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author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
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committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /gfx/angle/src/compiler/translator/VariableInfo.cpp | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
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Add m-esr52 at 52.6.0
Diffstat (limited to 'gfx/angle/src/compiler/translator/VariableInfo.cpp')
-rwxr-xr-x | gfx/angle/src/compiler/translator/VariableInfo.cpp | 682 |
1 files changed, 682 insertions, 0 deletions
diff --git a/gfx/angle/src/compiler/translator/VariableInfo.cpp b/gfx/angle/src/compiler/translator/VariableInfo.cpp new file mode 100755 index 000000000..07fe12e5d --- /dev/null +++ b/gfx/angle/src/compiler/translator/VariableInfo.cpp @@ -0,0 +1,682 @@ +// +// Copyright (c) 2002-2013 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 "angle_gl.h" +#include "compiler/translator/SymbolTable.h" +#include "compiler/translator/VariableInfo.h" +#include "compiler/translator/util.h" +#include "common/utilities.h" + +namespace sh +{ + +namespace +{ + +BlockLayoutType GetBlockLayoutType(TLayoutBlockStorage blockStorage) +{ + switch (blockStorage) + { + case EbsPacked: return BLOCKLAYOUT_PACKED; + case EbsShared: return BLOCKLAYOUT_SHARED; + case EbsStd140: return BLOCKLAYOUT_STANDARD; + default: UNREACHABLE(); return BLOCKLAYOUT_SHARED; + } +} + +void ExpandUserDefinedVariable(const ShaderVariable &variable, + const std::string &name, + const std::string &mappedName, + bool markStaticUse, + std::vector<ShaderVariable> *expanded) +{ + ASSERT(variable.isStruct()); + + const std::vector<ShaderVariable> &fields = variable.fields; + + for (size_t fieldIndex = 0; fieldIndex < fields.size(); fieldIndex++) + { + const ShaderVariable &field = fields[fieldIndex]; + ExpandVariable(field, + name + "." + field.name, + mappedName + "." + field.mappedName, + markStaticUse, + expanded); + } +} + +template <class VarT> +VarT *FindVariable(const TString &name, + std::vector<VarT> *infoList) +{ + // TODO(zmo): optimize this function. + for (size_t ii = 0; ii < infoList->size(); ++ii) + { + if ((*infoList)[ii].name.c_str() == name) + return &((*infoList)[ii]); + } + + return NULL; +} + +} + +CollectVariables::CollectVariables(std::vector<sh::Attribute> *attribs, + std::vector<sh::OutputVariable> *outputVariables, + std::vector<sh::Uniform> *uniforms, + std::vector<sh::Varying> *varyings, + std::vector<sh::InterfaceBlock> *interfaceBlocks, + ShHashFunction64 hashFunction, + const TSymbolTable &symbolTable, + const TExtensionBehavior &extensionBehavior) + : TIntermTraverser(true, false, false), + mAttribs(attribs), + mOutputVariables(outputVariables), + mUniforms(uniforms), + mVaryings(varyings), + mInterfaceBlocks(interfaceBlocks), + mDepthRangeAdded(false), + mPointCoordAdded(false), + mFrontFacingAdded(false), + mFragCoordAdded(false), + mInstanceIDAdded(false), + mVertexIDAdded(false), + mPositionAdded(false), + mPointSizeAdded(false), + mLastFragDataAdded(false), + mFragColorAdded(false), + mFragDataAdded(false), + mFragDepthEXTAdded(false), + mFragDepthAdded(false), + mSecondaryFragColorEXTAdded(false), + mSecondaryFragDataEXTAdded(false), + mHashFunction(hashFunction), + mSymbolTable(symbolTable), + mExtensionBehavior(extensionBehavior) +{ +} + +// We want to check whether a uniform/varying is statically used +// because we only count the used ones in packing computing. +// Also, gl_FragCoord, gl_PointCoord, and gl_FrontFacing count +// toward varying counting if they are statically used in a fragment +// shader. +void CollectVariables::visitSymbol(TIntermSymbol *symbol) +{ + ASSERT(symbol != NULL); + ShaderVariable *var = NULL; + const TString &symbolName = symbol->getSymbol(); + + if (IsVarying(symbol->getQualifier())) + { + var = FindVariable(symbolName, mVaryings); + } + else if (symbol->getType().getBasicType() == EbtInterfaceBlock) + { + UNREACHABLE(); + } + else if (symbolName == "gl_DepthRange") + { + ASSERT(symbol->getQualifier() == EvqUniform); + + if (!mDepthRangeAdded) + { + Uniform info; + const char kName[] = "gl_DepthRange"; + info.name = kName; + info.mappedName = kName; + info.type = GL_STRUCT_ANGLEX; + info.arraySize = 0; + info.precision = GL_NONE; + info.staticUse = true; + + ShaderVariable nearInfo; + const char kNearName[] = "near"; + nearInfo.name = kNearName; + nearInfo.mappedName = kNearName; + nearInfo.type = GL_FLOAT; + nearInfo.arraySize = 0; + nearInfo.precision = GL_HIGH_FLOAT; + nearInfo.staticUse = true; + + ShaderVariable farInfo; + const char kFarName[] = "far"; + farInfo.name = kFarName; + farInfo.mappedName = kFarName; + farInfo.type = GL_FLOAT; + farInfo.arraySize = 0; + farInfo.precision = GL_HIGH_FLOAT; + farInfo.staticUse = true; + + ShaderVariable diffInfo; + const char kDiffName[] = "diff"; + diffInfo.name = kDiffName; + diffInfo.mappedName = kDiffName; + diffInfo.type = GL_FLOAT; + diffInfo.arraySize = 0; + diffInfo.precision = GL_HIGH_FLOAT; + diffInfo.staticUse = true; + + info.fields.push_back(nearInfo); + info.fields.push_back(farInfo); + info.fields.push_back(diffInfo); + + mUniforms->push_back(info); + mDepthRangeAdded = true; + } + } + else + { + switch (symbol->getQualifier()) + { + case EvqAttribute: + case EvqVertexIn: + var = FindVariable(symbolName, mAttribs); + break; + case EvqFragmentOut: + var = FindVariable(symbolName, mOutputVariables); + break; + case EvqUniform: + { + const TInterfaceBlock *interfaceBlock = symbol->getType().getInterfaceBlock(); + if (interfaceBlock) + { + InterfaceBlock *namedBlock = FindVariable(interfaceBlock->name(), mInterfaceBlocks); + ASSERT(namedBlock); + var = FindVariable(symbolName, &namedBlock->fields); + + // Set static use on the parent interface block here + namedBlock->staticUse = true; + } + else + { + var = FindVariable(symbolName, mUniforms); + } + + // It's an internal error to reference an undefined user uniform + ASSERT(symbolName.compare(0, 3, "gl_") != 0 || var); + } + break; + case EvqFragCoord: + if (!mFragCoordAdded) + { + Varying info; + const char kName[] = "gl_FragCoord"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC4; + info.arraySize = 0; + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + info.isInvariant = mSymbolTable.isVaryingInvariant(kName); + mVaryings->push_back(info); + mFragCoordAdded = true; + } + return; + case EvqFrontFacing: + if (!mFrontFacingAdded) + { + Varying info; + const char kName[] = "gl_FrontFacing"; + info.name = kName; + info.mappedName = kName; + info.type = GL_BOOL; + info.arraySize = 0; + info.precision = GL_NONE; + info.staticUse = true; + info.isInvariant = mSymbolTable.isVaryingInvariant(kName); + mVaryings->push_back(info); + mFrontFacingAdded = true; + } + return; + case EvqPointCoord: + if (!mPointCoordAdded) + { + Varying info; + const char kName[] = "gl_PointCoord"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC2; + info.arraySize = 0; + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + info.isInvariant = mSymbolTable.isVaryingInvariant(kName); + mVaryings->push_back(info); + mPointCoordAdded = true; + } + return; + case EvqInstanceID: + if (!mInstanceIDAdded) + { + Attribute info; + const char kName[] = "gl_InstanceID"; + info.name = kName; + info.mappedName = kName; + info.type = GL_INT; + info.arraySize = 0; + info.precision = GL_HIGH_INT; // Defined by spec. + info.staticUse = true; + info.location = -1; + mAttribs->push_back(info); + mInstanceIDAdded = true; + } + return; + case EvqVertexID: + if (!mVertexIDAdded) + { + Attribute