glm/test/external/gli/core/operation.inl

///////////////////////////////////////////////////////////////////////////////////////////////////
// OpenGL Image Copyright (c) 2008 - 2011 G-Truc Creation (www.g-truc.net)
///////////////////////////////////////////////////////////////////////////////////////////////////
// Created : 2008-12-19
// Updated : 2010-09-08
// Licence : This source is under MIT License
// File    : gli/core/operation.inl
///////////////////////////////////////////////////////////////////////////////////////////////////

#include <cstring>

namespace gli
{
	namespace detail
	{
		inline image2D duplicate(image2D const & Mipmap2D)
		{
			image2D Result(Mipmap2D.dimensions(), Mipmap2D.format());
			memcpy(Result.data(), Mipmap2D.data(), Mipmap2D.capacity());
			return Result;	
		}

		inline image2D flip(image2D const & Mipmap2D)
		{
			image2D Result(Mipmap2D.dimensions(), Mipmap2D.format());
			
			std::size_t ValueSize = Result.value_size();
			glm::byte * DstPtr = Result.data();
			glm::byte const * const SrcPtr = Mipmap2D.data();

			for(std::size_t j = 0; j < Result.dimensions().y; ++j)
			for(std::size_t i = 0; i < Result.dimensions().x; ++i)
			{
				std::size_t DstIndex = (i + j * Result.dimensions().y) * ValueSize;
				std::size_t SrcIndex = (i + (Result.dimensions().y - j) * Result.dimensions().x) * ValueSize;
				memcpy(DstPtr + DstIndex, SrcPtr + SrcIndex, ValueSize);
			}

			return Result;
		}

		inline image2D mirror(image2D const & Mipmap2D)
		{
			image2D Result(Mipmap2D.dimensions(), Mipmap2D.format());

			std::size_t ValueSize = Mipmap2D.value_size();
			glm::byte * DstPtr = Result.data();
			glm::byte const * const SrcPtr = Mipmap2D.data();

			for(std::size_t j = 0; j < Result.dimensions().y; ++j)
			for(std::size_t i = 0; i < Result.dimensions().x; ++i)
			{
				std::size_t DstIndex = (i + j * Result.dimensions().x) * ValueSize;
				std::size_t SrcIndex = ((Result.dimensions().x - i) + j * Result.dimensions().x) * ValueSize;
				memcpy(DstPtr + DstIndex, SrcPtr + SrcIndex, ValueSize);
			}

			return Result;
		}

		inline image2D swizzle
		(
			image2D const & Mipmap, 
			glm::uvec4 const & Channel
		)
		{
			image2D Result = detail::duplicate(Mipmap);

			glm::byte * DataDst = Result.data();
			glm::byte const * const DataSrc = Mipmap.data();

			gli::texture2D::size_type CompSize = Mipmap.value_size() / Mipmap.components();
			gli::texture2D::size_type TexelCount = Mipmap.capacity() / Mipmap.value_size();

			for(gli::texture2D::size_type t = 0; t < TexelCount; ++t)
			for(gli::texture2D::size_type c = 0; c < Mipmap.components(); ++c)
			{
				gli::texture2D::size_type IndexSrc = t * Mipmap.components() + Channel[glm::uvec4::size_type(c)];
				gli::texture2D::size_type IndexDst = t * Mipmap.components() + c;

				memcpy(DataDst + IndexDst, DataSrc + IndexSrc, CompSize);
			}

			return Result;
		}

		inline image2D crop
		(
			image2D const & Image, 
			image2D::dimensions_type const & Position, 
			image2D::dimensions_type const & Size
		)
		{
			assert((Position.x + Size.x) <= Image.dimensions().x && (Position.y + Size.y) <= Image.dimensions().y);

			image2D Result(Size, Image.format());

			glm::byte* DstData = Result.data();
			glm::byte const * const SrcData = Image.data();

			for(std::size_t j = 0; j < Size.y; ++j)
			{
				std::size_t DstIndex = 0                                + (0          + j) * Size.x         * Image.value_size();
				std::size_t SrcIndex = Position.x * Image.value_size() + (Position.y + j) * Image.dimensions().x * Image.value_size();
				memcpy(DstData + DstIndex, SrcData + SrcIndex, Image.value_size() * Size.x);	
			}

