/////////////////////////////////////////////////////////////////////////////// // // // DxilMetadataHelper.cpp // // Copyright (C) Microsoft Corporation. All rights reserved. // // This file is distributed under the University of Illinois Open Source // // License. See LICENSE.TXT for details. // // // /////////////////////////////////////////////////////////////////////////////// #include "dxc/Support/Global.h" #include "dxc/HLSL/DxilMetadataHelper.h" #include "dxc/HLSL/DxilShaderModel.h" #include "dxc/HLSL/DxilCBuffer.h" #include "dxc/HLSL/DxilResource.h" #include "dxc/HLSL/DxilSampler.h" #include "dxc/HLSL/DxilSignatureElement.h" #include "dxc/HLSL/DxilSignature.h" #include "dxc/HLSL/DxilTypeSystem.h" #include "dxc/HLSL/DxilRootSignature.h" #include "dxc/HLSL/ComputeViewIdState.h" #include "dxc/HLSL/DxilFunctionProps.h" #include "llvm/IR/Constants.h" #include "llvm/IR/Function.h" #include "llvm/IR/LLVMContext.h" #include "llvm/IR/Metadata.h" #include "llvm/IR/Module.h" #include "llvm/Support/raw_ostream.h" #include #include #include "dxc/Support/WinIncludes.h" using namespace llvm; using std::string; using std::vector; using std::unique_ptr; namespace hlsl { const char DxilMDHelper::kDxilVersionMDName[] = "dx.version"; const char DxilMDHelper::kDxilShaderModelMDName[] = "dx.shaderModel"; const char DxilMDHelper::kDxilEntryPointsMDName[] = "dx.entryPoints"; const char DxilMDHelper::kDxilResourcesMDName[] = "dx.resources"; const char DxilMDHelper::kDxilResourcesLinkInfoMDName[] = "dx.resources.link.info"; const char DxilMDHelper::kDxilTypeSystemMDName[] = "dx.typeAnnotations"; const char DxilMDHelper::kDxilTypeSystemHelperVariablePrefix[] = "dx.typevar."; const char DxilMDHelper::kDxilControlFlowHintMDName[] = "dx.controlflow.hints"; const char DxilMDHelper::kDxilPreciseAttributeMDName[] = "dx.precise"; const char DxilMDHelper::kHLDxilResourceAttributeMDName[] = "dx.hl.resource.attribute"; const char DxilMDHelper::kDxilValidatorVersionMDName[] = "dx.valver"; // This named metadata is not valid in final module (should be moved to DxilContainer) const char DxilMDHelper::kDxilRootSignatureMDName[] = "dx.rootSignature"; const char DxilMDHelper::kDxilViewIdStateMDName[] = "dx.viewIdState"; const char DxilMDHelper::kDxilFunctionPropertiesMDName[] = "dx.func.props"; const char DxilMDHelper::kDxilEntrySignaturesMDName[] = "dx.func.signatures"; static std::array DxilMDNames = { DxilMDHelper::kDxilVersionMDName, DxilMDHelper::kDxilShaderModelMDName, DxilMDHelper::kDxilEntryPointsMDName, DxilMDHelper::kDxilResourcesMDName, DxilMDHelper::kDxilTypeSystemMDName, DxilMDHelper::kDxilValidatorVersionMDName, DxilMDHelper::kDxilViewIdStateMDName, }; DxilMDHelper::DxilMDHelper(Module *pModule, std::unique_ptr EPH) : m_pModule(pModule) , m_Ctx(pModule->getContext()) , m_pSM(nullptr) , m_ExtraPropertyHelper(std::move(EPH)) { } DxilMDHelper::~DxilMDHelper() { } void DxilMDHelper::SetShaderModel(const ShaderModel *pSM) { m_pSM = pSM; } const ShaderModel *DxilMDHelper::GetShaderModel() const { return m_pSM; } // // DXIL version. // void DxilMDHelper::EmitDxilVersion(unsigned Major, unsigned Minor) { NamedMDNode *pDxilVersionMD = m_pModule->getNamedMetadata(kDxilVersionMDName); IFTBOOL(pDxilVersionMD == nullptr, DXC_E_INCORRECT_DXIL_METADATA); pDxilVersionMD = m_pModule->getOrInsertNamedMetadata(kDxilVersionMDName); Metadata *MDVals[kDxilVersionNumFields]; MDVals[kDxilVersionMajorIdx] = Uint32ToConstMD(Major); MDVals[kDxilVersionMinorIdx] = Uint32ToConstMD(Minor); pDxilVersionMD->addOperand(MDNode::get(m_Ctx, MDVals)); } void DxilMDHelper::LoadDxilVersion(unsigned &Major, unsigned &Minor) { NamedMDNode *pDxilVersionMD = m_pModule->getNamedMetadata(kDxilVersionMDName); IFTBOOL(pDxilVersionMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pDxilVersionMD->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); MDNode *pVersionMD = pDxilVersionMD->getOperand(0); IFTBOOL(pVersionMD->getNumOperands() == kDxilVersionNumFields, DXC_E_INCORRECT_DXIL_METADATA); Major = ConstMDToUint32(pVersionMD->getOperand(kDxilVersionMajorIdx)); Minor = ConstMDToUint32(pVersionMD->getOperand(kDxilVersionMinorIdx)); } // // Validator version. // void DxilMDHelper::EmitValidatorVersion(unsigned Major, unsigned Minor) { NamedMDNode *pDxilValidatorVersionMD = m_pModule->getNamedMetadata(kDxilValidatorVersionMDName); // Allow re-writing the validator version, since this can be changed at later points. if (pDxilValidatorVersionMD) m_pModule->eraseNamedMetadata(pDxilValidatorVersionMD); pDxilValidatorVersionMD = m_pModule->getOrInsertNamedMetadata(kDxilValidatorVersionMDName); Metadata *MDVals[kDxilVersionNumFields]; MDVals[kDxilVersionMajorIdx] = Uint32ToConstMD(Major); MDVals[kDxilVersionMinorIdx] = Uint32ToConstMD(Minor); pDxilValidatorVersionMD->addOperand(MDNode::get(m_Ctx, MDVals)); } void DxilMDHelper::LoadValidatorVersion(unsigned &Major, unsigned &Minor) { NamedMDNode *pDxilValidatorVersionMD = m_pModule->getNamedMetadata(kDxilValidatorVersionMDName); if (pDxilValidatorVersionMD == nullptr) { // If no validator version metadata, assume 1.0 Major = 1; Minor = 0; return; } IFTBOOL(pDxilValidatorVersionMD->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); MDNode *pVersionMD = pDxilValidatorVersionMD->getOperand(0); IFTBOOL(pVersionMD->getNumOperands() == kDxilVersionNumFields, DXC_E_INCORRECT_DXIL_METADATA); Major = ConstMDToUint32(pVersionMD->getOperand(kDxilVersionMajorIdx)); Minor = ConstMDToUint32(pVersionMD->getOperand(kDxilVersionMinorIdx)); } // // DXIL shader model. // void DxilMDHelper::EmitDxilShaderModel(const ShaderModel *pSM) { NamedMDNode *pShaderModelNamedMD = m_pModule->getNamedMetadata(kDxilShaderModelMDName); IFTBOOL(pShaderModelNamedMD == nullptr, DXC_E_INCORRECT_DXIL_METADATA); pShaderModelNamedMD = m_pModule->getOrInsertNamedMetadata(kDxilShaderModelMDName); Metadata *MDVals[kDxilShaderModelNumFields]; MDVals[kDxilShaderModelTypeIdx ] = MDString::get(m_Ctx, pSM->GetKindName().c_str()); MDVals[kDxilShaderModelMajorIdx] = Uint32ToConstMD(pSM->GetMajor()); MDVals[kDxilShaderModelMinorIdx] = Uint32ToConstMD(pSM->GetMinor()); pShaderModelNamedMD->addOperand(MDNode::get(m_Ctx, MDVals)); } void DxilMDHelper::LoadDxilShaderModel(const ShaderModel *&pSM) { NamedMDNode *pShaderModelNamedMD = m_pModule->getNamedMetadata(kDxilShaderModelMDName); IFTBOOL(pShaderModelNamedMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pShaderModelNamedMD->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); MDNode *pShaderModelMD = pShaderModelNamedMD->getOperand(0); IFTBOOL(pShaderModelMD->getNumOperands() == kDxilShaderModelNumFields, DXC_E_INCORRECT_DXIL_METADATA); MDString *pShaderTypeMD = dyn_cast(pShaderModelMD->getOperand(kDxilShaderModelTypeIdx)); IFTBOOL(pShaderTypeMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); unsigned Major = ConstMDToUint32(pShaderModelMD->getOperand(kDxilShaderModelMajorIdx)); unsigned Minor = ConstMDToUint32(pShaderModelMD->getOperand(kDxilShaderModelMinorIdx)); string ShaderModelName = pShaderTypeMD->getString(); ShaderModelName += "_" + std::to_string(Major) + "_" + std::to_string(Minor); pSM = ShaderModel::GetByName(ShaderModelName.c_str()); if (!pSM->IsValidForDxil()) { char ErrorMsgTxt[40]; StringCchPrintfA(ErrorMsgTxt, _countof(ErrorMsgTxt), "Unknown shader model '%s'", ShaderModelName.c_str()); string ErrorMsg(ErrorMsgTxt); throw hlsl::Exception(DXC_E_INCORRECT_DXIL_METADATA, ErrorMsg); } } // // Entry points. // void DxilMDHelper::EmitDxilEntryPoints(vector &MDEntries) { DXASSERT(MDEntries.size() == 1, "only one entry