src/third_party/glm/test/external/gli/core/operator.inl - cobalt - Git at Google

 ///////////////////////////////////////////////////////////////////////////////////////////////////
 // OpenGL Image Copyright (c) 2008 - 2011 G-Truc Creation (www.g-truc.net)
 ///////////////////////////////////////////////////////////////////////////////////////////////////
 // Created : 2010-01-19
 // Updated : 2010-01-19
 // Licence : This source is under MIT License
 // File    : gli/core/operator.inl
 ///////////////////////////////////////////////////////////////////////////////////////////////////

 namespace gli
 {
 	namespace detail
 	{
 		template <typename T>
 		void element
 		(
 			T & DataDst,
 			T const & DataSrcA,
 			T const & DataSrcB,
 			std::binary_function<T, T, T> const & Func
 		)
 		{
 			*DataDst = Func(DataSrcA, DataSrcB);
 		}

 		void op
 		(
 			texture2D::value_type * DataDst,
 			texture2D::value_type const * const DataSrcA,
 			texture2D::value_type const * const DataSrcB,
 			format Format
 		)
 		{
 			std::plus<>()
 			switch(Format)
 			{
 			case R8U:
 				*((glm::u8*)DataDst) = *((glm::u8*)DataSrcA) + *((glm::u8*)DataSrcB);
 				break;
 			case RG8U:
 				*((glm::u8vec2*)DataDst) = *((glm::u8vec2*)DataSrcA) + *((glm::u8vec2*)DataSrcB);
 				break;
 			case RGB8U:
 				*((glm::u8vec3*)DataDst) = *((glm::u8vec3*)DataSrcA) + *((glm::u8vec3*)DataSrcB);
 				break;
 			case RGBA8U:
 				*((glm::u8vec4*)DataDst) = *((glm::u8vec4*)DataSrcA) + *((glm::u8vec4*)DataSrcB);
 				break;

 			case R16U:
 				*((glm::u16*)DataDst) = *((glm::u16*)DataSrcA) + *((glm::u16*)DataSrcB);
 				break;
 			case RG16U:
 				*((glm::u16vec2*)DataDst) = *((glm::u16vec2*)DataSrcA) + *((glm::u16vec2*)DataSrcB);
 				break;
 			case RGB16U:
 				*((glm::u16vec3*)DataDst) = *((glm::u16vec3*)DataSrcA) + *((glm::u16vec3*)DataSrcB);
 				break;
 			case RGBA16U:
 				*((glm::u16vec4*)DataDst) = *((glm::u16vec4*)DataSrcA) + *((glm::u16vec4*)DataSrcB);
 				break;

 			case R32U:
 				*((glm::u32*)DataDst) = *((glm::u32*)DataSrcA) + *((glm::u32*)DataSrcB);
 				break;
 			case RG32U:
 				*((glm::u32vec2*)DataDst) = *((glm::u32vec2*)DataSrcA) + *((glm::u32vec2*)DataSrcB);
 				break;
 			case RGB32U:
 				*((glm::u32vec3*)DataDst) = *((glm::u32vec3*)DataSrcA) + *((glm::u32vec3*)DataSrcB);
 				break;
 			case RGBA32U:
 				*((glm::u32vec4*)DataDst) = *((glm::u32vec4*)DataSrcA) + *((glm::u32vec4*)DataSrcB);
 				break;

 			case R8I:
 				*((glm::i8*)DataDst) = *((glm::i8*)DataSrcA) + *((glm::i8*)DataSrcB);
 				break;
 			case RG8I:
 				*((glm::i8vec2*)DataDst) = *((glm::i8vec2*)DataSrcA) + *((glm::i8vec2*)DataSrcB);
 				break;
 			case RGB8I:
 				*((glm::i8vec3*)DataDst) = *((glm::i8vec3*)DataSrcA) + *((glm::i8vec3*)DataSrcB);
 				break;
 			case RGBA8I:
 				*((glm::i8vec4*)DataDst) = *((glm::i8vec4*)DataSrcA) + *((glm::i8vec4*)DataSrcB);
 				break;

