOWP_DOUBLE))</span></div>
<div class="line"><a name="l00252"></a><span class="lineno"> 252</span>&#160; <span class="keyword">typedef</span> highp_ddualquat <a class="code" href="a00189.html#ga3d71f98d84ba59dfe4e369fde4714cd6">ddualquat</a>;</div>
<div class="line"><a name="l00256"></a><span class="lineno"> 256</span>&#160;<span class="preprocessor">#elif(defined(GLM_PRECISION_HIGHP_DOUBLE) &amp;&amp; !defined(GLM_PRECISION_MEDIUMP_DOUBLE) &amp;&amp; !defined(GLM_PRECISION_LOWP_DOUBLE))</span></div>
<div class="line"><a name="l00257"></a><span class="lineno"> 257</span>&#160; <span class="keyword">typedef</span> highp_ddualquat <a class="code" href="a00189.html#ga3d71f98d84ba59dfe4e369fde4714cd6">ddualquat</a>;</div>
<div class="line"><a name="l00258"></a><span class="lineno"> 258</span>&#160;<span class="preprocessor">#elif(!defined(GLM_PRECISION_HIGHP_DOUBLE) &amp;&amp; defined(GLM_PRECISION_MEDIUMP_DOUBLE) &amp;&amp; !defined(GLM_PRECISION_LOWP_DOUBLE))</span></div>
<div class="line"><a name="l00259"></a><span class="lineno"> 259</span>&#160; <span class="keyword">typedef</span> mediump_ddualquat <a class="code" href="a00189.html#ga3d71f98d84ba59dfe4e369fde4714cd6">ddualquat</a>;</div>
<div class="line"><a name="l00260"></a><span class="lineno"> 260</span>&#160;<span class="preprocessor">#elif(!defined(GLM_PRECISION_HIGHP_DOUBLE) &amp;&amp; !defined(GLM_PRECISION_MEDIUMP_DOUBLE) &amp;&amp; defined(GLM_PRECISION_LOWP_DOUBLE))</span></div>
<div class="line"><a name="l00261"></a><span class="lineno"> 261</span>&#160; <span class="keyword">typedef</span> lowp_ddualquat <a class="code" href="a00189.html#ga3d71f98d84ba59dfe4e369fde4714cd6">ddualquat</a>;</div>
<div class="line"><a name="l00262"></a><span class="lineno"> 262</span>&#160;<span class="preprocessor">#else</span></div>
<div class="line"><a name="l00263"></a><span class="lineno"> 263</span>&#160;<span class="preprocessor"># error &quot;GLM error: Multiple default precision requested for double-precision floating-point types&quot;</span></div>
<div class="line"><a name="l00264"></a><span class="lineno"> 264</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00265"></a><span class="lineno"> 265</span>&#160;</div>
<div class="line"><a name="l00267"></a><span class="lineno"> 267</span>&#160;} <span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00268"></a><span class="lineno"> 268</span>&#160;</div>
<div class="line"><a name="l00269"></a><span class="lineno"> 269</span>&#160;<span class="preprocessor">#include &quot;dual_quaternion.inl&quot;</span></div>
<div class="ttc" id="a00224_html_ga49b4d082305cdfcfe0a5c184f684a902"><div class="ttname"><a href="a00224.html#ga49b4d082305cdfcfe0a5c184f684a902">glm::orientation</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, P &gt; orientation(tvec3&lt; T, P &gt; const &amp;Normal, tvec3&lt; T, P &gt; const &amp;Up)</div><div class="ttdoc">Build a rotation matrix from a normal and a up vector. </div></div>
<div class="ttc" id="a00189_html_gaa38f671be25a7f3b136a452a8bb42860"><div class="ttname"><a href="a00189.html#gaa38f671be25a7f3b136a452a8bb42860">glm::lowp_fdualquat</a></div><div class="ttdeci">tdualquat&lt; float, lowp &gt; lowp_fdualquat</div><div class="ttdoc">Dual-quaternion of low single-precision floating-point numbers. </div><div class="ttdef"><b>Definition:</b> <a href="a00020_source.html#l00198">dual_quaternion.hpp:198</a></div></div>
<div class="ttc" id="a00189_html_ga20eb5758beb73cc6dbc2d9104f03ec20"><div class="ttname"><a href="a00189.html#ga20eb5758beb73cc6dbc2d9104f03ec20">glm::dualquat_cast</a></div><div class="ttdeci">GLM_FUNC_DECL tdualquat&lt; T, P &gt; dualquat_cast(tmat3x4&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Converts a 3 * 4 matrix (augmented matrix rotation + translation) to a quaternion. </div></div>
<div class="ttc" id="a00189_html_ga237c2b9b42c9a930e49de5840ae0f930"><div class="ttname"><a href="a00189.html#ga237c2b9b42c9a930e49de5840ae0f930">glm::fdualquat</a></div><div class="ttdeci">highp_fdualquat fdualquat</div><div class="ttdoc">Dual-quaternion of single-precision floating-point numbers. </div><div class="ttdef"><b>Definition:</b> <a href="a00020_source.html#l00236">dual_quaternion.hpp:236</a></div></div>
<div class="ttc" id="a00189_html_ga0fb11e48e2d16348ccb06a25213641b4"><div class="ttname"><a href="a00189.html#ga0fb11e48e2d16348ccb06a25213641b4">glm::mediump_ddualquat</a></div><div class="ttdeci">tdualquat&lt; double, mediump &gt; mediump_ddualquat</div><div class="ttdoc">Dual-quaternion of medium double-precision floating-point numbers. </div><div class="ttdef"><b>Definition:</b> <a href="a00020_source.html#l00219">dual_quaternion.hpp:219</a></div></div>
<div class="ttc" id="a00189_html_ga495818aa48c23e9e730f87a3c337d1d5"><div class="ttname"><a href="a00189.html#ga495818aa48c23e9e730f87a3c337d1d5">glm::normalize</a></div><div class="ttdeci">GLM_FUNC_DECL tdualquat&lt; T, P &gt; normalize(tdualquat&lt; T, P &gt; const &amp;q)</div><div class="ttdoc">Returns the normalized quaternion. </div></div>
<div class="ttc" id="a00189_html_ga4a6b594ff7e81150d8143001367a9431"><div class="ttname"><a href="a00189.html#ga4a6b594ff7e81150d8143001367a9431">glm::mediump_fdualquat</a></div><div class="ttdeci">tdualquat&lt; float, mediump &gt; mediump_fdualquat</div><div class="ttdoc">Dual-quaternion of medium single-precision floating-point numbers. </div><div class="ttdef"><b>Definition:</b> <a href="a00020_source.html#l00203">dual_quaternion.hpp:203</a></div></div>
<div class="ttc" id="a00147_html_ga18d45e3d4c7705e67ccfabd99e521604"><div class="ttname"><a href="a00147.html#ga18d45e3d4c7705e67ccfabd99e521604">glm::length</a></div><div class="ttdeci">GLM_FUNC_DECL T length(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Returns the length of x, i.e., sqrt(x * x). </div></div>
<div class="ttc" id="a00189_html_gab4c5103338af3dac7e0fbc86895a3f1a"><div class="ttname"><a href="a00189.html#gab4c5103338af3dac7e0fbc86895a3f1a">glm::lowp_ddualquat</a></div><div class="ttdeci">tdualquat&lt; double, lowp &gt; lowp_ddualquat</div><div class="ttdoc">Dual-quaternion of low double-precision floating-point numbers. </div><div class="ttdef"><b>Definition:</b> <a href="a00020_source.html#l00214">dual_quaternion.hpp:214</a></div></div>
<div class="ttc" id="a00189_html_ga3d71f98d84ba59dfe4e369fde4714cd6"><div class="ttname"><a href="a00189.html#ga3d71f98d84ba59dfe4e369fde4714cd6">glm::ddualquat</a></div><div class="ttdeci">highp_ddualquat ddualquat</div><div class="ttdoc">Dual-quaternion of default double-precision floating-point numbers. </div><div class="ttdef"><b>Definition:</b> <a href="a00020_source.html#l00255">dual_quaternion.hpp:255</a></div></div>
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<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00189_html_ga9ef5bf1da52a9d4932335a517086ceaf"><div class="ttname"><a href="a00189.html#ga9ef5bf1da52a9d4932335a517086ceaf">glm::highp_dualquat</a></div><div class="ttdeci">tdualquat&lt; float, highp &gt; highp_dualquat</div><div class="ttdoc">Dual-quaternion of high single-precision floating-point numbers. </div><div class="ttdef"><b>Definition:</b> <a href="a00020_source.html#l00192">dual_quaternion.hpp:192</a></div></div>
<div class="ttc" id="a00189_html_ga2d124748183e12db8288eeaca350298e"><div class="ttname"><a href="a00189.html#ga2d124748183e12db8288eeaca350298e">glm::mat2x4_cast</a></div><div class="ttdeci">GLM_FUNC_DECL tmat2x4&lt; T, P &gt; mat2x4_cast(tdualquat&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Converts a quaternion to a 2 * 4 matrix. </div></div>
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<p><a class="el" href="a00163.html">GLM_GTC_epsilon</a>
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Functions</h2></td></tr>
<tr class="memitem:gaca9443f217dc36587624247245522331"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gaca9443f217dc36587624247245522331"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; bool, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00163.html#gaca9443f217dc36587624247245522331">epsilonEqual</a> (vecType&lt; T, P &gt; const &amp;x, vecType&lt; T, P &gt; const &amp;y, T const &amp;epsilon)</td></tr>
<tr class="memdesc:gaca9443f217dc36587624247245522331"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns the component-wise comparison of |x - y| &lt; epsilon. <a href="a00163.html#gaca9443f217dc36587624247245522331">More...</a><br /></td></tr>
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<tr class="memitem:gaa7f227999ca09e7ca994e8b35aba47bb"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gaa7f227999ca09e7ca994e8b35aba47bb"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL bool&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00163.html#gaa7f227999ca09e7ca994e8b35aba47bb">epsilonEqual</a> (genType const &amp;x, genType const &amp;y, genType const &amp;epsilon)</td></tr>
<tr class="memdesc:gaa7f227999ca09e7ca994e8b35aba47bb"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns the component-wise comparison of |x - y| &lt; epsilon. <a href="a00163.html#gaa7f227999ca09e7ca994e8b35aba47bb">More...</a><br /></td></tr>
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<tr class="memitem:ga14e2888a304654ade8a3996024e2739c"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga14e2888a304654ade8a3996024e2739c"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType::boolType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00163.html#ga14e2888a304654ade8a3996024e2739c">epsilonNotEqual</a> (genType const &amp;x, genType const &amp;y, typename genType::value_type const &amp;epsilon)</td></tr>
<tr class="memdesc:ga14e2888a304654ade8a3996024e2739c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns the component-wise comparison of |x - y| &lt; epsilon. <a href="a00163.html#ga14e2888a304654ade8a3996024e2739c">More...</a><br /></td></tr>
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<tr class="memitem:ga50a92103fb0cbd796908e1bf20c79aaf"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga50a92103fb0cbd796908e1bf20c79aaf"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL bool&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00163.html#ga50a92103fb0cbd796908e1bf20c79aaf">epsilonNotEqual</a> (genType const &amp;x, genType const &amp;y, genType const &amp;epsilon)</td></tr>
<tr class="memdesc:ga50a92103fb0cbd796908e1bf20c79aaf"><td class="mdescLeft">&#160;</td><td class="mdescRight">Returns the component-wise comparison of |x - y| &gt;= epsilon. <a href="a00163.html#ga50a92103fb0cbd796908e1bf20c79aaf">More...</a><br /></td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00163.html">GLM_GTC_epsilon</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd>
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<a class="el" href="a00172.html" title="Defines a templated quaternion type and several quaternion operations. ">GLM_GTC_quaternion</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00021_source.html">epsilon.hpp</a>.</p>
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<a href="a00021.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="comment">// Dependencies</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="preprocessor">#include &quot;../detail/setup.hpp&quot;</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#include &quot;../detail/precision.hpp&quot;</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;</div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTC_epsilon extension included&quot;)</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;</div>