			return Result;
		}

		inline image2D copy
		(
			image2D const & SrcMipmap, 
			image2D::dimensions_type const & SrcPosition,
			image2D::dimensions_type const & SrcSize,
			image2D & DstMipmap, 
			image2D::dimensions_type const & DstPosition
		)
		{
			assert((SrcPosition.x + SrcSize.x) <= SrcMipmap.dimensions().x && (SrcPosition.y + SrcSize.y) <= SrcMipmap.dimensions().y);
			assert(SrcMipmap.format() == DstMipmap.format());

			glm::byte * DstData = DstMipmap.data();
			glm::byte const * const SrcData = SrcMipmap.data();

			std::size_t SizeX = std::min(std::size_t(SrcSize.x + SrcPosition.x), std::size_t(DstMipmap.dimensions().x  + DstPosition.x));
			std::size_t SizeY = std::min(std::size_t(SrcSize.y + SrcPosition.y), std::size_t(DstMipmap.dimensions().y + DstPosition.y));

			for(std::size_t j = 0; j < SizeY; ++j)
			{
				std::size_t DstIndex = DstPosition.x * DstMipmap.value_size() + (DstPosition.y + j) * DstMipmap.dimensions().x * DstMipmap.value_size();
				std::size_t SrcIndex = SrcPosition.x * SrcMipmap.value_size() + (SrcPosition.y + j) * SrcMipmap.dimensions().x * SrcMipmap.value_size();
				memcpy(DstData + DstIndex, SrcData + SrcIndex, SrcMipmap.value_size() * SizeX);	
			}

			return DstMipmap;
		}

	}//namespace detail

	inline texture2D duplicate(texture2D const & Texture2D)
	{
		texture2D Result(Texture2D.levels());
		for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)
			Result[Level] = detail::duplicate(Texture2D[Level]);
		return Result;
	}

	inline texture2D flip(texture2D const & Texture2D)
	{
		texture2D Result(Texture2D.levels());
		for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)
			Result[Level] = detail::flip(Texture2D[Level]);
		return Result;
	}

	inline texture2D mirror(texture2D const & Texture2D)
	{
		texture2D Result(Texture2D.levels());
		for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)
			Result[Level] = detail::mirror(Texture2D[Level]);
		return Result;
	}

	inline texture2D crop
	(
		texture2D const & Texture2D,
		texture2D::dimensions_type const & Position,
		texture2D::dimensions_type const & Size
	)
	{
		texture2D Result(Texture2D.levels());
		for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)
			Result[Level] = detail::crop(
				Texture2D[Level], 
				Position >> texture2D::dimensions_type(Level), 
				Size >> texture2D::dimensions_type(Level));
		return Result;
	}

	inline texture2D swizzle
	(
		texture2D const & Texture2D,
		glm::uvec4 const & Channel
	)
	{
		texture2D Result(Texture2D.levels());
		for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)
			Result[Level] = detail::swizzle(Texture2D[Level], Channel);
		return Result;
	}

	inline texture2D copy
	(
		texture2D const & SrcImage, 
		texture2D::level_type const & SrcLevel,
		texture2D::dimensions_type const & SrcPosition,
		texture2D::dimensions_type const & SrcDimensions,
		texture2D & DstMipmap, 
		texture2D::level_type const & DstLevel,
		texture2D::dimensions_type const & DstDimensions
	)
	{
		detail::copy(
			SrcImage[SrcLevel], 
			SrcPosition, 
			SrcDimensions,
			DstMipmap[DstLevel],
			DstDimensions);
		return DstMipmap;
	}

	//inline image operator+(image const & MipmapA, image const & MipmapB)
	//{
	//	
	//}

	//inline image operator-(image const & MipmapA, image const & MipmapB)
	//{
	//	
	//}

	//inline image operator*(image const & MipmapA, image const & MipmapB)
	//{
	//	
	//}

	//inline image operator/(image const & MipmapA, image const & MipmapB)
	//{
	//	
	//}

}//namespace gli
Added GLI for GLM tests 2011-06-23 19:07:13 +00:00			`///////////////////////////////////////////////////////////////////////////////////////////////////`
			`// OpenGL Image Copyright (c) 2008 - 2011 G-Truc Creation (www.g-truc.net)`
			`///////////////////////////////////////////////////////////////////////////////////////////////////`
			`// Created : 2008-12-19`
			`// Updated : 2010-09-08`
			`// Licence : This source is under MIT License`
			`// File : gli/core/operation.inl`
			`///////////////////////////////////////////////////////////////////////////////////////////////////`

