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gl_shader_decompiler: Keep track of written images and mark them as modified
This commit is contained in:
parent
7228e22098
commit
1f43e5296f
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@ -1098,6 +1098,9 @@ void RasterizerOpenGL::SetupImage(u32 binding, const Tegra::Texture::TICEntry& t
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if (!tic.IsBuffer()) {
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if (!tic.IsBuffer()) {
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view->ApplySwizzle(tic.x_source, tic.y_source, tic.z_source, tic.w_source);
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view->ApplySwizzle(tic.x_source, tic.y_source, tic.z_source, tic.w_source);
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}
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}
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if (entry.IsWritten()) {
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view->MarkAsModified(texture_cache.Tick());
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}
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state.images[binding] = view->GetTexture();
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state.images[binding] = view->GetTexture();
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}
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}
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@ -389,11 +389,10 @@ public:
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for (const auto& sampler : ir.GetSamplers()) {
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for (const auto& sampler : ir.GetSamplers()) {
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entries.samplers.emplace_back(sampler);
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entries.samplers.emplace_back(sampler);
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}
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}
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for (const auto& image : ir.GetImages()) {
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for (const auto& [offset, image] : ir.GetImages()) {
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entries.images.emplace_back(image);
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entries.images.emplace_back(image);
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}
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}
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for (const auto& gmem_pair : ir.GetGlobalMemory()) {
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for (const auto& [base, usage] : ir.GetGlobalMemory()) {
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const auto& [base, usage] = gmem_pair;
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entries.global_memory_entries.emplace_back(base.cbuf_index, base.cbuf_offset,
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entries.global_memory_entries.emplace_back(base.cbuf_index, base.cbuf_offset,
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usage.is_read, usage.is_written);
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usage.is_read, usage.is_written);
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}
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}
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@ -706,7 +705,7 @@ private:
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void DeclareImages() {
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void DeclareImages() {
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const auto& images{ir.GetImages()};
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const auto& images{ir.GetImages()};
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for (const auto& image : images) {
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for (const auto& [offset, image] : images) {
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const std::string image_type = [&]() {
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const std::string image_type = [&]() {
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switch (image.GetType()) {
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switch (image.GetType()) {
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case Tegra::Shader::ImageType::Texture1D:
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case Tegra::Shader::ImageType::Texture1D:
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@ -726,9 +725,16 @@ private:
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return "image1D";
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return "image1D";
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}
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}
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}();
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}();
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code.AddLine("layout (binding = IMAGE_BINDING_{}) coherent volatile writeonly uniform "
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std::string qualifier = "coherent volatile";
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if (image.IsRead() && !image.IsWritten()) {
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qualifier += " readonly";
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} else if (image.IsWritten() && !image.IsRead()) {
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qualifier += " writeonly";
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}
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code.AddLine("layout (binding = IMAGE_BINDING_{}) {} uniform "
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"{} {};",
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"{} {};",
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image.GetIndex(), image_type, GetImage(image));
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image.GetIndex(), qualifier, image_type, GetImage(image));
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}
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}
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if (!images.empty()) {
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if (!images.empty()) {
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code.AddNewLine();
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code.AddNewLine();
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@ -341,13 +341,16 @@ std::optional<ShaderDiskCacheDecompiled> ShaderDiskCacheOpenGL::LoadDecompiledEn
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u64 index{};
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u64 index{};
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u32 type{};
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u32 type{};
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u8 is_bindless{};
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u8 is_bindless{};
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u8 is_read{};
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u8 is_written{};
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if (!LoadObjectFromPrecompiled(offset) || !LoadObjectFromPrecompiled(index) ||
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if (!LoadObjectFromPrecompiled(offset) || !LoadObjectFromPrecompiled(index) ||
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!LoadObjectFromPrecompiled(type) || !LoadObjectFromPrecompiled(is_bindless)) {
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!LoadObjectFromPrecompiled(type) || !LoadObjectFromPrecompiled(is_bindless) ||
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!LoadObjectFromPrecompiled(is_read) || !LoadObjectFromPrecompiled(is_written)) {
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return {};
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return {};
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}
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}
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entry.entries.images.emplace_back(
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entry.entries.images.emplace_back(static_cast<u64>(offset), static_cast<std::size_t>(index),
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static_cast<std::size_t>(offset), static_cast<std::size_t>(index),
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static_cast<Tegra::Shader::ImageType>(type),
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static_cast<Tegra::Shader::ImageType>(type), is_bindless != 0);
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is_bindless != 0, is_written != 0, is_read != 0);
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}
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}
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u32 global_memory_count{};
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u32 global_memory_count{};
