//===--- SemaTemplateInstantiateExpr.cpp - C++ Template Expr Instantiation ===/ // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. //===----------------------------------------------------------------------===/ // // This file implements C++ template instantiation for expressions. // //===----------------------------------------------------------------------===/ #include "Sema.h" #include "clang/AST/ASTContext.h" #include "clang/AST/DeclTemplate.h" #include "clang/AST/StmtVisitor.h" #include "clang/AST/Expr.h" #include "clang/AST/ExprCXX.h" #include "clang/Parse/DeclSpec.h" #include "clang/Parse/Designator.h" #include "clang/Lex/Preprocessor.h" // for the identifier table #include "llvm/Support/Compiler.h" using namespace clang; namespace { class VISIBILITY_HIDDEN TemplateExprInstantiator : public StmtVisitor { Sema &SemaRef; const TemplateArgumentList &TemplateArgs; public: typedef Sema::OwningExprResult OwningExprResult; TemplateExprInstantiator(Sema &SemaRef, const TemplateArgumentList &TemplateArgs) : SemaRef(SemaRef), TemplateArgs(TemplateArgs) { } // Declare VisitXXXStmt nodes for all of the expression kinds. #define EXPR(Type, Base) OwningExprResult Visit##Type(Type *S); #define STMT(Type, Base) #include "clang/AST/StmtNodes.def" // Base case. We can't get here. Sema::OwningExprResult VisitStmt(Stmt *S) { S->dump(); assert(false && "Cannot instantiate this kind of expression"); return SemaRef.ExprError(); } }; } // Base case. We can't get here. Sema::OwningExprResult TemplateExprInstantiator::VisitExpr(Expr *E) { E->dump(); assert(false && "Cannot instantiate this kind of expression"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitPredefinedExpr(PredefinedExpr *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitIntegerLiteral(IntegerLiteral *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitFloatingLiteral(FloatingLiteral *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitStringLiteral(StringLiteral *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCharacterLiteral(CharacterLiteral *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitImaginaryLiteral(ImaginaryLiteral *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXBoolLiteralExpr(CXXBoolLiteralExpr *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXNullPtrLiteralExpr(CXXNullPtrLiteralExpr *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitGNUNullExpr(GNUNullExpr *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitUnresolvedFunctionNameExpr( UnresolvedFunctionNameExpr *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitDeclRefExpr(DeclRefExpr *E) { NamedDecl *D = E->getDecl(); if (NonTypeTemplateParmDecl *NTTP = dyn_cast(D)) { assert(NTTP->getDepth() == 0 && "No nested templates yet"); const TemplateArgument &Arg = TemplateArgs[NTTP->getPosition()]; QualType T = Arg.getIntegralType(); if (T->isCharType() || T->isWideCharType()) return SemaRef.Owned(new (SemaRef.Context) CharacterLiteral( Arg.getAsIntegral()->getZExtValue(), T->isWideCharType(), T, E->getSourceRange().getBegin())); else if (T->isBooleanType()) return SemaRef.Owned(new (SemaRef.Context) CXXBoolLiteralExpr( Arg.getAsIntegral()->getBoolValue(), T, E->getSourceRange().getBegin())); return SemaRef.Owned(new (SemaRef.Context) IntegerLiteral( *Arg.getAsIntegral(), T, E->getSourceRange().getBegin())); } if (OverloadedFunctionDecl *Ovl = dyn_cast(D)) { // FIXME: instantiate each decl in the overload set return SemaRef.Owned(new (SemaRef.Context) DeclRefExpr(Ovl, SemaRef.Context.OverloadTy, E->getLocation(), false, false)); } ValueDecl *NewD = dyn_cast_or_null(SemaRef.InstantiateCurrentDeclRef(D)); if (!NewD) return SemaRef.ExprError(); // FIXME: Build QualifiedDeclRefExpr? QualType T = NewD->getType(); return SemaRef.Owned(new (SemaRef.Context) DeclRefExpr(NewD, T.getNonReferenceType(), E->getLocation(), T->isDependentType(), T->isDependentType())); } Sema::OwningExprResult TemplateExprInstantiator::VisitParenExpr(ParenExpr *E) { Sema::OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); return SemaRef.Owned(new (SemaRef.Context) ParenExpr( E->getLParen(), E->getRParen(), (Expr *)SubExpr.release())); } Sema::OwningExprResult TemplateExprInstantiator::VisitUnaryOperator(UnaryOperator *E) { Sema::OwningExprResult Arg = Visit(E->getSubExpr()); if (Arg.isInvalid()) return SemaRef.ExprError(); return SemaRef.CreateBuiltinUnaryOp(E->getOperatorLoc(), E->getOpcode(), move(Arg)); } Sema::OwningExprResult TemplateExprInstantiator::VisitArraySubscriptExpr(ArraySubscriptExpr *E) { Sema::OwningExprResult LHS = Visit(E->getLHS()); if (LHS.isInvalid()) return SemaRef.ExprError(); Sema::OwningExprResult RHS = Visit(E->getRHS()); if (RHS.isInvalid()) return SemaRef.ExprError(); // Since the overloaded array-subscript operator (operator[]) can // only be a member function, we can make several simplifying // assumptions here: // 1) Normal name lookup (from the current scope) will not ever // find any declarations of operator[] that won't also be found be // member operator lookup, so it is safe to pass a NULL Scope // during the instantiation to avoid the lookup entirely. // // 2) Neither normal name lookup nor argument-dependent lookup at // template definition time will find any operators that won't be // found at template instantiation time, so we do not need to // cache the results of name lookup as we do for the binary // operators. SourceLocation LLocFake = ((Expr*)LHS.get())->getSourceRange().getBegin(); return SemaRef.ActOnArraySubscriptExpr(/*Scope=*/0, move(LHS), /*FIXME:*/LLocFake, move(RHS), E->getRBracketLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitCallExpr(CallExpr *E) { // Instantiate callee OwningExprResult Callee = Visit(E->getCallee()); if (Callee.isInvalid()) return SemaRef.ExprError(); // Instantiate arguments ASTOwningVector<&ActionBase::DeleteExpr> Args(SemaRef); llvm::SmallVector FakeCommaLocs; for (unsigned I = 0, N = E->getNumArgs(); I != N; ++I) { OwningExprResult Arg = Visit(E->getArg(I)); if (Arg.isInvalid()) return SemaRef.ExprError(); FakeCommaLocs.push_back( SemaRef.PP.getLocForEndOfToken(E->getArg(I)->getSourceRange().getEnd())); Args.push_back(Arg.takeAs()); } SourceLocation FakeLParenLoc = ((Expr *)Callee.get())->getSourceRange().getBegin(); return SemaRef.ActOnCallExpr(/*Scope=*/0, move(Callee), /*FIXME:*/FakeLParenLoc, move_arg(Args), /*FIXME:*/&FakeCommaLocs.front(), E->getRParenLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitMemberExpr(MemberExpr *E) { // Instantiate the base of the expression. OwningExprResult Base = Visit(E->getBase()); if (Base.isInvalid()) return SemaRef.ExprError(); // FIXME: Handle declaration names here SourceLocation FakeOperatorLoc = SemaRef.PP.getLocForEndOfToken(E->getBase()->getSourceRange().getEnd()); return SemaRef.ActOnMemberReferenceExpr(/*Scope=*/0, move(Base), /*FIXME*/FakeOperatorLoc, E->isArrow()? tok::arrow : tok::period, E->getMemberLoc(), /*FIXME:*/*E->getMemberDecl()->getIdentifier(), /*FIXME?*/Sema::DeclPtrTy::make((Decl*)0)); } Sema::OwningExprResult TemplateExprInstantiator::VisitCompoundLiteralExpr(CompoundLiteralExpr *E) { SourceLocation FakeTypeLoc = SemaRef.PP.getLocForEndOfToken(E->getLParenLoc()); QualType T = SemaRef.InstantiateType(E->getType(), TemplateArgs, FakeTypeLoc, DeclarationName()); if (T.isNull()) return SemaRef.ExprError(); OwningExprResult Init = Visit(E->getInitializer()); if (Init.isInvalid()) return SemaRef.ExprError(); return SemaRef.ActOnCompoundLiteral(E->getLParenLoc(), T.getAsOpaquePtr(), /*FIXME*/E->getLParenLoc(), move(Init)); } Sema::OwningExprResult TemplateExprInstantiator::VisitBinaryOperator(BinaryOperator *E) { Sema::OwningExprResult LHS = Visit(E->getLHS()); if (LHS.isInvalid()) return SemaRef.ExprError(); Sema::OwningExprResult RHS = Visit(E->getRHS()); if (RHS.isInvalid()) return SemaRef.ExprError(); Sema::OwningExprResult Result = SemaRef.CreateBuiltinBinOp(E->getOperatorLoc(), E->getOpcode(), (Expr *)LHS.get(), (Expr *)RHS.get()); if (Result.isInvalid()) return SemaRef.ExprError(); LHS.release(); RHS.release(); return move(Result); } Sema::OwningExprResult TemplateExprInstantiator::VisitCompoundAssignOperator( CompoundAssignOperator *E) { return VisitBinaryOperator(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXOperatorCallExpr(CXXOperatorCallExpr *E) { Sema::OwningExprResult First = Visit(E->getArg(0)); if (First.isInvalid()) return SemaRef.ExprError(); Expr *Args[2] = { (Expr *)First.get(), 0 }; Sema::OwningExprResult Second(SemaRef); if (E->getNumArgs() == 2) { Second = Visit(E->getArg(1)); if (Second.isInvalid()) return SemaRef.ExprError(); Args[1] = (Expr *)Second.get(); } if (!E->isTypeDependent()) { // Since our original expression was not type-dependent, we do not // perform lookup again at instantiation time (C++ [temp.dep]p1). // Instead, we just build the new overloaded operator call // expression. OwningExprResult Callee = Visit(E->getCallee()); if (Callee.isInvalid()) return SemaRef.ExprError(); First.release(); Second.release(); return SemaRef.Owned(new (SemaRef.Context) CXXOperatorCallExpr( SemaRef.Context, E->getOperator(), Callee.takeAs(), Args, E->getNumArgs(), E->getType(), E->getOperatorLoc())); } bool isPostIncDec = E->getNumArgs() == 2 && (E->getOperator() == OO_PlusPlus || E->getOperator() == OO_MinusMinus); if (E->getNumArgs() == 1 || isPostIncDec) { if (!Args[0]->getType()->isOverloadableType()) { // The argument is not of overloadable type, so try to create a // built-in unary operation. UnaryOperator::Opcode Opc = UnaryOperator::getOverloadedOpcode(E->getOperator(), isPostIncDec); return SemaRef.CreateBuiltinUnaryOp(E->getOperatorLoc(), Opc, move(First)); } // Fall through to perform overload resolution } else { assert(E->getNumArgs() == 2 && "Expected binary operation"); Sema::OwningExprResult Result(SemaRef); if (!Args[0]->getType()->isOverloadableType() && !Args[1]->getType()->isOverloadableType()) { // Neither of the arguments is an overloadable type, so try to // create a built-in binary operation. BinaryOperator::Opcode Opc = BinaryOperator::getOverloadedOpcode(E->getOperator()); Result = SemaRef.CreateBuiltinBinOp(E->getOperatorLoc(), Opc, Args[0], Args[1]); if (Result.isInvalid()) return SemaRef.ExprError(); First.release(); Second.release(); return move(Result); } // Fall through to perform overload resolution. } // Compute the set of functions that were found at template // definition time. Sema::FunctionSet Functions; DeclRefExpr *DRE = cast(E->getCallee()); OverloadedFunctionDecl *Overloads = cast(DRE->getDecl()); // FIXME: Do we have to check // IsAcceptableNonMemberOperatorCandidate for each of these? for (OverloadedFunctionDecl::function_iterator F = Overloads->function_begin(), FEnd = Overloads->function_end(); F != FEnd; ++F) Functions.insert(*F); // Add any functions found via argument-dependent lookup. DeclarationName OpName = SemaRef.Context.DeclarationNames.getCXXOperatorName(E->getOperator()); SemaRef.ArgumentDependentLookup(OpName, Args, E->getNumArgs(), Functions); // Create the overloaded operator invocation. if (E->getNumArgs() == 1 || isPostIncDec) { UnaryOperator::Opcode Opc = UnaryOperator::getOverloadedOpcode(E->getOperator(), isPostIncDec); return SemaRef.CreateOverloadedUnaryOp(E->getOperatorLoc(), Opc, Functions, move(First)); } // FIXME: This would be far less ugly if CreateOverloadedBinOp took in ExprArg // arguments! BinaryOperator::Opcode Opc = BinaryOperator::getOverloadedOpcode(E->getOperator()); OwningExprResult Result = SemaRef.CreateOverloadedBinOp(E->getOperatorLoc(), Opc, Functions, Args[0], Args[1]); if (Result.isInvalid()) return SemaRef.ExprError(); First.release(); Second.release(); return move(Result); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXConditionDeclExpr(CXXConditionDeclExpr *E) { VarDecl *Var = cast_or_null(SemaRef.InstantiateDecl(E->getVarDecl(), SemaRef.CurContext, TemplateArgs)); if (!Var) return SemaRef.ExprError(); SemaRef.CurrentInstantiationScope->InstantiatedLocal(E->getVarDecl(), Var); return SemaRef.Owned(new (SemaRef.Context) CXXConditionDeclExpr( E->getStartLoc(), SourceLocation(), Var)); } Sema::OwningExprResult TemplateExprInstantiator::VisitConditionalOperator(ConditionalOperator *E) { Sema::OwningExprResult Cond = Visit(E->getCond()); if (Cond.isInvalid()) return SemaRef.ExprError(); Sema::OwningExprResult LHS = SemaRef.InstantiateExpr(E->getLHS(), TemplateArgs); if (LHS.isInvalid()) return SemaRef.ExprError(); Sema::OwningExprResult RHS = Visit(E->getRHS()); if (RHS.isInvalid()) return SemaRef.ExprError(); if (!E->isTypeDependent()) { // Since our original expression was not type-dependent, we do not // perform lookup again at instantiation time (C++ [temp.dep]p1). // Instead, we just build the new conditional operator call expression. return SemaRef.Owned(new (SemaRef.Context) ConditionalOperator( Cond.takeAs(), LHS.takeAs(), RHS.takeAs(), E->getType())); } return