point is supported for now"); NamedMDNode *pEntryPointsNamedMD = m_pModule->getNamedMetadata(kDxilEntryPointsMDName); IFTBOOL(pEntryPointsNamedMD == nullptr, DXC_E_INCORRECT_DXIL_METADATA); pEntryPointsNamedMD = m_pModule->getOrInsertNamedMetadata(kDxilEntryPointsMDName); for (size_t i = 0; i < MDEntries.size(); i++) { pEntryPointsNamedMD->addOperand(MDEntries[i]); } } void DxilMDHelper::UpdateDxilEntryPoints(vector &MDEntries) { DXASSERT(MDEntries.size() == 1, "only one entry point is supported for now"); NamedMDNode *pEntryPointsNamedMD = m_pModule->getNamedMetadata(kDxilEntryPointsMDName); IFTBOOL(pEntryPointsNamedMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); for (size_t i = 0; i < MDEntries.size(); i++) { pEntryPointsNamedMD->setOperand(i, MDEntries[i]); } } const NamedMDNode *DxilMDHelper::GetDxilEntryPoints() { NamedMDNode *pEntryPointsNamedMD = m_pModule->getNamedMetadata(kDxilEntryPointsMDName); IFTBOOL(pEntryPointsNamedMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return pEntryPointsNamedMD; } MDTuple *DxilMDHelper::EmitDxilEntryPointTuple(Function *pFunc, const string &Name, MDTuple *pSignatures, MDTuple *pResources, MDTuple *pProperties) { Metadata *MDVals[kDxilEntryPointNumFields]; MDVals[kDxilEntryPointFunction ] = pFunc ? ValueAsMetadata::get(pFunc) : nullptr; MDVals[kDxilEntryPointName ] = MDString::get(m_Ctx, Name.c_str()); MDVals[kDxilEntryPointSignatures] = pSignatures; MDVals[kDxilEntryPointResources ] = pResources; MDVals[kDxilEntryPointProperties] = pProperties; return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::GetDxilEntryPoint(const MDNode *MDO, Function *&pFunc, string &Name, const MDOperand *&pSignatures, const MDOperand *&pResources, const MDOperand *&pProperties) { IFTBOOL(MDO != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilEntryPointNumFields, DXC_E_INCORRECT_DXIL_METADATA); // Retrieve entry function symbol. const MDOperand &MDOFunc = pTupleMD->getOperand(kDxilEntryPointFunction); if (MDOFunc.get() != nullptr) { ValueAsMetadata *pValueFunc = dyn_cast(MDOFunc.get()); IFTBOOL(pValueFunc != nullptr, DXC_E_INCORRECT_DXIL_METADATA); pFunc = dyn_cast(pValueFunc->getValue()); IFTBOOL(pFunc != nullptr, DXC_E_INCORRECT_DXIL_METADATA); } else { pFunc = nullptr; // pass-through CP. } // Retrieve entry function name. const MDOperand &MDOName = pTupleMD->getOperand(kDxilEntryPointName); IFTBOOL(MDOName.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); MDString *pMDName = dyn_cast(MDOName); IFTBOOL(pMDName != nullptr, DXC_E_INCORRECT_DXIL_METADATA); Name = pMDName->getString(); pSignatures = &pTupleMD->getOperand(kDxilEntryPointSignatures); pResources = &pTupleMD->getOperand(kDxilEntryPointResources ); pProperties = &pTupleMD->getOperand(kDxilEntryPointProperties); } // // Signatures. // MDTuple *DxilMDHelper::EmitDxilSignatures(const DxilEntrySignature &EntrySig) { MDTuple *pSignatureTupleMD = nullptr; const DxilSignature &InputSig = EntrySig.InputSignature; const DxilSignature &OutputSig = EntrySig.OutputSignature; const DxilSignature &PCSig = EntrySig.PatchConstantSignature; if (!InputSig.GetElements().empty() || !OutputSig.GetElements().empty() || !PCSig.GetElements().empty()) { Metadata *MDVals[kDxilNumSignatureFields]; MDVals[kDxilInputSignature] = EmitSignatureMetadata(InputSig); MDVals[kDxilOutputSignature] = EmitSignatureMetadata(OutputSig); MDVals[kDxilPatchConstantSignature] = EmitSignatureMetadata(PCSig); pSignatureTupleMD = MDNode::get(m_Ctx, MDVals); } return pSignatureTupleMD; } void DxilMDHelper::EmitRootSignature(RootSignatureHandle &RootSig) { if (RootSig.IsEmpty()) { return; } RootSig.EnsureSerializedAvailable(); Constant *V = llvm::ConstantDataArray::get( m_Ctx, llvm::ArrayRef(RootSig.GetSerializedBytes(), RootSig.GetSerializedSize())); NamedMDNode *pRootSignatureNamedMD = m_pModule->getNamedMetadata(kDxilRootSignatureMDName); IFTBOOL(pRootSignatureNamedMD == nullptr, DXC_E_INCORRECT_DXIL_METADATA); pRootSignatureNamedMD = m_pModule->getOrInsertNamedMetadata(kDxilRootSignatureMDName); pRootSignatureNamedMD->addOperand(MDNode::get(m_Ctx, {ConstantAsMetadata::get(V)})); return ; } void DxilMDHelper::LoadDxilSignatures(const MDOperand &MDO, DxilEntrySignature &EntrySig) { if (MDO.get() == nullptr) return; DxilSignature &InputSig = EntrySig.InputSignature; DxilSignature &OutputSig = EntrySig.OutputSignature; DxilSignature &PCSig = EntrySig.PatchConstantSignature; const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilNumSignatureFields, DXC_E_INCORRECT_DXIL_METADATA); LoadSignatureMetadata(pTupleMD->getOperand(kDxilInputSignature), InputSig); LoadSignatureMetadata(pTupleMD->getOperand(kDxilOutputSignature), OutputSig); LoadSignatureMetadata(pTupleMD->getOperand(kDxilPatchConstantSignature), PCSig); } MDTuple *DxilMDHelper::EmitSignatureMetadata(const DxilSignature &Sig) { auto &Elements = Sig.GetElements(); if (Elements.empty()) return nullptr; vector MDVals; for (size_t i = 0; i < Elements.size(); i++) { MDVals.emplace_back(EmitSignatureElement(*Elements[i])); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadSignatureMetadata(const MDOperand &MDO, DxilSignature &Sig) { if (MDO.get() == nullptr) return; const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); for (unsigned i = 0; i < pTupleMD->getNumOperands(); i++) { unique_ptr pSE(Sig.CreateElement()); LoadSignatureElement(pTupleMD->getOperand(i), *pSE.get()); Sig.AppendElement(std::move(pSE)); } } void DxilMDHelper::LoadRootSignature(RootSignatureHandle &Sig) { NamedMDNode *pRootSignatureNamedMD = m_pModule->getNamedMetadata(kDxilRootSignatureMDName); if(!pRootSignatureNamedMD) return; IFTBOOL(pRootSignatureNamedMD->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); MDNode *pNode = pRootSignatureNamedMD->getOperand(0); IFTBOOL(pNode->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); const MDOperand &MDO = pNode->getOperand(0); const ConstantAsMetadata *pMetaData = dyn_cast(MDO.get()); IFTBOOL(pMetaData != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const ConstantDataArray *pData = dyn_cast(pMetaData->getValue()); IFTBOOL(pData != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pData->getElementType() == Type::getInt8Ty(m_Ctx), DXC_E_INCORRECT_DXIL_METADATA); Sig.Clear(); Sig.LoadSerialized((uint8_t *)pData->getRawDataValues().begin(), pData->getRawDataValues().size()); } static const MDTuple *CastToTupleOrNull(const MDOperand &MDO) { if (MDO.get() == nullptr) return nullptr; const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return pTupleMD; } MDTuple *DxilMDHelper::EmitSignatureElement(const DxilSignatureElement &SE) { Metadata *MDVals[kDxilSignatureElementNumFields]; MDVals[kDxilSignatureElementID ] = Uint32ToConstMD(SE.GetID()); MDVals[kDxilSignatureElementName ] = MDString::get(m_Ctx, SE.GetName()); MDVals[kDxilSignatureElementType ] = Uint8ToConstMD((uint8_t)SE.GetCompType().GetKind()); MDVals[kDxilSignatureElementSystemValue ] = Uint8ToConstMD((uint8_t)SE.GetKind()); MDVals[kDxilSignatureElementIndexVector ] = Uint32VectorToConstMDTuple(SE.GetSemanticIndexVec()); MDVals[kDxilSignatureElementInterpMode ] = Uint8ToConstMD((uint8_t)SE.GetInterpolationMode()->GetKind()); MDVals[kDxilSignatureElementRows ] = Uint32ToConstMD(SE.GetRows()); MDVals[kDxilSignatureElementCols ] = Uint8ToConstMD((uint8_t)SE.GetCols()); MDVals[kDxilSignatureElementStartRow ] = Int32ToConstMD(SE.GetStartRow()); MDVals[kDxilSignatureElementStartCol ] = Int8ToConstMD((int8_t)SE.GetStartCol()); // Name-value list of extended properties. MDVals[kDxilSignatureElementNameValueList] = nullptr; vector