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@ -429,7 +432,9 @@ bool ShaderDiskCacheOpenGL::SaveDecompiledFile(u64 unique_identifier, const std:
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if (!SaveObjectToPrecompiled(static_cast<u64>(image.GetOffset())) ||
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if (!SaveObjectToPrecompiled(static_cast<u64>(image.GetOffset())) ||
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!SaveObjectToPrecompiled(static_cast<u64>(image.GetIndex())) ||
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!SaveObjectToPrecompiled(static_cast<u64>(image.GetIndex())) ||
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!SaveObjectToPrecompiled(static_cast<u32>(image.GetType())) ||
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!SaveObjectToPrecompiled(static_cast<u32>(image.GetType())) ||
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!SaveObjectToPrecompiled(static_cast<u8>(image.IsBindless() ? 1 : 0))) {
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!SaveObjectToPrecompiled(static_cast<u8>(image.IsBindless() ? 1 : 0)) ||
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!SaveObjectToPrecompiled(static_cast<u8>(image.IsRead() ? 1 : 0)) ||
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!SaveObjectToPrecompiled(static_cast<u8>(image.IsWritten() ? 1 : 0))) {
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return false;
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return false;
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}
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}
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}
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}
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@ -78,6 +78,17 @@ public:
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/// Attaches this texture view to the current bound GL_DRAW_FRAMEBUFFER
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/// Attaches this texture view to the current bound GL_DRAW_FRAMEBUFFER
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void Attach(GLenum attachment, GLenum target) const;
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void Attach(GLenum attachment, GLenum target) const;
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void ApplySwizzle(Tegra::Texture::SwizzleSource x_source,
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Tegra::Texture::SwizzleSource y_source,
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Tegra::Texture::SwizzleSource z_source,
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Tegra::Texture::SwizzleSource w_source);
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void DecorateViewName(GPUVAddr gpu_addr, std::string prefix);
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void MarkAsModified(u64 tick) {
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surface.MarkAsModified(true, tick);
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}
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GLuint GetTexture() const {
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GLuint GetTexture() const {
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if (is_proxy) {
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if (is_proxy) {
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return surface.GetTexture();
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return surface.GetTexture();
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@ -89,13 +100,6 @@ public:
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return surface.GetSurfaceParams();
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return surface.GetSurfaceParams();
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}
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}
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void ApplySwizzle(Tegra::Texture::SwizzleSource x_source,
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Tegra::Texture::SwizzleSource y_source,
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Tegra::Texture::SwizzleSource z_source,
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Tegra::Texture::SwizzleSource w_source);
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void DecorateViewName(GPUVAddr gpu_addr, std::string prefix);
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private:
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private:
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u32 EncodeSwizzle(Tegra::Texture::SwizzleSource x_source,
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u32 EncodeSwizzle(Tegra::Texture::SwizzleSource x_source,
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Tegra::Texture::SwizzleSource y_source,
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Tegra::Texture::SwizzleSource y_source,
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@ -111,8 +115,8 @@ private:
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GLenum target{};
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GLenum target{};
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OGLTextureView texture_view;
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OGLTextureView texture_view;
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u32 swizzle;
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u32 swizzle{};
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bool is_proxy;
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bool is_proxy{};
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};
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};
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class TextureCacheOpenGL final : public TextureCacheBase {
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class TextureCacheOpenGL final : public TextureCacheBase {
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@ -61,56 +61,54 @@ u32 ShaderIR::DecodeImage(NodeBlock& bb, u32 pc) {
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}
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}
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const auto type{instr.sust.image_type};
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const auto type{instr.sust.image_type};
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const auto& image{instr.sust.is_immediate ? GetImage(instr.image, type)
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auto& image{instr.sust.is_immediate ? GetImage(instr.image, type)
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: GetBindlessImage(instr.gpr39, type)};
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: GetBindlessImage(instr.gpr39, type)};
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image.MarkWrite();
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MetaImage meta{image, values};
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MetaImage meta{image, values};
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const Node store{Operation(OperationCode::ImageStore, meta, std::move(coords))};
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const Node store{Operation(OperationCode::ImageStore, meta, std::move(coords))};
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bb.push_back(store);
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bb.push_back(store);
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break;
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break;
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}
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}
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default:
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default:
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UNIMPLEMENTED_MSG("Unhandled conversion instruction: {}", opcode->get().GetName());
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UNIMPLEMENTED_MSG("Unhandled image instruction: {}", opcode->get().GetName());
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}
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}
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return pc;
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return pc;
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}
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}
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const Image& ShaderIR::GetImage(Tegra::Shader::Image image, Tegra::Shader::ImageType type) {
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Image& ShaderIR::GetImage(Tegra::Shader::Image image, Tegra::Shader::ImageType type) {
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const auto offset{static_cast<std::size_t>(image.index.Value())};
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const auto offset{static_cast<u64>(image.index.Value())};
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// If this image has already been used, return the existing mapping.
