basisu_gpu_texture.h - external/github.com/BinomialLLC/basis_universal - Git at Google

 // basisu_gpu_texture.h
 // Copyright (C) 2019-2020 Binomial LLC. All Rights Reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 #pragma once
 #include "transcoder/basisu.h"
 #include "basisu_etc.h"

 namespace basisu
 {
 	// GPU texture "image"
 	class gpu_image
 	{
 	public:
 		enum { cMaxBlockSize = 12 };

 		gpu_image()
 		{
 			clear();
 		}

 		gpu_image(texture_format fmt, uint32_t width, uint32_t height)
 		{
 			init(fmt, width, height);
 		}

 		void clear()
 		{
 			m_fmt = texture_format::cInvalidTextureFormat;
 			m_width = 0;
 			m_height = 0;
 			m_block_width = 0;
 			m_block_height = 0;
 			m_blocks_x = 0;
 			m_blocks_y = 0;
 			m_qwords_per_block = 0;
 			m_blocks.clear();
 		}

 		inline texture_format get_format() const { return m_fmt; }

 		// Width/height in pixels
 		inline uint32_t get_pixel_width() const { return m_width; }
 		inline uint32_t get_pixel_height() const { return m_height; }

 		// Width/height in blocks, row pitch is assumed to be m_blocks_x.
 		inline uint32_t get_blocks_x() const { return m_blocks_x; }
 		inline uint32_t get_blocks_y() const { return m_blocks_y; }

 		// Size of each block in pixels
 		inline uint32_t get_block_width() const { return m_block_width; }
 		inline uint32_t get_block_height() const { return m_block_height; }

 		inline uint32_t get_qwords_per_block() const { return m_qwords_per_block; }
 		inline uint32_t get_total_blocks() const { return m_blocks_x * m_blocks_y; }
 		inline uint32_t get_bytes_per_block() const { return get_qwords_per_block() * sizeof(uint64_t); }
 		inline uint32_t get_row_pitch_in_bytes() const { return get_bytes_per_block() * get_blocks_x(); }

 		inline const uint64_vec &get_blocks() const { return m_blocks; }

 		inline const uint64_t *get_ptr() const { return &m_blocks[0]; }
 		inline uint64_t *get_ptr() { return &m_blocks[0]; }

 		inline uint32_t get_size_in_bytes() const { return get_total_blocks() * get_qwords_per_block() * sizeof(uint64_t); }

 		inline const void *get_block_ptr(uint32_t block_x, uint32_t block_y, uint32_t element_index = 0) const
 		{
 			assert(block_x < m_blocks_x && block_y < m_blocks_y);
 			return &m_blocks[(block_x + block_y * m_blocks_x) * m_qwords_per_block + element_index];
 		}

 		inline void *get_block_ptr(uint32_t block_x, uint32_t block_y, uint32_t element_index = 0)
 		{
 			assert(block_x < m_blocks_x && block_y < m_blocks_y && element_index < m_qwords_per_block);
 			return &m_blocks[(block_x + block_y * m_blocks_x) * m_qwords_per_block + element_index];
 		}

 		void init(texture_format fmt, uint32_t width, uint32_t height)
 		{
 			m_fmt = fmt;
 			m_width = width;
 			m_height = height;
 			m_block_width = basisu::get_block_width(m_fmt);
 			m_block_height = basisu::get_block_height(m_fmt);
 			m_blocks_x = (m_width + m_block_width - 1) / m_block_width;
 			m_blocks_y = (m_height + m_block_height - 1) / m_block_height;
 			m_qwords_per_block = basisu::get_qwords_per_block(m_fmt);

 			m_blocks.resize(0);
 			m_blocks.resize(m_blocks_x * m_blocks_y * m_qwords_per_block);
 		}

 		bool unpack(image& img) const;

 		void override_dimensions(uint32_t w, uint32_t h)
 		{
 			m_width = w;
 			m_height = h;
 		}

 	private:
 		texture_format m_fmt;
 		uint32_t m_width, m_height, m_blocks_x, m_blocks_y, m_block_width, m_block_height, m_qwords_per_block;
 		uint64_vec m_blocks;
 	};

 	typedef std::vector<gpu_image> gpu_image_vec;