 			case R16I:
 				*((glm::i16*)DataDst) = *((glm::i16*)DataSrcA) + *((glm::i16*)DataSrcB);
 				break;
 			case RG16I:
 				*((glm::i16vec2*)DataDst) = *((glm::i16vec2*)DataSrcA) + *((glm::i16vec2*)DataSrcB);
 				break;
 			case RGB16I:
 				*((glm::i16vec3*)DataDst) = *((glm::i16vec3*)DataSrcA) + *((glm::i16vec3*)DataSrcB);
 				break;
 			case RGBA16I:
 				*((glm::i16vec4*)DataDst) = *((glm::i16vec4*)DataSrcA) + *((glm::i16vec4*)DataSrcB);
 				break;

 			case R32I:
 				*((glm::i32*)DataDst) = *((glm::i32*)DataSrcA) + *((glm::i32*)DataSrcB);
 				break;
 			case RG32I:
 				*((glm::i32vec2*)DataDst) = *((glm::i32vec2*)DataSrcA) + *((glm::i32vec2*)DataSrcB);
 				break;
 			case RGB32I:
 				*((glm::i32vec3*)DataDst) = *((glm::i32vec3*)DataSrcA) + *((glm::i32vec3*)DataSrcB);
 				break;
 			case RGBA32I:
 				*((glm::i32vec4*)DataDst) = *((glm::i32vec4*)DataSrcA) + *((glm::i32vec4*)DataSrcB);
 				break;

 			case R16F:
 				*((glm::f16*)DataDst) = *((glm::f16*)DataSrcA) + *((glm::f16*)DataSrcB);
 				break;
 			case RG16F:
 				*((glm::f16vec2*)DataDst) = *((glm::f16vec2*)DataSrcA) + *((glm::f16vec2*)DataSrcB);
 				break;
 			case RGB16F:
 				*((glm::f16vec3*)DataDst) = *((glm::f16vec3*)DataSrcA) + *((glm::f16vec3*)DataSrcB);
 				break;
 			case RGBA16F:
 				*((glm::f16vec4*)DataDst) = *((glm::f16vec4*)DataSrcA) + *((glm::f16vec4*)DataSrcB);
 				break;

 			case R32F:
 				*((glm::f32*)DataDst) = *((glm::f32*)DataSrcA) + *((glm::f32*)DataSrcB);
 				break;
 			case RG32F:
 				*((glm::f32vec2*)DataDst) = *((glm::f32vec2*)DataSrcA) + *((glm::f32vec2*)DataSrcB);
 				break;
 			case RGB32F:
 				*((glm::f32vec3*)DataDst) = *((glm::f32vec3*)DataSrcA) + *((glm::f32vec3*)DataSrcB);
 				break;
 			case RGBA32F:
 				*((glm::f32vec4*)DataDst) = *((glm::f32vec4*)DataSrcA) + *((glm::f32vec4*)DataSrcB);
 				break;
 			default:
 				assert(0);
 			}
 		}

 		void add
 		(
 			texture2D::image & Result,
 			texture2D::image const & ImageA,
 			texture2D::image const & ImageB,
 		)
 		{

 		}

 	}//namespace detail

 	texture2D operator+
 	(
 		texture2D const & ImageA,
 		texture2D const & ImageB
 	)
 	{
 		assert(ImageA.levels() == ImageB.levels());
 		texture2D Result[ImageA.levels()];

 		for(texture2D::level_type Level = 0; Level < Result.levels(); ++Level)
 		{
 			assert(ImageA.capacity() == ImageB.capacity());
 			assert(ImageA.format() == ImageB.format());

 			Result[Level] = texture2D::image(ImageA[Level].dimensions(), ImageA[Level].format());

 			add(Result[Level], ImageA[Level], ImageB[Level]);

 			texture2D::size_type ValueSize = Result.value_size();
 			texture2D::size_type TexelCount = this->capacity() / ValueSize;
 			for(texture2D::size_type Texel = 0; Texel < TexelCount; ++Texel)
 			{
 				texture2D::value_type * DataDst = Result[Level].data() + Texel * ValueSize;
 				texture2D::value_type const * const DataSrcA = ImageA[Level].data() + Texel * ValueSize;
 				texture2D::value_type const * const DataSrcB = ImageB[Level].data() + Texel * ValueSize;

 				detail::op(DataDst, DataSrcA, DataSrcB, Result.format(), std::plus);
 			}
 		}

 		return Result;
 	}

 	texture2D operator-
 	(
 		texture2D const & ImageA,
 		texture2D const & ImageB
 	)
 	{
 		assert(ImageA.levels() == ImageB.levels());
 		texture2D Result[ImageA.levels()];


 		for(texture2D::level_type Level = 0; Level < ImageA.levels(); ++Level)
 		{
 			assert(ImageA.capacity() == ImageB.capacity());