info; + const char kName[] = "gl_VertexID"; + info.name = kName; + info.mappedName = kName; + info.type = GL_INT; + info.arraySize = 0; + info.precision = GL_HIGH_INT; // Defined by spec. + info.staticUse = true; + info.location = -1; + mAttribs->push_back(info); + mVertexIDAdded = true; + } + return; + case EvqPosition: + if (!mPositionAdded) + { + Varying info; + const char kName[] = "gl_Position"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC4; + info.arraySize = 0; + info.precision = GL_HIGH_FLOAT; // Defined by spec. + info.staticUse = true; + info.isInvariant = mSymbolTable.isVaryingInvariant(kName); + mVaryings->push_back(info); + mPositionAdded = true; + } + return; + case EvqPointSize: + if (!mPointSizeAdded) + { + Varying info; + const char kName[] = "gl_PointSize"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT; + info.arraySize = 0; + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + info.isInvariant = mSymbolTable.isVaryingInvariant(kName); + mVaryings->push_back(info); + mPointSizeAdded = true; + } + return; + case EvqLastFragData: + if (!mLastFragDataAdded) + { + Varying info; + const char kName[] = "gl_LastFragData"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC4; + info.arraySize = static_cast<const TVariable*>(mSymbolTable.findBuiltIn("gl_MaxDrawBuffers", 100))->getConstPointer()->getIConst(); + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + info.isInvariant = mSymbolTable.isVaryingInvariant(kName); + mVaryings->push_back(info); + mLastFragDataAdded = true; + } + return; + case EvqFragColor: + if (!mFragColorAdded) + { + OutputVariable info; + const char kName[] = "gl_FragColor"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC4; + info.arraySize = 0; + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + mOutputVariables->push_back(info); + mFragColorAdded = true; + } + return; + case EvqFragData: + if (!mFragDataAdded) + { + OutputVariable info; + const char kName[] = "gl_FragData"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC4; + if (::IsExtensionEnabled(mExtensionBehavior, "GL_EXT_draw_buffers")) + { + info.arraySize = static_cast<const TVariable *>( + mSymbolTable.findBuiltIn("gl_MaxDrawBuffers", 100)) + ->getConstPointer() + ->getIConst(); + } + else + { + info.arraySize = 1; + } + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + mOutputVariables->push_back(info); + mFragDataAdded = true; + } + return; + case EvqFragDepthEXT: + if (!mFragDepthEXTAdded) + { + OutputVariable info; + const char kName[] = "gl_FragDepthEXT"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT; + info.arraySize = 0; + info.precision = + GLVariablePrecision(static_cast<const TVariable *>( + mSymbolTable.findBuiltIn("gl_FragDepthEXT", 100)) + ->getType()); + info.staticUse = true; + mOutputVariables->push_back(info); + mFragDepthEXTAdded = true; + } + return; + case EvqFragDepth: + if (!mFragDepthAdded) + { + OutputVariable info; + const char kName[] = "gl_FragDepth"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT; + info.arraySize = 0; + info.precision = GL_HIGH_FLOAT; + info.staticUse = true; + mOutputVariables->push_back(info); + mFragDepthAdded = true; + } + return; + case EvqSecondaryFragColorEXT: + if (!mSecondaryFragColorEXTAdded) + { + OutputVariable info; + const char kName[] = "gl_SecondaryFragColorEXT"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC4; + info.arraySize = 0; + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + mOutputVariables->push_back(info); + mSecondaryFragColorEXTAdded = true; + } + return; + case EvqSecondaryFragDataEXT: + if (!mSecondaryFragDataEXTAdded) + { + OutputVariable info; + const char kName[] = "gl_SecondaryFragDataEXT"; + info.name = kName; + info.mappedName = kName; + info.type = GL_FLOAT_VEC4; + + const