			`#include <cstring>`

			`namespace gli`
			`{`
			`namespace detail`
			`{`
			`inline image2D duplicate(image2D const & Mipmap2D)`
			`{`
			`image2D Result(Mipmap2D.dimensions(), Mipmap2D.format());`
			`memcpy(Result.data(), Mipmap2D.data(), Mipmap2D.capacity());`
			`return Result;`
			`}`

			`inline image2D flip(image2D const & Mipmap2D)`
			`{`
			`image2D Result(Mipmap2D.dimensions(), Mipmap2D.format());`

			`std::size_t ValueSize = Result.value_size();`
			`glm::byte * DstPtr = Result.data();`
			`glm::byte const * const SrcPtr = Mipmap2D.data();`

			`for(std::size_t j = 0; j < Result.dimensions().y; ++j)`
			`for(std::size_t i = 0; i < Result.dimensions().x; ++i)`
			`{`
			`std::size_t DstIndex = (i + j * Result.dimensions().y) * ValueSize;`
			`std::size_t SrcIndex = (i + (Result.dimensions().y - j) * Result.dimensions().x) * ValueSize;`
			`memcpy(DstPtr + DstIndex, SrcPtr + SrcIndex, ValueSize);`
			`}`

			`return Result;`
			`}`

			`inline image2D mirror(image2D const & Mipmap2D)`
			`{`
			`image2D Result(Mipmap2D.dimensions(), Mipmap2D.format());`

			`std::size_t ValueSize = Mipmap2D.value_size();`
			`glm::byte * DstPtr = Result.data();`
			`glm::byte const * const SrcPtr = Mipmap2D.data();`

			`for(std::size_t j = 0; j < Result.dimensions().y; ++j)`
			`for(std::size_t i = 0; i < Result.dimensions().x; ++i)`
			`{`
			`std::size_t DstIndex = (i + j * Result.dimensions().x) * ValueSize;`
			`std::size_t SrcIndex = ((Result.dimensions().x - i) + j * Result.dimensions().x) * ValueSize;`
			`memcpy(DstPtr + DstIndex, SrcPtr + SrcIndex, ValueSize);`
			`}`

			`return Result;`
			`}`

			`inline image2D swizzle`
			`(`
			`image2D const & Mipmap,`
			`glm::uvec4 const & Channel`
			`)`
			`{`
			`image2D Result = detail::duplicate(Mipmap);`

			`glm::byte * DataDst = Result.data();`
			`glm::byte const * const DataSrc = Mipmap.data();`

			`gli::texture2D::size_type CompSize = Mipmap.value_size() / Mipmap.components();`
			`gli::texture2D::size_type TexelCount = Mipmap.capacity() / Mipmap.value_size();`

			`for(gli::texture2D::size_type t = 0; t < TexelCount; ++t)`
			`for(gli::texture2D::size_type c = 0; c < Mipmap.components(); ++c)`
			`{`
			`gli::texture2D::size_type IndexSrc = t * Mipmap.components() + Channel[glm::uvec4::size_type(c)];`
			`gli::texture2D::size_type IndexDst = t * Mipmap.components() + c;`

			`memcpy(DataDst + IndexDst, DataSrc + IndexSrc, CompSize);`
			`}`

			`return Result;`
			`}`

			`inline image2D crop`
			`(`
			`image2D const & Image,`
			`image2D::dimensions_type const & Position,`
			`image2D::dimensions_type const & Size`
			`)`
			`{`
			`assert((Position.x + Size.x) <= Image.dimensions().x && (Position.y + Size.y) <= Image.dimensions().y);`

			`image2D Result(Size, Image.format());`

			`glm::byte* DstData = Result.data();`
			`glm::byte const * const SrcData = Image.data();`

			`for(std::size_t j = 0; j < Size.y; ++j)`
			`{`
			`std::size_t DstIndex = 0 + (0 + j) * Size.x * Image.value_size();`
			`std::size_t SrcIndex = Position.x * Image.value_size() + (Position.y + j) * Image.dimensions().x * Image.value_size();`
			`memcpy(DstData + DstIndex, SrcData + SrcIndex, Image.value_size() * Size.x);`
			`}`