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<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;{</div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; GLM_FUNC_DECL vecType&lt;bool, P&gt; <a class="code" href="a00163.html#gaa7f227999ca09e7ca994e8b35aba47bb">epsilonEqual</a>(</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x,</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y,</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">epsilon</a>);</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; GLM_FUNC_DECL <span class="keywordtype">bool</span> <a class="code" href="a00163.html#gaa7f227999ca09e7ca994e8b35aba47bb">epsilonEqual</a>(</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; genType <span class="keyword">const</span> &amp; x,</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160; genType <span class="keyword">const</span> &amp; y,</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; genType <span class="keyword">const</span> &amp; <a class="code" href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">epsilon</a>);</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; GLM_FUNC_DECL <span class="keyword">typename</span> genType::boolType <a class="code" href="a00163.html#ga50a92103fb0cbd796908e1bf20c79aaf">epsilonNotEqual</a>(</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160; genType <span class="keyword">const</span> &amp; x,</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160; genType <span class="keyword">const</span> &amp; y,</div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160; <span class="keyword">typename</span> genType::value_type <span class="keyword">const</span> &amp; <a class="code" href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">epsilon</a>);</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160;</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; GLM_FUNC_DECL <span class="keywordtype">bool</span> <a class="code" href="a00163.html#ga50a92103fb0cbd796908e1bf20c79aaf">epsilonNotEqual</a>(</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; genType <span class="keyword">const</span> &amp; x,</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; genType <span class="keyword">const</span> &amp; y,</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; genType <span class="keyword">const</span> &amp; <a class="code" href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">epsilon</a>);</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160;</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160;</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;<span class="preprocessor">#include &quot;epsilon.inl&quot;</span></div>
<div class="ttc" id="a00163_html_ga50a92103fb0cbd796908e1bf20c79aaf"><div class="ttname"><a href="a00163.html#ga50a92103fb0cbd796908e1bf20c79aaf">glm::epsilonNotEqual</a></div><div class="ttdeci">GLM_FUNC_DECL bool epsilonNotEqual(genType const &amp;x, genType const &amp;y, genType const &amp;epsilon)</div><div class="ttdoc">Returns the component-wise comparison of |x - y| >= epsilon. </div></div>
<div class="ttc" id="a00162_html_ga2a1e57fc5592b69cfae84174cbfc9429"><div class="ttname"><a href="a00162.html#ga2a1e57fc5592b69cfae84174cbfc9429">glm::epsilon</a></div><div class="ttdeci">GLM_FUNC_DECL GLM_CONSTEXPR genType epsilon()</div><div class="ttdoc">Return the epsilon constant for floating point types. </div></div>
<div class="ttc" id="a00163_html_gaa7f227999ca09e7ca994e8b35aba47bb"><div class="ttname"><a href="a00163.html#gaa7f227999ca09e7ca994e8b35aba47bb">glm::epsilonEqual</a></div><div class="ttdeci">GLM_FUNC_DECL bool epsilonEqual(genType const &amp;x, genType const &amp;y, genType const &amp;epsilon)</div><div class="ttdoc">Returns the component-wise comparison of |x - y| < epsilon. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
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Functions</h2></td></tr>
<tr class="memitem:ga82cd3b8a04943f1a0d1a562aff358dc8"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:ga82cd3b8a04943f1a0d1a562aff358dc8"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga82cd3b8a04943f1a0d1a562aff358dc8">eulerAngleX</a> (T const &amp;angleX)</td></tr>
<tr class="memdesc:ga82cd3b8a04943f1a0d1a562aff358dc8"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle X. <a href="a00190.html#ga82cd3b8a04943f1a0d1a562aff358dc8">More...</a><br /></td></tr>
<tr class="separator:ga82cd3b8a04943f1a0d1a562aff358dc8"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga8bf84f92ca976a7f50dbe4b30ceb72dd"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:ga8bf84f92ca976a7f50dbe4b30ceb72dd"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga8bf84f92ca976a7f50dbe4b30ceb72dd">eulerAngleXY</a> (T const &amp;angleX, T const &amp;angleY)</td></tr>
<tr class="memdesc:ga8bf84f92ca976a7f50dbe4b30ceb72dd"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Y). <a href="a00190.html#ga8bf84f92ca976a7f50dbe4b30ceb72dd">More...</a><br /></td></tr>
<tr class="separator:ga8bf84f92ca976a7f50dbe4b30ceb72dd"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaaedda1657a1aebe0a904d864b33844e8"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gaaedda1657a1aebe0a904d864b33844e8"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gaaedda1657a1aebe0a904d864b33844e8">eulerAngleXYZ</a> (T const &amp;t1, T const &amp;t2, T const &amp;t3)</td></tr>
<tr class="memdesc:gaaedda1657a1aebe0a904d864b33844e8"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Y * Z). <a href="a00190.html#gaaedda1657a1aebe0a904d864b33844e8">More...</a><br /></td></tr>
<tr class="separator:gaaedda1657a1aebe0a904d864b33844e8"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gab2d7dc94b9a7519d741aaa208c7a335b"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gab2d7dc94b9a7519d741aaa208c7a335b"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gab2d7dc94b9a7519d741aaa208c7a335b">eulerAngleXZ</a> (T const &amp;angleX, T const &amp;angleZ)</td></tr>
<tr class="memdesc:gab2d7dc94b9a7519d741aaa208c7a335b"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Z). <a href="a00190.html#gab2d7dc94b9a7519d741aaa208c7a335b">More...</a><br /></td></tr>
<tr class="separator:gab2d7dc94b9a7519d741aaa208c7a335b"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaeb193af1184bdf39c23636d756e1ff33"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gaeb193af1184bdf39c23636d756e1ff33"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gaeb193af1184bdf39c23636d756e1ff33">eulerAngleY</a> (T const &amp;angleY)</td></tr>
<tr class="memdesc:gaeb193af1184bdf39c23636d756e1ff33"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle Y. <a href="a00190.html#gaeb193af1184bdf39c23636d756e1ff33">More...</a><br /></td></tr>
<tr class="separator:gaeb193af1184bdf39c23636d756e1ff33"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gafdd02f9a37511190962119adef5c1c25"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gafdd02f9a37511190962119adef5c1c25"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gafdd02f9a37511190962119adef5c1c25">eulerAngleYX</a> (T const &amp;angleY, T const &amp;angleX)</td></tr>
<tr class="memdesc:gafdd02f9a37511190962119adef5c1c25"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X). <a href="a00190.html#gafdd02f9a37511190962119adef5c1c25">More...</a><br /></td></tr>
<tr class="separator:gafdd02f9a37511190962119adef5c1c25"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga0242b5ab68651db70c6025815549427f"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:ga0242b5ab68651db70c6025815549427f"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga0242b5ab68651db70c6025815549427f">eulerAngleYXZ</a> (T const &amp;yaw, T const &amp;pitch, T const &amp;roll)</td></tr>
<tr class="memdesc:ga0242b5ab68651db70c6025815549427f"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). <a href="a00190.html#ga0242b5ab68651db70c6025815549427f">More...</a><br /></td></tr>
<tr class="separator:ga0242b5ab68651db70c6025815549427f"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga1033f84f51d61646145352ef0c1bb58c"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:ga1033f84f51d61646145352ef0c1bb58c"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga1033f84f51d61646145352ef0c1bb58c">eulerAngleYZ</a> (T const &amp;angleY, T const &amp;angleZ)</td></tr>
<tr class="memdesc:ga1033f84f51d61646145352ef0c1bb58c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * Z). <a href="a00190.html#ga1033f84f51d61646145352ef0c1bb58c">More...</a><br /></td></tr>
<tr class="separator:ga1033f84f51d61646145352ef0c1bb58c"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gab59c4fe7f735568255cc19fddd3ddfcd"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gab59c4fe7f735568255cc19fddd3ddfcd"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gab59c4fe7f735568255cc19fddd3ddfcd">eulerAngleZ</a> (T const &amp;angleZ)</td></tr>
<tr class="memdesc:gab59c4fe7f735568255cc19fddd3ddfcd"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle Z. <a href="a00190.html#gab59c4fe7f735568255cc19fddd3ddfcd">More...</a><br /></td></tr>
<tr class="separator:gab59c4fe7f735568255cc19fddd3ddfcd"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaef83cf40bd9ae780011b29970f16f622"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gaef83cf40bd9ae780011b29970f16f622"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gaef83cf40bd9ae780011b29970f16f622">eulerAngleZX</a> (T const &amp;angle, T const &amp;angleX)</td></tr>
<tr class="memdesc:gaef83cf40bd9ae780011b29970f16f622"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * X). <a href="a00190.html#gaef83cf40bd9ae780011b29970f16f622">More...</a><br /></td></tr>
<tr class="separator:gaef83cf40bd9ae780011b29970f16f622"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga02f037926568bbd12dfece3b28b20343"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:ga02f037926568bbd12dfece3b28b20343"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga02f037926568bbd12dfece3b28b20343">eulerAngleZY</a> (T const &amp;angleZ, T const &amp;angleY)</td></tr>
<tr class="memdesc:ga02f037926568bbd12dfece3b28b20343"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * Y). <a href="a00190.html#ga02f037926568bbd12dfece3b28b20343">More...</a><br /></td></tr>
<tr class="separator:ga02f037926568bbd12dfece3b28b20343"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gad5838a4c87ce2b8ee4c4e17bd162fd14"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gad5838a4c87ce2b8ee4c4e17bd162fd14"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL void&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gad5838a4c87ce2b8ee4c4e17bd162fd14">extractEulerAngleXYZ</a> (tmat4x4&lt; T, defaultp &gt; const &amp;M, T &amp;t1, T &amp;t2, T &amp;t3)</td></tr>
<tr class="memdesc:gad5838a4c87ce2b8ee4c4e17bd162fd14"><td class="mdescLeft">&#160;</td><td class="mdescRight">Extracts the (X * Y * Z) Euler angles from the rotation matrix M. <a href="a00190.html#gad5838a4c87ce2b8ee4c4e17bd162fd14">More...</a><br /></td></tr>
<tr class="separator:gad5838a4c87ce2b8ee4c4e17bd162fd14"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga6f465681cbbc575ad93a53ec918dacf3"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:ga6f465681cbbc575ad93a53ec918dacf3"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat2x2&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga6f465681cbbc575ad93a53ec918dacf3">orientate2</a> (T const &amp;angle)</td></tr>
<tr class="memdesc:ga6f465681cbbc575ad93a53ec918dacf3"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 2D 2 * 2 rotation matrix from an euler angle. <a href="a00190.html#ga6f465681cbbc575ad93a53ec918dacf3">More...</a><br /></td></tr>
<tr class="separator:ga6f465681cbbc575ad93a53ec918dacf3"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gab188e2526dea3c003e86e298f618085e"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gab188e2526dea3c003e86e298f618085e"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat3x3&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gab188e2526dea3c003e86e298f618085e">orientate3</a> (T const &amp;angle)</td></tr>
<tr class="memdesc:gab188e2526dea3c003e86e298f618085e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 2D 4 * 4 homogeneous rotation matrix from an euler angle. <a href="a00190.html#gab188e2526dea3c003e86e298f618085e">More...</a><br /></td></tr>
<tr class="separator:gab188e2526dea3c003e86e298f618085e"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga33f0d790cecd8337ee83f8e3a8109b11"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga33f0d790cecd8337ee83f8e3a8109b11"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat3x3&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga33f0d790cecd8337ee83f8e3a8109b11">orientate3</a> (tvec3&lt; T, P &gt; const &amp;angles)</td></tr>