MDExtraVals; m_ExtraPropertyHelper->EmitSignatureElementProperties(SE, MDExtraVals); if (!MDExtraVals.empty()) { MDVals[kDxilSignatureElementNameValueList] = MDNode::get(m_Ctx, MDExtraVals); } // NOTE: when extra properties for signature elements are needed, extend ExtraPropertyHelper. return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadSignatureElement(const MDOperand &MDO, DxilSignatureElement &SE) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilSignatureElementNumFields, DXC_E_INCORRECT_DXIL_METADATA); unsigned ID = ConstMDToUint32( pTupleMD->getOperand(kDxilSignatureElementID)); MDString *pName = dyn_cast( pTupleMD->getOperand(kDxilSignatureElementName)); CompType CT = CompType(ConstMDToUint8( pTupleMD->getOperand(kDxilSignatureElementType))); DXIL::SemanticKind SemKind = (DXIL::SemanticKind)ConstMDToUint8( pTupleMD->getOperand(kDxilSignatureElementSystemValue)); MDTuple *pSemanticIndexVectorMD = dyn_cast(pTupleMD->getOperand(kDxilSignatureElementIndexVector)); InterpolationMode IM(ConstMDToUint8( pTupleMD->getOperand(kDxilSignatureElementInterpMode))); unsigned NumRows = ConstMDToUint32( pTupleMD->getOperand(kDxilSignatureElementRows)); uint8_t NumCols = ConstMDToUint8( pTupleMD->getOperand(kDxilSignatureElementCols)); int32_t StartRow = ConstMDToInt32( pTupleMD->getOperand(kDxilSignatureElementStartRow)); int8_t StartCol = ConstMDToInt8( pTupleMD->getOperand(kDxilSignatureElementStartCol)); IFTBOOL(pName != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pSemanticIndexVectorMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); vector SemanticIndexVector; ConstMDTupleToUint32Vector(pSemanticIndexVectorMD, SemanticIndexVector); SE.Initialize(pName->getString(), CT, IM, NumRows, NumCols, StartRow, StartCol, ID, SemanticIndexVector); SE.SetKind(SemKind); // Name-value list of extended properties. m_ExtraPropertyHelper->LoadSignatureElementProperties(pTupleMD->getOperand(kDxilSignatureElementNameValueList), SE); } // // Resources. // MDTuple *DxilMDHelper::EmitDxilResourceTuple(MDTuple *pSRVs, MDTuple *pUAVs, MDTuple *pCBuffers, MDTuple *pSamplers) { DXASSERT(pSRVs != nullptr || pUAVs != nullptr || pCBuffers != nullptr || pSamplers != nullptr, "resource tuple should not be emitted if there are no resources"); Metadata *MDVals[kDxilNumResourceFields]; MDVals[kDxilResourceSRVs ] = pSRVs; MDVals[kDxilResourceUAVs ] = pUAVs; MDVals[kDxilResourceCBuffers] = pCBuffers; MDVals[kDxilResourceSamplers] = pSamplers; MDTuple *pTupleMD = MDNode::get(m_Ctx, MDVals); return pTupleMD; } void DxilMDHelper::EmitDxilResources(llvm::MDTuple *pDxilResourceTuple) { NamedMDNode *pResourcesNamedMD = m_pModule->getNamedMetadata(kDxilResourcesMDName); IFTBOOL(pResourcesNamedMD == nullptr, DXC_E_INCORRECT_DXIL_METADATA); pResourcesNamedMD = m_pModule->getOrInsertNamedMetadata(kDxilResourcesMDName); pResourcesNamedMD->addOperand(pDxilResourceTuple); } void DxilMDHelper::UpdateDxilResources(llvm::MDTuple *pDxilResourceTuple) { NamedMDNode *pResourcesNamedMD = m_pModule->getNamedMetadata(kDxilResourcesMDName); if (!pResourcesNamedMD) { pResourcesNamedMD = m_pModule->getOrInsertNamedMetadata(kDxilResourcesMDName); } if (pDxilResourceTuple) { if (pResourcesNamedMD->getNumOperands() != 0) { pResourcesNamedMD->setOperand(0, pDxilResourceTuple); } else { pResourcesNamedMD->addOperand(pDxilResourceTuple); } } else { m_pModule->eraseNamedMetadata(pResourcesNamedMD); } } void DxilMDHelper::EmitDxilResourceLinkInfoTuple(MDTuple *pSRVs, MDTuple *pUAVs, MDTuple *pCBuffers, MDTuple *pSamplers) { DXASSERT(pSRVs != nullptr || pUAVs != nullptr || pCBuffers != nullptr || pSamplers != nullptr, "resource tuple should not be emitted if there are no resources"); Metadata *MDVals[kDxilNumResourceFields]; MDVals[kDxilResourceSRVs] = pSRVs; MDVals[kDxilResourceUAVs] = pUAVs; MDVals[kDxilResourceCBuffers] = pCBuffers; MDVals[kDxilResourceSamplers] = pSamplers; MDTuple *pTupleMD = MDNode::get(m_Ctx, MDVals); NamedMDNode *pResourcesNamedMD = m_pModule->getNamedMetadata(kDxilResourcesLinkInfoMDName); IFTBOOL(pResourcesNamedMD == nullptr, DXC_E_INCORRECT_DXIL_METADATA); pResourcesNamedMD = m_pModule->getOrInsertNamedMetadata(kDxilResourcesLinkInfoMDName); pResourcesNamedMD->addOperand(pTupleMD); } void DxilMDHelper::LoadDxilResourceLinkInfoTuple(const llvm::MDTuple *&pSRVs, const llvm::MDTuple *&pUAVs, const llvm::MDTuple *&pCBuffers, const llvm::MDTuple *&pSamplers) { NamedMDNode *pResourcesNamedMD = m_pModule->getNamedMetadata(kDxilResourcesLinkInfoMDName); if (!pResourcesNamedMD) { pSRVs = pUAVs = pCBuffers = pSamplers = nullptr; return; } IFTBOOL(pResourcesNamedMD->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(pResourcesNamedMD->getOperand(0)); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilNumResourceFields, DXC_E_INCORRECT_DXIL_METADATA); pSRVs = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceSRVs)); pUAVs = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceUAVs)); pCBuffers = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceCBuffers)); pSamplers = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceSamplers)); } void DxilMDHelper::GetDxilResources(const MDOperand &MDO, const MDTuple *&pSRVs, const MDTuple *&pUAVs, const MDTuple *&pCBuffers, const MDTuple *&pSamplers) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilNumResourceFields, DXC_E_INCORRECT_DXIL_METADATA); pSRVs = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceSRVs )); pUAVs = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceUAVs )); pCBuffers = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceCBuffers)); pSamplers = CastToTupleOrNull(pTupleMD->getOperand(kDxilResourceSamplers)); } void DxilMDHelper::EmitDxilResourceBase(const DxilResourceBase &R, Metadata *ppMDVals[]) { ppMDVals[kDxilResourceBaseID ] = Uint32ToConstMD(R.GetID()); ppMDVals[kDxilResourceBaseVariable ] = ValueAsMetadata::get(R.GetGlobalSymbol()); ppMDVals[kDxilResourceBaseName ] = MDString::get(m_Ctx, R.GetGlobalName()); ppMDVals[kDxilResourceBaseSpaceID ] = Uint32ToConstMD(R.GetSpaceID()); ppMDVals[kDxilResourceBaseLowerBound] = Uint32ToConstMD(R.GetLowerBound()); ppMDVals[kDxilResourceBaseRangeSize ] = Uint32ToConstMD(R.GetRangeSize()); } void DxilMDHelper::LoadDxilResourceBase(const MDOperand &MDO, DxilResourceBase &R) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() >= kDxilResourceBaseNumFields, DXC_E_INCORRECT_DXIL_METADATA); R.SetID(ConstMDToUint32(pTupleMD->getOperand(kDxilResourceBaseID))); R.SetGlobalSymbol(dyn_cast(ValueMDToValue(pTupleMD->getOperand(kDxilResourceBaseVariable)))); R.SetGlobalName(StringMDToString(pTupleMD->getOperand(kDxilResourceBaseName))); R.SetSpaceID(ConstMDToUint32(pTupleMD->getOperand(kDxilResourceBaseSpaceID))); R.SetLowerBound(ConstMDToUint32(pTupleMD->getOperand(kDxilResourceBaseLowerBound))); R.SetRangeSize(ConstMDToUint32(pTupleMD->getOperand(kDxilResourceBaseRangeSize))); } MDTuple *DxilMDHelper::EmitDxilSRV(const DxilResource &SRV) { Metadata *MDVals[kDxilSRVNumFields]; EmitDxilResourceBase(SRV, &MDVals[0]); // SRV-specific fields. MDVals[kDxilSRVShape ] = Uint32ToConstMD((unsigned)SRV.GetKind()); MDVals[kDxilSRVSampleCount ] = Uint32ToConstMD(SRV.GetSampleCount()); // Name-value list of extended properties. MDVals[kDxilSRVNameValueList] = nullptr; vector MDExtraVals; m_ExtraPropertyHelper->EmitSRVProperties(SRV, MDExtraVals); if (!MDExtraVals.empty()) { MDVals[kDxilSRVNameValueList] = MDNode::get(m_Ctx, MDExtraVals); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilSRV(const MDOperand &MDO, DxilResource &SRV) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilSRVNumFields, DXC_E_INCORRECT_DXIL_METADATA); SRV.SetRW(false); LoadDxilResourceBase(MDO, SRV); // SRV-specific fields. SRV.SetKind((DxilResource::Kind)ConstMDToUint32(pTupleMD->getOperand(kDxilSRVShape))); SRV.SetSampleCount(ConstMDToUint32(pTupleMD->getOperand(kDxilSRVSampleCount))); // Name-value list of extended properties. m_ExtraPropertyHelper->LoadSRVProperties(pTupleMD->getOperand(kDxilSRVNameValueList), SRV); } MDTuple *DxilMDHelper::EmitDxilUAV(const DxilResource &UAV) { Metadata *MDVals[kDxilUAVNumFields]; EmitDxilResourceBase(UAV, &MDVals[0]); // UAV-specific fields. MDVals[kDxilUAVShape ] = Uint32ToConstMD((unsigned)UAV.GetKind()); MDVals[kDxilUAVGloballyCoherent ] = BoolToConstMD(UAV.IsGloballyCoherent()); MDVals[kDxilUAVCounter ] = BoolToConstMD(UAV.HasCounter()); MDVals[kDxilUAVRasterizerOrderedView] = BoolToConstMD(UAV.IsROV()); // Name-value list of extended properties. MDVals[kDxilUAVNameValueList ] = nullptr; vector MDExtraVals; m_ExtraPropertyHelper->EmitUAVProperties(UAV, MDExtraVals); if (!MDExtraVals.empty()) { MDVals[kDxilUAVNameValueList] = MDNode::get(m_Ctx, MDExtraVals); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilUAV(const MDOperand &MDO, DxilResource &UAV) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilUAVNumFields, DXC_E_INCORRECT_DXIL_METADATA); UAV.SetRW(true); LoadDxilResourceBase(MDO, UAV); // UAV-specific fields. UAV.SetKind((DxilResource::Kind)ConstMDToUint32(pTupleMD->getOperand(kDxilUAVShape))); UAV.SetGloballyCoherent(ConstMDToBool(pTupleMD->getOperand(kDxilUAVGloballyCoherent))); UAV.SetHasCounter(ConstMDToBool(pTupleMD->getOperand(kDxilUAVCounter))); UAV.SetROV(ConstMDToBool(pTupleMD->getOperand(kDxilUAVRasterizerOrderedView))); // Name-value list of extended properties. m_ExtraPropertyHelper->LoadUAVProperties(pTupleMD->getOperand(kDxilUAVNameValueList), UAV); } MDTuple *DxilMDHelper::EmitDxilCBuffer(const DxilCBuffer &CB) { Metadata *MDVals[kDxilCBufferNumFields]; EmitDxilResourceBase(CB, &MDVals[0]); // CBuffer-specific fields. // CBuffer size in bytes. MDVals[kDxilCBufferSizeInBytes ] = Uint32ToConstMD(CB.GetSize()); // Name-value list of extended properties. MDVals[kDxilCBufferNameValueList] = nullptr; vector MDExtraVals; m_ExtraPropertyHelper->EmitCBufferProperties(CB, MDExtraVals); if (!MDExtraVals.empty()) { MDVals[kDxilCBufferNameValueList] = MDNode::get(m_Ctx, MDExtraVals); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilCBuffer(const MDOperand &MDO, DxilCBuffer &CB) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilCBufferNumFields, DXC_E_INCORRECT_DXIL_METADATA); LoadDxilResourceBase(MDO, CB); // CBuffer-specific fields. CB.SetSize(ConstMDToUint32(pTupleMD->getOperand(kDxilCBufferSizeInBytes))); // Name-value list of extended properties. m_ExtraPropertyHelper->LoadCBufferProperties(pTupleMD->getOperand(kDxilCBufferNameValueList), CB); } void DxilMDHelper::EmitDxilTypeSystem(DxilTypeSystem &TypeSystem, vector &LLVMUsed) { auto &TypeMap = TypeSystem.GetStructAnnotationMap(); vector MDVals; MDVals.emplace_back(Uint32ToConstMD(kDxilTypeSystemStructTag)); // Tag unsigned GVIdx = 0; for (auto it = TypeMap.begin(); it != TypeMap.end(); ++it, GVIdx++) { StructType *pStructType = const_cast(it->first); DxilStructAnnotation *pA = it->second.get(); // Don't emit type annotation for empty struct. if (pA->IsEmptyStruct()) continue; // Emit struct type field annotations. Metadata *pMD = EmitDxilStructAnnotation(*pA); MDVals.push_back(ValueAsMetadata::get(UndefValue::get(pStructType))); MDVals.push_back(pMD); } auto &FuncMap = TypeSystem.GetFunctionAnnotationMap(); vector MDFuncVals; MDFuncVals.emplace_back(Uint32ToConstMD(kDxilTypeSystemFunctionTag)); // Tag for (auto it = FuncMap.begin(); it != FuncMap.end(); ++it) { DxilFunctionAnnotation *pA = it->second.get(); MDFuncVals.push_back(ValueAsMetadata::get(const_cast(pA->GetFunction()))); // Emit function annotations. Metadata *pMD; pMD = EmitDxilFunctionAnnotation(*pA); MDFuncVals.push_back(pMD); } NamedMDNode *pDxilTypeAnnotationsMD = m_pModule->getNamedMetadata(kDxilTypeSystemMDName); if (pDxilTypeAnnotationsMD != nullptr) { m_pModule->eraseNamedMetadata(pDxilTypeAnnotationsMD); } if (MDVals.size() > 1) { pDxilTypeAnnotationsMD = m_pModule->getOrInsertNamedMetadata(kDxilTypeSystemMDName); pDxilTypeAnnotationsMD->addOperand(MDNode::get(m_Ctx, MDVals)); } if (MDFuncVals.size() > 1) { NamedMDNode *pDxilTypeAnnotationsMD = m_pModule->getNamedMetadata(kDxilTypeSystemMDName); if (pDxilTypeAnnotationsMD == nullptr) pDxilTypeAnnotationsMD = m_pModule->getOrInsertNamedMetadata(kDxilTypeSystemMDName); pDxilTypeAnnotationsMD->addOperand(MDNode::get(m_Ctx, MDFuncVals)); } } void DxilMDHelper::LoadDxilTypeSystemNode(const llvm::MDTuple &MDT, DxilTypeSystem &TypeSystem) { unsigned Tag = ConstMDToUint32(MDT.getOperand(0)); if (Tag == kDxilTypeSystemStructTag) { IFTBOOL((MDT.getNumOperands() & 0x1) == 1, DXC_E_INCORRECT_DXIL_METADATA); for (unsigned i = 1; i < MDT.getNumOperands(); i += 2) { Constant *pGV = dyn_cast(ValueMDToValue(MDT.getOperand(i))); IFTBOOL(pGV != nullptr, DXC_E_INCORRECT_DXIL_METADATA); StructType *pGVType = dyn_cast(pGV->getType()); IFTBOOL(pGVType != nullptr, DXC_E_INCORRECT_DXIL_METADATA); DxilStructAnnotation *pSA = TypeSystem.AddStructAnnotation(pGVType); LoadDxilStructAnnotation(MDT.getOperand(i + 1), *pSA); } } else { IFTBOOL((MDT.getNumOperands() & 0x1) == 1, DXC_E_INCORRECT_DXIL_METADATA); for (unsigned i = 1; i < MDT.getNumOperands(); i += 2) { Function *F = dyn_cast(ValueMDToValue(MDT.getOperand(i))); DxilFunctionAnnotation *pFA = TypeSystem.AddFunctionAnnotation(F); LoadDxilFunctionAnnotation(MDT.getOperand(i + 1), *pFA); } } } void DxilMDHelper::LoadDxilTypeSystem(DxilTypeSystem &TypeSystem) { NamedMDNode *pDxilTypeAnnotationsMD = m_pModule->getNamedMetadata(kDxilTypeSystemMDName); if (pDxilTypeAnnotationsMD == nullptr) return; IFTBOOL(pDxilTypeAnnotationsMD->getNumOperands() <= 2, DXC_E_INCORRECT_DXIL_METADATA); for (unsigned i = 0; i < pDxilTypeAnnotationsMD->getNumOperands(); i++) { const MDTuple *pTupleMD = dyn_cast(pDxilTypeAnnotationsMD->getOperand(i)); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); LoadDxilTypeSystemNode(*pTupleMD, TypeSystem); } } Metadata *DxilMDHelper::EmitDxilStructAnnotation(const DxilStructAnnotation &SA) { vector MDVals(SA.GetNumFields() + 1); MDVals[0] = Uint32ToConstMD(SA.GetCBufferSize()); for (unsigned i = 0; i < SA.GetNumFields(); i++) { MDVals[i+1] = EmitDxilFieldAnnotation(SA.GetFieldAnnotation(i)); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilStructAnnotation(const MDOperand &MDO, DxilStructAnnotation &SA) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); if (pTupleMD->getNumOperands() == 1) { SA.MarkEmptyStruct(); } IFTBOOL(pTupleMD->getNumOperands() == SA.GetNumFields()+1, DXC_E_INCORRECT_DXIL_METADATA); SA.SetCBufferSize(ConstMDToUint32(pTupleMD->getOperand(0))); for (unsigned i = 0; i < SA.GetNumFields(); i++) { const MDOperand &MDO = pTupleMD->getOperand(i+1); DxilFieldAnnotation &FA = SA.GetFieldAnnotation(i); LoadDxilFieldAnnotation(MDO, FA); } } Metadata * DxilMDHelper::EmitDxilFunctionAnnotation(const DxilFunctionAnnotation &FA) { return EmitDxilParamAnnotations(FA); } void DxilMDHelper::LoadDxilFunctionAnnotation(const MDOperand &MDO, DxilFunctionAnnotation &FA) { LoadDxilParamAnnotations(MDO, FA); } llvm::Metadata * DxilMDHelper::EmitDxilParamAnnotations(const DxilFunctionAnnotation &FA) { vector MDParamAnnotations(FA.GetNumParameters() + 