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//
// Copyright (c) 2014 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.
//
// UniformHLSL.cpp:
// Methods for GLSL to HLSL translation for uniforms and interface blocks.
//
#include "compiler/translator/UniformHLSL.h"
#include "common/utilities.h"
#include "compiler/translator/StructureHLSL.h"
#include "compiler/translator/UtilsHLSL.h"
#include "compiler/translator/blocklayoutHLSL.h"
#include "compiler/translator/util.h"
namespace sh
{
static const char *UniformRegisterPrefix(const TType &type)
{
if (IsSampler(type.getBasicType()))
{
return "s";
}
else
{
return "c";
}
}
static TString InterfaceBlockFieldTypeString(const TField &field, TLayoutBlockStorage blockStorage)
{
const TType &fieldType = *field.type();
const TLayoutMatrixPacking matrixPacking = fieldType.getLayoutQualifier().matrixPacking;
ASSERT(matrixPacking != EmpUnspecified);
TStructure *structure = fieldType.getStruct();
if (fieldType.isMatrix())
{
// Use HLSL row-major packing for GLSL column-major matrices
const TString &matrixPackString = (matrixPacking == EmpRowMajor ? "column_major" : "row_major");
return matrixPackString + " " + TypeString(fieldType);
}
else if (structure)
{
// Use HLSL row-major packing for GLSL column-major matrices
return QualifiedStructNameString(*structure, matrixPacking == EmpColumnMajor,
blockStorage == EbsStd140);
}
else
{
return TypeString(fieldType);
}
}
static TString InterfaceBlockStructName(const TInterfaceBlock &interfaceBlock)
{
return DecoratePrivate(interfaceBlock.name()) + "_type";
}
UniformHLSL::UniformHLSL(StructureHLSL *structureHLSL, ShShaderOutput outputType, const std::vector<Uniform> &uniforms)
: mUniformRegister(0),
mInterfaceBlockRegister(0),
mSamplerRegister(0),
mStructureHLSL(structureHLSL),
mOutputType(outputType),
mUniforms(uniforms)
{}
void UniformHLSL::reserveUniformRegisters(unsigned int registerCount)
{
mUniformRegister = registerCount;
}
void UniformHLSL::reserveInterfaceBlockRegisters(unsigned int registerCount)
{
mInterfaceBlockRegister = registerCount;
}
const Uniform *UniformHLSL::findUniformByName(const TString &name) const
{
for (size_t uniformIndex = 0; uniformIndex < mUniforms.size(); ++uniformIndex)
{
if (mUniforms[uniformIndex].name == name.c_str())
{
return &mUniforms[uniformIndex];
}
}
return nullptr;
}
unsigned int UniformHLSL::assignUniformRegister(const TType &type,
const TString &name,
unsigned int *outRegisterCount)
{
unsigned int registerIndex = (IsSampler(type.getBasicType()) ? mSamplerRegister : mUniformRegister);
const Uniform *uniform = findUniformByName(name);
ASSERT(uniform);
mUniformRegisterMap[uniform->name] = registerIndex;
unsigned int registerCount = HLSLVariableRegisterCount(*uniform, mOutputType);
if (gl::IsSamplerType(uniform->type))
{
mSamplerRegister += registerCount;
}
else
{
mUniformRegister += registerCount;
}
if (outRegisterCount)
{
*outRegisterCount = registerCount;
}
return registerIndex;
}
unsigned int UniformHLSL::assignSamplerInStructUniformRegister(const TType &type,
const TString &name,
unsigned int *outRegisterCount)
{
// Sampler that is a field of a uniform structure.
ASSERT(IsSampler(type.getBasicType()));
unsigned int registerIndex = mSamplerRegister;
mUniformRegisterMap[std::string(name.c_str())] = registerIndex;
unsigned int registerCount = type.isArray() ? type.getArraySize() : 1u;
mSamplerRegister += registerCount;
if (outRegisterCount)
{
*outRegisterCount = registerCount;
}
return registerIndex;
}
void UniformHLSL::outputHLSLSamplerUniformGroup(
TInfoSinkBase &out,
const HLSLTextureSamplerGroup textureGroup,
const TVector<const TIntermSymbol *> &group,
const TMap<const TIntermSymbol *, TString> &samplerInStructSymbolsToAPINames,
unsigned int *groupTextureRegisterIndex)
{
if (group.empty())
{
return;
}
unsigned int groupRegisterCount = 0;
for (const TIntermSymbol *uniform : group)
{
const TType &type = uniform->getType();
const TString &name = uniform->getSymbol();
unsigned int registerCount;
// The uniform might be just a regular sampler or one extracted from a struct.