<tr class="memdesc:ga33f0d790cecd8337ee83f8e3a8109b11"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 3 * 3 rotation matrix from euler angles (Y * X * Z). <a href="a00190.html#ga33f0d790cecd8337ee83f8e3a8109b11">More...</a><br /></td></tr>
<tr class="separator:ga33f0d790cecd8337ee83f8e3a8109b11"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga4e25c9468b6f002c76e9a2412bcfa503"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P&gt; </td></tr>
<tr class="memitem:ga4e25c9468b6f002c76e9a2412bcfa503"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#ga4e25c9468b6f002c76e9a2412bcfa503">orientate4</a> (tvec3&lt; T, P &gt; const &amp;angles)</td></tr>
<tr class="memdesc:ga4e25c9468b6f002c76e9a2412bcfa503"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). <a href="a00190.html#ga4e25c9468b6f002c76e9a2412bcfa503">More...</a><br /></td></tr>
<tr class="separator:ga4e25c9468b6f002c76e9a2412bcfa503"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaf9c8d0f1df88c5344165600774489bc5"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gaf9c8d0f1df88c5344165600774489bc5"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00190.html#gaf9c8d0f1df88c5344165600774489bc5">yawPitchRoll</a> (T const &amp;yaw, T const &amp;pitch, T const &amp;roll)</td></tr>
<tr class="memdesc:gaf9c8d0f1df88c5344165600774489bc5"><td class="mdescLeft">&#160;</td><td class="mdescRight">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). <a href="a00190.html#gaf9c8d0f1df88c5344165600774489bc5">More...</a><br /></td></tr>
<tr class="separator:gaf9c8d0f1df88c5344165600774489bc5"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00190.html">GLM_GTX_euler_angles</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00022_source.html">euler_angles.hpp</a>.</p>
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<a href="a00022.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_euler_angles is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_euler_angles extension included&quot;)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#ga82cd3b8a04943f1a0d1a562aff358dc8">eulerAngleX</a>(</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; T <span class="keyword">const</span> &amp; angleX);</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#gaeb193af1184bdf39c23636d756e1ff33">eulerAngleY</a>(</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; T <span class="keyword">const</span> &amp; angleY);</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#gab59c4fe7f735568255cc19fddd3ddfcd">eulerAngleZ</a>(</div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160; T <span class="keyword">const</span> &amp; angleZ);</div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#ga8bf84f92ca976a7f50dbe4b30ceb72dd">eulerAngleXY</a>(</div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; T <span class="keyword">const</span> &amp; angleX,</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; T <span class="keyword">const</span> &amp; angleY);</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#gafdd02f9a37511190962119adef5c1c25">eulerAngleYX</a>(</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; T <span class="keyword">const</span> &amp; angleY,</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; T <span class="keyword">const</span> &amp; angleX);</div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160;</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#gab2d7dc94b9a7519d741aaa208c7a335b">eulerAngleXZ</a>(</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; T <span class="keyword">const</span> &amp; angleX,</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; T <span class="keyword">const</span> &amp; angleZ);</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160;</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#gaef83cf40bd9ae780011b29970f16f622">eulerAngleZX</a>(</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#gad4a4448baedb198b2b1e7880d2544dc9">angle</a>,</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; T <span class="keyword">const</span> &amp; angleX);</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#ga1033f84f51d61646145352ef0c1bb58c">eulerAngleYZ</a>(</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160; T <span class="keyword">const</span> &amp; angleY,</div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160; T <span class="keyword">const</span> &amp; angleZ);</div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160;</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#ga02f037926568bbd12dfece3b28b20343">eulerAngleZY</a>(</div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160; T <span class="keyword">const</span> &amp; angleZ,</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; T <span class="keyword">const</span> &amp; angleY);</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#gaaedda1657a1aebe0a904d864b33844e8">eulerAngleXYZ</a>(</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160; T <span class="keyword">const</span> &amp; t1,</div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160; T <span class="keyword">const</span> &amp; t2,</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160; T <span class="keyword">const</span> &amp; t3);</div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160; </div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#ga0242b5ab68651db70c6025815549427f">eulerAngleYXZ</a>(</div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#ga724a5df282b70cec0a6cb0d6dcddb6d6">yaw</a>,</div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#ga2c08b93a4261c10748fd4d2104346f17">pitch</a>,</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#ga4fd705376c6c1fd667be0055a0ea58ec">roll</a>);</div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160; </div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, defaultp&gt; <a class="code" href="a00190.html#gaf9c8d0f1df88c5344165600774489bc5">yawPitchRoll</a>(</div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#ga724a5df282b70cec0a6cb0d6dcddb6d6">yaw</a>,</div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#ga2c08b93a4261c10748fd4d2104346f17">pitch</a>,</div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160; T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#ga4fd705376c6c1fd667be0055a0ea58ec">roll</a>);</div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160;</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160; GLM_FUNC_DECL tmat2x2&lt;T, defaultp&gt; <a class="code" href="a00190.html#ga6f465681cbbc575ad93a53ec918dacf3">orientate2</a>(T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#gad4a4448baedb198b2b1e7880d2544dc9">angle</a>);</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160;</div>
<div class="line"><a name="l00122"></a><span class="lineno"> 122</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160; GLM_FUNC_DECL tmat3x3&lt;T, defaultp&gt; <a class="code" href="a00190.html#ga33f0d790cecd8337ee83f8e3a8109b11">orientate3</a>(T <span class="keyword">const</span> &amp; <a class="code" href="a00172.html#gad4a4448baedb198b2b1e7880d2544dc9">angle</a>);</div>
<div class="line"><a name="l00124"></a><span class="lineno"> 124</span>&#160;</div>
<div class="line"><a name="l00127"></a><span class="lineno"> 127</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00128"></a><span class="lineno"> 128</span>&#160; GLM_FUNC_DECL tmat3x3&lt;T, P&gt; <a class="code" href="a00190.html#ga33f0d790cecd8337ee83f8e3a8109b11">orientate3</a>(tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; angles);</div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160; </div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P&gt;</div>
<div class="line"><a name="l00133"></a><span class="lineno"> 133</span>&#160; GLM_FUNC_DECL tmat4x4&lt;T, P&gt; <a class="code" href="a00190.html#ga4e25c9468b6f002c76e9a2412bcfa503">orientate4</a>(tvec3&lt;T, P&gt; <span class="keyword">const</span> &amp; angles);</div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160;</div>
<div class="line"><a name="l00137"></a><span class="lineno"> 137</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00138"></a><span class="lineno"> 138</span>&#160; GLM_FUNC_DECL <span class="keywordtype">void</span> <a class="code" href="a00190.html#gad5838a4c87ce2b8ee4c4e17bd162fd14">extractEulerAngleXYZ</a>(tmat4x4&lt;T, defaultp&gt; <span class="keyword">const</span> &amp; M,</div>
<div class="line"><a name="l00139"></a><span class="lineno"> 139</span>&#160; T &amp; t1,</div>
<div class="line"><a name="l00140"></a><span class="lineno"> 140</span>&#160; T &amp; t2,</div>
<div class="line"><a name="l00141"></a><span class="lineno"> 141</span>&#160; T &amp; t3);</div>
<div class="line"><a name="l00142"></a><span class="lineno"> 142</span>&#160; </div>
<div class="line"><a name="l00144"></a><span class="lineno"> 144</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00145"></a><span class="lineno"> 145</span>&#160;</div>
<div class="line"><a name="l00146"></a><span class="lineno"> 146</span>&#160;<span class="preprocessor">#include &quot;euler_angles.inl&quot;</span></div>
<div class="ttc" id="a00172_html_ga4fd705376c6c1fd667be0055a0ea58ec"><div class="ttname"><a href="a00172.html#ga4fd705376c6c1fd667be0055a0ea58ec">glm::roll</a></div><div class="ttdeci">GLM_FUNC_DECL T roll(tquat&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Returns roll value of euler angles expressed in radians. </div></div>
<div class="ttc" id="a00190_html_ga82cd3b8a04943f1a0d1a562aff358dc8"><div class="ttname"><a href="a00190.html#ga82cd3b8a04943f1a0d1a562aff358dc8">glm::eulerAngleX</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleX(T const &amp;angleX)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle X. </div></div>
<div class="ttc" id="a00190_html_gab2d7dc94b9a7519d741aaa208c7a335b"><div class="ttname"><a href="a00190.html#gab2d7dc94b9a7519d741aaa208c7a335b">glm::eulerAngleXZ</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleXZ(T const &amp;angleX, T const &amp;angleZ)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Z). </div></div>
<div class="ttc" id="a00190_html_ga1033f84f51d61646145352ef0c1bb58c"><div class="ttname"><a href="a00190.html#ga1033f84f51d61646145352ef0c1bb58c">glm::eulerAngleYZ</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleYZ(T const &amp;angleY, T const &amp;angleZ)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * Z). </div></div>
<div class="ttc" id="a00172_html_ga2c08b93a4261c10748fd4d2104346f17"><div class="ttname"><a href="a00172.html#ga2c08b93a4261c10748fd4d2104346f17">glm::pitch</a></div><div class="ttdeci">GLM_FUNC_DECL T pitch(tquat&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Returns pitch value of euler angles expressed in radians. </div></div>
<div class="ttc" id="a00190_html_gaf9c8d0f1df88c5344165600774489bc5"><div class="ttname"><a href="a00190.html#gaf9c8d0f1df88c5344165600774489bc5">glm::yawPitchRoll</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; yawPitchRoll(T const &amp;yaw, T const &amp;pitch, T const &amp;roll)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). </div></div>
<div class="ttc" id="a00190_html_gaaedda1657a1aebe0a904d864b33844e8"><div class="ttname"><a href="a00190.html#gaaedda1657a1aebe0a904d864b33844e8">glm::eulerAngleXYZ</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleXYZ(T const &amp;t1, T const &amp;t2, T const &amp;t3)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Y * Z). </div></div>
<div class="ttc" id="a00190_html_ga0242b5ab68651db70c6025815549427f"><div class="ttname"><a href="a00190.html#ga0242b5ab68651db70c6025815549427f">glm::eulerAngleYXZ</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleYXZ(T const &amp;yaw, T const &amp;pitch, T const &amp;roll)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). </div></div>
<div class="ttc" id="a00190_html_gaeb193af1184bdf39c23636d756e1ff33"><div class="ttname"><a href="a00190.html#gaeb193af1184bdf39c23636d756e1ff33">glm::eulerAngleY</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleY(T const &amp;angleY)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle Y. </div></div>
