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https://git.h3cjp.net/H3cJP/yuzu.git
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gl_rasterizer_cache: Move format conversion to its own file
This commit is contained in:
parent
0ccd490fcd
commit
0ad3c031f4
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@ -94,6 +94,8 @@ add_library(video_core STATIC
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surface.h
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textures/astc.cpp
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textures/astc.h
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textures/convert.cpp
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textures/convert.h
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textures/decoders.cpp
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textures/decoders.h
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textures/texture.h
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@ -20,7 +20,7 @@
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#include "video_core/renderer_opengl/gl_rasterizer_cache.h"
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#include "video_core/renderer_opengl/utils.h"
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#include "video_core/surface.h"
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#include "video_core/textures/astc.h"
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#include "video_core/textures/convert.h"
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#include "video_core/textures/decoders.h"
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namespace OpenGL {
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@ -594,103 +594,6 @@ CachedSurface::CachedSurface(const SurfaceParams& params)
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}
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}
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static void ConvertS8Z24ToZ24S8(std::vector<u8>& data, u32 width, u32 height, bool reverse) {
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union S8Z24 {
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BitField<0, 24, u32> z24;
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BitField<24, 8, u32> s8;
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};
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static_assert(sizeof(S8Z24) == 4, "S8Z24 is incorrect size");
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union Z24S8 {
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BitField<0, 8, u32> s8;
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BitField<8, 24, u32> z24;
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};
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static_assert(sizeof(Z24S8) == 4, "Z24S8 is incorrect size");
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S8Z24 s8z24_pixel{};
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Z24S8 z24s8_pixel{};
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constexpr auto bpp{GetBytesPerPixel(PixelFormat::S8Z24)};
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for (std::size_t y = 0; y < height; ++y) {
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for (std::size_t x = 0; x < width; ++x) {
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const std::size_t offset{bpp * (y * width + x)};
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if (reverse) {
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std::memcpy(&z24s8_pixel, &data[offset], sizeof(Z24S8));
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s8z24_pixel.s8.Assign(z24s8_pixel.s8);
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s8z24_pixel.z24.Assign(z24s8_pixel.z24);
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std::memcpy(&data[offset], &s8z24_pixel, sizeof(S8Z24));
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} else {
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std::memcpy(&s8z24_pixel, &data[offset], sizeof(S8Z24));
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z24s8_pixel.s8.Assign(s8z24_pixel.s8);
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z24s8_pixel.z24.Assign(s8z24_pixel.z24);
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std::memcpy(&data[offset], &z24s8_pixel, sizeof(Z24S8));
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}
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}
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}
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}
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/**
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* Helper function to perform software conversion (as needed) when loading a buffer from Switch
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* memory. This is for Maxwell pixel formats that cannot be represented as-is in OpenGL or with
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* typical desktop GPUs.
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*/
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static void ConvertFormatAsNeeded_LoadGLBuffer(std::vector<u8>& data, PixelFormat pixel_format,
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u32 width, u32 height, u32 depth) {
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switch (pixel_format) {
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case PixelFormat::ASTC_2D_4X4:
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case PixelFormat::ASTC_2D_8X8:
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case PixelFormat::ASTC_2D_8X5:
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case PixelFormat::ASTC_2D_5X4:
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case PixelFormat::ASTC_2D_5X5:
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case PixelFormat::ASTC_2D_4X4_SRGB:
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case PixelFormat::ASTC_2D_8X8_SRGB:
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case PixelFormat::ASTC_2D_8X5_SRGB:
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case PixelFormat::ASTC_2D_5X4_SRGB:
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case PixelFormat::ASTC_2D_5X5_SRGB:
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case PixelFormat::ASTC_2D_10X8:
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case PixelFormat::ASTC_2D_10X8_SRGB: {
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// Convert ASTC pixel formats to RGBA8, as most desktop GPUs do not support ASTC.
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u32 block_width{};
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u32 block_height{};
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std::tie(block_width, block_height) = GetASTCBlockSize(pixel_format);
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data =
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Tegra::Texture::ASTC::Decompress(data, width, height, depth, block_width, block_height);
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break;
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}
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case PixelFormat::S8Z24:
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// Convert the S8Z24 depth format to Z24S8, as OpenGL does not support S8Z24.
