// // Copyright 2010 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. // #ifndef LIBANGLE_UNIFORM_H_ #define LIBANGLE_UNIFORM_H_ #include #include #include "angle_gl.h" #include "common/MemoryBuffer.h" #include "common/debug.h" #include "common/utilities.h" #include "compiler/translator/blocklayout.h" #include "libANGLE/angletypes.h" namespace gl { struct UniformTypeInfo; struct ActiveVariable { ActiveVariable(); ActiveVariable(const ActiveVariable &rhs); virtual ~ActiveVariable(); ActiveVariable &operator=(const ActiveVariable &rhs); ShaderType getFirstShaderTypeWhereActive() const; void setActive(ShaderType shaderType, bool used); void unionReferencesWith(const ActiveVariable &other); bool isActive(ShaderType shaderType) const { ASSERT(shaderType != ShaderType::InvalidEnum); return mActiveUseBits[shaderType]; } ShaderBitSet activeShaders() const { return mActiveUseBits; } GLuint activeShaderCount() const; private: ShaderBitSet mActiveUseBits; }; // Helper struct representing a single shader uniform struct LinkedUniform : public sh::ShaderVariable, public ActiveVariable { LinkedUniform(); LinkedUniform(GLenum type, GLenum precision, const std::string &name, const std::vector &arraySizes, const int binding, const int offset, const int location, const int bufferIndex, const sh::BlockMemberInfo &blockInfo); LinkedUniform(const sh::ShaderVariable &uniform); LinkedUniform(const LinkedUniform &uniform); LinkedUniform &operator=(const LinkedUniform &uniform); ~LinkedUniform() override; bool isSampler() const { return typeInfo->isSampler; } bool isImage() const { return typeInfo->isImageType; } bool isAtomicCounter() const { return IsAtomicCounterType(type); } bool isInDefaultBlock() const { return bufferIndex == -1; } bool isField() const { return name.find('.') != std::string::npos; } size_t getElementSize() const { return typeInfo->externalSize; } size_t getElementComponents() const { return typeInfo->componentCount; } const UniformTypeInfo *typeInfo; // Identifies the containing buffer backed resource -- interface block or atomic counter buffer. int bufferIndex; sh::BlockMemberInfo blockInfo; std::vector outerArraySizes; unsigned int outerArrayOffset; }; struct BufferVariable : public sh::ShaderVariable, public ActiveVariable { BufferVariable(); BufferVariable(GLenum type, GLenum precision, const std::string &name, const std::vector &arraySizes, const int bufferIndex, const sh::BlockMemberInfo &blockInfo); ~BufferVariable() override; int bufferIndex; sh::BlockMemberInfo blockInfo; int topLevelArraySize; }; // Parent struct for atomic counter, uniform block, and shader storage block buffer, which all // contain a group of shader variables, and have a GL buffer backed. struct ShaderVariableBuffer : public ActiveVariable { ShaderVariableBuffer(); ShaderVariableBuffer(const ShaderVariableBuffer &other); ~ShaderVariableBuffer() override; int numActiveVariables() const; int binding; unsigned int dataSize; std::vector memberIndexes; }; using AtomicCounterBuffer = ShaderVariableBuffer; // Helper struct representing a single shader interface block struct InterfaceBlock : public ShaderVariableBuffer { InterfaceBlock(); InterfaceBlock(const std::string &nameIn, const std::string &mappedNameIn, bool isArrayIn, unsigned int arrayElementIn, unsigned int firstFieldArraySizeIn, int bindingIn); std::string nameWithArrayIndex() const; std::string mappedNameWithArrayIndex() const; std::string name; std::string mappedName; bool isArray; unsigned int arrayElement; unsigned int firstFieldArraySize; }; } // namespace gl #endif // LIBANGLE_UNIFORM_H_