<div class="ttc" id="a00190_html_ga02f037926568bbd12dfece3b28b20343"><div class="ttname"><a href="a00190.html#ga02f037926568bbd12dfece3b28b20343">glm::eulerAngleZY</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleZY(T const &amp;angleZ, T const &amp;angleY)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * Y). </div></div>
<div class="ttc" id="a00190_html_gaef83cf40bd9ae780011b29970f16f622"><div class="ttname"><a href="a00190.html#gaef83cf40bd9ae780011b29970f16f622">glm::eulerAngleZX</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleZX(T const &amp;angle, T const &amp;angleX)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Z * X). </div></div>
<div class="ttc" id="a00190_html_ga4e25c9468b6f002c76e9a2412bcfa503"><div class="ttname"><a href="a00190.html#ga4e25c9468b6f002c76e9a2412bcfa503">glm::orientate4</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, P &gt; orientate4(tvec3&lt; T, P &gt; const &amp;angles)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X * Z). </div></div>
<div class="ttc" id="a00190_html_gab59c4fe7f735568255cc19fddd3ddfcd"><div class="ttname"><a href="a00190.html#gab59c4fe7f735568255cc19fddd3ddfcd">glm::eulerAngleZ</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleZ(T const &amp;angleZ)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from an euler angle Z. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00172_html_gad4a4448baedb198b2b1e7880d2544dc9"><div class="ttname"><a href="a00172.html#gad4a4448baedb198b2b1e7880d2544dc9">glm::angle</a></div><div class="ttdeci">GLM_FUNC_DECL T angle(tquat&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Returns the quaternion rotation angle. </div></div>
<div class="ttc" id="a00190_html_gafdd02f9a37511190962119adef5c1c25"><div class="ttname"><a href="a00190.html#gafdd02f9a37511190962119adef5c1c25">glm::eulerAngleYX</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleYX(T const &amp;angleY, T const &amp;angleX)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (Y * X). </div></div>
<div class="ttc" id="a00190_html_ga33f0d790cecd8337ee83f8e3a8109b11"><div class="ttname"><a href="a00190.html#ga33f0d790cecd8337ee83f8e3a8109b11">glm::orientate3</a></div><div class="ttdeci">GLM_FUNC_DECL tmat3x3&lt; T, P &gt; orientate3(tvec3&lt; T, P &gt; const &amp;angles)</div><div class="ttdoc">Creates a 3D 3 * 3 rotation matrix from euler angles (Y * X * Z). </div></div>
<div class="ttc" id="a00190_html_ga8bf84f92ca976a7f50dbe4b30ceb72dd"><div class="ttname"><a href="a00190.html#ga8bf84f92ca976a7f50dbe4b30ceb72dd">glm::eulerAngleXY</a></div><div class="ttdeci">GLM_FUNC_DECL tmat4x4&lt; T, defaultp &gt; eulerAngleXY(T const &amp;angleX, T const &amp;angleY)</div><div class="ttdoc">Creates a 3D 4 * 4 homogeneous rotation matrix from euler angles (X * Y). </div></div>
<div class="ttc" id="a00190_html_gad5838a4c87ce2b8ee4c4e17bd162fd14"><div class="ttname"><a href="a00190.html#gad5838a4c87ce2b8ee4c4e17bd162fd14">glm::extractEulerAngleXYZ</a></div><div class="ttdeci">GLM_FUNC_DECL void extractEulerAngleXYZ(tmat4x4&lt; T, defaultp &gt; const &amp;M, T &amp;t1, T &amp;t2, T &amp;t3)</div><div class="ttdoc">Extracts the (X * Y * Z) Euler angles from the rotation matrix M. </div></div>
<div class="ttc" id="a00172_html_ga724a5df282b70cec0a6cb0d6dcddb6d6"><div class="ttname"><a href="a00172.html#ga724a5df282b70cec0a6cb0d6dcddb6d6">glm::yaw</a></div><div class="ttdeci">GLM_FUNC_DECL T yaw(tquat&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Returns yaw value of euler angles expressed in radians. </div></div>
<div class="ttc" id="a00190_html_ga6f465681cbbc575ad93a53ec918dacf3"><div class="ttname"><a href="a00190.html#ga6f465681cbbc575ad93a53ec918dacf3">glm::orientate2</a></div><div class="ttdeci">GLM_FUNC_DECL tmat2x2&lt; T, defaultp &gt; orientate2(T const &amp;angle)</div><div class="ttdoc">Creates a 2D 2 * 2 rotation matrix from an euler angle. </div></div>
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<a href="a00024.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00041.html">glm.hpp</a>&quot;</span></div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;</div>
<div class="line"><a name="l00032"></a><span class="lineno"> 32</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_MESSAGE_EXT_INCLUDED_DISPLAYED)</span></div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160;<span class="preprocessor"># define GLM_MESSAGE_EXT_INCLUDED_DISPLAYED</span></div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: All extensions included (not recommanded)&quot;)</span></div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160;<span class="preprocessor">#endif//GLM_MESSAGES</span></div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;</div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00009.html">./gtc/bitfield.hpp</a>&quot;</span></div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00011.html">./gtc/color_encoding.hpp</a>&quot;</span></div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00012.html">./gtc/color_space.hpp</a>&quot;</span></div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00019.html">./gtc/constants.hpp</a>&quot;</span></div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00021.html">./gtc/epsilon.hpp</a>&quot;</span></div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00038.html">./gtc/functions.hpp</a>&quot;</span></div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00045.html">./gtc/integer.hpp</a>&quot;</span></div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00062.html">./gtc/matrix_access.hpp</a>&quot;</span></div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00065.html">./gtc/matrix_integer.hpp</a>&quot;</span></div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00067.html">./gtc/matrix_inverse.hpp</a>&quot;</span></div>
<div class="line"><a name="l00047"></a><span class="lineno"> 47</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00071.html">./gtc/matrix_transform.hpp</a>&quot;</span></div>
<div class="line"><a name="l00048"></a><span class="lineno"> 48</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00074.html">./gtc/noise.hpp</a>&quot;</span></div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00081.html">./gtc/packing.hpp</a>&quot;</span></div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00088.html">./gtc/quaternion.hpp</a>&quot;</span></div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00090.html">./gtc/random.hpp</a>&quot;</span></div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00093.html">./gtc/reciprocal.hpp</a>&quot;</span></div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00096.html">./gtc/round.hpp</a>&quot;</span></div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;<span class="comment">//#include &quot;./gtc/type_aligned.hpp&quot;</span></div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00122.html">./gtc/type_precision.hpp</a>&quot;</span></div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00123.html">./gtc/type_ptr.hpp</a>&quot;</span></div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00130.html">./gtc/ulp.hpp</a>&quot;</span></div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00131.html">./gtc/vec1.hpp</a>&quot;</span></div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160;<span class="preprocessor">#if GLM_HAS_ALIGNED_TYPE</span></div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160;<span class="preprocessor"># include &quot;<a class="code" href="a00106.html">./gtc/type_aligned.hpp</a>&quot;</span></div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160;</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160;<span class="preprocessor">#ifdef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00007.html">./gtx/associated_min_max.hpp</a>&quot;</span></div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00008.html">./gtx/bit.hpp</a>&quot;</span></div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00010.html">./gtx/closest_point.hpp</a>&quot;</span></div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00013.html">./gtx/color_space.hpp</a>&quot;</span></div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00014.html">./gtx/color_space_YCoCg.hpp</a>&quot;</span></div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00017.html">./gtx/compatibility.hpp</a>&quot;</span></div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00018.html">./gtx/component_wise.hpp</a>&quot;</span></div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00020.html">./gtx/dual_quaternion.hpp</a>&quot;</span></div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00022.html">./gtx/euler_angles.hpp</a>&quot;</span></div>
<div class="line"><a name="l00073"></a><span class="lineno"> 73</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00025.html">./gtx/extend.hpp</a>&quot;</span></div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00026.html">./gtx/extended_min_max.hpp</a>&quot;</span></div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00027.html">./gtx/fast_exponential.hpp</a>&quot;</span></div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00028.html">./gtx/fast_square_root.hpp</a>&quot;</span></div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00029.html">./gtx/fast_trigonometry.hpp</a>&quot;</span></div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00042.html">./gtx/gradient_paint.hpp</a>&quot;</span></div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00043.html">./gtx/handed_coordinate_space.hpp</a>&quot;</span></div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00046.html">./gtx/integer.hpp</a>&quot;</span></div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00048.html">./gtx/intersect.hpp</a>&quot;</span></div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00050.html">./gtx/log_base.hpp</a>&quot;</span></div>
<div class="line"><a name="l00083"></a><span class="lineno"> 83</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00063.html">./gtx/matrix_cross_product.hpp</a>&quot;</span></div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00066.html">./gtx/matrix_interpolation.hpp</a>&quot;</span></div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00068.html">./gtx/matrix_major_storage.hpp</a>&quot;</span></div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00069.html">./gtx/matrix_operation.hpp</a>&quot;</span></div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00070.html">./gtx/matrix_query.hpp</a>&quot;</span></div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00073.html">./gtx/mixed_product.hpp</a>&quot;</span></div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00075.html">./gtx/norm.hpp</a>&quot;</span></div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00076.html">./gtx/normal.hpp</a>&quot;</span></div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00077.html">./gtx/normalize_dot.hpp</a>&quot;</span></div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00078.html">./gtx/number_precision.hpp</a>&quot;</span></div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00079.html">./gtx/optimum_pow.hpp</a>&quot;</span></div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00080.html">./gtx/orthonormalize.hpp</a>&quot;</span></div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00084.html">./gtx/perpendicular.hpp</a>&quot;</span></div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00085.html">./gtx/polar_coordinates.hpp</a>&quot;</span></div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00087.html">./gtx/projection.hpp</a>&quot;</span></div>
<div class="line"><a name="l00098"></a><span class="lineno"> 98</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00089.html">./gtx/quaternion.hpp</a>&quot;</span></div>