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// If this image has already been used, return the existing mapping.
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const auto itr{std::find_if(used_images.begin(), used_images.end(),
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const auto it = used_images.find(offset);
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[=](const Image& entry) { return entry.GetOffset() == offset; })};
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if (it != used_images.end()) {
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if (itr != used_images.end()) {
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ASSERT(it->second.GetType() == type);
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ASSERT(itr->GetType() == type);
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return it->second;
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return *itr;
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}
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}
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// Otherwise create a new mapping for this image.
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// Otherwise create a new mapping for this image.
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const std::size_t next_index{used_images.size()};
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const std::size_t next_index{used_images.size()};
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const Image entry{offset, next_index, type};
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return used_images.emplace(offset, Image{offset, next_index, type}).first->second;
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return *used_images.emplace(entry).first;
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}
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}
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const Image& ShaderIR::GetBindlessImage(Tegra::Shader::Register reg,
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Image& ShaderIR::GetBindlessImage(Tegra::Shader::Register reg, Tegra::Shader::ImageType type) {
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Tegra::Shader::ImageType type) {
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const Node image_register{GetRegister(reg)};
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const Node image_register{GetRegister(reg)};
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const auto [base_image, cbuf_index, cbuf_offset]{
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const auto [base_image, cbuf_index, cbuf_offset]{
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TrackCbuf(image_register, global_code, static_cast<s64>(global_code.size()))};
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TrackCbuf(image_register, global_code, static_cast<s64>(global_code.size()))};
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const auto cbuf_key{(static_cast<u64>(cbuf_index) << 32) | static_cast<u64>(cbuf_offset)};
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const auto cbuf_key{(static_cast<u64>(cbuf_index) << 32) | static_cast<u64>(cbuf_offset)};
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// If this image has already been used, return the existing mapping.
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// If this image has already been used, return the existing mapping.
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const auto itr{std::find_if(used_images.begin(), used_images.end(),
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const auto it = used_images.find(cbuf_key);
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[=](const Image& entry) { return entry.GetOffset() == cbuf_key; })};
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if (it != used_images.end()) {
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if (itr != used_images.end()) {
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ASSERT(it->second.GetType() == type);
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ASSERT(itr->GetType() == type);
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return it->second;
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return *itr;
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}
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}
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// Otherwise create a new mapping for this image.
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// Otherwise create a new mapping for this image.
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const std::size_t next_index{used_images.size()};
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const std::size_t next_index{used_images.size()};
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const Image entry{cbuf_index, cbuf_offset, next_index, type};
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return used_images.emplace(cbuf_key, Image{cbuf_index, cbuf_offset, next_index, type})
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return *used_images.emplace(entry).first;
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.first->second;
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}
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}
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} // namespace VideoCommon::Shader
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} // namespace VideoCommon::Shader
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@ -273,50 +273,64 @@ private:
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bool is_bindless{}; ///< Whether this sampler belongs to a bindless texture or not.
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bool is_bindless{}; ///< Whether this sampler belongs to a bindless texture or not.