unsigned int samplerArrayIndex = 0u;
const Uniform *uniformByName = findUniformByName(name);
if (uniformByName)
{
samplerArrayIndex = assignUniformRegister(type, name, ®isterCount);
}
else
{
ASSERT(samplerInStructSymbolsToAPINames.find(uniform) !=
samplerInStructSymbolsToAPINames.end());
samplerArrayIndex = assignSamplerInStructUniformRegister(
type, samplerInStructSymbolsToAPINames.at(uniform), ®isterCount);
}
groupRegisterCount += registerCount;
if (type.isArray())
{
out << "static const uint " << DecorateIfNeeded(uniform->getName()) << ArrayString(type)
<< " = {";
for (unsigned int i = 0u; i < type.getArraySize(); ++i)
{
if (i > 0u)
out << ", ";
out << (samplerArrayIndex + i);
}
out << "};\n";
}
else
{
out << "static const uint " << DecorateIfNeeded(uniform->getName()) << " = "
<< samplerArrayIndex << ";\n";
}
}
TString suffix = TextureGroupSuffix(textureGroup);
// Since HLSL_TEXTURE_2D is the first group, it has a fixed offset of zero.
if (textureGroup != HLSL_TEXTURE_2D)
{
out << "static const uint textureIndexOffset" << suffix << " = "
<< (*groupTextureRegisterIndex) << ";\n";
out << "static const uint samplerIndexOffset" << suffix << " = "
<< (*groupTextureRegisterIndex) << ";\n";
}
out << "uniform " << TextureString(textureGroup) << " textures" << suffix << "["
<< groupRegisterCount << "]"
<< " : register(t" << (*groupTextureRegisterIndex) << ");\n";
out << "uniform " << SamplerString(textureGroup) << " samplers" << suffix << "["
<< groupRegisterCount << "]"
<< " : register(s" << (*groupTextureRegisterIndex) << ");\n";
*groupTextureRegisterIndex += groupRegisterCount;
}
void UniformHLSL::outputHLSL4_0_FL9_3Sampler(TInfoSinkBase &out,
const TType &type,
const TName &name,
const unsigned int registerIndex)
{
out << "uniform " << SamplerString(type.getBasicType()) << " sampler_"
<< DecorateUniform(name, type) << ArrayString(type) << " : register(s" << str(registerIndex)
<< ");\n";
out << "uniform " << TextureString(type.getBasicType()) << " texture_"
<< DecorateUniform(name, type) << ArrayString(type) << " : register(t" << str(registerIndex)
<< ");\n";
}
void UniformHLSL::outputUniform(TInfoSinkBase &out,
const TType &type,
const TName &name,
const unsigned int registerIndex)
{
const TStructure *structure = type.getStruct();
// If this is a nameless struct, we need to use its full definition, rather than its (empty)
// name.
// TypeString() will invoke defineNameless in this case; qualifier prefixes are unnecessary for
// nameless structs in ES, as nameless structs cannot be used anywhere that layout qualifiers
// are permitted.
const TString &typeName = ((structure && !structure->name().empty())
? QualifiedStructNameString(*structure, false, false)
: TypeString(type));
const TString ®isterString =
TString("register(") + UniformRegisterPrefix(type) + str(registerIndex) + ")";
out << "uniform " << typeName << " ";
out << DecorateUniform(name, type);
out << ArrayString(type) << " : " << registerString << ";\n";
}
void UniformHLSL::uniformsHeader(TInfoSinkBase &out,
ShShaderOutput outputType,
const ReferencedSymbols &referencedUniforms)
{
if (!referencedUniforms.empty())
{
out << "// Uniforms\n\n";
}
// In the case of HLSL 4, sampler uniforms need to be grouped by type before the code is
// written. They are grouped based on the combination of the HLSL texture type and
// HLSL sampler type, enumerated in HLSLTextureSamplerGroup.