TVariable *maxDualSourceDrawBuffersVar = static_cast<const TVariable *>( + mSymbolTable.findBuiltIn("gl_MaxDualSourceDrawBuffersEXT", 100)); + info.arraySize = maxDualSourceDrawBuffersVar->getConstPointer()->getIConst(); + info.precision = GL_MEDIUM_FLOAT; // Defined by spec. + info.staticUse = true; + mOutputVariables->push_back(info); + mSecondaryFragDataEXTAdded = true; + } + return; + default: + break; + } + } + if (var) + { + var->staticUse = true; + } +} + +class NameHashingTraverser : public GetVariableTraverser +{ + public: + NameHashingTraverser(ShHashFunction64 hashFunction, + const TSymbolTable &symbolTable) + : GetVariableTraverser(symbolTable), + mHashFunction(hashFunction) + {} + + private: + void visitVariable(ShaderVariable *variable) override + { + TString stringName = TString(variable->name.c_str()); + variable->mappedName = TIntermTraverser::hash(stringName, mHashFunction).c_str(); + } + + ShHashFunction64 mHashFunction; +}; + +// Attributes, which cannot have struct fields, are a special case +template <> +void CollectVariables::visitVariable(const TIntermSymbol *variable, + std::vector<Attribute> *infoList) const +{ + ASSERT(variable); + const TType &type = variable->getType(); + ASSERT(!type.getStruct()); + + Attribute attribute; + + attribute.type = GLVariableType(type); + attribute.precision = GLVariablePrecision(type); + attribute.name = variable->getSymbol().c_str(); + attribute.arraySize = type.getArraySize(); + attribute.mappedName = TIntermTraverser::hash(variable->getSymbol(), mHashFunction).c_str(); + attribute.location = variable->getType().getLayoutQualifier().location; + + infoList->push_back(attribute); +} + +template <> +void CollectVariables::visitVariable(const TIntermSymbol *variable, + std::vector<OutputVariable> *infoList) const +{ + ASSERT(variable); + const TType &type = variable->getType(); + ASSERT(!type.getStruct()); + + OutputVariable attribute; + + attribute.type = GLVariableType(type); + attribute.precision = GLVariablePrecision(type); + attribute.name = variable->getSymbol().c_str(); + attribute.arraySize = type.getArraySize(); + attribute.mappedName = TIntermTraverser::hash(variable->getSymbol(), mHashFunction).c_str(); + attribute.location = variable->getType().getLayoutQualifier().location; + + infoList->push_back(attribute); +} + +template <> +void CollectVariables::visitVariable(const TIntermSymbol *variable, + std::vector<InterfaceBlock> *infoList) const +{ + InterfaceBlock interfaceBlock; + const TInterfaceBlock *blockType = variable->getType().getInterfaceBlock(); + ASSERT(blockType); + + interfaceBlock.name = blockType->name().c_str(); + interfaceBlock.mappedName = + TIntermTraverser::hash(blockType->name().c_str(), mHashFunction).c_str(); + interfaceBlock.instanceName = (blockType->hasInstanceName() ? blockType->instanceName().c_str() : ""); + interfaceBlock.arraySize = variable->getArraySize(); + interfaceBlock.isRowMajorLayout = (blockType->matrixPacking() == EmpRowMajor); + interfaceBlock.layout = GetBlockLayoutType(blockType->blockStorage()); + + // Gather field information + for (const TField *field : blockType->fields()) + { + const TType &fieldType = *field->type(); + + NameHashingTraverser traverser(mHashFunction, mSymbolTable); + traverser.traverse(fieldType, field->name(), &interfaceBlock.fields); + + interfaceBlock.fields.back().isRowMajorLayout = (fieldType.getLayoutQualifier().matrixPacking == EmpRowMajor); + } + + infoList->push_back(interfaceBlock); +} + +template <typename VarT> +void CollectVariables::visitVariable(const TIntermSymbol *variable, + std::vector<VarT> *infoList) const +{ + NameHashingTraverser traverser(mHashFunction, mSymbolTable); + traverser.traverse(variable->getType(), variable->getSymbol(), infoList); +} + +template <typename VarT> +void