<div class="line"><a name="l00099"></a><span class="lineno"> 99</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00092.html">./gtx/raw_data.hpp</a>&quot;</span></div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00095.html">./gtx/rotate_vector.hpp</a>&quot;</span></div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00100.html">./gtx/spline.hpp</a>&quot;</span></div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00101.html">./gtx/std_based_type.hpp</a>&quot;</span></div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160;<span class="preprocessor">#if !(GLM_COMPILER &amp; GLM_COMPILER_CUDA)</span></div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160;<span class="preprocessor"># include &quot;<a class="code" href="a00102.html">./gtx/string_cast.hpp</a>&quot;</span></div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00106"></a><span class="lineno"> 106</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00103.html">./gtx/transform.hpp</a>&quot;</span></div>
<div class="line"><a name="l00107"></a><span class="lineno"> 107</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00104.html">./gtx/transform2.hpp</a>&quot;</span></div>
<div class="line"><a name="l00108"></a><span class="lineno"> 108</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00135.html">./gtx/vec_swizzle.hpp</a>&quot;</span></div>
<div class="line"><a name="l00109"></a><span class="lineno"> 109</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00136.html">./gtx/vector_angle.hpp</a>&quot;</span></div>
<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00137.html">./gtx/vector_query.hpp</a>&quot;</span></div>
<div class="line"><a name="l00111"></a><span class="lineno"> 111</span>&#160;<span class="preprocessor">#include &quot;<a class="code" href="a00139.html">./gtx/wrap.hpp</a>&quot;</span></div>
<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160;</div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160;<span class="preprocessor">#if GLM_HAS_TEMPLATE_ALIASES</span></div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160;<span class="preprocessor"># include &quot;<a class="code" href="a00097.html">./gtx/scalar_multiplication.hpp</a>&quot;</span></div>
<div class="line"><a name="l00115"></a><span class="lineno"> 115</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00116"></a><span class="lineno"> 116</span>&#160;</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160;<span class="preprocessor">#if GLM_HAS_RANGE_FOR</span></div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160;<span class="preprocessor"># include &quot;<a class="code" href="a00091.html">./gtx/range.hpp</a>&quot;</span></div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160;<span class="preprocessor">#endif//GLM_ENABLE_EXPERIMENTAL</span></div>
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<div class="ttc" id="a00088_html"><div class="ttname"><a href="a00088.html">quaternion.hpp</a></div><div class="ttdoc">GLM_GTC_quaternion </div></div>
<div class="ttc" id="a00101_html"><div class="ttname"><a href="a00101.html">std_based_type.hpp</a></div><div class="ttdoc">GLM_GTX_std_based_type </div></div>
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<div class="ttc" id="a00135_html"><div class="ttname"><a href="a00135.html">vec_swizzle.hpp</a></div><div class="ttdoc">GLM_GTX_vec_swizzle </div></div>
<div class="ttc" id="a00062_html"><div class="ttname"><a href="a00062.html">matrix_access.hpp</a></div><div class="ttdoc">GLM_GTC_matrix_access </div></div>
<div class="ttc" id="a00123_html"><div class="ttname"><a href="a00123.html">type_ptr.hpp</a></div><div class="ttdoc">GLM_GTC_type_ptr </div></div>
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<div class="ttc" id="a00021_html"><div class="ttname"><a href="a00021.html">epsilon.hpp</a></div><div class="ttdoc">GLM_GTC_epsilon </div></div>
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<div class="ttc" id="a00067_html"><div class="ttname"><a href="a00067.html">matrix_inverse.hpp</a></div><div class="ttdoc">GLM_GTC_matrix_inverse </div></div>
<div class="ttc" id="a00084_html"><div class="ttname"><a href="a00084.html">perpendicular.hpp</a></div><div class="ttdoc">GLM_GTX_perpendicular </div></div>
<div class="ttc" id="a00043_html"><div class="ttname"><a href="a00043.html">handed_coordinate_space.hpp</a></div><div class="ttdoc">GLM_GTX_handed_coordinate_space </div></div>
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<div class="ttc" id="a00106_html"><div class="ttname"><a href="a00106.html">type_aligned.hpp</a></div><div class="ttdoc">GLM_GTC_type_aligned </div></div>
<div class="ttc" id="a00087_html"><div class="ttname"><a href="a00087.html">projection.hpp</a></div><div class="ttdoc">GLM_GTX_projection </div></div>
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<div class="ttc" id="a00090_html"><div class="ttname"><a href="a00090.html">random.hpp</a></div><div class="ttdoc">GLM_GTC_random </div></div>
<div class="ttc" id="a00026_html"><div class="ttname"><a href="a00026.html">extended_min_max.hpp</a></div><div class="ttdoc">gtx_extended_min_max </div></div>
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<tr class="memitem:ga8140caae613b0f847ab0d7175dc03a37"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00191.html#ga8140caae613b0f847ab0d7175dc03a37">extend</a> (genType const &amp;Origin, genType const &amp;Source, typename genType::value_type const Length)</td></tr>
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<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00025_source.html">extend.hpp</a>.</p>
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<a href="a00025.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_extend is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_extend extension included&quot;)</span></div>
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<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; GLM_FUNC_DECL genType <a class="code" href="a00191.html#ga8140caae613b0f847ab0d7175dc03a37">extend</a>(</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; genType <span class="keyword">const</span> &amp; Origin, </div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; genType <span class="keyword">const</span> &amp; Source, </div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; <span class="keyword">typename</span> genType::value_type <span class="keyword">const</span> Length);</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160;</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160;<span class="preprocessor">#include &quot;extend.inl&quot;</span></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
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<tr class="memitem:gae1b7bbe5c91de4924835ea3e14530744"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#gae1b7bbe5c91de4924835ea3e14530744">max</a> (C&lt; T &gt; const &amp;x, typename C&lt; T &gt;::T const &amp;y, typename C&lt; T &gt;::T const &amp;z)</td></tr>
<tr class="memdesc:gae1b7bbe5c91de4924835ea3e14530744"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the maximum component-wise values of 3 inputs. <a href="a00192.html#gae1b7bbe5c91de4924835ea3e14530744">More...</a><br /></td></tr>
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<tr class="memitem:gaf832e9d4ab4826b2dda2fda25935a3a4"><td class="memTemplParams" colspan="2">template&lt;typename T , template&lt; typename &gt; class C&gt; </td></tr>
<tr class="memitem:gaf832e9d4ab4826b2dda2fda25935a3a4"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#gaf832e9d4ab4826b2dda2fda25935a3a4">max</a> (C&lt; T &gt; const &amp;x, C&lt; T &gt; const &amp;y, C&lt; T &gt; const &amp;z)</td></tr>
<tr class="memdesc:gaf832e9d4ab4826b2dda2fda25935a3a4"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the maximum component-wise values of 3 inputs. <a href="a00192.html#gaf832e9d4ab4826b2dda2fda25935a3a4">More...</a><br /></td></tr>
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<tr class="memitem:ga78e04a0cef1c4863fcae1a2130500d87"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#ga78e04a0cef1c4863fcae1a2130500d87">max</a> (T const &amp;x, T const &amp;y, T const &amp;z, T const &amp;w)</td></tr>
<tr class="memdesc:ga78e04a0cef1c4863fcae1a2130500d87"><td class="mdescLeft">&#160;</td><td class="mdescRight">Return the maximum component-wise values of 4 inputs. <a href="a00192.html#ga78e04a0cef1c4863fcae1a2130500d87">More...</a><br /></td></tr>
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<tr class="memitem:ga7cca8b53cfda402040494cdf40fbdf4a"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#ga7cca8b53cfda402040494cdf40fbdf4a">max</a> (C&lt; T &gt; const &amp;x, typename C&lt; T &gt;::T const &amp;y, typename C&lt; T &gt;::T const &amp;z, typename C&lt; T &gt;::T const &amp;w)</td></tr>
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<tr class="memitem:gaacffbc466c2d08c140b181e7fd8a4858"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#gaacffbc466c2d08c140b181e7fd8a4858">max</a> (C&lt; T &gt; const &amp;x, C&lt; T &gt; const &amp;y, C&lt; T &gt; const &amp;z, C&lt; T &gt; const &amp;w)</td></tr>
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<tr class="memitem:ga713d3f9b3e76312c0d314e0c8611a6a6"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#ga713d3f9b3e76312c0d314e0c8611a6a6">min</a> (T const &amp;x, T const &amp;y, T const &amp;z)</td></tr>
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<tr class="memitem:ga74d1a96e7cdbac40f6d35142d3bcbbd4"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#ga74d1a96e7cdbac40f6d35142d3bcbbd4">min</a> (C&lt; T &gt; const &amp;x, typename C&lt; T &gt;::T const &amp;y, typename C&lt; T &gt;::T const &amp;z)</td></tr>
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<tr class="memitem:ga42b5c3fc027fd3d9a50d2ccc9126d9f0"><td class="memTemplParams" colspan="2">template&lt;typename T , template&lt; typename &gt; class C&gt; </td></tr>
<tr class="memitem:ga42b5c3fc027fd3d9a50d2ccc9126d9f0"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#ga42b5c3fc027fd3d9a50d2ccc9126d9f0">min</a> (C&lt; T &gt; const &amp;x, C&lt; T &gt; const &amp;y, C&lt; T &gt; const &amp;z)</td></tr>
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<tr class="memitem:ga4fe35dd31dd0c45693c9b60b830b8d47"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#ga4fe35dd31dd0c45693c9b60b830b8d47">min</a> (C&lt; T &gt; const &amp;x, typename C&lt; T &gt;::T const &amp;y, typename C&lt; T &gt;::T const &amp;z, typename C&lt; T &gt;::T const &amp;w)</td></tr>
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<tr class="memitem:ga7471ea4159eed8dd9ea4ac5d46c2fead"><td class="memTemplParams" colspan="2">template&lt;typename T , template&lt; typename &gt; class C&gt; </td></tr>
<tr class="memitem:ga7471ea4159eed8dd9ea4ac5d46c2fead"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL C&lt; T &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">min</a> (C&lt; T &gt; const &amp;x, C&lt; T &gt; const &amp;y, C&lt; T &gt; const &amp;z, C&lt; T &gt; const &amp;w)</td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p>gtx_extended_min_max </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00026_source.html">extended_min_max.hpp</a>.</p>
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<a href="a00026.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00013"></a><span class="lineno"> 13</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;</div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_extented_min_max is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_extented_min_max extension included&quot;)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;{</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;</div>
<div class="line"><a name="l00033"></a><span class="lineno"> 33</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">min</a>(</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; T <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160; T <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00037"></a><span class="lineno"> 37</span>&#160; T <span class="keyword">const</span> &amp; z);</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160;</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>&gt; <span class="keyword">class </span>C&gt;</div>