 	// KTX file writing

 	bool create_ktx_texture_file(uint8_vec &ktx_data, const std::vector<gpu_image_vec>& gpu_images, bool cubemap_flag);

 	bool write_compressed_texture_file(const char *pFilename, const std::vector<gpu_image_vec>& g, bool cubemap_flag);

 	inline bool write_compressed_texture_file(const char *pFilename, const gpu_image_vec &g)
 	{
 		std::vector<gpu_image_vec> a;
 		a.push_back(g);
 		return write_compressed_texture_file(pFilename, a, false);
 	}

 	bool write_compressed_texture_file(const char *pFilename, const gpu_image &g);

 	bool write_3dfx_out_file(const char* pFilename, const gpu_image& gi);

 	// GPU texture block unpacking
 	void unpack_etc2_eac(const void *pBlock_bits, color_rgba *pPixels);
 	bool unpack_bc1(const void *pBlock_bits, color_rgba *pPixels, bool set_alpha);
 	void unpack_bc4(const void *pBlock_bits, uint8_t *pPixels, uint32_t stride);
 	bool unpack_bc3(const void *pBlock_bits, color_rgba *pPixels);
 	void unpack_bc5(const void *pBlock_bits, color_rgba *pPixels);
 	bool unpack_bc7_mode6(const void *pBlock_bits, color_rgba *pPixels);
 	bool unpack_bc7(const void* pBlock_bits, color_rgba* pPixels);
 	void unpack_atc(const void* pBlock_bits, color_rgba* pPixels);
 	bool unpack_fxt1(const void* p, color_rgba* pPixels);
 	bool unpack_pvrtc2(const void* p, color_rgba* pPixels);
 	void unpack_etc2_eac_r(const void *p, color_rgba* pPixels, uint32_t c);
 	void unpack_etc2_eac_rg(const void* p, color_rgba* pPixels);

 	// unpack_block() is primarily intended to unpack texture data created by the transcoder.
 	// For some texture formats (like ETC2 RGB, PVRTC2, FXT1) it's not a complete implementation.
 	bool unpack_block(texture_format fmt, const void *pBlock, color_rgba *pPixels);

 } // namespace basisu
	// basisu_gpu_texture.h
	// Copyright (C) 2019-2020 Binomial LLC. All Rights Reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	#pragma once
	#include "transcoder/basisu.h"
	#include "basisu_etc.h"

	namespace basisu
	{
	// GPU texture "image"
	class gpu_image
	{
	public:
	enum { cMaxBlockSize = 12 };

	gpu_image()
	{
	clear();
	}

	gpu_image(texture_format fmt, uint32_t width, uint32_t height)
	{
	init(fmt, width, height);
	}

	void clear()
	{
	m_fmt = texture_format::cInvalidTextureFormat;
	m_width = 0;
	m_height = 0;
	m_block_width = 0;
	m_block_height = 0;
	m_blocks_x = 0;
	m_blocks_y = 0;
	m_qwords_per_block = 0;
	m_blocks.clear();
	}

	inline texture_format get_format() const { return m_fmt; }

	// Width/height in pixels
	inline uint32_t get_pixel_width() const { return m_width; }
	inline uint32_t get_pixel_height() const { return m_height; }

	// Width/height in blocks, row pitch is assumed to be m_blocks_x.
	inline uint32_t get_blocks_x() const { return m_blocks_x; }
	inline uint32_t get_blocks_y() const { return m_blocks_y; }

