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//
// 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
{
TString InterfaceBlockFieldName(const TInterfaceBlock &interfaceBlock, const TField &field)
{
if (interfaceBlock.hasInstanceName())
{
return interfaceBlock.name() + "." + field.name();
}
else
{
return field.name();
}
}
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);
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 (size_t 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 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::Attribute> *outputVariables,
std::vector<sh::Uniform> *uniforms,
std::vector<sh::Varying> *varyings,
std::vector<sh::InterfaceBlock> *interfaceBlocks,
ShHashFunction64 hashFunction,
const TSymbolTable &symbolTable)
: mAttribs(attribs),
mOutputVariables(outputVariables),
mUniforms(uniforms),
mVaryings(varyings),
mInterfaceBlocks(interfaceBlocks),
mPointCoordAdded(false),
mFrontFacingAdded(false),
mFragCoordAdded(false),
mPositionAdded(false),
mPointSizeAdded(false),
mHashFunction(hashFunction),
mSymbolTable(symbolTable)
{
}
// 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
{
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 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;
default:
break;
}
}
if (var)
{
var->staticUse = true;
}
}
class NameHashingTraverser : public GetVariableTraverser
{
public:
NameHashingTraverser(ShHashFunction64 hashFunction,
const TSymbolTable &symbolTable)
: GetVariableTraverser(symbolTable),
mHashFunction(hashFunction)
{}
private:
DISALLOW_COPY_AND_ASSIGN(NameHashingTraverser);
virtual void visitVariable(ShaderVariable *variable)
{
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 = static_cast<unsigned int>(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(variable->getSymbol(), 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
const TFieldList &fieldList = blockType->fields();
for (size_t fieldIndex = 0; fieldIndex < fieldList.size(); ++fieldIndex)
{
const TField &field = *fieldList[fieldIndex];
const TString &fullFieldName = InterfaceBlockFieldName(*blockType, field);
const TType &fieldType = *field.type();
GetVariableTraverser traverser(mSymbolTable);
traverser.traverse(fieldType, fullFieldName, &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::visitAggregate(Visit, TIntermAggregate *node)
{
bool visitChildren = true;
switch (node->getOp())
{
case EOpDeclaration:
{
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);
visitChildren = 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;
}
visitChildren = false;
}
break;
}
default: break;
}
return visitChildren;
}
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 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);
}
}
}
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