SemaRef.ActOnConditionalOp(/*FIXME*/E->getCond()->getLocEnd(), /*FIXME*/E->getFalseExpr()->getLocStart(), move(Cond), move(LHS), move(RHS)); } Sema::OwningExprResult TemplateExprInstantiator::VisitAddrLabelExpr(AddrLabelExpr *E) { return SemaRef.ActOnAddrLabel(E->getAmpAmpLoc(), E->getLabelLoc(), E->getLabel()->getID()); } Sema::OwningExprResult TemplateExprInstantiator::VisitStmtExpr(StmtExpr *E) { Sema::OwningStmtResult SubStmt = SemaRef.InstantiateCompoundStmt(E->getSubStmt(), TemplateArgs, true); if (SubStmt.isInvalid()) return SemaRef.ExprError(); return SemaRef.ActOnStmtExpr(E->getLParenLoc(), move(SubStmt), E->getRParenLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitTypesCompatibleExpr(TypesCompatibleExpr *E) { assert(false && "__builtin_types_compatible_p is not legal in C++"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitShuffleVectorExpr(ShuffleVectorExpr *E) { ASTOwningVector<&ActionBase::DeleteExpr> SubExprs(SemaRef); for (unsigned I = 0, N = E->getNumSubExprs(); I != N; ++I) { OwningExprResult SubExpr = Visit(E->getExpr(I)); if (SubExpr.isInvalid()) return SemaRef.ExprError(); SubExprs.push_back(SubExpr.takeAs()); } // Find the declaration for __builtin_shufflevector const IdentifierInfo &Name = SemaRef.Context.Idents.get("__builtin_shufflevector"); TranslationUnitDecl *TUDecl = SemaRef.Context.getTranslationUnitDecl(); DeclContext::lookup_result Lookup = TUDecl->lookup(SemaRef.Context, DeclarationName(&Name)); assert(Lookup.first != Lookup.second && "No __builtin_shufflevector?"); // Build a reference to the __builtin_shufflevector builtin FunctionDecl *Builtin = cast(*Lookup.first); Expr *Callee = new (SemaRef.Context) DeclRefExpr(Builtin, Builtin->getType(), E->getBuiltinLoc(), false, false); SemaRef.UsualUnaryConversions(Callee); // Build the CallExpr CallExpr *TheCall = new (SemaRef.Context) CallExpr(SemaRef.Context, Callee, SubExprs.takeAs(), SubExprs.size(), Builtin->getResultType(), E->getRParenLoc()); OwningExprResult OwnedCall(SemaRef.Owned(TheCall)); // Type-check the __builtin_shufflevector expression. OwningExprResult Result = SemaRef.SemaBuiltinShuffleVector(TheCall); if (Result.isInvalid()) return SemaRef.ExprError(); OwnedCall.release(); return move(Result); } Sema::OwningExprResult TemplateExprInstantiator::VisitChooseExpr(ChooseExpr *E) { OwningExprResult Cond = Visit(E->getCond()); if (Cond.isInvalid()) return SemaRef.ExprError(); OwningExprResult LHS = SemaRef.InstantiateExpr(E->getLHS(), TemplateArgs); if (LHS.isInvalid()) return SemaRef.ExprError(); OwningExprResult RHS = Visit(E->getRHS()); if (RHS.isInvalid()) return SemaRef.ExprError(); return SemaRef.ActOnChooseExpr(E->getBuiltinLoc(), move(Cond), move(LHS), move(RHS), E->getRParenLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitVAArgExpr(VAArgExpr *E) { OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); SourceLocation FakeTypeLoc = SemaRef.PP.getLocForEndOfToken(E->getSubExpr()->getSourceRange() .getEnd()); QualType T = SemaRef.InstantiateType(E->getType(), TemplateArgs, /*FIXME:*/FakeTypeLoc, DeclarationName()); if (T.isNull()) return SemaRef.ExprError(); return SemaRef.ActOnVAArg(E->getBuiltinLoc(), move(SubExpr), T.getAsOpaquePtr(), E->getRParenLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitInitListExpr(InitListExpr *E) { ASTOwningVector<&ActionBase::DeleteExpr, 4> Inits(SemaRef); for (unsigned I = 0, N = E->getNumInits(); I != N; ++I) { OwningExprResult Init = Visit(E->getInit(I)); if (Init.isInvalid()) return SemaRef.ExprError(); Inits.push_back(Init.takeAs()); } return SemaRef.ActOnInitList(E->getLBraceLoc(), move_arg(Inits), E->getRBraceLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitDesignatedInitExpr(DesignatedInitExpr *E) { Designation Desig; // Instantiate the initializer value OwningExprResult Init = Visit(E->getInit()); if (Init.isInvalid()) return SemaRef.ExprError(); // Instantiate the designators. ASTOwningVector<&ActionBase::DeleteExpr, 4> ArrayExprs(SemaRef); for (DesignatedInitExpr::designators_iterator D = E->designators_begin(), DEnd = E->designators_end(); D != DEnd; ++D) { if (D->isFieldDesignator()) { Desig.AddDesignator(Designator::getField(D->getFieldName(), D->getDotLoc(), D->getFieldLoc())); continue; } if (D->isArrayDesignator()) { OwningExprResult Index = Visit(E->getArrayIndex(*D)); if (Index.isInvalid()) return SemaRef.ExprError(); Desig.AddDesignator(Designator::getArray(Index.get(), D->getLBracketLoc())); ArrayExprs.push_back(Index.release()); continue; } assert(D->isArrayRangeDesignator() && "New kind of designator?"); OwningExprResult Start = Visit(E->getArrayRangeStart(*D)); if (Start.isInvalid()) return SemaRef.ExprError(); OwningExprResult End = Visit(E->getArrayRangeEnd(*D)); if (End.isInvalid()) return SemaRef.ExprError(); Desig.AddDesignator(Designator::getArrayRange(Start.get(), End.get(), D->getLBracketLoc(), D->getEllipsisLoc())); ArrayExprs.push_back(Start.release()); ArrayExprs.push_back(End.release()); } OwningExprResult Result = SemaRef.ActOnDesignatedInitializer(Desig, E->getEqualOrColonLoc(), E->usesGNUSyntax(), move(Init)); if (Result.isInvalid()) return SemaRef.ExprError(); ArrayExprs.take(); return move(Result); } Sema::OwningExprResult TemplateExprInstantiator::VisitImplicitValueInitExpr( ImplicitValueInitExpr *E) { assert(!E->isTypeDependent() && !E->isValueDependent() && "ImplicitValueInitExprs are never dependent"); return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitExtVectorElementExpr(ExtVectorElementExpr *E) { OwningExprResult Base = Visit(E->getBase()); if (Base.isInvalid()) return SemaRef.ExprError(); SourceLocation FakeOperatorLoc = SemaRef.PP.getLocForEndOfToken(E->getBase()->getSourceRange().getEnd()); return SemaRef.ActOnMemberReferenceExpr(/*Scope=*/0, move(Base), /*FIXME*/FakeOperatorLoc, tok::period, E->getAccessorLoc(), E->getAccessor(), /*FIXME?*/Sema::DeclPtrTy::make((Decl*)0)); } Sema::OwningExprResult TemplateExprInstantiator::VisitBlockExpr(BlockExpr *E) { assert(false && "FIXME:Template instantiation for blocks is unimplemented"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitBlockDeclRefExpr(BlockDeclRefExpr *E) { assert(false && "FIXME:Template instantiation for blocks is unimplemented"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitSizeOfAlignOfExpr(SizeOfAlignOfExpr *E) { bool isSizeOf = E->isSizeOf(); if (E->isArgumentType()) { QualType T = E->getArgumentType(); if (T->isDependentType()) { T = SemaRef.InstantiateType(T, TemplateArgs, /*FIXME*/E->getOperatorLoc(), &SemaRef.PP.getIdentifierTable().get("sizeof")); if (T.isNull()) return SemaRef.ExprError(); } return SemaRef.CreateSizeOfAlignOfExpr(T, E->getOperatorLoc(), isSizeOf, E->getSourceRange()); } Sema::OwningExprResult Arg = Visit(E->getArgumentExpr()); if (Arg.isInvalid()) return SemaRef.ExprError(); Sema::OwningExprResult Result = SemaRef.CreateSizeOfAlignOfExpr((Expr *)Arg.get(), E->getOperatorLoc(), isSizeOf, E->getSourceRange()); if (Result.isInvalid()) return SemaRef.ExprError(); Arg.release(); return move(Result); } Sema::OwningExprResult TemplateExprInstantiator::VisitUnresolvedDeclRefExpr(UnresolvedDeclRefExpr *E) { NestedNameSpecifier *NNS = SemaRef.InstantiateNestedNameSpecifier(E->getQualifier(), E->getQualifierRange(), TemplateArgs); if (!NNS) return SemaRef.ExprError(); CXXScopeSpec SS; SS.setRange(E->getQualifierRange()); SS.setScopeRep(NNS); // FIXME: We're passing in a NULL scope, because // ActOnDeclarationNameExpr doesn't actually use the scope when we // give it a non-empty scope specifier. Investigate whether it would // be better to refactor ActOnDeclarationNameExpr. return SemaRef.ActOnDeclarationNameExpr(/*Scope=*/0, E->getLocation(), E->getDeclName(), /*HasTrailingLParen=*/false, &SS, /*FIXME:isAddressOfOperand=*/false); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXTemporaryObjectExpr( CXXTemporaryObjectExpr *E) { QualType T = E->getType(); if (T->isDependentType()) { T = SemaRef.InstantiateType(T, TemplateArgs, E->getTypeBeginLoc(), DeclarationName()); if (T.isNull()) return SemaRef.ExprError(); } ASTOwningVector<&ActionBase::DeleteExpr> Args(SemaRef); Args.reserve(E->getNumArgs()); for (CXXTemporaryObjectExpr::arg_iterator Arg = E->arg_begin(), ArgEnd = E->arg_end(); Arg != ArgEnd; ++Arg) { OwningExprResult InstantiatedArg = Visit(*Arg); if (InstantiatedArg.isInvalid()) return SemaRef.ExprError(); Args.push_back((Expr *)InstantiatedArg.release()); } SourceLocation CommaLoc; // FIXME: HACK! if (Args.size() > 1) { Expr *First = (Expr *)Args[0]; CommaLoc = SemaRef.PP.getLocForEndOfToken(First->getSourceRange().getEnd()); } return