	// Size of each block in pixels
	inline uint32_t get_block_width() const { return m_block_width; }
	inline uint32_t get_block_height() const { return m_block_height; }

	inline uint32_t get_qwords_per_block() const { return m_qwords_per_block; }
	inline uint32_t get_total_blocks() const { return m_blocks_x * m_blocks_y; }
	inline uint32_t get_bytes_per_block() const { return get_qwords_per_block() * sizeof(uint64_t); }
	inline uint32_t get_row_pitch_in_bytes() const { return get_bytes_per_block() * get_blocks_x(); }

	inline const uint64_vec &get_blocks() const { return m_blocks; }

	inline const uint64_t *get_ptr() const { return &m_blocks[0]; }
	inline uint64_t *get_ptr() { return &m_blocks[0]; }

	inline uint32_t get_size_in_bytes() const { return get_total_blocks() * get_qwords_per_block() * sizeof(uint64_t); }

	inline const void *get_block_ptr(uint32_t block_x, uint32_t block_y, uint32_t element_index = 0) const
	{
	assert(block_x < m_blocks_x && block_y < m_blocks_y);
	return &m_blocks[(block_x + block_y * m_blocks_x) * m_qwords_per_block + element_index];
	}

	inline void *get_block_ptr(uint32_t block_x, uint32_t block_y, uint32_t element_index = 0)
	{
	assert(block_x < m_blocks_x && block_y < m_blocks_y && element_index < m_qwords_per_block);
	return &m_blocks[(block_x + block_y * m_blocks_x) * m_qwords_per_block + element_index];
	}

	void init(texture_format fmt, uint32_t width, uint32_t height)
	{
	m_fmt = fmt;
	m_width = width;
	m_height = height;
	m_block_width = basisu::get_block_width(m_fmt);
	m_block_height = basisu::get_block_height(m_fmt);
	m_blocks_x = (m_width + m_block_width - 1) / m_block_width;
	m_blocks_y = (m_height + m_block_height - 1) / m_block_height;
	m_qwords_per_block = basisu::get_qwords_per_block(m_fmt);

	m_blocks.resize(0);
	m_blocks.resize(m_blocks_x * m_blocks_y * m_qwords_per_block);
	}

	bool unpack(image& img) const;

	void override_dimensions(uint32_t w, uint32_t h)
	{
	m_width = w;
	m_height = h;
	}

	private:
	texture_format m_fmt;
	uint32_t m_width, m_height, m_blocks_x, m_blocks_y, m_block_width, m_block_height, m_qwords_per_block;
	uint64_vec m_blocks;
	};

	typedef std::vector<gpu_image> gpu_image_vec;

	// KTX file writing

	bool create_ktx_texture_file(uint8_vec &ktx_data, const std::vector<gpu_image_vec>& gpu_images, bool cubemap_flag);

	bool write_compressed_texture_file(const char *pFilename, const std::vector<gpu_image_vec>& g, bool cubemap_flag);

	inline bool write_compressed_texture_file(const char *pFilename, const gpu_image_vec &g)
	{
	std::vector<gpu_image_vec> a;
	a.push_back(g);
	return write_compressed_texture_file(pFilename, a, false);
	}

	bool write_compressed_texture_file(const char *pFilename, const gpu_image &g);

	bool write_3dfx_out_file(const char* pFilename, const gpu_image& gi);

	// GPU texture block unpacking
	void unpack_etc2_eac(const void pBlock_bits, color_rgba pPixels);
	bool unpack_bc1(const void pBlock_bits, color_rgba pPixels, bool set_alpha);
	void unpack_bc4(const void pBlock_bits, uint8_t pPixels, uint32_t stride);
	bool unpack_bc3(const void pBlock_bits, color_rgba pPixels);
	void unpack_bc5(const void pBlock_bits, color_rgba pPixels);
	bool unpack_bc7_mode6(const void pBlock_bits, color_rgba pPixels);
	bool unpack_bc7(const void* pBlock_bits, color_rgba* pPixels);
	void unpack_atc(const void* pBlock_bits, color_rgba* pPixels);
	bool unpack_fxt1(const void* p, color_rgba* pPixels);
	bool unpack_pvrtc2(const void* p, color_rgba* pPixels);
	void unpack_etc2_eac_r(const void p, color_rgba pPixels, uint32_t c);
	void unpack_etc2_eac_rg(const void* p, color_rgba* pPixels);

	// unpack_block() is primarily intended to unpack texture data created by the transcoder.
	// For some texture formats (like ETC2 RGB, PVRTC2, FXT1) it's not a complete implementation.
	bool unpack_block(texture_format fmt, const void pBlock, color_rgba pPixels);

	} // namespace basisu