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ConvertS8Z24ToZ24S8(data, width, height, false);
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break;
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}
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}
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/**
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* Helper function to perform software conversion (as needed) when flushing a buffer from OpenGL to
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* Switch memory. This is for Maxwell pixel formats that cannot be represented as-is in OpenGL or
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* with typical desktop GPUs.
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*/
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static void ConvertFormatAsNeeded_FlushGLBuffer(std::vector<u8>& data, PixelFormat pixel_format,
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u32 width, u32 height) {
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switch (pixel_format) {
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case PixelFormat::ASTC_2D_4X4:
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case PixelFormat::ASTC_2D_8X8:
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case PixelFormat::ASTC_2D_4X4_SRGB:
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case PixelFormat::ASTC_2D_8X8_SRGB:
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case PixelFormat::ASTC_2D_5X5:
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case PixelFormat::ASTC_2D_5X5_SRGB:
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case PixelFormat::ASTC_2D_10X8:
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case PixelFormat::ASTC_2D_10X8_SRGB: {
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LOG_CRITICAL(HW_GPU, "Conversion of format {} after texture flushing is not implemented",
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static_cast<u32>(pixel_format));
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UNREACHABLE();
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break;
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}
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case PixelFormat::S8Z24:
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// Convert the Z24S8 depth format to S8Z24, as OpenGL does not support S8Z24.
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ConvertS8Z24ToZ24S8(data, width, height, true);
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break;
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}
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}
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MICROPROFILE_DEFINE(OpenGL_SurfaceLoad, "OpenGL", "Surface Load", MP_RGB(128, 192, 64));
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void CachedSurface::LoadGLBuffer() {
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MICROPROFILE_SCOPE(OpenGL_SurfaceLoad);
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@ -719,8 +622,16 @@ void CachedSurface::LoadGLBuffer() {
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}
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}
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for (u32 i = 0; i < params.max_mip_level; i++) {
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ConvertFormatAsNeeded_LoadGLBuffer(gl_buffer[i], params.pixel_format, params.MipWidth(i),
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params.MipHeight(i), params.MipDepth(i));
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const u32 width = params.MipWidth(i);
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const u32 height = params.MipHeight(i);
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const u32 depth = params.MipDepth(i);
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if (VideoCore::Surface::IsPixelFormatASTC(params.pixel_format)) {
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// Reserve size for RGBA8 conversion
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constexpr std::size_t rgba_bpp = 4;
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gl_buffer[i].resize(std::max(gl_buffer[i].size(), width * height * depth * rgba_bpp));
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}
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Tegra::Texture::ConvertFromGuestToHost(gl_buffer[i].data(), params.pixel_format, width,
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height, depth, true, true);
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}
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}
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@ -743,8 +654,8 @@ void CachedSurface::FlushGLBuffer() {
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glGetTextureImage(texture.handle, 0, tuple.format, tuple.type,
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static_cast<GLsizei>(gl_buffer[0].size()), gl_buffer[0].data());
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glPixelStorei(GL_PACK_ROW_LENGTH, 0);
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ConvertFormatAsNeeded_FlushGLBuffer(gl_buffer[0], params.pixel_format, params.width,
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params.height);
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Tegra::Texture::ConvertFromHostToGuest(gl_buffer[0].data(), params.pixel_format, params.width,
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params.height, params.depth, true, true);
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const u8* const texture_src_data = Memory::GetPointer(params.addr);
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ASSERT(texture_src_data);
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if (params.is_tiled) {
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@ -23,28 +23,12 @@
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#include "video_core/textures/astc.h"
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class BitStream {
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class InputBitStream {
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public:
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explicit BitStream(unsigned char* ptr, int nBits = 0, int start_offset = 0)
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explicit InputBitStream(const unsigned char* ptr, int nBits = 0, int start_offset = 0)
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: m_NumBits(nBits), m_CurByte(ptr), m_NextBit(start_offset % 8) {}
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~BitStream() = default;
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int GetBitsWritten() const {
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return m_BitsWritten;
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}
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void WriteBitsR(unsigned int val, unsigned int nBits) {
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for (unsigned int i = 0; i < nBits; i++) {
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WriteBit((val >> (nBits - i - 1)) & 1);
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}
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}
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void WriteBits(unsigned int val, unsigned int nBits) {
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for (unsigned int i = 0; i < nBits; i++) {
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WriteBit((val >> i) & 1);
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}
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}
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~InputBitStream() = default;
