//===--- HLSLExternalSemaSource.cpp - HLSL Sema Source --------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // //===----------------------------------------------------------------------===// #include "clang/Sema/HLSLExternalSemaSource.h" #include "clang/AST/ASTContext.h" #include "clang/AST/Attr.h" #include "clang/AST/DeclCXX.h" #include "clang/Basic/AttrKinds.h" #include "clang/Basic/HLSLRuntime.h" #include "clang/Sema/Lookup.h" #include "clang/Sema/Sema.h" #include "llvm/Frontend/HLSL/HLSLResource.h" #include using namespace clang; using namespace llvm::hlsl; namespace { struct TemplateParameterListBuilder; struct BuiltinTypeDeclBuilder { CXXRecordDecl *Record = nullptr; ClassTemplateDecl *Template = nullptr; ClassTemplateDecl *PrevTemplate = nullptr; NamespaceDecl *HLSLNamespace = nullptr; llvm::StringMap Fields; BuiltinTypeDeclBuilder(CXXRecordDecl *R) : Record(R) { Record->startDefinition(); Template = Record->getDescribedClassTemplate(); } BuiltinTypeDeclBuilder(Sema &S, NamespaceDecl *Namespace, StringRef Name) : HLSLNamespace(Namespace) { ASTContext &AST = S.getASTContext(); IdentifierInfo &II = AST.Idents.get(Name, tok::TokenKind::identifier); LookupResult Result(S, &II, SourceLocation(), Sema::LookupTagName); CXXRecordDecl *PrevDecl = nullptr; if (S.LookupQualifiedName(Result, HLSLNamespace)) { NamedDecl *Found = Result.getFoundDecl(); if (auto *TD = dyn_cast(Found)) { PrevDecl = TD->getTemplatedDecl(); PrevTemplate = TD; } else PrevDecl = dyn_cast(Found); assert(PrevDecl && "Unexpected lookup result type."); } if (PrevDecl && PrevDecl->isCompleteDefinition()) { Record = PrevDecl; return; } Record = CXXRecordDecl::Create(AST, TagDecl::TagKind::TTK_Class, HLSLNamespace, SourceLocation(), SourceLocation(), &II, PrevDecl, true); Record->setImplicit(true); Record->setLexicalDeclContext(HLSLNamespace); Record->setHasExternalLexicalStorage(); // Don't let anyone derive from built-in types. Record->addAttr(FinalAttr::CreateImplicit(AST, SourceRange(), FinalAttr::Keyword_final)); } ~BuiltinTypeDeclBuilder() { if (HLSLNamespace && !Template && Record->getDeclContext() == HLSLNamespace) HLSLNamespace->addDecl(Record); } BuiltinTypeDeclBuilder & addMemberVariable(StringRef Name, QualType Type, AccessSpecifier Access = AccessSpecifier::AS_private) { if (Record->isCompleteDefinition()) return *this; assert(Record->isBeingDefined() && "Definition must be started before adding members!"); ASTContext &AST = Record->getASTContext(); IdentifierInfo &II = AST.Idents.get(Name, tok::TokenKind::identifier); TypeSourceInfo *MemTySource = AST.getTrivialTypeSourceInfo(Type, SourceLocation()); auto *Field = FieldDecl::Create( AST, Record, SourceLocation(), SourceLocation(), &II, Type, MemTySource, nullptr, false, InClassInitStyle::ICIS_NoInit); Field->setAccess(Access); Field->setImplicit(true); Record->addDecl(Field); Fields[Name] = Field; return *this; } BuiltinTypeDeclBuilder & addHandleMember(AccessSpecifier Access = AccessSpecifier::AS_private) { if (Record->isCompleteDefinition()) return *this; QualType Ty = Record->getASTContext().VoidPtrTy; if (Template) { if (const auto *TTD = dyn_cast( Template->getTemplateParameters()->getParam(0))) Ty = Record->getASTContext().getPointerType( QualType(TTD->getTypeForDecl(), 0)); } return addMemberVariable("h", Ty, Access); } BuiltinTypeDeclBuilder & annotateResourceClass(HLSLResourceAttr::ResourceClass