<div class="line"><a name="l00042"></a><span class="lineno"> 42</span>&#160; GLM_FUNC_DECL C&lt;T&gt; <a class="code" href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">min</a>(</div>
<div class="line"><a name="l00043"></a><span class="lineno"> 43</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; z);</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>&gt; <span class="keyword">class </span>C&gt;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; GLM_FUNC_DECL C&lt;T&gt; <a class="code" href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">min</a>(</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00053"></a><span class="lineno"> 53</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; z);</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160;</div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">min</a>(</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; T <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; T <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160; T <span class="keyword">const</span> &amp; z, </div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; T <span class="keyword">const</span> &amp; w);</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160;</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>&gt; <span class="keyword">class </span>C&gt;</div>
<div class="line"><a name="l00067"></a><span class="lineno"> 67</span>&#160; GLM_FUNC_DECL C&lt;T&gt; <a class="code" href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">min</a>(</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; z, </div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; w);</div>
<div class="line"><a name="l00072"></a><span class="lineno"> 72</span>&#160;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>&gt; <span class="keyword">class </span>C&gt;</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160; GLM_FUNC_DECL C&lt;T&gt; <a class="code" href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">min</a>(</div>
<div class="line"><a name="l00077"></a><span class="lineno"> 77</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00078"></a><span class="lineno"> 78</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; z,</div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; w);</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00192.html#gaacffbc466c2d08c140b181e7fd8a4858">max</a>(</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; T <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; T <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160; T <span class="keyword">const</span> &amp; z);</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160;</div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>&gt; <span class="keyword">class </span>C&gt;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160; GLM_FUNC_DECL C&lt;T&gt; <a class="code" href="a00192.html#gaacffbc466c2d08c140b181e7fd8a4858">max</a>(</div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00096"></a><span class="lineno"> 96</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; z);</div>
<div class="line"><a name="l00097"></a><span class="lineno"> 97</span>&#160;</div>
<div class="line"><a name="l00100"></a><span class="lineno"> 100</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>&gt; <span class="keyword">class </span>C&gt;</div>
<div class="line"><a name="l00101"></a><span class="lineno"> 101</span>&#160; GLM_FUNC_DECL C&lt;T&gt; <a class="code" href="a00192.html#gaacffbc466c2d08c140b181e7fd8a4858">max</a>(</div>
<div class="line"><a name="l00102"></a><span class="lineno"> 102</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00103"></a><span class="lineno"> 103</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00104"></a><span class="lineno"> 104</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; z);</div>
<div class="line"><a name="l00105"></a><span class="lineno"> 105</span>&#160;</div>
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<div class="line"><a name="l00110"></a><span class="lineno"> 110</span>&#160; T <span class="keyword">const</span> &amp; x, </div>
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<div class="line"><a name="l00112"></a><span class="lineno"> 112</span>&#160; T <span class="keyword">const</span> &amp; z, </div>
<div class="line"><a name="l00113"></a><span class="lineno"> 113</span>&#160; T <span class="keyword">const</span> &amp; w);</div>
<div class="line"><a name="l00114"></a><span class="lineno"> 114</span>&#160;</div>
<div class="line"><a name="l00117"></a><span class="lineno"> 117</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>&gt; <span class="keyword">class </span>C&gt;</div>
<div class="line"><a name="l00118"></a><span class="lineno"> 118</span>&#160; GLM_FUNC_DECL C&lt;T&gt; <a class="code" href="a00192.html#gaacffbc466c2d08c140b181e7fd8a4858">max</a>(</div>
<div class="line"><a name="l00119"></a><span class="lineno"> 119</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00120"></a><span class="lineno"> 120</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; y, </div>
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<div class="line"><a name="l00122"></a><span class="lineno"> 122</span>&#160; <span class="keyword">typename</span> C&lt;T&gt;::T <span class="keyword">const</span> &amp; w);</div>
<div class="line"><a name="l00123"></a><span class="lineno"> 123</span>&#160;</div>
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<div class="line"><a name="l00128"></a><span class="lineno"> 128</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; x, </div>
<div class="line"><a name="l00129"></a><span class="lineno"> 129</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; y, </div>
<div class="line"><a name="l00130"></a><span class="lineno"> 130</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; z, </div>
<div class="line"><a name="l00131"></a><span class="lineno"> 131</span>&#160; C&lt;T&gt; <span class="keyword">const</span> &amp; w);</div>
<div class="line"><a name="l00132"></a><span class="lineno"> 132</span>&#160;</div>
<div class="line"><a name="l00134"></a><span class="lineno"> 134</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00135"></a><span class="lineno"> 135</span>&#160;</div>
<div class="line"><a name="l00136"></a><span class="lineno"> 136</span>&#160;<span class="preprocessor">#include &quot;extended_min_max.inl&quot;</span></div>
<div class="ttc" id="a00192_html_ga7471ea4159eed8dd9ea4ac5d46c2fead"><div class="ttname"><a href="a00192.html#ga7471ea4159eed8dd9ea4ac5d46c2fead">glm::min</a></div><div class="ttdeci">GLM_FUNC_DECL C&lt; T &gt; min(C&lt; T &gt; const &amp;x, C&lt; T &gt; const &amp;y, C&lt; T &gt; const &amp;z, C&lt; T &gt; const &amp;w)</div><div class="ttdoc">Return the minimum component-wise values of 4 inputs. </div></div>
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<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
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<p><a class="el" href="a00193.html">GLM_GTX_fast_exponential</a>
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Functions</h2></td></tr>
<tr class="memitem:gaa3180ac8f96ab37ab96e0cacaf608e10"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
<tr class="memitem:gaa3180ac8f96ab37ab96e0cacaf608e10"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00193.html#gaa3180ac8f96ab37ab96e0cacaf608e10">fastExp</a> (T x)</td></tr>
<tr class="memdesc:gaa3180ac8f96ab37ab96e0cacaf608e10"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common exp function but less accurate. <a href="a00193.html#gaa3180ac8f96ab37ab96e0cacaf608e10">More...</a><br /></td></tr>
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<tr class="memitem:ga4faf0b61115de36efcf47c4ecb55a5fa"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
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<tr class="memdesc:ga4faf0b61115de36efcf47c4ecb55a5fa"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common exp function but less accurate. <a href="a00193.html#ga4faf0b61115de36efcf47c4ecb55a5fa">More...</a><br /></td></tr>
<tr class="separator:ga4faf0b61115de36efcf47c4ecb55a5fa"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga0af50585955eb14c60bb286297fabab2"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
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<tr class="memdesc:ga0af50585955eb14c60bb286297fabab2"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common exp2 function but less accurate. <a href="a00193.html#ga0af50585955eb14c60bb286297fabab2">More...</a><br /></td></tr>
<tr class="separator:ga0af50585955eb14c60bb286297fabab2"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga9e6219327b7a33077dbec7620d981fff"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga9e6219327b7a33077dbec7620d981fff"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00193.html#ga9e6219327b7a33077dbec7620d981fff">fastExp2</a> (vecType&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:ga9e6219327b7a33077dbec7620d981fff"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common exp2 function but less accurate. <a href="a00193.html#ga9e6219327b7a33077dbec7620d981fff">More...</a><br /></td></tr>
<tr class="separator:ga9e6219327b7a33077dbec7620d981fff"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gae1bdc97b7f96a600e29c753f1cd4388a"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
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<tr class="memdesc:gae1bdc97b7f96a600e29c753f1cd4388a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common log function but less accurate. <a href="a00193.html#gae1bdc97b7f96a600e29c753f1cd4388a">More...</a><br /></td></tr>
<tr class="separator:gae1bdc97b7f96a600e29c753f1cd4388a"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<tr class="memdesc:ga789abcbc34d08008d2f5a4547dd6e5e3"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common exp2 function but less accurate. <a href="a00193.html#ga789abcbc34d08008d2f5a4547dd6e5e3">More...</a><br /></td></tr>
<tr class="separator:ga789abcbc34d08008d2f5a4547dd6e5e3"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<tr class="memdesc:ga6e98118685f6dc9e05fbb13dd5e5234e"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common log2 function but less accurate. <a href="a00193.html#ga6e98118685f6dc9e05fbb13dd5e5234e">More...</a><br /></td></tr>
<tr class="separator:ga6e98118685f6dc9e05fbb13dd5e5234e"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<tr class="memdesc:gabc46086fe6636b8be87f09e6c5d2bb58"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common log2 function but less accurate. <a href="a00193.html#gabc46086fe6636b8be87f09e6c5d2bb58">More...</a><br /></td></tr>
<tr class="separator:gabc46086fe6636b8be87f09e6c5d2bb58"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga5340e98a11fcbbd936ba6e983a154d50"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
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<tr class="memdesc:ga5340e98a11fcbbd936ba6e983a154d50"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common pow function but less accurate. <a href="a00193.html#ga5340e98a11fcbbd936ba6e983a154d50">More...</a><br /></td></tr>
<tr class="separator:ga5340e98a11fcbbd936ba6e983a154d50"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga07b73976a9af4005945bc338b45d8466"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
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<tr class="memdesc:ga07b73976a9af4005945bc338b45d8466"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common pow function but less accurate. <a href="a00193.html#ga07b73976a9af4005945bc338b45d8466">More...</a><br /></td></tr>
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<tr class="memitem:ga7f2562db9c3e02ae76169c36b086c3f6"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genTypeT&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00193.html#ga7f2562db9c3e02ae76169c36b086c3f6">fastPow</a> (genTypeT x, genTypeU y)</td></tr>
<tr class="memdesc:ga7f2562db9c3e02ae76169c36b086c3f6"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common pow function but less accurate. <a href="a00193.html#ga7f2562db9c3e02ae76169c36b086c3f6">More...</a><br /></td></tr>