 		}

 		return Result;
 	}

 }//namespace gli
	///////////////////////////////////////////////////////////////////////////////////////////////////
	// OpenGL Image Copyright (c) 2008 - 2011 G-Truc Creation (www.g-truc.net)
	///////////////////////////////////////////////////////////////////////////////////////////////////
	// Created : 2010-01-19
	// Updated : 2010-01-19
	// Licence : This source is under MIT License
	// File : gli/core/operator.inl
	///////////////////////////////////////////////////////////////////////////////////////////////////

	namespace gli
	{
	namespace detail
	{
	template <typename T>
	void element
	(
	T & DataDst,
	T const & DataSrcA,
	T const & DataSrcB,
	std::binary_function<T, T, T> const & Func
	)
	{
	*DataDst = Func(DataSrcA, DataSrcB);
	}

	void op
	(
	texture2D::value_type * DataDst,
	texture2D::value_type const * const DataSrcA,
	texture2D::value_type const * const DataSrcB,
	format Format
	)
	{
	std::plus<>()
	switch(Format)
	{
	case R8U:
	((glm::u8)DataDst) = ((glm::u8)DataSrcA) + ((glm::u8)DataSrcB);
	break;
	case RG8U:
	((glm::u8vec2)DataDst) = ((glm::u8vec2)DataSrcA) + ((glm::u8vec2)DataSrcB);
	break;
	case RGB8U:
	((glm::u8vec3)DataDst) = ((glm::u8vec3)DataSrcA) + ((glm::u8vec3)DataSrcB);
	break;
	case RGBA8U:
	((glm::u8vec4)DataDst) = ((glm::u8vec4)DataSrcA) + ((glm::u8vec4)DataSrcB);
	break;

	case R16U:
	((glm::u16)DataDst) = ((glm::u16)DataSrcA) + ((glm::u16)DataSrcB);
	break;
	case RG16U:
	((glm::u16vec2)DataDst) = ((glm::u16vec2)DataSrcA) + ((glm::u16vec2)DataSrcB);
	break;
	case RGB16U:
	((glm::u16vec3)DataDst) = ((glm::u16vec3)DataSrcA) + ((glm::u16vec3)DataSrcB);
	break;
	case RGBA16U:
	((glm::u16vec4)DataDst) = ((glm::u16vec4)DataSrcA) + ((glm::u16vec4)DataSrcB);
	break;

	case R32U:
	((glm::u32)DataDst) = ((glm::u32)DataSrcA) + ((glm::u32)DataSrcB);
	break;
	case RG32U:
	((glm::u32vec2)DataDst) = ((glm::u32vec2)DataSrcA) + ((glm::u32vec2)DataSrcB);
	break;
	case RGB32U:
	((glm::u32vec3)DataDst) = ((glm::u32vec3)DataSrcA) + ((glm::u32vec3)DataSrcB);
	break;
	case RGBA32U:
	((glm::u32vec4)DataDst) = ((glm::u32vec4)DataSrcA) + ((glm::u32vec4)DataSrcB);
	break;

	case R8I:
	((glm::i8)DataDst) = ((glm::i8)DataSrcA) + ((glm::i8)DataSrcB);
	break;
	case RG8I:
	((glm::i8vec2)DataDst) = ((glm::i8vec2)DataSrcA) + ((glm::i8vec2)DataSrcB);
	break;
	case RGB8I:
	((glm::i8vec3)DataDst) = ((glm::i8vec3)DataSrcA) + ((glm::i8vec3)DataSrcB);
	break;
	case RGBA8I:
	((glm::i8vec4)DataDst) = ((glm::i8vec4)DataSrcA) + ((glm::i8vec4)DataSrcB);
	break;