CollectVariables::visitInfoList(const TIntermSequence &sequence, + std::vector<VarT> *infoList) const +{ + for (size_t seqIndex = 0; seqIndex < sequence.size(); seqIndex++) + { + const TIntermSymbol *variable = sequence[seqIndex]->getAsSymbolNode(); + // The only case in which the sequence will not contain a + // TIntermSymbol node is initialization. It will contain a + // TInterBinary node in that case. Since attributes, uniforms, + // and varyings cannot be initialized in a shader, we must have + // only TIntermSymbol nodes in the sequence. + ASSERT(variable != NULL); + visitVariable(variable, infoList); + } +} + +bool CollectVariables::visitDeclaration(Visit, TIntermDeclaration *node) +{ + const TIntermSequence &sequence = *(node->getSequence()); + ASSERT(!sequence.empty()); + + const TIntermTyped &typedNode = *(sequence.front()->getAsTyped()); + TQualifier qualifier = typedNode.getQualifier(); + + if (typedNode.getBasicType() == EbtInterfaceBlock) + { + visitInfoList(sequence, mInterfaceBlocks); + return false; + } + else if (qualifier == EvqAttribute || qualifier == EvqVertexIn || qualifier == EvqFragmentOut || + qualifier == EvqUniform || IsVarying(qualifier)) + { + switch (qualifier) + { + case EvqAttribute: + case EvqVertexIn: + visitInfoList(sequence, mAttribs); + break; + case EvqFragmentOut: + visitInfoList(sequence, mOutputVariables); + break; + case EvqUniform: + visitInfoList(sequence, mUniforms); + break; + default: + visitInfoList(sequence, mVaryings); + break; + } + + return false; + } + + return true; +} + +bool CollectVariables::visitBinary(Visit, TIntermBinary *binaryNode) +{ + if (binaryNode->getOp() == EOpIndexDirectInterfaceBlock) + { + // NOTE: we do not determine static use for individual blocks of an array + TIntermTyped *blockNode = binaryNode->getLeft()->getAsTyped(); + ASSERT(blockNode); + + TIntermConstantUnion *constantUnion = binaryNode->getRight()->getAsConstantUnion(); + ASSERT(constantUnion); + + const TInterfaceBlock *interfaceBlock = blockNode->getType().getInterfaceBlock(); + InterfaceBlock *namedBlock = FindVariable(interfaceBlock->name(), mInterfaceBlocks); + ASSERT(namedBlock); + namedBlock->staticUse = true; + + unsigned int fieldIndex = constantUnion->getUConst(0); + ASSERT(fieldIndex < namedBlock->fields.size()); + namedBlock->fields[fieldIndex].staticUse = true; + return false; + } + + return true; +} + +void ExpandVariable(const ShaderVariable &variable, + const std::string &name, + const std::string &mappedName, + bool markStaticUse, + std::vector<ShaderVariable> *expanded) +{ + if (variable.isStruct()) + { + if (variable.isArray()) + { + for (unsigned int elementIndex = 0; elementIndex < variable.elementCount(); + elementIndex++) + { + std::string lname = name + ::ArrayString(elementIndex); + std::string lmappedName = mappedName + ::ArrayString(elementIndex); + ExpandUserDefinedVariable(variable, lname, lmappedName, markStaticUse, expanded); + } + } + else + { + ExpandUserDefinedVariable(variable, name, mappedName, markStaticUse, expanded); + } + } + else + { + ShaderVariable expandedVar = variable; + + expandedVar.name = name; + expandedVar.mappedName = mappedName; + + // Mark all expanded fields as used if the parent is used + if (markStaticUse) + { + expandedVar.staticUse = true; + } + + if (expandedVar.isArray()) + { + expandedVar.name += "[0]"; + expandedVar.mappedName += "[0]"; + } + + expanded->push_back(expandedVar); + } +} + +void ExpandUniforms(const std::vector<Uniform> &compact, + std::vector<ShaderVariable> *expanded) +{ + for (size_t variableIndex = 0; variableIndex < compact.size(); variableIndex++) + { + const ShaderVariable &variable = compact[variableIndex]; + ExpandVariable(variable, variable.name, variable.mappedName, variable.staticUse, expanded); + } +} + +} |