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int GetBitsRead() const {
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return m_BitsRead;
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return ret;
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}
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private:
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const int m_NumBits;
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const unsigned char* m_CurByte;
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int m_NextBit = 0;
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int m_BitsRead = 0;
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bool done = false;
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};
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class OutputBitStream {
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public:
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explicit OutputBitStream(unsigned char* ptr, int nBits = 0, int start_offset = 0)
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: m_NumBits(nBits), m_CurByte(ptr), m_NextBit(start_offset % 8) {}
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~OutputBitStream() = default;
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int GetBitsWritten() const {
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return m_BitsWritten;
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}
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void WriteBitsR(unsigned int val, unsigned int nBits) {
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for (unsigned int i = 0; i < nBits; i++) {
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WriteBit((val >> (nBits - i - 1)) & 1);
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}
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}
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void WriteBits(unsigned int val, unsigned int nBits) {
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for (unsigned int i = 0; i < nBits; i++) {
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WriteBit((val >> i) & 1);
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}
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}
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private:
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void WriteBit(int b) {
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// Fills result with the values that are encoded in the given
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// bitstream. We must know beforehand what the maximum possible
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// value is, and how many values we're decoding.
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static void DecodeIntegerSequence(std::vector<IntegerEncodedValue>& result, BitStream& bits,
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uint32_t maxRange, uint32_t nValues) {
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static void DecodeIntegerSequence(std::vector<IntegerEncodedValue>& result,
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InputBitStream& bits, uint32_t maxRange, uint32_t nValues) {
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// Determine encoding parameters
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IntegerEncodedValue val = IntegerEncodedValue::CreateEncoding(maxRange);
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}
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private:
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static void DecodeTritBlock(BitStream& bits, std::vector<IntegerEncodedValue>& result,
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static void DecodeTritBlock(InputBitStream& bits, std::vector<IntegerEncodedValue>& result,
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uint32_t nBitsPerValue) {
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// Implement the algorithm in section C.2.12
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uint32_t m[5];
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}
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}
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static void DecodeQuintBlock(BitStream& bits, std::vector<IntegerEncodedValue>& result,
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static void DecodeQuintBlock(InputBitStream& bits, std::vector<IntegerEncodedValue>& result,
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uint32_t nBitsPerValue) {
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// Implement the algorithm in section C.2.12
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uint32_t m[3];
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}
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};
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static TexelWeightParams DecodeBlockInfo(BitStream& strm) {
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static TexelWeightParams DecodeBlockInfo(InputBitStream& strm) {
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TexelWeightParams params;
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// Read the entire block mode all at once
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return params;
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}
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static void FillVoidExtentLDR(BitStream& strm, uint32_t* const outBuf, uint32_t blockWidth,
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static void FillVoidExtentLDR(InputBitStream& strm, uint32_t* const outBuf, uint32_t blockWidth,
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uint32_t blockHeight) {
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// Don't actually care about the void extent, just read the bits...
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for (int i = 0; i < 4; ++i) {
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@ -821,7 +837,7 @@ static void DecodeColorValues(uint32_t* out, uint8_t* data, const uint32_t* mode
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// We now have enough to decode our integer sequence.
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std::vector<IntegerEncodedValue> decodedColorValues;
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BitStream colorStream(data);
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InputBitStream colorStream(data);
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IntegerEncodedValue::DecodeIntegerSequence(decodedColorValues, colorStream, range, nValues);
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// Once we have the decoded values, we need to dequantize them to the 0-255 range
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@ -1365,9 +1381,9 @@ static void ComputeEndpoints(Pixel& ep1, Pixel& ep2, const uint32_t*& colorValue
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#undef READ_INT_VALUES
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}
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static void DecompressBlock(uint8_t inBuf[16], const uint32_t blockWidth,
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static void DecompressBlock(const uint8_t inBuf[16], const uint32_t blockWidth,
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const uint32_t blockHeight, uint32_t* outBuf) {
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BitStream strm(inBuf);
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InputBitStream strm(inBuf);
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TexelWeightParams weightParams = DecodeBlockInfo(strm);
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// Was there an error?