			`return Result;`
			`}`

			`inline image2D copy`
			`(`
			`image2D const & SrcMipmap,`
			`image2D::dimensions_type const & SrcPosition,`
			`image2D::dimensions_type const & SrcSize,`
			`image2D & DstMipmap,`
			`image2D::dimensions_type const & DstPosition`
			`)`
			`{`
			`assert((SrcPosition.x + SrcSize.x) <= SrcMipmap.dimensions().x && (SrcPosition.y + SrcSize.y) <= SrcMipmap.dimensions().y);`
			`assert(SrcMipmap.format() == DstMipmap.format());`

			`glm::byte * DstData = DstMipmap.data();`
			`glm::byte const * const SrcData = SrcMipmap.data();`

			`std::size_t SizeX = std::min(std::size_t(SrcSize.x + SrcPosition.x), std::size_t(DstMipmap.dimensions().x + DstPosition.x));`
			`std::size_t SizeY = std::min(std::size_t(SrcSize.y + SrcPosition.y), std::size_t(DstMipmap.dimensions().y + DstPosition.y));`

			`for(std::size_t j = 0; j < SizeY; ++j)`
			`{`
			`std::size_t DstIndex = DstPosition.x * DstMipmap.value_size() + (DstPosition.y + j) * DstMipmap.dimensions().x * DstMipmap.value_size();`
			`std::size_t SrcIndex = SrcPosition.x * SrcMipmap.value_size() + (SrcPosition.y + j) * SrcMipmap.dimensions().x * SrcMipmap.value_size();`
			`memcpy(DstData + DstIndex, SrcData + SrcIndex, SrcMipmap.value_size() * SizeX);`
			`}`

			`return DstMipmap;`
			`}`

			`}//namespace detail`

			`inline texture2D duplicate(texture2D const & Texture2D)`
			`{`
			`texture2D Result(Texture2D.levels());`
			`for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)`
			`Result[Level] = detail::duplicate(Texture2D[Level]);`
			`return Result;`
			`}`

			`inline texture2D flip(texture2D const & Texture2D)`
			`{`
			`texture2D Result(Texture2D.levels());`
			`for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)`
			`Result[Level] = detail::flip(Texture2D[Level]);`
			`return Result;`
			`}`

			`inline texture2D mirror(texture2D const & Texture2D)`
			`{`
			`texture2D Result(Texture2D.levels());`
			`for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)`
			`Result[Level] = detail::mirror(Texture2D[Level]);`
			`return Result;`
			`}`

			`inline texture2D crop`
			`(`
			`texture2D const & Texture2D,`
			`texture2D::dimensions_type const & Position,`
			`texture2D::dimensions_type const & Size`
			`)`
			`{`
			`texture2D Result(Texture2D.levels());`
			`for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)`
			`Result[Level] = detail::crop(`
			`Texture2D[Level],`
			`Position >> texture2D::dimensions_type(Level),`
			`Size >> texture2D::dimensions_type(Level));`
			`return Result;`
			`}`

			`inline texture2D swizzle`
			`(`
			`texture2D const & Texture2D,`
			`glm::uvec4 const & Channel`
			`)`
			`{`
			`texture2D Result(Texture2D.levels());`
			`for(texture2D::level_type Level = 0; Level < Texture2D.levels(); ++Level)`
			`Result[Level] = detail::swizzle(Texture2D[Level], Channel);`
			`return Result;`
			`}`

			`inline texture2D copy`
			`(`
			`texture2D const & SrcImage,`
			`texture2D::level_type const & SrcLevel,`
			`texture2D::dimensions_type const & SrcPosition,`
			`texture2D::dimensions_type const & SrcDimensions,`
			`texture2D & DstMipmap,`
			`texture2D::level_type const & DstLevel,`
			`texture2D::dimensions_type const & DstDimensions`
			`)`
			`{`
			`detail::copy(`
			`SrcImage[SrcLevel],`
			`SrcPosition,`
			`SrcDimensions,`
			`DstMipmap[DstLevel],`
			`DstDimensions);`
			`return DstMipmap;`
			`}`

			`//inline image operator+(image const & MipmapA, image const & MipmapB)`
			`//{`
			`//`
			`//}`

			`//inline image operator-(image const & MipmapA, image const & MipmapB)`
			`//{`
			`//`
			`//}`

			`//inline image operator*(image const & MipmapA, image const & MipmapB)`
			`//{`
			`//`
			`//}`

			`//inline image operator/(image const & MipmapA, image const & MipmapB)`
			`//{`
			`//`
			`//}`

			`}//namespace gli`