kc3-lang/angle/src/compiler/translator/tree_util/IntermNode_util.h
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Hash : c5271e8e
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Date : 2022-04-04T23:28:35
Vulkan: Emulate GL_KHR_blend_equation_advanced Based on a change by Brandon Schade <b.schade@samsung.com> In the translator, when advanced blend is enabled, an input attachment is added. Based on the listed advanced blend equations, emulation code is added that performs those equations' functions. The blend equation itself is passed through a driver uniform. Note that the advanced blend extension only allows a single output to use advanced blend, and that should be at location 0. In the Vulkan backend, when advanced blend is used, the driver uniform to select the equation is updated and normal blending is disabled. Bug: angleproject:3586 Change-Id: Icc42e8be238d34fca149087eb9cfe616a7643a6b Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3575738 Reviewed-by: Jamie Madill <jmadill@chromium.org> Reviewed-by: Yuxin Hu <yuxinhu@google.com> Commit-Queue: Shahbaz Youssefi <syoussefi@chromium.org>
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src/compiler/translator/tree_util/IntermNode_util.h
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// // Copyright 2017 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. // // IntermNode_util.h: High-level utilities for creating AST nodes and node hierarchies. Mostly meant // to be used in AST transforms. #ifndef COMPILER_TRANSLATOR_INTERMNODEUTIL_H_ #define COMPILER_TRANSLATOR_INTERMNODEUTIL_H_ #include "compiler/translator/IntermNode.h" #include "compiler/translator/tree_util/FindFunction.h" namespace sh { class TSymbolTable; class TVariable; TIntermFunctionPrototype *CreateInternalFunctionPrototypeNode(const TFunction &func); TIntermFunctionDefinition *CreateInternalFunctionDefinitionNode(const TFunction &func, TIntermBlock *functionBody); TIntermTyped *CreateZeroNode(const TType &type); TIntermConstantUnion *CreateFloatNode(float value, TPrecision precision); TIntermConstantUnion *CreateVecNode(const float values[], unsigned int vecSize, TPrecision precision); TIntermConstantUnion *CreateIndexNode(int index); TIntermConstantUnion *CreateUIntNode(unsigned int value); TIntermConstantUnion *CreateBoolNode(bool value); TVariable *CreateTempVariable(TSymbolTable *symbolTable, const TType *type); TVariable *CreateTempVariable(TSymbolTable *symbolTable, const TType *type, TQualifier qualifier); TIntermSymbol *CreateTempSymbolNode(const TVariable *tempVariable); TIntermDeclaration *CreateTempDeclarationNode(const TVariable *tempVariable); TIntermDeclaration *CreateTempInitDeclarationNode(const TVariable *tempVariable, TIntermTyped *initializer); TIntermBinary *CreateTempAssignmentNode(const TVariable *tempVariable, TIntermTyped *rightNode); TVariable *DeclareTempVariable(TSymbolTable *symbolTable, const TType *type, TQualifier qualifier, TIntermDeclaration **declarationOut); TVariable *DeclareTempVariable(TSymbolTable *symbolTable, TIntermTyped *initializer, TQualifier qualifier, TIntermDeclaration **declarationOut); std::pair<const TVariable *, const TVariable *> DeclareStructure( TIntermBlock *root, TSymbolTable *symbolTable, TFieldList *fieldList, TQualifier qualifier, const TMemoryQualifier &memoryQualifier, uint32_t arraySize, const ImmutableString &structTypeName, const ImmutableString *structInstanceName); const TVariable *DeclareInterfaceBlock(TIntermBlock *root, TSymbolTable *symbolTable, TFieldList *fieldList, TQualifier qualifier, const TLayoutQualifier &layoutQualifier, const TMemoryQualifier &memoryQualifier, uint32_t arraySize, const ImmutableString &blockTypeName, const ImmutableString &blockVariableName); // If the input node is nullptr, return nullptr. // If the input node is a block node, return it. // If the input node is not a block node, put it inside a block node and return that. TIntermBlock *EnsureBlock(TIntermNode *node); // Should be called from inside Compiler::compileTreeImpl() where the global level is in scope. TIntermSymbol *ReferenceGlobalVariable(const ImmutableString &name, const TSymbolTable &symbolTable); // Note: this can't access desktop GLSL built-ins. Those can only be accessed directly through // BuiltIn.h. TIntermSymbol *ReferenceBuiltInVariable(const ImmutableString &name, const TSymbolTable &symbolTable, int shaderVersion); TIntermTyped *CreateBuiltInFunctionCallNode(const char *name, TIntermSequence *arguments, const TSymbolTable &symbolTable, int shaderVersion); TIntermTyped *CreateBuiltInUnaryFunctionCallNode(const char *name, TIntermTyped *argument, const TSymbolTable &symbolTable, int shaderVersion); inline void GetSwizzleIndex(TVector<int> *indexOut) {} template <typename T, typename... ArgsT> void GetSwizzleIndex(TVector<int> *indexOut, T arg, ArgsT... args) { indexOut->push_back(arg); GetSwizzleIndex(indexOut, args...); } template <typename... ArgsT> TIntermSwizzle *CreateSwizzle(TIntermTyped *reference, ArgsT... args) { TVector<int> swizzleIndex; GetSwizzleIndex(&swizzleIndex, args...); return new TIntermSwizzle(reference, swizzleIndex); } // Returns true if a block ends in a branch (break, continue, return, etc). This is only correct // after PruneNoOps, because it expects empty blocks after a branch to have been already pruned, // i.e. a block can only end in a branch if its last statement is a branch or is a block ending in // branch. bool EndsInBranch(TIntermBlock *block); } // namespace sh #endif // COMPILER_TRANSLATOR_INTERMNODEUTIL_H_