<tr class="separator:ga7f2562db9c3e02ae76169c36b086c3f6"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga29924aea1aa11c5c504fb2d621221906"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga29924aea1aa11c5c504fb2d621221906"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00193.html#ga29924aea1aa11c5c504fb2d621221906">fastPow</a> (vecType&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:ga29924aea1aa11c5c504fb2d621221906"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common pow function but less accurate. <a href="a00193.html#ga29924aea1aa11c5c504fb2d621221906">More...</a><br /></td></tr>
<tr class="separator:ga29924aea1aa11c5c504fb2d621221906"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00193.html">GLM_GTX_fast_exponential</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd>
<dd>
gtx_half_float (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00027_source.html">fast_exponential.hpp</a>.</p>
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<a href="a00027.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00014"></a><span class="lineno"> 14</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;</div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="preprocessor">#include &quot;../glm.hpp&quot;</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;</div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_fast_exponential is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;</div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_fast_exponential extension included&quot;)</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;</div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;{</div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00035"></a><span class="lineno"> 35</span>&#160; GLM_FUNC_DECL genType <a class="code" href="a00193.html#ga29924aea1aa11c5c504fb2d621221906">fastPow</a>(genType x, genType y);</div>
<div class="line"><a name="l00036"></a><span class="lineno"> 36</span>&#160;</div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00193.html#ga29924aea1aa11c5c504fb2d621221906">fastPow</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y);</div>
<div class="line"><a name="l00041"></a><span class="lineno"> 41</span>&#160;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genTypeT, <span class="keyword">typename</span> genTypeU&gt;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; GLM_FUNC_DECL genTypeT <a class="code" href="a00193.html#ga29924aea1aa11c5c504fb2d621221906">fastPow</a>(genTypeT x, genTypeU y);</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;</div>
<div class="line"><a name="l00049"></a><span class="lineno"> 49</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00193.html#ga29924aea1aa11c5c504fb2d621221906">fastPow</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160;</div>
<div class="line"><a name="l00054"></a><span class="lineno"> 54</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00055"></a><span class="lineno"> 55</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00193.html#ga4faf0b61115de36efcf47c4ecb55a5fa">fastExp</a>(T x);</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160;</div>
<div class="line"><a name="l00059"></a><span class="lineno"> 59</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00060"></a><span class="lineno"> 60</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00193.html#ga4faf0b61115de36efcf47c4ecb55a5fa">fastExp</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00061"></a><span class="lineno"> 61</span>&#160;</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00065"></a><span class="lineno"> 65</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00193.html#ga789abcbc34d08008d2f5a4547dd6e5e3">fastLog</a>(T x);</div>
<div class="line"><a name="l00066"></a><span class="lineno"> 66</span>&#160;</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00193.html#ga789abcbc34d08008d2f5a4547dd6e5e3">fastLog</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00071"></a><span class="lineno"> 71</span>&#160;</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00193.html#ga9e6219327b7a33077dbec7620d981fff">fastExp2</a>(T x);</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;</div>
<div class="line"><a name="l00079"></a><span class="lineno"> 79</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00193.html#ga9e6219327b7a33077dbec7620d981fff">fastExp2</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160;</div>
<div class="line"><a name="l00084"></a><span class="lineno"> 84</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T&gt;</div>
<div class="line"><a name="l00085"></a><span class="lineno"> 85</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00193.html#gabc46086fe6636b8be87f09e6c5d2bb58">fastLog2</a>(T x);</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160;</div>
<div class="line"><a name="l00089"></a><span class="lineno"> 89</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00193.html#gabc46086fe6636b8be87f09e6c5d2bb58">fastLog2</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;</div>
<div class="line"><a name="l00093"></a><span class="lineno"> 93</span>&#160;}<span class="comment">//namespace glm</span></div>
<div class="line"><a name="l00094"></a><span class="lineno"> 94</span>&#160;</div>
<div class="line"><a name="l00095"></a><span class="lineno"> 95</span>&#160;<span class="preprocessor">#include &quot;fast_exponential.inl&quot;</span></div>
<div class="ttc" id="a00193_html_ga789abcbc34d08008d2f5a4547dd6e5e3"><div class="ttname"><a href="a00193.html#ga789abcbc34d08008d2f5a4547dd6e5e3">glm::fastLog</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; fastLog(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Faster than the common exp2 function but less accurate. </div></div>
<div class="ttc" id="a00193_html_ga29924aea1aa11c5c504fb2d621221906"><div class="ttname"><a href="a00193.html#ga29924aea1aa11c5c504fb2d621221906">glm::fastPow</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; fastPow(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Faster than the common pow function but less accurate. </div></div>
<div class="ttc" id="a00193_html_ga4faf0b61115de36efcf47c4ecb55a5fa"><div class="ttname"><a href="a00193.html#ga4faf0b61115de36efcf47c4ecb55a5fa">glm::fastExp</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; fastExp(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Faster than the common exp function but less accurate. </div></div>
<div class="ttc" id="a00193_html_ga9e6219327b7a33077dbec7620d981fff"><div class="ttname"><a href="a00193.html#ga9e6219327b7a33077dbec7620d981fff">glm::fastExp2</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; fastExp2(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Faster than the common exp2 function but less accurate. </div></div>
<div class="ttc" id="a00140_html"><div class="ttname"><a href="a00140.html">glm</a></div><div class="ttdef"><b>Definition:</b> <a href="a00003_source.html#l00011">_noise.hpp:11</a></div></div>
<div class="ttc" id="a00193_html_gabc46086fe6636b8be87f09e6c5d2bb58"><div class="ttname"><a href="a00193.html#gabc46086fe6636b8be87f09e6c5d2bb58">glm::fastLog2</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; fastLog2(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Faster than the common log2 function but less accurate. </div></div>
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Functions</h2></td></tr>
<tr class="memitem:gaac333418d0c4e0cc6d3d219ed606c238"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gaac333418d0c4e0cc6d3d219ed606c238"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#gaac333418d0c4e0cc6d3d219ed606c238">fastDistance</a> (genType x, genType y)</td></tr>
<tr class="memdesc:gaac333418d0c4e0cc6d3d219ed606c238"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common distance function but less accurate. <a href="a00194.html#gaac333418d0c4e0cc6d3d219ed606c238">More...</a><br /></td></tr>
<tr class="separator:gaac333418d0c4e0cc6d3d219ed606c238"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga6d1ac559cd77d69119e30c3aca0e14b5"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga6d1ac559cd77d69119e30c3aca0e14b5"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#ga6d1ac559cd77d69119e30c3aca0e14b5">fastDistance</a> (vecType&lt; T, P &gt; const &amp;x, vecType&lt; T, P &gt; const &amp;y)</td></tr>
<tr class="memdesc:ga6d1ac559cd77d69119e30c3aca0e14b5"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common distance function but less accurate. <a href="a00194.html#ga6d1ac559cd77d69119e30c3aca0e14b5">More...</a><br /></td></tr>
<tr class="separator:ga6d1ac559cd77d69119e30c3aca0e14b5"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga7f081b14d9c7035c8714eba5f7f75a8f"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga7f081b14d9c7035c8714eba5f7f75a8f"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#ga7f081b14d9c7035c8714eba5f7f75a8f">fastInverseSqrt</a> (genType x)</td></tr>
<tr class="memdesc:ga7f081b14d9c7035c8714eba5f7f75a8f"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common inversesqrt function but less accurate. <a href="a00194.html#ga7f081b14d9c7035c8714eba5f7f75a8f">More...</a><br /></td></tr>
<tr class="separator:ga7f081b14d9c7035c8714eba5f7f75a8f"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga903878071f92e51e551791e584a171a1"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:ga903878071f92e51e551791e584a171a1"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#ga903878071f92e51e551791e584a171a1">fastInverseSqrt</a> (vecType&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:ga903878071f92e51e551791e584a171a1"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common inversesqrt function but less accurate. <a href="a00194.html#ga903878071f92e51e551791e584a171a1">More...</a><br /></td></tr>
<tr class="separator:ga903878071f92e51e551791e584a171a1"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gafe697d6287719538346bbdf8b1367c59"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:gafe697d6287719538346bbdf8b1367c59"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#gafe697d6287719538346bbdf8b1367c59">fastLength</a> (genType x)</td></tr>
<tr class="memdesc:gafe697d6287719538346bbdf8b1367c59"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common length function but less accurate. <a href="a00194.html#gafe697d6287719538346bbdf8b1367c59">More...</a><br /></td></tr>
<tr class="separator:gafe697d6287719538346bbdf8b1367c59"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gae28a3099cbd6404a4ea8ef22147ed7b0"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gae28a3099cbd6404a4ea8ef22147ed7b0"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL T&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#gae28a3099cbd6404a4ea8ef22147ed7b0">fastLength</a> (vecType&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:gae28a3099cbd6404a4ea8ef22147ed7b0"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common length function but less accurate. <a href="a00194.html#gae28a3099cbd6404a4ea8ef22147ed7b0">More...</a><br /></td></tr>
<tr class="separator:gae28a3099cbd6404a4ea8ef22147ed7b0"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga3b02c1d6e0c754144e2f1e110bf9f16c"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga3b02c1d6e0c754144e2f1e110bf9f16c"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#ga3b02c1d6e0c754144e2f1e110bf9f16c">fastNormalize</a> (genType const &amp;x)</td></tr>
<tr class="memdesc:ga3b02c1d6e0c754144e2f1e110bf9f16c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common normalize function but less accurate. <a href="a00194.html#ga3b02c1d6e0c754144e2f1e110bf9f16c">More...</a><br /></td></tr>
<tr class="separator:ga3b02c1d6e0c754144e2f1e110bf9f16c"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:ga6c460e9414a50b2fc455c8f64c86cdc9"><td class="memTemplParams" colspan="2">template&lt;typename genType &gt; </td></tr>