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// Define color data.
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uint8_t colorEndpointData[16];
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memset(colorEndpointData, 0, sizeof(colorEndpointData));
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BitStream colorEndpointStream(colorEndpointData, 16 * 8, 0);
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OutputBitStream colorEndpointStream(colorEndpointData, 16 * 8, 0);
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// Read extra config data...
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uint32_t baseCEM = 0;
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memset(texelWeightData + clearByteStart, 0, 16 - clearByteStart);
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std::vector<IntegerEncodedValue> texelWeightValues;
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BitStream weightStream(texelWeightData);
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InputBitStream weightStream(texelWeightData);
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IntegerEncodedValue::DecodeIntegerSequence(texelWeightValues, weightStream,
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weightParams.m_MaxWeight,
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namespace Tegra::Texture::ASTC {
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std::vector<uint8_t> Decompress(std::vector<uint8_t>& data, uint32_t width, uint32_t height,
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std::vector<uint8_t> Decompress(const uint8_t* data, uint32_t width, uint32_t height,
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uint32_t depth, uint32_t block_width, uint32_t block_height) {
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uint32_t blockIdx = 0;
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std::vector<uint8_t> outData(height * width * depth * 4);
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for (uint32_t j = 0; j < height; j += block_height) {
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for (uint32_t i = 0; i < width; i += block_width) {
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uint8_t* blockPtr = data.data() + blockIdx * 16;
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const uint8_t* blockPtr = data + blockIdx * 16;
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// Blocks can be at most 12x12
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uint32_t uncompData[144];
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@ -9,7 +9,7 @@
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namespace Tegra::Texture::ASTC {
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std::vector<uint8_t> Decompress(std::vector<uint8_t>& data, uint32_t width, uint32_t height,
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std::vector<uint8_t> Decompress(const uint8_t* data, uint32_t width, uint32_t height,
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uint32_t depth, uint32_t block_width, uint32_t block_height);
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} // namespace Tegra::Texture::ASTC
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92
src/video_core/textures/convert.cpp
Normal file
92
src/video_core/textures/convert.cpp
Normal file
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@ -0,0 +1,92 @@
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// Copyright 2019 yuzu Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include <algorithm>
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#include <cstring>
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#include <tuple>
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#include <vector>
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#include "common/assert.h"
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#include "common/common_types.h"
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#include "common/logging/log.h"
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#include "video_core/textures/astc.h"
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#include "video_core/textures/convert.h"
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namespace Tegra::Texture {
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using VideoCore::Surface::PixelFormat;
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template <bool reverse>
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void SwapS8Z24ToZ24S8(u8* data, u32 width, u32 height) {
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union S8Z24 {
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BitField<0, 24, u32> z24;
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BitField<24, 8, u32> s8;
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};
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static_assert(sizeof(S8Z24) == 4, "S8Z24 is incorrect size");
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union Z24S8 {
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BitField<0, 8, u32> s8;
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BitField<8, 24, u32> z24;
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};
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static_assert(sizeof(Z24S8) == 4, "Z24S8 is incorrect size");
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S8Z24 s8z24_pixel{};
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Z24S8 z24s8_pixel{};
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constexpr auto bpp{
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VideoCore::Surface::GetBytesPerPixel(VideoCore::Surface::PixelFormat::S8Z24)};
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for (std::size_t y = 0; y < height; ++y) {
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for (std::size_t x = 0; x < width; ++x) {
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const std::size_t offset{bpp * (y * width + x)};
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if constexpr (reverse) {
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std::memcpy(&z24s8_pixel, &data[offset], sizeof(Z24S8));
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s8z24_pixel.s8.Assign(z24s8_pixel.s8);
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s8z24_pixel.z24.Assign(z24s8_pixel.z24);
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std::memcpy(&data[offset], &s8z24_pixel, sizeof(S8Z24));
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} else {
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std::memcpy(&s8z24_pixel, &data[offset], sizeof(S8Z24));
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z24s8_pixel.s8.Assign(s8z24_pixel.s8);
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z24s8_pixel.z24.Assign(s8z24_pixel.z24);
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std::memcpy(&data[offset], &z24s8_pixel, sizeof(Z24S8));
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}
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}
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}
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}
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static void ConvertS8Z24ToZ24S8(u8* data, u32 width, u32 height) {
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SwapS8Z24ToZ24S8<false>(data, width, height);
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}
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static void ConvertZ24S8ToS8Z24(u8* data, u32 width, u32 height) {
|
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SwapS8Z24ToZ24S8<true>(data, width, height);
|
||||
}
|
||||
|
||||
void ConvertFromGuestToHost(u8* data, PixelFormat pixel_format, u32 width, u32 height, u32 depth,
|
||||
bool convert_astc, bool convert_s8z24) {
|
||||
if (convert_astc && IsPixelFormatASTC(pixel_format)) {
|
||||
// Convert ASTC pixel formats to RGBA8, as most desktop GPUs do not support ASTC.