SemaRef.ActOnCXXTypeConstructExpr(SourceRange(E->getTypeBeginLoc() /*, FIXME*/), T.getAsOpaquePtr(), /*FIXME*/E->getTypeBeginLoc(), move_arg(Args), /*HACK*/&CommaLoc, E->getSourceRange().getEnd()); } Sema::OwningExprResult TemplateExprInstantiator::VisitCastExpr(CastExpr *E) { assert(false && "Cannot instantiate abstract CastExpr"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitImplicitCastExpr( ImplicitCastExpr *E) { assert(!E->isTypeDependent() && "Implicit casts must have known types"); Sema::OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); ImplicitCastExpr *ICE = new (SemaRef.Context) ImplicitCastExpr(E->getType(), (Expr *)SubExpr.release(), E->isLvalueCast()); return SemaRef.Owned(ICE); } Sema::OwningExprResult TemplateExprInstantiator::VisitExplicitCastExpr(ExplicitCastExpr *E) { assert(false && "Cannot instantiate abstract ExplicitCastExpr"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitCStyleCastExpr(CStyleCastExpr *E) { // Instantiate the type that we're casting to. SourceLocation TypeStartLoc = SemaRef.PP.getLocForEndOfToken(E->getLParenLoc()); QualType ExplicitTy = SemaRef.InstantiateType(E->getTypeAsWritten(), TemplateArgs, TypeStartLoc, DeclarationName()); if (ExplicitTy.isNull()) return SemaRef.ExprError(); // Instantiate the subexpression. OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); return SemaRef.ActOnCastExpr(E->getLParenLoc(), ExplicitTy.getAsOpaquePtr(), E->getRParenLoc(), move(SubExpr)); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXMemberCallExpr(CXXMemberCallExpr *E) { return VisitCallExpr(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXNamedCastExpr(CXXNamedCastExpr *E) { // Figure out which cast operator we're dealing with. tok::TokenKind Kind; switch (E->getStmtClass()) { case Stmt::CXXStaticCastExprClass: Kind = tok::kw_static_cast; break; case Stmt::CXXDynamicCastExprClass: Kind = tok::kw_dynamic_cast; break; case Stmt::CXXReinterpretCastExprClass: Kind = tok::kw_reinterpret_cast; break; case Stmt::CXXConstCastExprClass: Kind = tok::kw_const_cast; break; default: assert(false && "Invalid C++ named cast"); return SemaRef.ExprError(); } // Instantiate the type that we're casting to. SourceLocation TypeStartLoc = SemaRef.PP.getLocForEndOfToken(E->getOperatorLoc()); QualType ExplicitTy = SemaRef.InstantiateType(E->getTypeAsWritten(), TemplateArgs, TypeStartLoc, DeclarationName()); if (ExplicitTy.isNull()) return SemaRef.ExprError(); // Instantiate the subexpression. OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); SourceLocation FakeLAngleLoc = SemaRef.PP.getLocForEndOfToken(E->getOperatorLoc()); SourceLocation FakeRAngleLoc = E->getSubExpr()->getSourceRange().getBegin(); SourceLocation FakeRParenLoc = SemaRef.PP.getLocForEndOfToken( E->getSubExpr()->getSourceRange().getEnd()); return SemaRef.ActOnCXXNamedCast(E->getOperatorLoc(), Kind, /*FIXME:*/FakeLAngleLoc, ExplicitTy.getAsOpaquePtr(), /*FIXME:*/FakeRAngleLoc, /*FIXME:*/FakeRAngleLoc, move(SubExpr), /*FIXME:*/FakeRParenLoc); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXStaticCastExpr(CXXStaticCastExpr *E) { return VisitCXXNamedCastExpr(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXDynamicCastExpr(CXXDynamicCastExpr *E) { return VisitCXXNamedCastExpr(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXReinterpretCastExpr( CXXReinterpretCastExpr *E) { return VisitCXXNamedCastExpr(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXConstCastExpr(CXXConstCastExpr *E) { return VisitCXXNamedCastExpr(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXThisExpr(CXXThisExpr *E) { QualType ThisType = cast(SemaRef.CurContext)->getThisType(SemaRef.Context); CXXThisExpr *TE = new (SemaRef.Context) CXXThisExpr(E->getLocStart(), ThisType); return SemaRef.Owned(TE); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXTypeidExpr(CXXTypeidExpr *E) { if (E->isTypeOperand()) { QualType T = SemaRef.InstantiateType(E->getTypeOperand(), TemplateArgs, /*FIXME*/E->getSourceRange().getBegin(), DeclarationName()); if (T.isNull()) return SemaRef.ExprError(); return SemaRef.ActOnCXXTypeid(E->getSourceRange().getBegin(), /*FIXME*/E->getSourceRange().getBegin(), true, T.getAsOpaquePtr(), E->getSourceRange().getEnd()); } OwningExprResult Operand = Visit(E->getExprOperand()); if (Operand.isInvalid()) return