Edit
kc3-lang/angle/src/libANGLE/Uniform.cpp
Branch :
-
Show log
Commit
-
Author :
Jiawei Shao
Date : 2018-03-21 09:43:28
Hash : 385b3e03
Message : Use packed enums on shader types in ANGLE renderer This patch uses a packed internal enum ShaderType everywhere we need a shader type instead of the GLenum value of the shader type. This patch also uses program::getAttachedShader(type) everywhere we need to get gl::Shader from a program in ANGLE. BUG=angleproject:2169 Change-Id: I28a7fa1cfe35622c57a486932911110688eaadec Reviewed-on: https://chromium-review.googlesource.com/972844 Commit-Queue: Jamie Madill <jmadill@chromium.org> Reviewed-by: Jamie Madill <jmadill@chromium.org> Reviewed-by: Corentin Wallez <cwallez@chromium.org>
- src/libANGLE/Uniform.cpp
-
// // Copyright (c) 2010-2013 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. // #include "libANGLE/Uniform.h" #include "common/utilities.h" #include <cstring> namespace gl { ActiveVariable::ActiveVariable() : vertexActive(false), fragmentActive(false), computeActive(false), geometryActive(false) { } ActiveVariable::~ActiveVariable() { } ActiveVariable::ActiveVariable(const ActiveVariable &rhs) = default; ActiveVariable &ActiveVariable::operator=(const ActiveVariable &rhs) = default; void ActiveVariable::setActive(ShaderType shaderType, bool used) { switch (shaderType) { case ShaderType::Vertex: vertexActive = used; break; case ShaderType::Fragment: fragmentActive = used; break; case ShaderType::Compute: computeActive = used; break; case ShaderType::Geometry: geometryActive = used; break; default: UNREACHABLE(); } } void ActiveVariable::unionReferencesWith(const ActiveVariable &other) { vertexActive |= other.vertexActive; fragmentActive |= other.fragmentActive; computeActive |= other.computeActive; geometryActive |= other.geometryActive; } ShaderType ActiveVariable::getFirstShaderTypeWhereActive() const { if (vertexActive) return ShaderType::Vertex; if (fragmentActive) return ShaderType::Fragment; if (computeActive) return ShaderType::Compute; if (geometryActive) return ShaderType::Geometry; UNREACHABLE(); return ShaderType::InvalidEnum; } LinkedUniform::LinkedUniform() : typeInfo(nullptr), bufferIndex(-1), blockInfo(sh::BlockMemberInfo::getDefaultBlockInfo()) { } LinkedUniform::LinkedUniform(GLenum typeIn, GLenum precisionIn, const std::string &nameIn, const std::vector<unsigned int> &arraySizesIn, const int bindingIn, const int offsetIn, const int locationIn, const int bufferIndexIn, const sh::BlockMemberInfo &blockInfoIn) : typeInfo(&GetUniformTypeInfo(typeIn)), bufferIndex(bufferIndexIn), blockInfo(blockInfoIn) { type = typeIn; precision = precisionIn; name = nameIn; arraySizes = arraySizesIn; binding = bindingIn; offset = offsetIn; location = locationIn; ASSERT(!isArrayOfArrays()); ASSERT(!isArray() || !isStruct()); } LinkedUniform::LinkedUniform(const sh::Uniform &uniform) : sh::Uniform(uniform), typeInfo(&GetUniformTypeInfo(type)), bufferIndex(-1), blockInfo(sh::BlockMemberInfo::getDefaultBlockInfo()) { ASSERT(!isArrayOfArrays()); ASSERT(!isArray() || !isStruct()); } LinkedUniform::LinkedUniform(const LinkedUniform &uniform) : sh::Uniform(uniform), ActiveVariable(uniform), typeInfo(uniform.typeInfo), bufferIndex(uniform.bufferIndex), blockInfo(uniform.blockInfo) { } LinkedUniform &LinkedUniform::operator=(const LinkedUniform &uniform) { sh::Uniform::operator=(uniform); ActiveVariable::operator=(uniform); typeInfo = uniform.typeInfo; bufferIndex = uniform.bufferIndex; blockInfo = uniform.blockInfo; return *this; } LinkedUniform::~LinkedUniform() { } bool LinkedUniform::isInDefaultBlock() const { return bufferIndex == -1; } bool LinkedUniform::isSampler() const { return typeInfo->isSampler; } bool LinkedUniform::isImage() const { return typeInfo->isImageType; } bool LinkedUniform::isAtomicCounter() const { return IsAtomicCounterType(type); } bool LinkedUniform::isField() const { return name.find('.') != std::string::npos; } size_t LinkedUniform::getElementSize() const { return typeInfo->externalSize; } size_t LinkedUniform::getElementComponents() const { return typeInfo->componentCount; } BufferVariable::BufferVariable() : bufferIndex(-1), blockInfo(sh::BlockMemberInfo::getDefaultBlockInfo()), topLevelArraySize(-1) { } BufferVariable::BufferVariable(GLenum typeIn, GLenum precisionIn, const std::string &nameIn, const std::vector<unsigned int> &arraySizesIn, const int bufferIndexIn, const sh::BlockMemberInfo &blockInfoIn) : bufferIndex(bufferIndexIn), blockInfo(blockInfoIn), topLevelArraySize(-1) { type = typeIn; precision = precisionIn; name = nameIn; arraySizes = arraySizesIn; } BufferVariable::~BufferVariable() { } ShaderVariableBuffer::ShaderVariableBuffer() : binding(0), dataSize(0) { } ShaderVariableBuffer::ShaderVariableBuffer(const ShaderVariableBuffer &other) = default; ShaderVariableBuffer::~ShaderVariableBuffer() { } int ShaderVariableBuffer::numActiveVariables() const { return static_cast<int>(memberIndexes.size()); } InterfaceBlock::InterfaceBlock() : isArray(false), arrayElement(0) { } InterfaceBlock::InterfaceBlock(const std::string &nameIn, const std::string &mappedNameIn, bool isArrayIn, unsigned int arrayElementIn, int bindingIn) : name(nameIn), mappedName(mappedNameIn), isArray(isArrayIn), arrayElement(arrayElementIn) { binding = bindingIn; } std::string InterfaceBlock::nameWithArrayIndex() const { std::stringstream fullNameStr; fullNameStr << name; if (isArray) { fullNameStr << "[" << arrayElement << "]"; } return fullNameStr.str(); } std::string InterfaceBlock::mappedNameWithArrayIndex() const { std::stringstream fullNameStr; fullNameStr << mappedName; if (isArray) { fullNameStr << "[" << arrayElement << "]"; } return fullNameStr.str(); } }