RC, HLSLResourceAttr::ResourceKind RK) { if (Record->isCompleteDefinition()) return *this; Record->addAttr( HLSLResourceAttr::CreateImplicit(Record->getASTContext(), RC, RK)); return *this; } static DeclRefExpr *lookupBuiltinFunction(ASTContext &AST, Sema &S, StringRef Name) { CXXScopeSpec SS; IdentifierInfo &II = AST.Idents.get(Name, tok::TokenKind::identifier); DeclarationNameInfo NameInfo = DeclarationNameInfo(DeclarationName(&II), SourceLocation()); LookupResult R(S, NameInfo, Sema::LookupOrdinaryName); S.LookupParsedName(R, S.getCurScope(), &SS, false); assert(R.isSingleResult() && "Since this is a builtin it should always resolve!"); auto *VD = cast(R.getFoundDecl()); QualType Ty = VD->getType(); return DeclRefExpr::Create(AST, NestedNameSpecifierLoc(), SourceLocation(), VD, false, NameInfo, Ty, VK_PRValue); } static Expr *emitResourceClassExpr(ASTContext &AST, ResourceClass RC) { return IntegerLiteral::Create( AST, llvm::APInt(AST.getIntWidth(AST.UnsignedCharTy), static_cast(RC)), AST.UnsignedCharTy, SourceLocation()); } BuiltinTypeDeclBuilder &addDefaultHandleConstructor(Sema &S, ResourceClass RC) { if (Record->isCompleteDefinition()) return *this; ASTContext &AST = Record->getASTContext(); QualType ConstructorType = AST.getFunctionType(AST.VoidTy, {}, FunctionProtoType::ExtProtoInfo()); CanQualType CanTy = Record->getTypeForDecl()->getCanonicalTypeUnqualified(); DeclarationName Name = AST.DeclarationNames.getCXXConstructorName(CanTy); CXXConstructorDecl *Constructor = CXXConstructorDecl::Create( AST, Record, SourceLocation(), DeclarationNameInfo(Name, SourceLocation()), ConstructorType, AST.getTrivialTypeSourceInfo(ConstructorType, SourceLocation()), ExplicitSpecifier(), false, true, false, ConstexprSpecKind::Unspecified); DeclRefExpr *Fn = lookupBuiltinFunction(AST, S, "__builtin_hlsl_create_handle"); Expr *RCExpr = emitResourceClassExpr(AST, RC); Expr *Call = CallExpr::Create(AST, Fn, {RCExpr}, AST.VoidPtrTy, VK_PRValue, SourceLocation(), FPOptionsOverride()); CXXThisExpr *This = new (AST) CXXThisExpr( SourceLocation(), Constructor->getThisType().getTypePtr()->getPointeeType(), true); This->setValueKind(ExprValueKind::VK_LValue); Expr *Handle = MemberExpr::CreateImplicit(AST, This, false, Fields["h"], Fields["h"]->getType(), VK_LValue, OK_Ordinary); // If the handle isn't a void pointer, cast the builtin result to the // correct type. if (Handle->getType().getCanonicalType() != AST.VoidPtrTy) { Call = CXXStaticCastExpr::Create( AST, Handle->getType(), VK_PRValue, CK_Dependent, Call, nullptr, AST.getTrivialTypeSourceInfo(Handle->getType(), SourceLocation()), FPOptionsOverride(), SourceLocation(), SourceLocation(), SourceRange()); } BinaryOperator *Assign = BinaryOperator::Create( AST, Handle, Call, BO_Assign, Handle->getType(), VK_LValue, OK_Ordinary, SourceLocation(), FPOptionsOverride()); Constructor->setBody( CompoundStmt::Create(AST, {Assign}, FPOptionsOverride(), SourceLocation(), SourceLocation())); Constructor->setAccess(AccessSpecifier::AS_public); Record->addDecl(Constructor); return *this; } BuiltinTypeDeclBuilder &addArraySubscriptOperators() { if (Record->isCompleteDefinition()) return *this; addArraySubscriptOperator(true); addArraySubscriptOperator(false); return *this; } BuiltinTypeDeclBuilder &addArraySubscriptOperator(bool IsConst) { if (Record->isCompleteDefinition()) return *this; assert(Fields.count("h") > 0 && "Subscript operator must be added after the handle."); FieldDecl *Handle = Fields["h"]; ASTContext &AST = Record->getASTContext(); assert(Handle->getType().getCanonicalType() != AST.VoidPtrTy && "Not yet supported for void pointer handles."); QualType ElemTy = QualType(Handle->getType()->getPointeeOrArrayElementType(), 0); QualType ReturnTy = ElemTy; FunctionProtoType::ExtProtoInfo ExtInfo; // Subscript operators return references to elements, const makes the // reference and method const so that the underlying data is not mutable. ReturnTy = AST.getLValueReferenceType(ReturnTy); if (IsConst) { ExtInfo.TypeQuals.addConst(); ReturnTy.addConst(); } QualType MethodTy = AST.getFunctionType(ReturnTy, {AST.UnsignedIntTy}, ExtInfo); auto *TSInfo = AST.getTrivialTypeSourceInfo(MethodTy, SourceLocation()); auto *MethodDecl = CXXMethodDecl::Create( AST, Record, SourceLocation(), DeclarationNameInfo( AST.DeclarationNames.getCXXOperatorName(OO_Subscript), SourceLocation()), MethodTy, TSInfo, SC_None, false, false, ConstexprSpecKind::Unspecified, SourceLocation()); IdentifierInfo &II = AST.Idents.get("Idx", tok::TokenKind::identifier); auto *IdxParam = ParmVarDecl::Create( AST, MethodDecl->getDeclContext(), SourceLocation(), SourceLocation(), &II, AST.UnsignedIntTy, AST.getTrivialTypeSourceInfo(AST.UnsignedIntTy, SourceLocation()), SC_None, nullptr); MethodDecl->setParams({IdxParam}); // Also add the parameter to the function prototype. auto FnProtoLoc = TSInfo->getTypeLoc().getAs(); FnProtoLoc.setParam(0, IdxParam); auto *This = new (AST) CXXThisExpr( SourceLocation(), MethodDecl->getThisType().getTypePtr()->getPointeeType(), true); This->setValueKind(ExprValueKind::VK_LValue); auto *HandleAccess = MemberExpr::CreateImplicit( AST, This, false, Handle, Handle->getType(), VK_LValue, OK_Ordinary); auto *IndexExpr = DeclRefExpr::Create( AST, NestedNameSpecifierLoc(), SourceLocation(), IdxParam, false, DeclarationNameInfo(IdxParam->getDeclName(), SourceLocation()), AST.UnsignedIntTy, VK_PRValue); auto *Array = new (AST) ArraySubscriptExpr(HandleAccess, IndexExpr, ElemTy, VK_LValue, OK_Ordinary, SourceLocation()); auto *Return = ReturnStmt::Create(AST, SourceLocation(), Array, nullptr); MethodDecl->setBody(CompoundStmt::Create(AST, {Return}, FPOptionsOverride(), SourceLocation(), SourceLocation())); MethodDecl->setLexicalDeclContext(Record); MethodDecl->setAccess(AccessSpecifier::AS_public); MethodDecl->addAttr(AlwaysInlineAttr::CreateImplicit( AST, SourceRange(), AlwaysInlineAttr::CXX11_clang_always_inline)); Record->addDecl(MethodDecl); return *this; } BuiltinTypeDeclBuilder &startDefinition() { if (Record->isCompleteDefinition()) return *this; Record->startDefinition(); return *this; } BuiltinTypeDeclBuilder &completeDefinition() { if (Record->isCompleteDefinition()) return *this; assert(Record->isBeingDefined() && "Definition must be started before completing it."); Record->completeDefinition(); return *this; } TemplateParameterListBuilder addTemplateArgumentList(); }; struct TemplateParameterListBuilder { BuiltinTypeDeclBuilder &Builder; ASTContext * llvm::SmallVector Params; TemplateParameterListBuilder(BuiltinTypeDeclBuilder &RB) : Builder(RB), AST(RB.Record->getASTContext()) {} ~TemplateParameterListBuilder() { finalizeTemplateArgs(); } TemplateParameterListBuilder & addTypeParameter(StringRef