SemaRef.ExprError(); OwningExprResult Result = SemaRef.ActOnCXXTypeid(E->getSourceRange().getBegin(), /*FIXME*/E->getSourceRange().getBegin(), false, Operand.get(), E->getSourceRange().getEnd()); if (Result.isInvalid()) return SemaRef.ExprError(); Operand.release(); // FIXME: since ActOnCXXTypeid silently took ownership return move(Result); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXThrowExpr(CXXThrowExpr *E) { OwningExprResult SubExpr(SemaRef, (void *)0); if (E->getSubExpr()) { SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); } return SemaRef.ActOnCXXThrow(E->getThrowLoc(), move(SubExpr)); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXDefaultArgExpr(CXXDefaultArgExpr *E) { assert(false && "FIXME: Instantiation for default arguments is unimplemented"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXBindTemporaryExpr( CXXBindTemporaryExpr *E) { OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); return SemaRef.MaybeBindToTemporary(SubExpr.takeAs()); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXConstructExpr(CXXConstructExpr *E) { assert(!cast(E->getConstructor()->getDeclContext()) ->isDependentType() && "Dependent constructor shouldn't be here"); QualType T = SemaRef.InstantiateType(E->getType(), TemplateArgs, /*FIXME*/E->getSourceRange().getBegin(), DeclarationName()); if (T.isNull()) return SemaRef.ExprError(); ASTOwningVector<&ActionBase::DeleteExpr> Args(SemaRef); for (CXXConstructExpr::arg_iterator Arg = E->arg_begin(), ArgEnd = E->arg_end(); Arg != ArgEnd; ++Arg) { OwningExprResult ArgInst = Visit(*Arg); if (ArgInst.isInvalid()) return SemaRef.ExprError(); Args.push_back(ArgInst.takeAs()); } return SemaRef.Owned(CXXConstructExpr::Create(SemaRef.Context, T, E->getConstructor(), E->isElidable(), Args.takeAs(), Args.size())); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXFunctionalCastExpr( CXXFunctionalCastExpr *E) { // Instantiate the type that we're casting to. QualType ExplicitTy = SemaRef.InstantiateType(E->getTypeAsWritten(), TemplateArgs, E->getTypeBeginLoc(), DeclarationName()); if (ExplicitTy.isNull()) return SemaRef.ExprError(); // Instantiate the subexpression. OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); // FIXME: The end of the type's source range is wrong Expr *Sub = SubExpr.takeAs(); return SemaRef.ActOnCXXTypeConstructExpr(SourceRange(E->getTypeBeginLoc()), ExplicitTy.getAsOpaquePtr(), /*FIXME:*/E->getTypeBeginLoc(), Sema::MultiExprArg(SemaRef, (void **)&Sub, 1), 0, E->getRParenLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXZeroInitValueExpr(CXXZeroInitValueExpr *E) { return SemaRef.Clone(E); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXNewExpr(CXXNewExpr *E) { // Instantiate the type that we're allocating QualType AllocType = SemaRef.InstantiateType(E->getAllocatedType(), TemplateArgs, /*FIXME:*/E->getSourceRange().getBegin(), DeclarationName()); if (AllocType.isNull()) return SemaRef.ExprError(); // Instantiate the size of the array we're allocating (if any). OwningExprResult ArraySize = SemaRef.InstantiateExpr(E->getArraySize(), TemplateArgs); if (ArraySize.isInvalid()) return SemaRef.ExprError(); // Instantiate the placement arguments (if any). ASTOwningVector<&ActionBase::DeleteExpr> PlacementArgs(SemaRef); for (unsigned I = 0, N = E->getNumPlacementArgs(); I != N; ++I) { OwningExprResult Arg = Visit(E->getPlacementArg(I)); if (Arg.isInvalid()) return SemaRef.ExprError(); PlacementArgs.push_back(Arg.take()); } // Instantiate the constructor arguments (if any). ASTOwningVector<&ActionBase::DeleteExpr> ConstructorArgs(SemaRef); for (unsigned I = 0, N = E->getNumConstructorArgs(); I != N; ++I) { OwningExprResult Arg = Visit(E->getConstructorArg(I)); if (Arg.isInvalid()) return SemaRef.ExprError(); ConstructorArgs.push_back(Arg.take()); } return SemaRef.BuildCXXNew(E->getSourceRange().getBegin(), E->isGlobalNew(), /*FIXME*/SourceLocation(), move_arg(PlacementArgs), /*FIXME*/SourceLocation(), E->isParenTypeId(), AllocType, /*FIXME*/E->getSourceRange().getBegin(), SourceRange(), move(ArraySize), /*FIXME*/SourceLocation(), Sema::MultiExprArg(SemaRef, ConstructorArgs.take(), ConstructorArgs.size()), E->getSourceRange().getEnd()); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXDeleteExpr(CXXDeleteExpr *E) { OwningExprResult