	case R16I:
	((glm::i16)DataDst) = ((glm::i16)DataSrcA) + ((glm::i16)DataSrcB);
	break;
	case RG16I:
	((glm::i16vec2)DataDst) = ((glm::i16vec2)DataSrcA) + ((glm::i16vec2)DataSrcB);
	break;
	case RGB16I:
	((glm::i16vec3)DataDst) = ((glm::i16vec3)DataSrcA) + ((glm::i16vec3)DataSrcB);
	break;
	case RGBA16I:
	((glm::i16vec4)DataDst) = ((glm::i16vec4)DataSrcA) + ((glm::i16vec4)DataSrcB);
	break;

	case R32I:
	((glm::i32)DataDst) = ((glm::i32)DataSrcA) + ((glm::i32)DataSrcB);
	break;
	case RG32I:
	((glm::i32vec2)DataDst) = ((glm::i32vec2)DataSrcA) + ((glm::i32vec2)DataSrcB);
	break;
	case RGB32I:
	((glm::i32vec3)DataDst) = ((glm::i32vec3)DataSrcA) + ((glm::i32vec3)DataSrcB);
	break;
	case RGBA32I:
	((glm::i32vec4)DataDst) = ((glm::i32vec4)DataSrcA) + ((glm::i32vec4)DataSrcB);
	break;

	case R16F:
	((glm::f16)DataDst) = ((glm::f16)DataSrcA) + ((glm::f16)DataSrcB);
	break;
	case RG16F:
	((glm::f16vec2)DataDst) = ((glm::f16vec2)DataSrcA) + ((glm::f16vec2)DataSrcB);
	break;
	case RGB16F:
	((glm::f16vec3)DataDst) = ((glm::f16vec3)DataSrcA) + ((glm::f16vec3)DataSrcB);
	break;
	case RGBA16F:
	((glm::f16vec4)DataDst) = ((glm::f16vec4)DataSrcA) + ((glm::f16vec4)DataSrcB);
	break;

	case R32F:
	((glm::f32)DataDst) = ((glm::f32)DataSrcA) + ((glm::f32)DataSrcB);
	break;
	case RG32F:
	((glm::f32vec2)DataDst) = ((glm::f32vec2)DataSrcA) + ((glm::f32vec2)DataSrcB);
	break;
	case RGB32F:
	((glm::f32vec3)DataDst) = ((glm::f32vec3)DataSrcA) + ((glm::f32vec3)DataSrcB);
	break;
	case RGBA32F:
	((glm::f32vec4)DataDst) = ((glm::f32vec4)DataSrcA) + ((glm::f32vec4)DataSrcB);
	break;
	default:
	assert(0);
	}
	}

	void add
	(
	texture2D::image & Result,
	texture2D::image const & ImageA,
	texture2D::image const & ImageB,
	)
	{

	}

	}//namespace detail

	texture2D operator+
	(
	texture2D const & ImageA,
	texture2D const & ImageB
	)
	{
	assert(ImageA.levels() == ImageB.levels());
	texture2D Result[ImageA.levels()];

	for(texture2D::level_type Level = 0; Level < Result.levels(); ++Level)
	{
	assert(ImageA.capacity() == ImageB.capacity());
	assert(ImageA.format() == ImageB.format());

	Result[Level] = texture2D::image(ImageA[Level].dimensions(), ImageA[Level].format());

	add(Result[Level], ImageA[Level], ImageB[Level]);

	texture2D::size_type ValueSize = Result.value_size();
	texture2D::size_type TexelCount = this->capacity() / ValueSize;
	for(texture2D::size_type Texel = 0; Texel < TexelCount; ++Texel)
	{
	texture2D::value_type * DataDst = Result[Level].data() + Texel * ValueSize;
	texture2D::value_type const * const DataSrcA = ImageA[Level].data() + Texel * ValueSize;
	texture2D::value_type const * const DataSrcB = ImageB[Level].data() + Texel * ValueSize;

	detail::op(DataDst, DataSrcA, DataSrcB, Result.format(), std::plus);
	}
	}

	return Result;
	}

	texture2D operator-
	(
	texture2D const & ImageA,
	texture2D const & ImageB
	)
	{
	assert(ImageA.levels() == ImageB.levels());
	texture2D Result[ImageA.levels()];


	for(texture2D::level_type Level = 0; Level < ImageA.levels(); ++Level)
	{
	assert(ImageA.capacity() == ImageB.capacity());


	}

	return Result;
	}

	}//namespace gli