TVector<TVector<const TIntermSymbol *>> groupedSamplerUniforms(HLSL_TEXTURE_MAX + 1);
TMap<const TIntermSymbol *, TString> samplerInStructSymbolsToAPINames;
for (auto &uniformIt : referencedUniforms)
{
// Output regular uniforms. Group sampler uniforms by type.
const TIntermSymbol &uniform = *uniformIt.second;
const TType &type = uniform.getType();
const TName &name = uniform.getName();
if (outputType == SH_HLSL_4_1_OUTPUT && IsSampler(type.getBasicType()))
{
HLSLTextureSamplerGroup group = TextureGroup(type.getBasicType());
groupedSamplerUniforms[group].push_back(&uniform);
}
else if (outputType == SH_HLSL_4_0_FL9_3_OUTPUT && IsSampler(type.getBasicType()))
{
unsigned int registerIndex = assignUniformRegister(type, name.getString(), nullptr);
outputHLSL4_0_FL9_3Sampler(out, type, name, registerIndex);
}
else
{
if (type.isStructureContainingSamplers())
{
TVector<TIntermSymbol *> samplerSymbols;
TMap<TIntermSymbol *, TString> symbolsToAPINames;
unsigned int arrayOfStructsSize = type.isArray() ? type.getArraySize() : 0u;
type.createSamplerSymbols("angle_" + name.getString(), name.getString(),
arrayOfStructsSize, &samplerSymbols, &symbolsToAPINames);
for (TIntermSymbol *sampler : samplerSymbols)
{
const TType &samplerType = sampler->getType();
// Will use angle_ prefix instead of regular prefix.
sampler->setInternal(true);
const TName &samplerName = sampler->getName();
if (outputType == SH_HLSL_4_1_OUTPUT)
{
HLSLTextureSamplerGroup group = TextureGroup(samplerType.getBasicType());
groupedSamplerUniforms[group].push_back(sampler);
samplerInStructSymbolsToAPINames[sampler] = symbolsToAPINames[sampler];
}
else if (outputType == SH_HLSL_4_0_FL9_3_OUTPUT)
{
unsigned int registerIndex = assignSamplerInStructUniformRegister(
samplerType, symbolsToAPINames[sampler], nullptr);
outputHLSL4_0_FL9_3Sampler(out, samplerType, samplerName, registerIndex);
}
else
{
ASSERT(outputType == SH_HLSL_3_0_OUTPUT);
unsigned int registerIndex = assignSamplerInStructUniformRegister(
samplerType, symbolsToAPINames[sampler], nullptr);
outputUniform(out, samplerType, samplerName, registerIndex);
}
}
}
unsigned int registerIndex = assignUniformRegister(type, name.getString(), nullptr);
outputUniform(out, type, name, registerIndex);
}
}
if (outputType == SH_HLSL_4_1_OUTPUT)
{
unsigned int groupTextureRegisterIndex = 0;
// TEXTURE_2D is special, index offset is assumed to be 0 and omitted in that case.
ASSERT(HLSL_TEXTURE_MIN == HLSL_TEXTURE_2D);
for (int groupId = HLSL_TEXTURE_MIN; groupId < HLSL_TEXTURE_MAX; ++groupId)
{
outputHLSLSamplerUniformGroup(
out, HLSLTextureSamplerGroup(groupId), groupedSamplerUniforms[groupId],
samplerInStructSymbolsToAPINames, &groupTextureRegisterIndex);
}
}
}
void UniformHLSL::samplerMetadataUniforms(TInfoSinkBase &out, const char *reg)
{
// If mSamplerRegister is 0 the shader doesn't use any textures.