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};
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};
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class Image {
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class Image final {
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public:
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public:
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explicit Image(std::size_t offset, std::size_t index, Tegra::Shader::ImageType type)
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constexpr explicit Image(u64 offset, std::size_t index, Tegra::Shader::ImageType type)
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: offset{offset}, index{index}, type{type}, is_bindless{false} {}
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: offset{offset}, index{index}, type{type}, is_bindless{false} {}
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explicit Image(u32 cbuf_index, u32 cbuf_offset, std::size_t index,
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constexpr explicit Image(u32 cbuf_index, u32 cbuf_offset, std::size_t index,
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Tegra::Shader::ImageType type)
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Tegra::Shader::ImageType type)
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: offset{(static_cast<u64>(cbuf_index) << 32) | cbuf_offset}, index{index}, type{type},
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: offset{(static_cast<u64>(cbuf_index) << 32) | cbuf_offset}, index{index}, type{type},
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is_bindless{true} {}
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is_bindless{true} {}
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explicit Image(std::size_t offset, std::size_t index, Tegra::Shader::ImageType type,
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constexpr explicit Image(std::size_t offset, std::size_t index, Tegra::Shader::ImageType type,
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bool is_bindless)
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bool is_bindless, bool is_written, bool is_read)
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: offset{offset}, index{index}, type{type}, is_bindless{is_bindless} {}
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: offset{offset}, index{index}, type{type}, is_bindless{is_bindless},
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is_written{is_written}, is_read{is_read} {}
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std::size_t GetOffset() const {
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void MarkRead() {
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is_read = true;
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}
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void MarkWrite() {
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is_written = true;
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}
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constexpr std::size_t GetOffset() const {
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return offset;
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return offset;
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}
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}
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std::size_t GetIndex() const {
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constexpr std::size_t GetIndex() const {
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return index;
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return index;
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}
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}
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Tegra::Shader::ImageType GetType() const {
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constexpr Tegra::Shader::ImageType GetType() const {
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return type;
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return type;
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}
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}
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bool IsBindless() const {
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constexpr bool IsBindless() const {
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return is_bindless;
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return is_bindless;
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}
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}
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std::pair<u32, u32> GetBindlessCBuf() const {
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constexpr bool IsRead() const {
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return is_read;
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}
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constexpr bool IsWritten() const {
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return is_written;
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}
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constexpr std::pair<u32, u32> GetBindlessCBuf() const {
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return {static_cast<u32>(offset >> 32), static_cast<u32>(offset)};
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return {static_cast<u32>(offset >> 32), static_cast<u32>(offset)};
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}
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}
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bool operator<(const Image& rhs) const {
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return std::tie(offset, index, type, is_bindless) <
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std::tie(rhs.offset, rhs.index, rhs.type, rhs.is_bindless);
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}
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private:
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private:
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std::size_t offset{};
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u64 offset{};
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std::size_t index{};
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std::size_t index{};
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Tegra::Shader::ImageType type{};
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Tegra::Shader::ImageType type{};
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bool is_bindless{};
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bool is_bindless{};
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bool is_read{};
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bool is_written{};
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};
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};
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struct GlobalMemoryBase {
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struct GlobalMemoryBase {
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@ -95,7 +95,7 @@ public:
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return used_samplers;
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return used_samplers;
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}
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}
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const std::set<Image>& GetImages() const {
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const std::map<u64, Image>& GetImages() const {
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return used_images;
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return used_images;
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}
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}
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@ -272,10 +272,10 @@ private:
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bool is_shadow);
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bool is_shadow);
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/// Accesses an image.
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/// Accesses an image.
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const Image& GetImage(Tegra::Shader::Image image, Tegra::Shader::ImageType type);
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Image& GetImage(Tegra::Shader::Image image, Tegra::Shader::ImageType type);
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/// Access a bindless image sampler.
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/// Access a bindless image sampler.
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const Image& GetBindlessImage(Tegra::Shader::Register reg, Tegra::Shader::ImageType type);
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Image& GetBindlessImage(Tegra::Shader::Register reg, Tegra::Shader::ImageType type);
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/// Extracts a sequence of bits from a node
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/// Extracts a sequence of bits from a node
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Node BitfieldExtract(Node value, u32 offset, u32 bits);
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Node BitfieldExtract(Node value, u32 offset, u32 bits);
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@ -356,7 +356,7 @@ private:
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std::set<Tegra::Shader::Attribute::Index> used_output_attributes;
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std::set<Tegra::Shader::Attribute::Index> used_output_attributes;
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std::map<u32, ConstBuffer> used_cbufs;
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std::map<u32, ConstBuffer> used_cbufs;
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std::set<Sampler> used_samplers;
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std::set<Sampler> used_samplers;
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std::set<Image> used_images;
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std::map<u64, Image> used_images;
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std::array<bool, Tegra::Engines::Maxwell3D::Regs::NumClipDistances> used_clip_distances{};
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std::array<bool, Tegra::Engines::Maxwell3D::Regs::NumClipDistances> used_clip_distances{};
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std::map<GlobalMemoryBase, GlobalMemoryUsage> used_global_memory;
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std::map<GlobalMemoryBase, GlobalMemoryUsage> used_global_memory;
|
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bool uses_layer{};
|
bool uses_layer{};
|
||||||
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Reference in a new issue