<tr class="memitem:ga6c460e9414a50b2fc455c8f64c86cdc9"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL genType&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#ga6c460e9414a50b2fc455c8f64c86cdc9">fastSqrt</a> (genType x)</td></tr>
<tr class="memdesc:ga6c460e9414a50b2fc455c8f64c86cdc9"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common sqrt function but less accurate. <a href="a00194.html#ga6c460e9414a50b2fc455c8f64c86cdc9">More...</a><br /></td></tr>
<tr class="separator:ga6c460e9414a50b2fc455c8f64c86cdc9"><td class="memSeparator" colspan="2">&#160;</td></tr>
<tr class="memitem:gaad9f601bbc3faa04dda384e4c4e1592c"><td class="memTemplParams" colspan="2">template&lt;typename T , precision P, template&lt; typename, precision &gt; class vecType&gt; </td></tr>
<tr class="memitem:gaad9f601bbc3faa04dda384e4c4e1592c"><td class="memTemplItemLeft" align="right" valign="top">GLM_FUNC_DECL vecType&lt; T, P &gt;&#160;</td><td class="memTemplItemRight" valign="bottom"><a class="el" href="a00194.html#gaad9f601bbc3faa04dda384e4c4e1592c">fastSqrt</a> (vecType&lt; T, P &gt; const &amp;x)</td></tr>
<tr class="memdesc:gaad9f601bbc3faa04dda384e4c4e1592c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common sqrt function but less accurate. <a href="a00194.html#gaad9f601bbc3faa04dda384e4c4e1592c">More...</a><br /></td></tr>
<tr class="separator:gaad9f601bbc3faa04dda384e4c4e1592c"><td class="memSeparator" colspan="2">&#160;</td></tr>
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<a name="details" id="details"></a><h2 class="groupheader">Detailed Description</h2>
<div class="textblock"><p><a class="el" href="a00194.html">GLM_GTX_fast_square_root</a> </p>
<dl class="section see"><dt>See also</dt><dd><a class="el" href="a00155.html" title="The core of GLM, which implements exactly and only the GLSL specification to the degree possible...">GLM Core</a> (dependence) </dd></dl>
<p>Definition in file <a class="el" href="a00028_source.html">fast_square_root.hpp</a>.</p>
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<a href="a00028.html">Go to the documentation of this file.</a><div class="fragment"><div class="line"><a name="l00001"></a><span class="lineno"> 1</span>&#160;</div>
<div class="line"><a name="l00015"></a><span class="lineno"> 15</span>&#160;<span class="preprocessor">#pragma once</span></div>
<div class="line"><a name="l00016"></a><span class="lineno"> 16</span>&#160;</div>
<div class="line"><a name="l00017"></a><span class="lineno"> 17</span>&#160;<span class="comment">// Dependency:</span></div>
<div class="line"><a name="l00018"></a><span class="lineno"> 18</span>&#160;<span class="preprocessor">#include &quot;../common.hpp&quot;</span></div>
<div class="line"><a name="l00019"></a><span class="lineno"> 19</span>&#160;<span class="preprocessor">#include &quot;../exponential.hpp&quot;</span></div>
<div class="line"><a name="l00020"></a><span class="lineno"> 20</span>&#160;<span class="preprocessor">#include &quot;../geometric.hpp&quot;</span></div>
<div class="line"><a name="l00021"></a><span class="lineno"> 21</span>&#160;</div>
<div class="line"><a name="l00022"></a><span class="lineno"> 22</span>&#160;<span class="preprocessor">#ifndef GLM_ENABLE_EXPERIMENTAL</span></div>
<div class="line"><a name="l00023"></a><span class="lineno"> 23</span>&#160;<span class="preprocessor"># error &quot;GLM: GLM_GTX_fast_square_root is an experimetal extension and may change in the future. Use #define GLM_ENABLE_EXPERIMENTAL before including it, if you really want to use it.&quot;</span></div>
<div class="line"><a name="l00024"></a><span class="lineno"> 24</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00025"></a><span class="lineno"> 25</span>&#160;</div>
<div class="line"><a name="l00026"></a><span class="lineno"> 26</span>&#160;<span class="preprocessor">#if GLM_MESSAGES == GLM_MESSAGES_ENABLED &amp;&amp; !defined(GLM_EXT_INCLUDED)</span></div>
<div class="line"><a name="l00027"></a><span class="lineno"> 27</span>&#160;<span class="preprocessor"># pragma message(&quot;GLM: GLM_GTX_fast_square_root extension included&quot;)</span></div>
<div class="line"><a name="l00028"></a><span class="lineno"> 28</span>&#160;<span class="preprocessor">#endif</span></div>
<div class="line"><a name="l00029"></a><span class="lineno"> 29</span>&#160;</div>
<div class="line"><a name="l00030"></a><span class="lineno"> 30</span>&#160;<span class="keyword">namespace </span><a class="code" href="a00140.html">glm</a></div>
<div class="line"><a name="l00031"></a><span class="lineno"> 31</span>&#160;{</div>
<div class="line"><a name="l00034"></a><span class="lineno"> 34</span>&#160;</div>
<div class="line"><a name="l00038"></a><span class="lineno"> 38</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00039"></a><span class="lineno"> 39</span>&#160; GLM_FUNC_DECL genType <a class="code" href="a00194.html#gaad9f601bbc3faa04dda384e4c4e1592c">fastSqrt</a>(genType x);</div>
<div class="line"><a name="l00040"></a><span class="lineno"> 40</span>&#160;</div>
<div class="line"><a name="l00044"></a><span class="lineno"> 44</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00045"></a><span class="lineno"> 45</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00194.html#gaad9f601bbc3faa04dda384e4c4e1592c">fastSqrt</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00046"></a><span class="lineno"> 46</span>&#160;</div>
<div class="line"><a name="l00050"></a><span class="lineno"> 50</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00051"></a><span class="lineno"> 51</span>&#160; GLM_FUNC_DECL genType <a class="code" href="a00194.html#ga903878071f92e51e551791e584a171a1">fastInverseSqrt</a>(genType x);</div>
<div class="line"><a name="l00052"></a><span class="lineno"> 52</span>&#160;</div>
<div class="line"><a name="l00056"></a><span class="lineno"> 56</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00057"></a><span class="lineno"> 57</span>&#160; GLM_FUNC_DECL vecType&lt;T, P&gt; <a class="code" href="a00194.html#ga903878071f92e51e551791e584a171a1">fastInverseSqrt</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00058"></a><span class="lineno"> 58</span>&#160;</div>
<div class="line"><a name="l00062"></a><span class="lineno"> 62</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00063"></a><span class="lineno"> 63</span>&#160; GLM_FUNC_DECL genType <a class="code" href="a00194.html#gae28a3099cbd6404a4ea8ef22147ed7b0">fastLength</a>(genType x);</div>
<div class="line"><a name="l00064"></a><span class="lineno"> 64</span>&#160;</div>
<div class="line"><a name="l00068"></a><span class="lineno"> 68</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00069"></a><span class="lineno"> 69</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00194.html#gae28a3099cbd6404a4ea8ef22147ed7b0">fastLength</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00070"></a><span class="lineno"> 70</span>&#160;</div>
<div class="line"><a name="l00074"></a><span class="lineno"> 74</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt;</div>
<div class="line"><a name="l00075"></a><span class="lineno"> 75</span>&#160; GLM_FUNC_DECL genType <a class="code" href="a00194.html#ga6d1ac559cd77d69119e30c3aca0e14b5">fastDistance</a>(genType x, genType y);</div>
<div class="line"><a name="l00076"></a><span class="lineno"> 76</span>&#160;</div>
<div class="line"><a name="l00080"></a><span class="lineno"> 80</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> T, precision P, <span class="keyword">template</span> &lt;<span class="keyword">typename</span>, precision&gt; <span class="keyword">class </span>vecType&gt;</div>
<div class="line"><a name="l00081"></a><span class="lineno"> 81</span>&#160; GLM_FUNC_DECL T <a class="code" href="a00194.html#ga6d1ac559cd77d69119e30c3aca0e14b5">fastDistance</a>(vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; x, vecType&lt;T, P&gt; <span class="keyword">const</span> &amp; y);</div>
<div class="line"><a name="l00082"></a><span class="lineno"> 82</span>&#160;</div>
<div class="line"><a name="l00086"></a><span class="lineno"> 86</span>&#160; <span class="keyword">template</span> &lt;<span class="keyword">typename</span> genType&gt; </div>
<div class="line"><a name="l00087"></a><span class="lineno"> 87</span>&#160; GLM_FUNC_DECL genType <a class="code" href="a00194.html#ga3b02c1d6e0c754144e2f1e110bf9f16c">fastNormalize</a>(genType <span class="keyword">const</span> &amp; x);</div>
<div class="line"><a name="l00088"></a><span class="lineno"> 88</span>&#160;</div>
<div class="line"><a name="l00090"></a><span class="lineno"> 90</span>&#160;}<span class="comment">// namespace glm</span></div>
<div class="line"><a name="l00091"></a><span class="lineno"> 91</span>&#160;</div>
<div class="line"><a name="l00092"></a><span class="lineno"> 92</span>&#160;<span class="preprocessor">#include &quot;fast_square_root.inl&quot;</span></div>
<div class="ttc" id="a00194_html_ga6d1ac559cd77d69119e30c3aca0e14b5"><div class="ttname"><a href="a00194.html#ga6d1ac559cd77d69119e30c3aca0e14b5">glm::fastDistance</a></div><div class="ttdeci">GLM_FUNC_DECL T fastDistance(vecType&lt; T, P &gt; const &amp;x, vecType&lt; T, P &gt; const &amp;y)</div><div class="ttdoc">Faster than the common distance function but less accurate. </div></div>
<div class="ttc" id="a00194_html_ga3b02c1d6e0c754144e2f1e110bf9f16c"><div class="ttname"><a href="a00194.html#ga3b02c1d6e0c754144e2f1e110bf9f16c">glm::fastNormalize</a></div><div class="ttdeci">GLM_FUNC_DECL genType fastNormalize(genType const &amp;x)</div><div class="ttdoc">Faster than the common normalize function but less accurate. </div></div>
<div class="ttc" id="a00194_html_ga903878071f92e51e551791e584a171a1"><div class="ttname"><a href="a00194.html#ga903878071f92e51e551791e584a171a1">glm::fastInverseSqrt</a></div><div class="ttdeci">GLM_FUNC_DECL vecType&lt; T, P &gt; fastInverseSqrt(vecType&lt; T, P &gt; const &amp;x)</div><div class="ttdoc">Faster than the common inversesqrt function but less accurate. </div></div>
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Functions</h2></td></tr>
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<tr class="memdesc:ga562cb62c51fbfe7fac7db0bce706b81f"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common asin function but less accurate. <a href="a00195.html#ga562cb62c51fbfe7fac7db0bce706b81f">More...</a><br /></td></tr>
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<tr class="memdesc:ga8d197c6ef564f5e5d59af3b3f8adcc2c"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common atan function but less accurate. <a href="a00195.html#ga8d197c6ef564f5e5d59af3b3f8adcc2c">More...</a><br /></td></tr>
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<tr class="memitem:gae25de86a968490ff56856fa425ec9d30"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
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<tr class="memdesc:gae25de86a968490ff56856fa425ec9d30"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common atan function but less accurate. <a href="a00195.html#gae25de86a968490ff56856fa425ec9d30">More...</a><br /></td></tr>
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<tr class="memdesc:gab34c8b45c23c0165a64dcecfcc3b302a"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common cos function but less accurate. <a href="a00195.html#gab34c8b45c23c0165a64dcecfcc3b302a">More...</a><br /></td></tr>
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<tr class="memdesc:ga0aab3257bb3b628d10a1e0483e2c6915"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common sin function but less accurate. <a href="a00195.html#ga0aab3257bb3b628d10a1e0483e2c6915">More...</a><br /></td></tr>
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<tr class="memitem:gaf29b9c1101a10007b4f79ee89df27ba2"><td class="memTemplParams" colspan="2">template&lt;typename T &gt; </td></tr>
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<tr class="memdesc:gaf29b9c1101a10007b4f79ee89df27ba2"><td class="mdescLeft">&#160;</td><td class="mdescRight">Faster than the common tan function but less accurate. <a href="a00195.html#gaf29b9c1101a10007b4f79ee89df27ba2">More...</a><br /></td></tr>
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