|
||||
u32 block_width{};
|
||||
u32 block_height{};
|
||||
std::tie(block_width, block_height) = GetASTCBlockSize(pixel_format);
|
||||
const std::vector<u8> rgba8_data =
|
||||
Tegra::Texture::ASTC::Decompress(data, width, height, depth, block_width, block_height);
|
||||
std::copy(rgba8_data.begin(), rgba8_data.end(), data);
|
||||
|
||||
} else if (convert_s8z24 && pixel_format == PixelFormat::S8Z24) {
|
||||
Tegra::Texture::ConvertS8Z24ToZ24S8(data, width, height);
|
||||
}
|
||||
}
|
||||
|
||||
void ConvertFromHostToGuest(u8* data, PixelFormat pixel_format, u32 width, u32 height, u32 depth,
|
||||
bool convert_astc, bool convert_s8z24) {
|
||||
if (convert_astc && IsPixelFormatASTC(pixel_format)) {
|
||||
LOG_CRITICAL(HW_GPU, "Conversion of format {} after texture flushing is not implemented",
|
||||
static_cast<u32>(pixel_format));
|
||||
UNREACHABLE();
|
||||
|
||||
} else if (convert_s8z24 && pixel_format == PixelFormat::S8Z24) {
|
||||
Tegra::Texture::ConvertZ24S8ToS8Z24(data, width, height);
|
||||
}
|
||||
}
|
||||
|
||||
} // namespace Tegra::Texture
|
18
src/video_core/textures/convert.h
Normal file
18
src/video_core/textures/convert.h
Normal file
|
@ -0,0 +1,18 @@
|
|||
// Copyright 2019 yuzu Emulator Project
|
||||
// Licensed under GPLv2 or any later version
|
||||
// Refer to the license.txt file included.
|
||||
|
||||
#pragma once
|
||||
|
||||
#include "common/common_types.h"
|
||||
#include "video_core/surface.h"
|
||||
|
||||
namespace Tegra::Texture {
|
||||
|
||||
void ConvertFromGuestToHost(u8* data, VideoCore::Surface::PixelFormat pixel_format, u32 width,
|
||||
u32 height, u32 depth, bool convert_astc, bool convert_s8z24);
|
||||
|
||||
void ConvertFromHostToGuest(u8* data, VideoCore::Surface::PixelFormat pixel_format, u32 width,
|
||||
u32 height, u32 depth, bool convert_astc, bool convert_s8z24);
|
||||
|
||||
} // namespace Tegra::Texture
|
|
@ -154,7 +154,7 @@ void SwizzledData(u8* const swizzled_data, u8* const unswizzled_data, const bool
|
|||
for (u32 xb = 0; xb < blocks_on_x; xb++) {
|
||||
const u32 x_start = xb * block_x_elements;
|
||||
const u32 x_end = std::min(width, x_start + block_x_elements);
|
||||
if (fast) {
|
||||
if constexpr (fast) {
|
||||
FastProcessBlock(swizzled_data, unswizzled_data, unswizzle, x_start, y_start,
|
||||
z_start, x_end, y_end, z_end, tile_offset, xy_block_size,
|
||||
layer_z, stride_x, bytes_per_pixel, out_bytes_per_pixel);
|
||||
|
|
Loading…
Reference in a new issue