Operand = Visit(E->getArgument()); if (Operand.isInvalid()) return SemaRef.ExprError(); return SemaRef.ActOnCXXDelete(E->getSourceRange().getBegin(), E->isGlobalDelete(), E->isArrayForm(), move(Operand)); } Sema::OwningExprResult TemplateExprInstantiator::VisitUnaryTypeTraitExpr(UnaryTypeTraitExpr *E) { QualType T = SemaRef.InstantiateType(E->getQueriedType(), TemplateArgs, /*FIXME*/E->getSourceRange().getBegin(), DeclarationName()); if (T.isNull()) return SemaRef.ExprError(); SourceLocation FakeLParenLoc = SemaRef.PP.getLocForEndOfToken(E->getSourceRange().getBegin()); return SemaRef.ActOnUnaryTypeTrait(E->getTrait(), E->getSourceRange().getBegin(), /*FIXME*/FakeLParenLoc, T.getAsOpaquePtr(), E->getSourceRange().getEnd()); } Sema::OwningExprResult TemplateExprInstantiator::VisitQualifiedDeclRefExpr(QualifiedDeclRefExpr *E) { NestedNameSpecifier *NNS = SemaRef.InstantiateNestedNameSpecifier(E->getQualifier(), E->getQualifierRange(), TemplateArgs); if (!NNS) return SemaRef.ExprError(); CXXScopeSpec SS; SS.setRange(E->getQualifierRange()); SS.setScopeRep(NNS); return SemaRef.ActOnDeclarationNameExpr(/*Scope=*/0, E->getLocation(), E->getDecl()->getDeclName(), /*Trailing lparen=*/false, &SS, /*FIXME:*/false); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXExprWithTemporaries( CXXExprWithTemporaries *E) { OwningExprResult SubExpr = Visit(E->getSubExpr()); if (SubExpr.isInvalid()) return SemaRef.ExprError(); return SemaRef.ActOnFinishFullExpr(move(SubExpr)); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXUnresolvedConstructExpr( CXXUnresolvedConstructExpr *E) { QualType T = SemaRef.InstantiateType(E->getTypeAsWritten(), TemplateArgs, E->getTypeBeginLoc(), DeclarationName()); if (T.isNull()) return SemaRef.ExprError(); ASTOwningVector<&ActionBase::DeleteExpr> Args(SemaRef); llvm::SmallVector FakeCommaLocs; for (CXXUnresolvedConstructExpr::arg_iterator Arg = E->arg_begin(), ArgEnd = E->arg_end(); Arg != ArgEnd; ++Arg) { OwningExprResult InstArg = Visit(*Arg); if (InstArg.isInvalid()) return SemaRef.ExprError(); FakeCommaLocs.push_back( SemaRef.PP.getLocForEndOfToken((*Arg)->getSourceRange().getEnd())); Args.push_back(InstArg.takeAs()); } // FIXME: The end of the type range isn't exactly correct. // FIXME: we're faking the locations of the commas return SemaRef.ActOnCXXTypeConstructExpr(SourceRange(E->getTypeBeginLoc(), E->getLParenLoc()), T.getAsOpaquePtr(), E->getLParenLoc(), move_arg(Args), &FakeCommaLocs.front(), E->getRParenLoc()); } Sema::OwningExprResult TemplateExprInstantiator::VisitCXXUnresolvedMemberExpr( CXXUnresolvedMemberExpr *E) { // Instantiate the base of the expression. OwningExprResult Base = Visit(E->getBase()); if (Base.isInvalid()) return SemaRef.ExprError(); // FIXME: Instantiate the declaration name. return SemaRef.ActOnMemberReferenceExpr(/*Scope=*/0, move(Base), E->getOperatorLoc(), E->isArrow()? tok::arrow : tok::period, E->getMemberLoc(), /*FIXME:*/*E->getMember().getAsIdentifierInfo(), /*FIXME?*/Sema::DeclPtrTy::make((Decl*)0)); } //---------------------------------------------------------------------------- // Objective-C Expressions //---------------------------------------------------------------------------- Sema::OwningExprResult TemplateExprInstantiator::VisitObjCStringLiteral(ObjCStringLiteral *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCEncodeExpr(ObjCEncodeExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCMessageExpr(ObjCMessageExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCSelectorExpr(ObjCSelectorExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCProtocolExpr(ObjCProtocolExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCIvarRefExpr(ObjCIvarRefExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCPropertyRefExpr(ObjCPropertyRefExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCKVCRefExpr(ObjCKVCRefExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult TemplateExprInstantiator::VisitObjCSuperExpr(ObjCSuperExpr *E) { assert(false && "FIXME: Template instantiations for ObjC expressions"); return SemaRef.ExprError(); } Sema::OwningExprResult Sema::InstantiateExpr(Expr *E, const TemplateArgumentList &TemplateArgs) { if (!E) return Owned((Expr *)0); TemplateExprInstantiator Instantiator(*this, TemplateArgs); return Instantiator.Visit(E); }