Name, QualType DefaultValue = QualType()) { if (Builder.Record->isCompleteDefinition()) return *this; unsigned Position = static_cast(Params.size()); auto *Decl = TemplateTypeParmDecl::Create( AST, Builder.Record->getDeclContext(), SourceLocation(), SourceLocation(), /* TemplateDepth */ 0, Position, &AST.Idents.get(Name, tok::TokenKind::identifier), /* Typename */ false, /* ParameterPack */ false); if (!DefaultValue.isNull()) Decl->setDefaultArgument(AST.getTrivialTypeSourceInfo(DefaultValue)); Params.emplace_back(Decl); return *this; } BuiltinTypeDeclBuilder &finalizeTemplateArgs() { if (Params.empty()) return Builder; auto *ParamList = TemplateParameterList::Create(AST, SourceLocation(), SourceLocation(), Params, SourceLocation(), nullptr); Builder.Template = ClassTemplateDecl::Create( AST, Builder.Record->getDeclContext(), SourceLocation(), DeclarationName(Builder.Record->getIdentifier()), ParamList, Builder.Record); Builder.Record->setDescribedClassTemplate(Builder.Template); Builder.Template->setImplicit(true); Builder.Template->setLexicalDeclContext(Builder.Record->getDeclContext()); // NOTE: setPreviousDecl before addDecl so new decl replace old decl when // make visible. Builder.Template->setPreviousDecl(Builder.PrevTemplate); Builder.Record->getDeclContext()->addDecl(Builder.Template); Params.clear(); QualType T = Builder.Template->getInjectedClassNameSpecialization(); T = AST.getInjectedClassNameType(Builder.Record, T); return Builder; } }; TemplateParameterListBuilder BuiltinTypeDeclBuilder::addTemplateArgumentList() { return TemplateParameterListBuilder(*this); } } // namespace HLSLExternalSemaSource::~HLSLExternalSemaSource() {} void HLSLExternalSemaSource::InitializeSema(Sema &S) { SemaPtr = &S; ASTContext &AST = SemaPtr->getASTContext(); // If the translation unit has external storage force external decls to load. if (AST.getTranslationUnitDecl()->hasExternalLexicalStorage()) (void)AST.getTranslationUnitDecl()->decls_begin(); IdentifierInfo &HLSL = AST.Idents.get("hlsl", tok::TokenKind::identifier); LookupResult Result(S, &HLSL, SourceLocation(), Sema::LookupNamespaceName); NamespaceDecl *PrevDecl = nullptr; if (S.LookupQualifiedName(Result, AST.getTranslationUnitDecl())) PrevDecl = Result.getAsSingle(); HLSLNamespace = NamespaceDecl::Create( AST, AST.getTranslationUnitDecl(), /*Inline=*/false, SourceLocation(), SourceLocation(), &HLSL, PrevDecl, /*Nested=*/false); HLSLNamespace->setImplicit(true); HLSLNamespace->setHasExternalLexicalStorage(); AST.getTranslationUnitDecl()->addDecl(HLSLNamespace); // Force external decls in the HLSL namespace to load from the PCH. (void)HLSLNamespace->getCanonicalDecl()->decls_begin(); defineTrivialHLSLTypes(); forwardDeclareHLSLTypes(); // This adds a `using namespace hlsl` directive. In DXC, we don't put HLSL's // built in types inside a namespace, but we are planning to change that in // the near future. In order to be source compatible older versions of HLSL // will need to implicitly use the hlsl namespace. For now in clang everything // will get added to the namespace, and we can remove the using directive for // future language versions to match HLSL's evolution. auto *UsingDecl = UsingDirectiveDecl::Create( AST, AST.getTranslationUnitDecl(), SourceLocation(), SourceLocation(), NestedNameSpecifierLoc(), SourceLocation(), HLSLNamespace, AST.getTranslationUnitDecl()); AST.getTranslationUnitDecl()->addDecl(UsingDecl); } void