// // Copyright 2019 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // DynamicImage2DHLSL.cpp: Implementation for link and run-time HLSL generation // #include "libANGLE/renderer/d3d/DynamicImage2DHLSL.h" #include "common/string_utils.h" #include "libANGLE/renderer/d3d/ProgramD3D.h" #include "libANGLE/renderer/d3d/ProgramExecutableD3D.h" #include "libANGLE/renderer/d3d/ShaderD3D.h" using namespace gl; namespace rx { namespace { enum Image2DHLSLGroup { IMAGE2D_R_FLOAT4, IMAGE2D_MIN = IMAGE2D_R_FLOAT4, IMAGE2D_R_UNORM, IMAGE2D_R_SNORM, IMAGE2D_R_UINT4, IMAGE2D_R_INT4, IMAGE2D_W_FLOAT4, IMAGE2D_W_UNORM, IMAGE2D_W_SNORM, IMAGE2D_W_UINT4, IMAGE2D_W_INT4, IMAGE2D_UNKNOWN, IMAGE2D_MAX = IMAGE2D_UNKNOWN }; enum Image2DMethod { IMAGE2DSIZE, IMAGE2DLOAD, IMAGE2DSTORE }; Image2DHLSLGroup image2DHLSLGroup(const sh::ShaderVariable &uniform) { GLenum format = uniform.imageUnitFormat; bool readonly = uniform.readonly; switch (uniform.type) { case GL_IMAGE_2D: { switch (format) { case GL_RGBA32F: case GL_RGBA16F: case GL_R32F: return readonly ? IMAGE2D_R_FLOAT4 : IMAGE2D_W_FLOAT4; case GL_RGBA8: return readonly ? IMAGE2D_R_UNORM : IMAGE2D_W_UNORM; case GL_RGBA8_SNORM: return readonly ? IMAGE2D_R_SNORM : IMAGE2D_W_SNORM; default: UNREACHABLE(); return IMAGE2D_UNKNOWN; } } case GL_INT_IMAGE_2D: { switch (format) { case GL_RGBA32I: case GL_RGBA16I: case GL_RGBA8I: case GL_R32I: return readonly ? IMAGE2D_R_INT4 : IMAGE2D_W_INT4; default: UNREACHABLE(); return IMAGE2D_UNKNOWN; } } case GL_UNSIGNED_INT_IMAGE_2D: { switch (format) { case GL_RGBA32UI: case GL_RGBA16UI: case GL_RGBA8UI: case GL_R32UI: return readonly ? IMAGE2D_R_UINT4 : IMAGE2D_W_UINT4; default: UNREACHABLE(); return IMAGE2D_UNKNOWN; } } default: UNREACHABLE(); return IMAGE2D_UNKNOWN; } } std::string Image2DHLSLGroupSuffix(Image2DHLSLGroup group) { switch (group) { case IMAGE2D_R_FLOAT4: return "2D"; case IMAGE2D_R_UNORM: return "2D_unorm_float4_"; case IMAGE2D_R_SNORM: return "2D_snorm_float4_"; case IMAGE2D_R_UINT4: return "2D_uint4_"; case IMAGE2D_R_INT4: return "2D_int4_"; case IMAGE2D_W_FLOAT4: return "RW2D_float4_"; case IMAGE2D_W_UNORM: return "RW2D_unorm_float4_"; case IMAGE2D_W_SNORM: return "RW2D_snorm_float4_"; case IMAGE2D_W_UINT4: return "RW2D_uint4_"; case IMAGE2D_W_INT4: return "RW2D_int4_"; default: UNREACHABLE(); } return ""; } std::string Image2DHLSLTextureString(Image2DHLSLGroup group, gl::TextureType type, bool rasterOrdered) { std::string textureString; switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_R_UINT4: case IMAGE2D_R_INT4: break; case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: case IMAGE2D_W_UINT4: case IMAGE2D_W_INT4: textureString += rasterOrdered ? "RasterizerOrdered" : "RW"; break; default: UNREACHABLE(); } textureString += "Texture"; switch (type) { case gl::TextureType::_2D: textureString += "2D"; break; case gl::TextureType::_3D: textureString += "3D"; break; case gl::TextureType::_2DArray: textureString += "2DArray"; break; default: UNREACHABLE(); } switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_W_FLOAT4: textureString += ""; break; case IMAGE2D_R_UNORM: case IMAGE2D_W_UNORM: textureString += ""; break; case IMAGE2D_R_SNORM: case IMAGE2D_W_SNORM: textureString += ""; break; case IMAGE2D_R_UINT4: case IMAGE2D_W_UINT4: textureString += ""; break; case IMAGE2D_R_INT4: case IMAGE2D_W_INT4: textureString += ""; break; default: UNREACHABLE(); } return textureString; } std::string Image2DHLSLGroupOffsetPrefix(Image2DHLSLGroup group) { switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_R_UINT4: case IMAGE2D_R_INT4: return "readonlyImageIndexOffset"; case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: case IMAGE2D_W_UINT4: case IMAGE2D_W_INT4: return "imageIndexOffset"; default: UNREACHABLE(); } return ""; } std::string Image2DHLSLGroupDeclarationPrefix(Image2DHLSLGroup group) { switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_R_UINT4: case IMAGE2D_R_INT4: return "readonlyImages"; case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: case IMAGE2D_W_UINT4: case IMAGE2D_W_INT4: return "images"; default: UNREACHABLE(); } return ""; } bool IsReadOnlyImage2DHLSLGroup(Image2DHLSLGroup group) { switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_R_UINT4: case IMAGE2D_R_INT4: return true; case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: case IMAGE2D_W_UINT4: case IMAGE2D_W_INT4: return false; default: UNREACHABLE(); } return false; } std::string Image2DHLSLGroupRegisterSuffix(Image2DHLSLGroup group) { switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_R_UINT4: case IMAGE2D_R_INT4: return "t"; case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: case IMAGE2D_W_UINT4: case IMAGE2D_W_INT4: return "u"; default: UNREACHABLE(); } return ""; } std::string Image2DHLSLGroupFunctionName(Image2DHLSLGroup group, Image2DMethod method) { std::string name = "gl_image"; name += Image2DHLSLGroupSuffix(group); switch (method) { case IMAGE2DSIZE: name += "Size"; break; case IMAGE2DLOAD: name += "Load"; break; case IMAGE2DSTORE: name += "Store"; break; default: UNREACHABLE(); } return name; } std::string getImage2DGroupReturnType(Image2DHLSLGroup group, Image2DMethod method) { switch (method) { case IMAGE2DSIZE: return "int2"; case IMAGE2DLOAD: switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: return "float4"; case IMAGE2D_R_UINT4: case IMAGE2D_W_UINT4: return "uint4"; case IMAGE2D_R_INT4: case IMAGE2D_W_INT4: return "int4"; default: UNREACHABLE(); return "unknown group type"; } case IMAGE2DSTORE: return "void"; default: UNREACHABLE(); return "unknown image method"; } } std::string getImageMetadata(Image2DHLSLGroup group) { switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_R_UINT4: case IMAGE2D_R_INT4: return "readonlyImageMetadata[imageIndex - readonlyImageIndexStart]"; case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: case IMAGE2D_W_UINT4: case IMAGE2D_W_INT4: return "imageMetadata[imageIndex - imageIndexStart]"; default: UNREACHABLE(); return "unknown image method"; } } void OutputImage2DFunctionArgumentList(std::ostringstream &out, Image2DHLSLGroup group, Image2DMethod method) { out << "uint imageIndex"; if (method == IMAGE2DLOAD || method == IMAGE2DSTORE) { out << ", int2 p"; if (method == IMAGE2DSTORE) { switch (group) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: out << ", float4 data"; break; case IMAGE2D_R_UINT4: case IMAGE2D_W_UINT4: out << ", uint4 data"; break; case IMAGE2D_R_INT4: case IMAGE2D_W_INT4: out << ", int4 data"; break; default: UNREACHABLE(); } } } } void OutputImage2DSizeFunction(std::ostringstream &out, Image2DHLSLGroup textureGroup, unsigned int totalCount, unsigned int texture2DCount, unsigned int texture3DCount, unsigned int texture2DArrayCount, const std::string &offsetStr, const std::string &declarationStr) { out << getImage2DGroupReturnType(textureGroup, IMAGE2DSIZE) << " " << Image2DHLSLGroupFunctionName(textureGroup, IMAGE2DSIZE) << "("; OutputImage2DFunctionArgumentList(out, textureGroup, IMAGE2DSIZE); out << ")\n" "{\n"; out << " uint width, height;\n"; if (texture2DCount > 0) { if (texture2DCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "2D;\n"; out << " " << declarationStr << "2D[index].GetDimensions(width, height);\n"; } else { out << " if (imageIndex >= " << offsetStr << "2D && imageIndex < " << offsetStr << "2D + " << texture2DCount << ")\n"; out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "2D;\n"; out << " " << declarationStr << "2D[index].GetDimensions(width, height);\n"; out << " }\n"; } } if (texture3DCount > 0) { if (texture3DCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "3D;\n"; out << " uint depth;\n"; out << " " << declarationStr << "3D[index].GetDimensions(width, height, depth);\n"; } else { if (texture2DArrayCount == 0) { out << " else\n"; } else { if (texture2DCount == 0) { out << " if "; } else { out << " else if"; } out << "(imageIndex >= " << offsetStr << "3D && imageIndex < " << offsetStr << "3D + " << texture3DCount << ")\n"; } out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "3D;\n"; out << " uint depth;\n"; out << " " << declarationStr << "3D[index].GetDimensions(width, height, depth);\n"; out << " }\n"; } } if (texture2DArrayCount > 0) { if (texture2DArrayCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "2DArray;\n"; out << " uint depth;\n"; out << " " << declarationStr << "2DArray[index].GetDimensions(width, height, depth);\n"; } else { out << " else\n"; out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "2DArray;\n"; out << " uint depth;\n"; out << " " << declarationStr << "2DArray[index].GetDimensions(width, height, depth);\n"; out << " }\n"; } } out << " return int2(width, height);\n"; out << "}\n"; } void OutputImage2DLoadFunction(std::ostringstream &out, Image2DHLSLGroup textureGroup, unsigned int totalCount, unsigned int texture2DCount, unsigned int texture3DCount, unsigned int texture2DArrayCount, const std::string &offsetStr, const std::string &declarationStr) { out << getImage2DGroupReturnType(textureGroup, IMAGE2DLOAD) << " " << Image2DHLSLGroupFunctionName(textureGroup, IMAGE2DLOAD) << "("; OutputImage2DFunctionArgumentList(out, textureGroup, IMAGE2DLOAD); out << ")\n" "{\n"; out << " " << getImage2DGroupReturnType(textureGroup, IMAGE2DLOAD) << " result;\n"; if (texture2DCount > 0) { if (texture2DCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "2D;\n"; out << " result = " << declarationStr << "2D[index][uint2(p.x, p.y)];\n"; } else { out << " if (imageIndex >= " << offsetStr << "2D && imageIndex < " << offsetStr << "2D + " << texture2DCount << ")\n"; out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "2D;\n"; out << " result = " << declarationStr << "2D[index][uint2(p.x, p.y)];\n"; out << " }\n"; } } if (texture3DCount > 0) { if (texture3DCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "3D;\n"; out << " result = " << declarationStr << "3D[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)];\n"; } else { if (texture2DArrayCount == 0) { out << " else\n"; } else { if (texture2DCount == 0) { out << " if "; } else { out << " else if"; } out << "(imageIndex >= " << offsetStr << "3D && imageIndex < " << offsetStr << "3D + " << texture3DCount << ")\n"; } out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "3D;\n"; out << " result = " << declarationStr << "3D[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)];\n"; out << " }\n"; } } if (texture2DArrayCount > 0) { if (texture2DArrayCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "2DArray;\n"; out << " result = " << declarationStr << "2DArray[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)];\n"; } else { out << " else\n"; out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "2DArray;\n"; out << " result = " << declarationStr << "2DArray[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)];\n"; out << " }\n"; } } out << " return result;\n"; out << "}\n"; } void OutputImage2DStoreFunction(std::ostringstream &out, Image2DHLSLGroup textureGroup, unsigned int totalCount, unsigned int texture2DCount, unsigned int texture3DCount, unsigned int texture2DArrayCount, const std::string &offsetStr, const std::string &declarationStr) { out << getImage2DGroupReturnType(textureGroup, IMAGE2DSTORE) << " " << Image2DHLSLGroupFunctionName(textureGroup, IMAGE2DSTORE) << "("; OutputImage2DFunctionArgumentList(out, textureGroup, IMAGE2DSTORE); out << ")\n" "{\n"; if (texture2DCount > 0) { if (texture2DCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "2D;\n"; out << " " << declarationStr << "2D[index][uint2(p.x, p.y)] = data;\n"; } else { out << " if (imageIndex >= " << offsetStr << "2D && imageIndex < " << offsetStr << "2D + " << texture2DCount << ")\n"; out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "2D;\n"; out << " " << declarationStr << "2D[index][uint2(p.x, p.y)] = data;\n"; out << " }\n"; } } if (texture3DCount > 0) { if (texture3DCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "3D;\n"; out << " " << declarationStr << "3D[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)] = data;\n"; } else { if (texture2DArrayCount == 0) { out << " else\n"; } else { if (texture2DCount == 0) { out << " if "; } else { out << " else if"; } out << "(imageIndex >= " << offsetStr << "3D && imageIndex < " << offsetStr << "3D + " << texture3DCount << ")\n"; } out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "3D;\n"; out << " " << declarationStr << "3D[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)] = data;\n"; out << " }\n"; } } if (texture2DArrayCount > 0) { if (texture2DArrayCount == totalCount) { out << " const uint index = imageIndex - " << offsetStr << "2DArray;\n"; out << " " << declarationStr << "2DArray[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)] = data;\n"; } else { out << " else\n"; out << " {\n"; out << " const uint index = imageIndex - " << offsetStr << "2DArray;\n"; out << " " << declarationStr << "2DArray[index][uint3(p.x, p.y, " << getImageMetadata(textureGroup) << ".layer)] = data;\n"; out << " }\n"; } } out << "}\n"; } unsigned int *GetImage2DRegisterIndex(Image2DHLSLGroup textureGroup, unsigned int *groupTextureRegisterIndex, unsigned int *groupRWTextureRegisterIndex) { switch (textureGroup) { case IMAGE2D_R_FLOAT4: case IMAGE2D_R_UNORM: case IMAGE2D_R_SNORM: case IMAGE2D_R_UINT4: case IMAGE2D_R_INT4: return groupTextureRegisterIndex; case IMAGE2D_W_FLOAT4: case IMAGE2D_W_UNORM: case IMAGE2D_W_SNORM: case IMAGE2D_W_UINT4: case IMAGE2D_W_INT4: return groupRWTextureRegisterIndex; default: UNREACHABLE(); return nullptr; } } void OutputHLSLImage2DUniformGroup(ProgramExecutableD3D &executableD3D, gl::ShaderType shaderType, const SharedCompiledShaderStateD3D &shaderData, std::ostringstream &out, const Image2DHLSLGroup textureGroup, const std::vector &group, const gl::ImageUnitTextureTypeMap &image2DBindLayout, unsigned int baseUAVRegister, unsigned int *groupTextureRegisterIndex, unsigned int *groupRWTextureRegisterIndex, unsigned