1); MDParamAnnotations[0] = EmitDxilParamAnnotation(FA.GetRetTypeAnnotation()); for (unsigned i = 0; i < FA.GetNumParameters(); i++) { MDParamAnnotations[i + 1] = EmitDxilParamAnnotation(FA.GetParameterAnnotation(i)); } return MDNode::get(m_Ctx, MDParamAnnotations); } void DxilMDHelper::LoadDxilParamAnnotations(const llvm::MDOperand &MDO, DxilFunctionAnnotation &FA) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD->getNumOperands() == FA.GetNumParameters() + 1, DXC_E_INCORRECT_DXIL_METADATA); DxilParameterAnnotation &retTyAnnotation = FA.GetRetTypeAnnotation(); LoadDxilParamAnnotation(pTupleMD->getOperand(0), retTyAnnotation); for (unsigned i = 0; i < FA.GetNumParameters(); i++) { const MDOperand &MDO = pTupleMD->getOperand(i + 1); DxilParameterAnnotation &PA = FA.GetParameterAnnotation(i); LoadDxilParamAnnotation(MDO, PA); } } Metadata * DxilMDHelper::EmitDxilParamAnnotation(const DxilParameterAnnotation &PA) { vector MDVals(3); MDVals[0] = Uint32ToConstMD(static_cast(PA.GetParamInputQual())); MDVals[1] = EmitDxilFieldAnnotation(PA); MDVals[2] = Uint32VectorToConstMDTuple(PA.GetSemanticIndexVec()); return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilParamAnnotation(const MDOperand &MDO, DxilParameterAnnotation &PA) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == 3, DXC_E_INCORRECT_DXIL_METADATA); PA.SetParamInputQual(static_cast( ConstMDToUint32(pTupleMD->getOperand(0)))); LoadDxilFieldAnnotation(pTupleMD->getOperand(1), PA); MDTuple *pSemanticIndexVectorMD = dyn_cast(pTupleMD->getOperand(2)); vector SemanticIndexVector; ConstMDTupleToUint32Vector(pSemanticIndexVectorMD, SemanticIndexVector); PA.SetSemanticIndexVec(SemanticIndexVector); } Metadata *DxilMDHelper::EmitDxilFieldAnnotation(const DxilFieldAnnotation &FA) { vector MDVals; // Tag-Value list. if (FA.HasFieldName()) { MDVals.emplace_back(Uint32ToConstMD(kDxilFieldAnnotationFieldNameTag)); MDVals.emplace_back(MDString::get(m_Ctx, FA.GetFieldName())); } if (FA.IsPrecise()) { MDVals.emplace_back(Uint32ToConstMD(kDxilFieldAnnotationPreciseTag)); // Tag MDVals.emplace_back(BoolToConstMD(true)); // Value } if (FA.HasMatrixAnnotation()) { const DxilMatrixAnnotation &MA = FA.GetMatrixAnnotation(); Metadata *MatrixMD[3]; MatrixMD[0] = Uint32ToConstMD(MA.Rows); MatrixMD[1] = Uint32ToConstMD(MA.Cols); MatrixMD[2] = Uint32ToConstMD((unsigned)MA.Orientation); MDVals.emplace_back(Uint32ToConstMD(kDxilFieldAnnotationMatrixTag)); MDVals.emplace_back(MDNode::get(m_Ctx, MatrixMD)); } if (FA.HasCBufferOffset()) { MDVals.emplace_back(Uint32ToConstMD(kDxilFieldAnnotationCBufferOffsetTag)); MDVals.emplace_back(Uint32ToConstMD(FA.GetCBufferOffset())); } if (FA.HasSemanticString()) { MDVals.emplace_back(Uint32ToConstMD(kDxilFieldAnnotationSemanticStringTag)); MDVals.emplace_back(MDString::get(m_Ctx, FA.GetSemanticString())); } if (FA.HasInterpolationMode()) { MDVals.emplace_back(Uint32ToConstMD(kDxilFieldAnnotationInterpolationModeTag)); MDVals.emplace_back(Uint32ToConstMD((unsigned)FA.GetInterpolationMode().GetKind())); } if (FA.HasCompType()) { MDVals.emplace_back(Uint32ToConstMD(kDxilFieldAnnotationCompTypeTag)); MDVals.emplace_back(Uint32ToConstMD((unsigned)FA.GetCompType().GetKind())); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilFieldAnnotation(const MDOperand &MDO, DxilFieldAnnotation &FA) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL((pTupleMD->getNumOperands() & 0x1) == 0, DXC_E_INCORRECT_DXIL_METADATA); for (unsigned i = 0; i < pTupleMD->getNumOperands(); i += 2) { unsigned Tag = ConstMDToUint32(pTupleMD->getOperand(i)); const MDOperand &MDO = pTupleMD->getOperand(i + 1); IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); switch (Tag) { case kDxilFieldAnnotationPreciseTag: FA.SetPrecise(ConstMDToBool(MDO)); break; case kDxilFieldAnnotationMatrixTag: { DxilMatrixAnnotation MA; const MDTuple *pMATupleMD = dyn_cast(MDO.get()); IFTBOOL(pMATupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pMATupleMD->getNumOperands() == 3, DXC_E_INCORRECT_DXIL_METADATA); MA.Rows = ConstMDToUint32(pMATupleMD->getOperand(0)); MA.Cols = ConstMDToUint32(pMATupleMD->getOperand(1)); MA.Orientation = (MatrixOrientation)ConstMDToUint32(pMATupleMD->getOperand(2)); FA.SetMatrixAnnotation(MA); } break; case kDxilFieldAnnotationCBufferOffsetTag: FA.SetCBufferOffset(ConstMDToUint32(MDO)); break; case kDxilFieldAnnotationSemanticStringTag: FA.SetSemanticString(StringMDToString(MDO)); break; case kDxilFieldAnnotationInterpolationModeTag: FA.SetInterpolationMode(InterpolationMode((InterpolationMode::Kind)ConstMDToUint32(MDO))); break; case kDxilFieldAnnotationFieldNameTag: FA.SetFieldName(StringMDToString(MDO)); break; case kDxilFieldAnnotationCompTypeTag: FA.SetCompType((CompType::Kind)ConstMDToUint32(MDO)); break; default: // TODO: I don't think we should be failing unrecognized extended tags. // Perhaps we can flag this case in the module and fail validation // if flagged. // That way, an existing loader will not fail on an additional tag // and the blob would not be signed if the extra tag was not legal. IFTBOOL(false, DXC_E_INCORRECT_DXIL_METADATA); } } } Function *DxilMDHelper::LoadDxilFunctionProps(MDTuple *pProps, hlsl::DxilFunctionProps *props) { unsigned idx = 0; Function *F = dyn_cast( dyn_cast(pProps->getOperand(idx++))->getValue()); DXIL::ShaderKind shaderKind = static_cast(ConstMDToUint32(pProps->getOperand(idx++))); props->shaderKind = shaderKind; switch (shaderKind) { case DXIL::ShaderKind::Compute: props->ShaderProps.CS.numThreads[0] = ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.CS.numThreads[1] = ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.CS.numThreads[2] = ConstMDToUint32(pProps->getOperand(idx++)); break; case DXIL::ShaderKind::Geometry: props->ShaderProps.GS.inputPrimitive = (DXIL::InputPrimitive)ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.GS.maxVertexCount = ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.GS.instanceCount = ConstMDToUint32(pProps->getOperand(idx++)); for (size_t i = 0; i < _countof(props->ShaderProps.GS.streamPrimitiveTopologies); ++i) props->ShaderProps.GS.streamPrimitiveTopologies[i] = (DXIL::PrimitiveTopology)ConstMDToUint32(pProps->getOperand(idx++)); break; case DXIL::ShaderKind::Hull: props->ShaderProps.HS.patchConstantFunc = dyn_cast( dyn_cast(pProps->getOperand(idx++))->getValue()); props->ShaderProps.HS.domain = (DXIL::TessellatorDomain)ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.HS.partition = (DXIL::TessellatorPartitioning)ConstMDToUint32( pProps->getOperand(idx++)); props->ShaderProps.HS.outputPrimitive = (DXIL::TessellatorOutputPrimitive)ConstMDToUint32( pProps->getOperand(idx++)); props->ShaderProps.HS.inputControlPoints = ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.HS.outputControlPoints = ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.HS.maxTessFactor = ConstMDToFloat(pProps->getOperand(idx++)); break; case DXIL::ShaderKind::Domain: props->ShaderProps.DS.domain = (DXIL::TessellatorDomain)ConstMDToUint32(pProps->getOperand(idx++)); props->ShaderProps.DS.inputControlPoints = ConstMDToUint32(pProps->getOperand(idx++)); break; case DXIL::ShaderKind::Pixel: props->ShaderProps.PS.EarlyDepthStencil = ConstMDToUint32(pProps->getOperand(idx++)); break; default: break; } return F; } MDTuple * DxilMDHelper::EmitDxilFunctionProps(const hlsl::DxilFunctionProps *props, Function *F) { Metadata *MDVals[30]; std::fill(MDVals, MDVals + _countof(MDVals), nullptr); unsigned valIdx = 0; MDVals[valIdx++] = ValueAsMetadata::get(F); MDVals[valIdx++] = Uint32ToConstMD(static_cast(props->shaderKind)); switch (props->shaderKind) { case DXIL::ShaderKind::Compute: MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.CS.numThreads[0]); MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.CS.numThreads[1]); MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.CS.numThreads[2]); break; case DXIL::ShaderKind::Geometry: MDVals[valIdx++] = Uint8ToConstMD((uint8_t)props->ShaderProps.GS.inputPrimitive); MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.GS.maxVertexCount); MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.GS.instanceCount); for (size_t i = 0; i < _countof(props->ShaderProps.GS.streamPrimitiveTopologies); ++i) MDVals[valIdx++] = Uint8ToConstMD( (uint8_t)props->ShaderProps.GS.streamPrimitiveTopologies[i]); break; case DXIL::ShaderKind::Hull: MDVals[valIdx++] = ValueAsMetadata::get(props->ShaderProps.HS.patchConstantFunc); MDVals[valIdx++] = Uint8ToConstMD((uint8_t)props->ShaderProps.HS.domain); MDVals[valIdx++] = Uint8ToConstMD((uint8_t)props->ShaderProps.HS.partition); MDVals[valIdx++] = Uint8ToConstMD((uint8_t)props->ShaderProps.HS.outputPrimitive); MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.HS.inputControlPoints); MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.HS.outputControlPoints); MDVals[valIdx++] = FloatToConstMD(props->ShaderProps.HS.maxTessFactor); break; case DXIL::ShaderKind::Domain: MDVals[valIdx++] = Uint8ToConstMD((uint8_t)props->ShaderProps.DS.domain); MDVals[valIdx++] = Uint32ToConstMD(props->ShaderProps.DS.inputControlPoints); break; case DXIL::ShaderKind::Pixel: MDVals[valIdx++] = BoolToConstMD(props->ShaderProps.PS.EarlyDepthStencil); break; default: break; } return MDTuple::get(m_Ctx, ArrayRef(MDVals, valIdx)); } void DxilMDHelper::EmitDxilViewIdState(DxilViewIdState &ViewIdState) { const vector &Data = ViewIdState.GetSerialized(); // If all UINTs are zero, do not emit ViewIdState. if (!std::any_of(Data.begin(), Data.end(), [](unsigned e){return e!=0;})) return; Constant *V = ConstantDataArray::get(m_Ctx, ArrayRef(Data)); NamedMDNode *pViewIdNamedMD = m_pModule->getNamedMetadata(kDxilViewIdStateMDName); IFTBOOL(pViewIdNamedMD == nullptr, DXC_E_INCORRECT_DXIL_METADATA); pViewIdNamedMD = m_pModule->getOrInsertNamedMetadata(kDxilViewIdStateMDName); pViewIdNamedMD->addOperand(MDNode::get(m_Ctx, {ConstantAsMetadata::get(V)})); } void DxilMDHelper::LoadDxilViewIdState(DxilViewIdState &ViewIdState) { NamedMDNode *pViewIdStateNamedMD = m_pModule->getNamedMetadata(kDxilViewIdStateMDName); if(!pViewIdStateNamedMD) return; IFTBOOL(pViewIdStateNamedMD->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); MDNode *pNode = pViewIdStateNamedMD->getOperand(0); IFTBOOL(pNode->getNumOperands() == 1, DXC_E_INCORRECT_DXIL_METADATA); const MDOperand &MDO = pNode->getOperand(0); const ConstantAsMetadata *pMetaData = dyn_cast(MDO.get()); IFTBOOL(pMetaData != nullptr, DXC_E_INCORRECT_DXIL_METADATA); if (isa(pMetaData->getValue())) return; const ConstantDataArray *pData = dyn_cast(pMetaData->getValue()); IFTBOOL(pData != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pData->getElementType() == Type::getInt32Ty(m_Ctx), DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pData->getRawDataValues().size() < UINT_MAX && (pData->getRawDataValues().size() & 3) == 0, DXC_E_INCORRECT_DXIL_METADATA); ViewIdState.Deserialize((unsigned *)pData->getRawDataValues().begin(), (unsigned)pData->getRawDataValues().size() / 4); } MDNode *DxilMDHelper::EmitControlFlowHints(llvm::LLVMContext &Ctx, std::vector &hints) { SmallVector Args; // Reserve operand 0 for self reference. auto TempNode = MDNode::getTemporary(Ctx, None); Args.emplace_back(TempNode.get()); Args.emplace_back(MDString::get(Ctx, kDxilControlFlowHintMDName)); for (DXIL::ControlFlowHint &hint : hints) Args.emplace_back(Uint32ToConstMD(static_cast(hint), Ctx)); MDNode *hintsNode = MDNode::get(Ctx, Args); // Set the first operand to itself. hintsNode->replaceOperandWith(0, hintsNode); return hintsNode; } MDTuple *DxilMDHelper::EmitDxilSampler(const DxilSampler &S) { Metadata *MDVals[kDxilSamplerNumFields]; EmitDxilResourceBase(S, &MDVals[0]); // Sampler-specific fields. MDVals[kDxilSamplerType ] = Uint32ToConstMD((unsigned)S.GetSamplerKind()); // Name-value list of extended properties. MDVals[kDxilSamplerNameValueList] = nullptr; vector MDExtraVals; m_ExtraPropertyHelper->EmitSamplerProperties(S, MDExtraVals); if (!MDExtraVals.empty()) { MDVals[kDxilSamplerNameValueList] = MDNode::get(m_Ctx, MDExtraVals); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilSampler(const MDOperand &MDO, DxilSampler &S) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilSamplerNumFields, DXC_E_INCORRECT_DXIL_METADATA); LoadDxilResourceBase(MDO, S); // Sampler-specific fields. S.SetSamplerKind((DxilSampler::SamplerKind)ConstMDToUint32(pTupleMD->getOperand(kDxilSamplerType))); // Name-value list of extended properties. m_ExtraPropertyHelper->LoadSamplerProperties(pTupleMD->getOperand(kDxilSamplerNameValueList), S); } const MDOperand &DxilMDHelper::GetResourceClass(llvm::MDNode *MD, DXIL::ResourceClass &RC) { IFTBOOL(MD->getNumOperands() >= DxilMDHelper::kHLDxilResourceAttributeNumFields, DXC_E_INCORRECT_DXIL_METADATA); RC = static_cast(ConstMDToUint32( MD->getOperand(DxilMDHelper::kHLDxilResourceAttributeClass))); return MD->getOperand(DxilMDHelper::kHLDxilResourceAttributeMeta); } void DxilMDHelper::LoadDxilResourceBaseFromMDNode(llvm::MDNode *MD, DxilResourceBase &R) { DxilResource::Class RC = DxilResource::Class::Invalid; const MDOperand &Meta = GetResourceClass(MD, RC); switch (RC) { case DxilResource::Class::CBuffer: { DxilCBuffer CB; LoadDxilCBuffer(Meta, CB); R = CB; } break; case DxilResource::Class::Sampler: { DxilSampler S; LoadDxilSampler(Meta, S); R = S; } break; case DxilResource::Class::SRV: { DxilResource Res; LoadDxilSRV(Meta, Res); R = Res; } break; case DxilResource::Class::UAV: { DxilResource Res; LoadDxilUAV(Meta, Res); R = Res; } break; default: DXASSERT(0, "Invalid metadata"); } } void DxilMDHelper::LoadDxilResourceFromMDNode(llvm::MDNode *MD, DxilResource &R) { DxilResource::Class RC = DxilResource::Class::Invalid; const MDOperand &Meta = GetResourceClass(MD, RC); switch (RC) { case DxilResource::Class::SRV: { LoadDxilSRV(Meta, R); } break; case DxilResource::Class::UAV: { LoadDxilUAV(Meta, R); } break; default: DXASSERT(0, "Invalid metadata"); } } void DxilMDHelper::LoadDxilSamplerFromMDNode(llvm::MDNode *MD, DxilSampler &S) { DxilResource::Class RC = DxilResource::Class::Invalid; const MDOperand &Meta = GetResourceClass(MD, RC); switch (RC) { case DxilResource::Class::Sampler: { LoadDxilSampler(Meta, S); } break; default: DXASSERT(0, "Invalid metadata"); } } // // DxilExtraPropertyHelper shader-specific methods. // MDTuple *DxilMDHelper::EmitDxilGSState(DXIL::InputPrimitive Primitive, unsigned MaxVertexCount, unsigned ActiveStreamMask, DXIL::PrimitiveTopology StreamPrimitiveTopology, unsigned GSInstanceCount) { Metadata *MDVals[kDxilGSStateNumFields]; MDVals[kDxilGSStateInputPrimitive ] = Uint32ToConstMD((unsigned)Primitive); MDVals[kDxilGSStateMaxVertexCount ] = Uint32ToConstMD(MaxVertexCount); MDVals[kDxilGSStateActiveStreamMask ] = Uint32ToConstMD(ActiveStreamMask); MDVals[kDxilGSStateOutputStreamTopology] = Uint32ToConstMD((unsigned)StreamPrimitiveTopology); MDVals[kDxilGSStateGSInstanceCount ] = Uint32ToConstMD(GSInstanceCount); return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilGSState(const MDOperand &MDO, DXIL::InputPrimitive &Primitive, unsigned &MaxVertexCount, unsigned &ActiveStreamMask, DXIL::PrimitiveTopology &StreamPrimitiveTopology, unsigned &GSInstanceCount) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilGSStateNumFields, DXC_E_INCORRECT_DXIL_METADATA); Primitive = (DXIL::InputPrimitive)ConstMDToUint32(pTupleMD->getOperand(kDxilGSStateInputPrimitive)); MaxVertexCount = ConstMDToUint32(pTupleMD->getOperand(kDxilGSStateMaxVertexCount)); ActiveStreamMask = ConstMDToUint32(pTupleMD->getOperand(kDxilGSStateActiveStreamMask)); StreamPrimitiveTopology = (DXIL::PrimitiveTopology)ConstMDToUint32(pTupleMD->getOperand(kDxilGSStateOutputStreamTopology)); GSInstanceCount = ConstMDToUint32(pTupleMD->getOperand(kDxilGSStateGSInstanceCount)); } MDTuple *DxilMDHelper::EmitDxilDSState(DXIL::TessellatorDomain Domain, unsigned InputControlPointCount) { Metadata *MDVals[kDxilDSStateNumFields]; MDVals[kDxilDSStateTessellatorDomain ] = Uint32ToConstMD((unsigned)Domain); MDVals[kDxilDSStateInputControlPointCount] = Uint32ToConstMD(InputControlPointCount); return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilDSState(const MDOperand &MDO, DXIL::TessellatorDomain &Domain, unsigned &InputControlPointCount) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilDSStateNumFields, DXC_E_INCORRECT_DXIL_METADATA); Domain = (DXIL::TessellatorDomain)ConstMDToUint32(pTupleMD->getOperand(kDxilDSStateTessellatorDomain)); InputControlPointCount = ConstMDToUint32(pTupleMD->getOperand(kDxilDSStateInputControlPointCount)); } MDTuple *DxilMDHelper::EmitDxilHSState(Function *pPatchConstantFunction, unsigned InputControlPointCount, unsigned OutputControlPointCount, DXIL::TessellatorDomain TessDomain, DXIL::TessellatorPartitioning TessPartitioning, DXIL::TessellatorOutputPrimitive TessOutputPrimitive, float MaxTessFactor) { Metadata *MDVals[kDxilHSStateNumFields]; MDVals[kDxilHSStatePatchConstantFunction ] = ValueAsMetadata::get(pPatchConstantFunction); MDVals[kDxilHSStateInputControlPointCount ] = Uint32ToConstMD(InputControlPointCount); MDVals[kDxilHSStateOutputControlPointCount ] = Uint32ToConstMD(OutputControlPointCount); MDVals[kDxilHSStateTessellatorDomain ] = Uint32ToConstMD((unsigned)TessDomain); MDVals[kDxilHSStateTessellatorPartitioning ] = Uint32ToConstMD((unsigned)TessPartitioning); MDVals[kDxilHSStateTessellatorOutputPrimitive] = Uint32ToConstMD((unsigned)TessOutputPrimitive); MDVals[kDxilHSStateMaxTessellationFactor ] = FloatToConstMD(MaxTessFactor); return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::LoadDxilHSState(const MDOperand &MDO, Function *&pPatchConstantFunction, unsigned &InputControlPointCount, unsigned &OutputControlPointCount, DXIL::TessellatorDomain &TessDomain, DXIL::TessellatorPartitioning &TessPartitioning, DXIL::TessellatorOutputPrimitive &TessOutputPrimitive, float &MaxTessFactor) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL(pTupleMD->getNumOperands() == kDxilHSStateNumFields, DXC_E_INCORRECT_DXIL_METADATA); pPatchConstantFunction = dyn_cast(ValueMDToValue(pTupleMD->getOperand(kDxilHSStatePatchConstantFunction))); InputControlPointCount = ConstMDToUint32(pTupleMD->getOperand(kDxilHSStateInputControlPointCount)); OutputControlPointCount = ConstMDToUint32(pTupleMD->getOperand(kDxilHSStateOutputControlPointCount)); TessDomain = (DXIL::TessellatorDomain)ConstMDToUint32(pTupleMD->getOperand(kDxilHSStateTessellatorDomain)); TessPartitioning = (DXIL::TessellatorPartitioning)ConstMDToUint32(pTupleMD->getOperand(kDxilHSStateTessellatorPartitioning)); TessOutputPrimitive = (DXIL::TessellatorOutputPrimitive)ConstMDToUint32(pTupleMD->getOperand(kDxilHSStateTessellatorOutputPrimitive)); MaxTessFactor = ConstMDToFloat(pTupleMD->getOperand(kDxilHSStateMaxTessellationFactor)); } // // DxilExtraPropertyHelper methods. // DxilMDHelper::ExtraPropertyHelper::ExtraPropertyHelper(Module *pModule) : m_pModule(pModule) , m_Ctx(pModule->getContext()) { } DxilExtraPropertyHelper::DxilExtraPropertyHelper(Module *pModule) : ExtraPropertyHelper(pModule) { } void DxilExtraPropertyHelper::EmitSRVProperties(const DxilResource &SRV, std::vector &MDVals) { // Element type for typed resource. if (!SRV.IsStructuredBuffer() && !SRV.IsRawBuffer()) { MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(DxilMDHelper::kDxilTypedBufferElementTypeTag, m_Ctx)); MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD((unsigned)SRV.GetCompType().GetKind(), m_Ctx)); } // Element stride for structured buffer. if (SRV.IsStructuredBuffer()) { MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(DxilMDHelper::kDxilStructuredBufferElementStrideTag, m_Ctx)); MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(SRV.GetElementStride(), m_Ctx)); } } void DxilExtraPropertyHelper::LoadSRVProperties(const MDOperand &MDO, DxilResource &SRV) { SRV.SetElementStride(SRV.IsRawBuffer() ? 1 : 4); SRV.SetCompType(CompType()); if (MDO.get() == nullptr) { return; } const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL((pTupleMD->getNumOperands() & 0x1) == 0, DXC_E_INCORRECT_DXIL_METADATA); for (unsigned i = 0; i < pTupleMD->getNumOperands(); i += 2) { unsigned Tag = DxilMDHelper::ConstMDToUint32(pTupleMD->getOperand(i)); const MDOperand &MDO = pTupleMD->getOperand(i + 1); switch (Tag) { case DxilMDHelper::kDxilTypedBufferElementTypeTag: DXASSERT_NOMSG(!SRV.IsStructuredBuffer() && !SRV.IsRawBuffer()); SRV.SetCompType(CompType(DxilMDHelper::ConstMDToUint32(MDO))); break; case DxilMDHelper::kDxilStructuredBufferElementStrideTag: DXASSERT_NOMSG(SRV.IsStructuredBuffer()); SRV.SetElementStride(DxilMDHelper::ConstMDToUint32(MDO)); break; default: DXASSERT(false, "Unknown resource record tag"); } } } void DxilExtraPropertyHelper::EmitUAVProperties(const DxilResource &UAV, std::vector &MDVals) { // Element type for typed RW resource. if (!UAV.IsStructuredBuffer() && !UAV.IsRawBuffer()) { MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(DxilMDHelper::kDxilTypedBufferElementTypeTag, m_Ctx)); MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD((unsigned)UAV.GetCompType().GetKind(), m_Ctx)); } // Element stride for structured RW buffer. if (UAV.IsStructuredBuffer()) { MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(DxilMDHelper::kDxilStructuredBufferElementStrideTag, m_Ctx)); MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(UAV.GetElementStride(), m_Ctx)); } } void DxilExtraPropertyHelper::LoadUAVProperties(const MDOperand &MDO, DxilResource &UAV) { UAV.SetElementStride(UAV.IsRawBuffer() ? 1 : 4); UAV.SetCompType(CompType()); if (MDO.get() == nullptr) { return; } const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL((pTupleMD->getNumOperands() & 0x1) == 0, DXC_E_INCORRECT_DXIL_METADATA); for (unsigned i = 0; i < pTupleMD->getNumOperands(); i += 2) { unsigned Tag = DxilMDHelper::ConstMDToUint32(pTupleMD->getOperand(i)); const MDOperand &MDO = pTupleMD->getOperand(i + 1); switch (Tag) { case DxilMDHelper::kDxilTypedBufferElementTypeTag: DXASSERT_NOMSG(!UAV.IsStructuredBuffer() && !UAV.IsRawBuffer()); UAV.SetCompType(CompType(DxilMDHelper::ConstMDToUint32(MDO))); break; case DxilMDHelper::kDxilStructuredBufferElementStrideTag: DXASSERT_NOMSG(UAV.IsStructuredBuffer()); UAV.SetElementStride(DxilMDHelper::ConstMDToUint32(MDO)); break; default: DXASSERT(false, "Unknown resource record tag"); } } } void DxilExtraPropertyHelper::EmitCBufferProperties(const DxilCBuffer &CB, vector &MDVals) { // Emit property to preserve tbuffer kind if (CB.GetKind() == DXIL::ResourceKind::TBuffer) { MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(DxilMDHelper::kHLCBufferIsTBufferTag, m_Ctx)); MDVals.emplace_back(DxilMDHelper::BoolToConstMD(true, m_Ctx)); } } void