HLSLExternalSemaSource::defineHLSLVectorAlias() { ASTContext &AST = SemaPtr->getASTContext(); llvm::SmallVector TemplateParams; auto *TypeParam = TemplateTypeParmDecl::Create( AST, HLSLNamespace, SourceLocation(), SourceLocation(), 0, 0, &AST.Idents.get("element", tok::TokenKind::identifier), false, false); TypeParam->setDefaultArgument(AST.getTrivialTypeSourceInfo(AST.FloatTy)); TemplateParams.emplace_back(TypeParam); auto *SizeParam = NonTypeTemplateParmDecl::Create( AST, HLSLNamespace, SourceLocation(), SourceLocation(), 0, 1, &AST.Idents.get("element_count", tok::TokenKind::identifier), AST.IntTy, false, AST.getTrivialTypeSourceInfo(AST.IntTy)); Expr *LiteralExpr = IntegerLiteral::Create(AST, llvm::APInt(AST.getIntWidth(AST.IntTy), 4), AST.IntTy, SourceLocation()); SizeParam->setDefaultArgument(LiteralExpr); TemplateParams.emplace_back(SizeParam); auto *ParamList = TemplateParameterList::Create(AST, SourceLocation(), SourceLocation(), TemplateParams, SourceLocation(), nullptr); IdentifierInfo &II = AST.Idents.get("vector", tok::TokenKind::identifier); QualType AliasType = AST.getDependentSizedExtVectorType( AST.getTemplateTypeParmType(0, 0, false, TypeParam), DeclRefExpr::Create( AST, NestedNameSpecifierLoc(), SourceLocation(), SizeParam, false, DeclarationNameInfo(SizeParam->getDeclName(), SourceLocation()), AST.IntTy, VK_LValue), SourceLocation()); auto *Record = TypeAliasDecl::Create(AST, HLSLNamespace, SourceLocation(), SourceLocation(), &II, AST.getTrivialTypeSourceInfo(AliasType)); Record->setImplicit(true); auto *Template = TypeAliasTemplateDecl::Create(AST, HLSLNamespace, SourceLocation(), Record->getIdentifier(), ParamList, Record); Record->setDescribedAliasTemplate(Template); Template->setImplicit(true); Template->setLexicalDeclContext(Record->getDeclContext()); HLSLNamespace->addDecl(Template); } void HLSLExternalSemaSource::defineTrivialHLSLTypes() { defineHLSLVectorAlias(); ResourceDecl = BuiltinTypeDeclBuilder(*SemaPtr, HLSLNamespace, "Resource") .startDefinition() .addHandleMember(AccessSpecifier::AS_public) .completeDefinition() .Record; } void HLSLExternalSemaSource::forwardDeclareHLSLTypes() { CXXRecordDecl *Decl; Decl = BuiltinTypeDeclBuilder(*SemaPtr, HLSLNamespace, "RWBuffer") .addTemplateArgumentList() .addTypeParameter("element_type", SemaPtr->getASTContext().FloatTy) .finalizeTemplateArgs() .Record; if (!Decl->isCompleteDefinition()) Completions.insert( std::make_pair(Decl->getCanonicalDecl(), std::bind(&HLSLExternalSemaSource::completeBufferType, this, std::placeholders::_1))); } void HLSLExternalSemaSource::CompleteType(TagDecl *Tag) { if (!isa(Tag)) return; auto Record = cast(Tag); // If this is a specialization, we need to get the underlying templated // declaration and complete that. if (auto TDecl = dyn_cast(Record)) Record = TDecl->getSpecializedTemplate()->getTemplatedDecl(); Record = Record->getCanonicalDecl(); auto It = Completions.find(Record); if (It == Completions.end()) return; It->second(Record); } void HLSLExternalSemaSource::completeBufferType(CXXRecordDecl *Record) { BuiltinTypeDeclBuilder(Record) .addHandleMember() .addDefaultHandleConstructor(*SemaPtr, ResourceClass::UAV) .addArraySubscriptOperators() .annotateResourceClass(HLSLResourceAttr::UAV, HLSLResourceAttr::TypedBuffer) .completeDefinition(); }