int *image2DTexture3D, unsigned int *image2DTexture2DArray, unsigned int *image2DTexture2D) { if (group.empty()) { return; } unsigned int texture2DCount = 0, texture3DCount = 0, texture2DArrayCount = 0; bool texture2DRasterOrdered = false, texture3DRasterOrdered = false, texture2DArrayRasterOrdered = false; for (const sh::ShaderVariable &uniform : group) { if (!executableD3D.hasNamedUniform(uniform.name)) { continue; } for (unsigned int index = 0; index < uniform.getArraySizeProduct(); index++) { switch (image2DBindLayout.at(uniform.binding + index)) { case gl::TextureType::_2D: texture2DCount++; texture2DRasterOrdered |= uniform.rasterOrdered; break; case gl::TextureType::_3D: texture3DCount++; texture3DRasterOrdered |= uniform.rasterOrdered; break; case gl::TextureType::_2DArray: case gl::TextureType::CubeMap: texture2DArrayCount++; texture2DArrayRasterOrdered |= uniform.rasterOrdered; break; default: UNREACHABLE(); } } } unsigned int totalCount = texture2DCount + texture3DCount + texture2DArrayCount; unsigned int *image2DRegisterIndex = GetImage2DRegisterIndex( textureGroup, groupTextureRegisterIndex, groupRWTextureRegisterIndex); unsigned int texture2DRegisterIndex = *image2DRegisterIndex; unsigned int texture3DRegisterIndex = texture2DRegisterIndex + texture2DCount; unsigned int texture2DArrayRegisterIndex = texture3DRegisterIndex + texture3DCount; *image2DRegisterIndex += totalCount; unsigned int baseRegister = IsReadOnlyImage2DHLSLGroup(textureGroup) ? 0 : baseUAVRegister; std::string offsetStr = Image2DHLSLGroupOffsetPrefix(textureGroup) + Image2DHLSLGroupSuffix(textureGroup); std::string declarationStr = Image2DHLSLGroupDeclarationPrefix(textureGroup) + Image2DHLSLGroupSuffix(textureGroup); std::string registerStr = Image2DHLSLGroupRegisterSuffix(textureGroup); if (texture2DCount > 0) { out << "static const uint " << offsetStr << "2D = " << texture2DRegisterIndex << ";\n"; out << "uniform " << Image2DHLSLTextureString(textureGroup, gl::TextureType::_2D, texture2DRasterOrdered) << " " << declarationStr << "2D[" << texture2DCount << "]" << " : register(" << registerStr << baseRegister + texture2DRegisterIndex << ");\n"; } if (texture3DCount > 0) { out << "static const uint " << offsetStr << "3D = " << texture3DRegisterIndex << ";\n"; out << "uniform " << Image2DHLSLTextureString(textureGroup, gl::TextureType::_3D, texture3DRasterOrdered) << " " << declarationStr << "3D[" << texture3DCount << "]" << " : register(" << registerStr << baseRegister + texture3DRegisterIndex << ");\n"; } if (texture2DArrayCount > 0) { out << "static const uint " << offsetStr << "2DArray = " << texture2DArrayRegisterIndex << ";\n"; out << "uniform " << Image2DHLSLTextureString(textureGroup, gl::TextureType::_2DArray, texture2DArrayRasterOrdered) << " " << declarationStr << "2DArray[" << texture2DArrayCount << "]" << " : register(" << registerStr << baseRegister + texture2DArrayRegisterIndex << ");\n"; } for (const sh::ShaderVariable &uniform : group) { if (!executableD3D.hasNamedUniform(uniform.name)) { continue; } out << "static const uint " << DecorateVariable(uniform.name) << ArrayIndexString(uniform.arraySizes) << " = {"; for (unsigned int index = 0; index < uniform.getArraySizeProduct(); index++) { if (index > 0) { out << ", "; } switch (image2DBindLayout.at(uniform.binding + index)) { case gl::TextureType::_2D: { out << texture2DRegisterIndex; executableD3D.assignImage2DRegisters(shaderType, texture2DRegisterIndex, uniform.binding + index, uniform.readonly); texture2DRegisterIndex++; break; } case gl::TextureType::_3D: { out << texture3DRegisterIndex; executableD3D.assignImage2DRegisters(shaderType, texture3DRegisterIndex, uniform.binding + index, uniform.readonly); texture3DRegisterIndex++; break; } case gl::TextureType::_2DArray: case gl::TextureType::CubeMap: { out << texture2DArrayRegisterIndex; executableD3D.assignImage2DRegisters(shaderType, texture2DArrayRegisterIndex, uniform.binding + index, uniform.readonly); texture2DArrayRegisterIndex++; break; } default: UNREACHABLE(); } } out << "};\n"; } if (shaderData->useImage2DFunction(Image2DHLSLGroupFunctionName(textureGroup, IMAGE2DSIZE))) { OutputImage2DSizeFunction(out, textureGroup, totalCount, texture2DCount, texture3DCount, texture2DArrayCount, offsetStr, declarationStr); } if (shaderData->useImage2DFunction(Image2DHLSLGroupFunctionName(textureGroup, IMAGE2DLOAD))) { OutputImage2DLoadFunction(out, textureGroup, totalCount, texture2DCount, texture3DCount, texture2DArrayCount, offsetStr, declarationStr); } if (shaderData->useImage2DFunction(Image2DHLSLGroupFunctionName(textureGroup, IMAGE2DSTORE))) { OutputImage2DStoreFunction(out, textureGroup, totalCount, texture2DCount, texture3DCount, texture2DArrayCount, offsetStr, declarationStr); } } // kImage2DFunctionString must be the same as outputHLSL. constexpr const char kImage2DFunctionString[] = "// @@ IMAGE2D DECLARATION FUNCTION STRING @@"; } // anonymous namespace std::string GenerateShaderForImage2DBindSignatureImpl( ProgramExecutableD3D &executableD3D, gl::ShaderType shaderType, const SharedCompiledShaderStateD3D &shaderData, const std::string &shaderHLSL, std::vector &image2DUniforms, const gl::ImageUnitTextureTypeMap &image2DBindLayout, unsigned int baseUAVRegister) { std::vector> groupedImage2DUniforms(IMAGE2D_MAX + 1); unsigned int image2DTexture3DCount = 0, image2DTexture2DArrayCount = 0; for (sh::ShaderVariable &image2D : image2DUniforms) { for (unsigned int index = 0; index < image2D.getArraySizeProduct(); index++) { // Any image variable declared without a binding qualifier is initially bound to unit // zero. if (image2D.binding == -1) { image2D.binding = 0; } switch (image2DBindLayout.at(image2D.binding + index)) { case gl::TextureType::_2D: break; case gl::TextureType::_3D: image2DTexture3DCount++; break; case gl::TextureType::_2DArray: case gl::TextureType::CubeMap: image2DTexture2DArrayCount++; break; default: UNREACHABLE(); } } Image2DHLSLGroup group = image2DHLSLGroup(image2D); groupedImage2DUniforms[group].push_back(image2D); } unsigned int groupTextureRegisterIndex = shaderData->readonlyImage2DRegisterIndex; unsigned int groupRWTextureRegisterIndex = shaderData->image2DRegisterIndex; unsigned int image2DTexture3DIndex = 0; unsigned int image2DTexture2DArrayIndex = image2DTexture3DCount; unsigned int image2DTexture2DIndex = image2DTexture3DCount + image2DTexture2DArrayCount; std::ostringstream out; for (int groupId = IMAGE2D_MIN; groupId < IMAGE2D_MAX; ++groupId) { OutputHLSLImage2DUniformGroup( executableD3D, shaderType, shaderData, out, Image2DHLSLGroup(groupId), groupedImage2DUniforms[groupId], image2DBindLayout, baseUAVRegister, &groupTextureRegisterIndex, &groupRWTextureRegisterIndex, &image2DTexture3DIndex, &image2DTexture2DArrayIndex, &image2DTexture2DIndex); } std::string result = shaderHLSL; bool success = angle::ReplaceSubstring(&result, kImage2DFunctionString, out.str()); ASSERT(success); return result; } } // namespace rx