DxilExtraPropertyHelper::LoadCBufferProperties(const MDOperand &MDO, DxilCBuffer &CB) { if (MDO.get() == nullptr) return; const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL((pTupleMD->getNumOperands() & 0x1) == 0, DXC_E_INCORRECT_DXIL_METADATA); // Override kind for tbuffer that has not yet been converted to SRV. CB.SetKind(DXIL::ResourceKind::CBuffer); for (unsigned i = 0; i < pTupleMD->getNumOperands(); i += 2) { unsigned Tag = DxilMDHelper::ConstMDToUint32(pTupleMD->getOperand(i)); const MDOperand &MDO = pTupleMD->getOperand(i + 1); switch (Tag) { case DxilMDHelper::kHLCBufferIsTBufferTag: if (DxilMDHelper::ConstMDToBool(MDO)) { CB.SetKind(DXIL::ResourceKind::TBuffer); } break; default: DXASSERT(false, "Unknown cbuffer tag"); } } } void DxilExtraPropertyHelper::EmitSamplerProperties(const DxilSampler &S, std::vector &MDVals) { // Nothing yet. } void DxilExtraPropertyHelper::LoadSamplerProperties(const MDOperand &MDO, DxilSampler &S) { // Nothing yet. } void DxilExtraPropertyHelper::EmitSignatureElementProperties(const DxilSignatureElement &SE, vector &MDVals) { // Output stream, if non-zero. if (SE.GetOutputStream() != 0) { MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(DxilMDHelper::kDxilSignatureElementOutputStreamTag, m_Ctx)); MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(SE.GetOutputStream(), m_Ctx)); } // Mask of Dynamically indexed components. if (SE.GetDynIdxCompMask() != 0) { MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(DxilMDHelper::kDxilSignatureElementDynIdxCompMaskTag, m_Ctx)); MDVals.emplace_back(DxilMDHelper::Uint32ToConstMD(SE.GetDynIdxCompMask(), m_Ctx)); } } void DxilExtraPropertyHelper::LoadSignatureElementProperties(const MDOperand &MDO, DxilSignatureElement &SE) { if (MDO.get() == nullptr) return; const MDTuple *pTupleMD = dyn_cast(MDO.get()); IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); IFTBOOL((pTupleMD->getNumOperands() & 0x1) == 0, DXC_E_INCORRECT_DXIL_METADATA); // Stream. for (unsigned i = 0; i < pTupleMD->getNumOperands(); i += 2) { unsigned Tag = DxilMDHelper::ConstMDToUint32(pTupleMD->getOperand(i)); const MDOperand &MDO = pTupleMD->getOperand(i + 1); switch (Tag) { case DxilMDHelper::kDxilSignatureElementOutputStreamTag: SE.SetOutputStream(DxilMDHelper::ConstMDToUint32(MDO)); break; case DxilMDHelper::kHLSignatureElementGlobalSymbolTag: break; case DxilMDHelper::kDxilSignatureElementDynIdxCompMaskTag: SE.SetDynIdxCompMask(DxilMDHelper::ConstMDToUint32(MDO)); break; default: DXASSERT(false, "Unknown signature element tag"); } } } // // Utilities. // bool DxilMDHelper::IsKnownNamedMetaData(llvm::NamedMDNode &Node) { StringRef name = Node.getName(); for (unsigned i = 0; i < DxilMDNames.size(); i++) { if (name == DxilMDNames[i]) { return true; } } return false; } ConstantAsMetadata *DxilMDHelper::Int32ToConstMD(int32_t v, LLVMContext &Ctx) { return ConstantAsMetadata::get(Constant::getIntegerValue(IntegerType::get(Ctx, 32), APInt(32, v))); } ConstantAsMetadata *DxilMDHelper::Int32ToConstMD(int32_t v) { return DxilMDHelper::Int32ToConstMD(v, m_Ctx); } ConstantAsMetadata *DxilMDHelper::Uint32ToConstMD(unsigned v, LLVMContext &Ctx) { return ConstantAsMetadata::get(Constant::getIntegerValue(IntegerType::get(Ctx, 32), APInt(32, v))); } ConstantAsMetadata *DxilMDHelper::Uint32ToConstMD(unsigned v) { return DxilMDHelper::Uint32ToConstMD(v, m_Ctx); } ConstantAsMetadata *DxilMDHelper::Uint64ToConstMD(uint64_t v, LLVMContext &Ctx) { return ConstantAsMetadata::get(Constant::getIntegerValue(IntegerType::get(Ctx, 64), APInt(64, v))); } ConstantAsMetadata *DxilMDHelper::Uint64ToConstMD(uint64_t v) { return DxilMDHelper::Uint64ToConstMD(v, m_Ctx); } ConstantAsMetadata *DxilMDHelper::Int8ToConstMD(int8_t v) { return ConstantAsMetadata::get(Constant::getIntegerValue(IntegerType::get(m_Ctx, 8), APInt(8, v))); } ConstantAsMetadata *DxilMDHelper::Uint8ToConstMD(uint8_t v) { return ConstantAsMetadata::get(Constant::getIntegerValue(IntegerType::get(m_Ctx, 8), APInt(8, v))); } ConstantAsMetadata *DxilMDHelper::BoolToConstMD(bool v, LLVMContext &Ctx) { return ConstantAsMetadata::get(Constant::getIntegerValue(IntegerType::get(Ctx, 1), APInt(1, v ? 1 : 0))); } ConstantAsMetadata *DxilMDHelper::BoolToConstMD(bool v) { return DxilMDHelper::BoolToConstMD(v, m_Ctx); } ConstantAsMetadata *DxilMDHelper::FloatToConstMD(float v) { return ConstantAsMetadata::get(ConstantFP::get(m_Ctx, APFloat(v))); } int32_t DxilMDHelper::ConstMDToInt32(const MDOperand &MDO) { ConstantInt *pConst = mdconst::extract(MDO); IFTBOOL(pConst != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return (int32_t)pConst->getZExtValue(); } unsigned DxilMDHelper::ConstMDToUint32(const MDOperand &MDO) { ConstantInt *pConst = mdconst::extract(MDO); IFTBOOL(pConst != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return (unsigned)pConst->getZExtValue(); } uint64_t DxilMDHelper::ConstMDToUint64(const MDOperand &MDO) { ConstantInt *pConst = mdconst::extract(MDO); IFTBOOL(pConst != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return pConst->getZExtValue(); } int8_t DxilMDHelper::ConstMDToInt8(const MDOperand &MDO) { ConstantInt *pConst = mdconst::extract(MDO); IFTBOOL(pConst != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return (int8_t)pConst->getZExtValue(); } uint8_t DxilMDHelper::ConstMDToUint8(const MDOperand &MDO) { ConstantInt *pConst = mdconst::extract(MDO); IFTBOOL(pConst != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return (uint8_t)pConst->getZExtValue(); } bool DxilMDHelper::ConstMDToBool(const MDOperand &MDO) { ConstantInt *pConst = mdconst::extract(MDO); IFTBOOL(pConst != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return pConst->getZExtValue() != 0; } float DxilMDHelper::ConstMDToFloat(const MDOperand &MDO) { ConstantFP *pConst = mdconst::extract(MDO); IFTBOOL(pConst != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return pConst->getValueAPF().convertToFloat(); } string DxilMDHelper::StringMDToString(const MDOperand &MDO) { MDString *pMDString = dyn_cast(MDO.get()); IFTBOOL(pMDString != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return pMDString->getString(); } Value *DxilMDHelper::ValueMDToValue(const MDOperand &MDO) { IFTBOOL(MDO.get() != nullptr, DXC_E_INCORRECT_DXIL_METADATA); ValueAsMetadata *pValAsMD = dyn_cast(MDO.get()); IFTBOOL(pValAsMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); Value *pValue = pValAsMD->getValue(); IFTBOOL(pValue != nullptr, DXC_E_INCORRECT_DXIL_METADATA); return pValue; } MDTuple *DxilMDHelper::Uint32VectorToConstMDTuple(const std::vector &Vec) { vector MDVals; MDVals.resize(Vec.size()); for (size_t i = 0; i < Vec.size(); i++) { MDVals[i] = Uint32ToConstMD(Vec[i]); } return MDNode::get(m_Ctx, MDVals); } void DxilMDHelper::ConstMDTupleToUint32Vector(MDTuple *pTupleMD, std::vector &Vec) { IFTBOOL(pTupleMD != nullptr, DXC_E_INCORRECT_DXIL_METADATA); Vec.resize(pTupleMD->getNumOperands()); for (size_t i = 0; i < pTupleMD->getNumOperands(); i++) { Vec[i] = ConstMDToUint32(pTupleMD->getOperand(i)); } } bool DxilMDHelper::IsMarkedPrecise(const Instruction *inst) { int32_t val = 0; if (MDNode *precise = inst->getMetadata(kDxilPreciseAttributeMDName)) { assert(precise->getNumOperands() == 1); val = ConstMDToInt32(precise->getOperand(0)); } return val; } void DxilMDHelper::MarkPrecise(Instruction *I) { LLVMContext &Ctx = I->getContext(); MDNode *preciseNode = MDNode::get( Ctx, { ConstantAsMetadata::get(ConstantInt::get(Type::getInt32Ty(Ctx), 1)) }); I->setMetadata(DxilMDHelper::kDxilPreciseAttributeMDName, preciseNode); } } // namespace hlsl