if (mSamplerRegister > 0)
{
out << " struct SamplerMetadata\n"
" {\n"
" int baseLevel;\n"
" int internalFormatBits;\n"
" int wrapModes;\n"
" int padding;\n"
" };\n"
" SamplerMetadata samplerMetadata["
<< mSamplerRegister << "] : packoffset(" << reg << ");\n";
}
}
TString UniformHLSL::interfaceBlocksHeader(const ReferencedSymbols &referencedInterfaceBlocks)
{
TString interfaceBlocks;
for (ReferencedSymbols::const_iterator interfaceBlockIt = referencedInterfaceBlocks.begin();
interfaceBlockIt != referencedInterfaceBlocks.end(); interfaceBlockIt++)
{
const TType &nodeType = interfaceBlockIt->second->getType();
const TInterfaceBlock &interfaceBlock = *nodeType.getInterfaceBlock();
unsigned int arraySize = static_cast<unsigned int>(interfaceBlock.arraySize());
unsigned int activeRegister = mInterfaceBlockRegister;
mInterfaceBlockRegisterMap[interfaceBlock.name().c_str()] = activeRegister;
mInterfaceBlockRegister += std::max(1u, arraySize);
// FIXME: interface block field names
if (interfaceBlock.hasInstanceName())
{
interfaceBlocks += interfaceBlockStructString(interfaceBlock);
}
if (arraySize > 0)
{
for (unsigned int arrayIndex = 0; arrayIndex < arraySize; arrayIndex++)
{
interfaceBlocks += interfaceBlockString(interfaceBlock, activeRegister + arrayIndex, arrayIndex);
}
}
else
{
interfaceBlocks += interfaceBlockString(interfaceBlock, activeRegister, GL_INVALID_INDEX);
}
}
return (interfaceBlocks.empty() ? "" : ("// Interface Blocks\n\n" + interfaceBlocks));
}
TString UniformHLSL::interfaceBlockString(const TInterfaceBlock &interfaceBlock, unsigned int registerIndex, unsigned int arrayIndex)
{
const TString &arrayIndexString = (arrayIndex != GL_INVALID_INDEX ? Decorate(str(arrayIndex)) : "");
const TString &blockName = interfaceBlock.name() + arrayIndexString;
TString hlsl;
hlsl += "cbuffer " + blockName + " : register(b" + str(registerIndex) + ")\n"
"{\n";
if (interfaceBlock.hasInstanceName())
{
hlsl += " " + InterfaceBlockStructName(interfaceBlock) + " " +
interfaceBlockInstanceString(interfaceBlock, arrayIndex) + ";\n";
}
else
{
const TLayoutBlockStorage blockStorage = interfaceBlock.blockStorage();
hlsl += interfaceBlockMembersString(interfaceBlock, blockStorage);
}
hlsl += "};\n\n";
return hlsl;
}
TString UniformHLSL::interfaceBlockInstanceString(const TInterfaceBlock& interfaceBlock, unsigned int arrayIndex)
{
if (!interfaceBlock.hasInstanceName())
{
return "";
}
else if (interfaceBlock.isArray())
{
return DecoratePrivate(interfaceBlock.instanceName()) + "_" + str(arrayIndex);
}
else
{
return Decorate(interfaceBlock.instanceName());
}
}
TString UniformHLSL::interfaceBlockMembersString(const TInterfaceBlock &interfaceBlock, TLayoutBlockStorage blockStorage)
{
TString hlsl;
Std140PaddingHelper padHelper = mStructureHLSL->getPaddingHelper();
for (unsigned int typeIndex = 0; typeIndex < interfaceBlock.fields().size(); typeIndex++)
{
const TField &field = *interfaceBlock.fields()[typeIndex];
const TType &fieldType = *field.type();
if (blockStorage == EbsStd140)
{
// 2 and 3 component vector types in some cases need pre-padding
hlsl += padHelper.prePaddingString(fieldType);
}
hlsl += " " + InterfaceBlockFieldTypeString(field, blockStorage) +
" " + Decorate(field.name()) + ArrayString(fieldType) + ";\n";
// must pad out after matrices and arrays, where HLSL usually allows itself room to pack stuff
if (blockStorage == EbsStd140)
{
const bool useHLSLRowMajorPacking = (fieldType.getLayoutQualifier().matrixPacking == EmpColumnMajor);
hlsl += padHelper.postPaddingString(fieldType, useHLSLRowMajorPacking);
}
}
return hlsl;
}
TString UniformHLSL::interfaceBlockStructString(const TInterfaceBlock &interfaceBlock)
{
const TLayoutBlockStorage blockStorage = interfaceBlock.blockStorage();
return "struct " + InterfaceBlockStructName(interfaceBlock) + "\n"
"{\n" +
interfaceBlockMembersString(interfaceBlock, blockStorage) +
"};\n\n";
}
}
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