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- //===--- SemaExceptionSpec.cpp - C++ Exception Specifications ---*- C++ -*-===//
- //
- // 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
- //
- //===----------------------------------------------------------------------===//
- //
- // This file provides Sema routines for C++ exception specification testing.
- //
- //===----------------------------------------------------------------------===//
- #include "clang/Sema/SemaInternal.h"
- #include "clang/AST/ASTMutationListener.h"
- #include "clang/AST/CXXInheritance.h"
- #include "clang/AST/Expr.h"
- #include "clang/AST/ExprCXX.h"
- #include "clang/AST/StmtObjC.h"
- #include "clang/AST/TypeLoc.h"
- #include "clang/Basic/Diagnostic.h"
- #include "clang/Basic/SourceManager.h"
- #include "llvm/ADT/SmallPtrSet.h"
- #include "llvm/ADT/SmallString.h"
- namespace clang {
- static const FunctionProtoType *GetUnderlyingFunction(QualType T)
- {
- if (const PointerType *PtrTy = T->getAs<PointerType>())
- T = PtrTy->getPointeeType();
- else if (const ReferenceType *RefTy = T->getAs<ReferenceType>())
- T = RefTy->getPointeeType();
- else if (const MemberPointerType *MPTy = T->getAs<MemberPointerType>())
- T = MPTy->getPointeeType();
- return T->getAs<FunctionProtoType>();
- }
- /// HACK: 2014-11-14 libstdc++ had a bug where it shadows std::swap with a
- /// member swap function then tries to call std::swap unqualified from the
- /// exception specification of that function. This function detects whether
- /// we're in such a case and turns off delay-parsing of exception
- /// specifications. Libstdc++ 6.1 (released 2016-04-27) appears to have
- /// resolved it as side-effect of commit ddb63209a8d (2015-06-05).
- bool Sema::isLibstdcxxEagerExceptionSpecHack(const Declarator &D) {
- auto *RD = dyn_cast<CXXRecordDecl>(CurContext);
- // All the problem cases are member functions named "swap" within class
- // templates declared directly within namespace std or std::__debug or
- // std::__profile.
- if (!RD || !RD->getIdentifier() || !RD->getDescribedClassTemplate() ||
- !D.getIdentifier() || !D.getIdentifier()->isStr("swap"))
- return false;
- auto *ND = dyn_cast<NamespaceDecl>(RD->getDeclContext());
- if (!ND)
- return false;
- bool IsInStd = ND->isStdNamespace();
- if (!IsInStd) {
- // This isn't a direct member of namespace std, but it might still be
- // libstdc++'s std::__debug::array or std::__profile::array.
- IdentifierInfo *II = ND->getIdentifier();
- if (!II || !(II->isStr("__debug") || II->isStr("__profile")) ||
- !ND->isInStdNamespace())
- return false;
- }
- // Only apply this hack within a system header.
- if (!Context.getSourceManager().isInSystemHeader(D.getBeginLoc()))
- return false;
- return llvm::StringSwitch<bool>(RD->getIdentifier()->getName())
- .Case("array", true)
- .Case("pair", IsInStd)
- .Case("priority_queue", IsInStd)
- .Case("stack", IsInStd)
- .Case("queue", IsInStd)
- .Default(false);
- }
- ExprResult Sema::ActOnNoexceptSpec(Expr *NoexceptExpr,
- ExceptionSpecificationType &EST) {
- if (NoexceptExpr->isTypeDependent() ||
- NoexceptExpr->containsUnexpandedParameterPack()) {
- EST = EST_DependentNoexcept;
- return NoexceptExpr;
- }
- llvm::APSInt Result;
- ExprResult Converted = CheckConvertedConstantExpression(
- NoexceptExpr, Context.BoolTy, Result, CCEK_Noexcept);
- if (Converted.isInvalid()) {
- EST = EST_NoexceptFalse;
- // Fill in an expression of 'false' as a fixup.
- auto *BoolExpr = new (Context)
- CXXBoolLiteralExpr(false, Context.BoolTy, NoexceptExpr->getBeginLoc());
- llvm::APSInt Value{1};
- Value = 0;
- return ConstantExpr::Create(Context, BoolExpr, APValue{Value});
- }
- if (Converted.get()->isValueDependent()) {
- EST = EST_DependentNoexcept;
- return Converted;
- }
- if (!Converted.isInvalid())
- EST = !Result ? EST_NoexceptFalse : EST_NoexceptTrue;
- return Converted;
- }
- /// CheckSpecifiedExceptionType - Check if the given type is valid in an
- /// exception specification. Incomplete types, or pointers to incomplete types
- /// other than void are not allowed.
- ///
- /// \param[in,out] T The exception type. This will be decayed to a pointer type
- /// when the input is an array or a function type.
- bool Sema::CheckSpecifiedExceptionType(QualType &T, SourceRange Range) {
- // C++11 [except.spec]p2:
- // A type cv T, "array of T", or "function returning T" denoted
- // in an exception-specification is adjusted to type T, "pointer to T", or
- // "pointer to function returning T", respectively.
- //
- // We also apply this rule in C++98.
- if (T->isArrayType())
- T = Context.getArrayDecayedType(T);
- else if (T->isFunctionType())
- T = Context.getPointerType(T);
- int Kind = 0;
- QualType PointeeT = T;
- if (const PointerType *PT = T->getAs<PointerType>()) {
- PointeeT = PT->getPointeeType();
- Kind = 1;
- // cv void* is explicitly permitted, despite being a pointer to an
- // incomplete type.
- if (PointeeT->isVoidType())
- return false;
- } else if (const ReferenceType *RT = T->getAs<ReferenceType>()) {
- PointeeT = RT->getPointeeType();
- Kind = 2;
- if (RT->isRValueReferenceType()) {
- // C++11 [except.spec]p2:
- // A type denoted in an exception-specification shall not denote [...]
- // an rvalue reference type.
- Diag(Range.getBegin(), diag::err_rref_in_exception_spec)
- << T << Range;
- return true;
- }
- }
- // C++11 [except.spec]p2:
- // A type denoted in an exception-specification shall not denote an
- // incomplete type other than a class currently being defined [...].
- // A type denoted in an exception-specification shall not denote a
- // pointer or reference to an incomplete type, other than (cv) void* or a
- // pointer or reference to a class currently being defined.
- // In Microsoft mode, downgrade this to a warning.
- unsigned DiagID = diag::err_incomplete_in_exception_spec;
- bool ReturnValueOnError = true;
- if (getLangOpts().MSVCCompat) {
- DiagID = diag::ext_incomplete_in_exception_spec;
- ReturnValueOnError = false;
- }
- if (!(PointeeT->isRecordType() &&
- PointeeT->castAs<RecordType>()->isBeingDefined()) &&
- RequireCompleteType(Range.getBegin(), PointeeT, DiagID, Kind, Range))
- return ReturnValueOnError;
- // The MSVC compatibility mode doesn't extend to sizeless types,
- // so diagnose them separately.
- if (PointeeT->isSizelessType() && Kind != 1) {
- Diag(Range.getBegin(), diag::err_sizeless_in_exception_spec)
- << (Kind == 2 ? 1 : 0) << PointeeT << Range;
- return true;
- }
- return false;
- }
- /// CheckDistantExceptionSpec - Check if the given type is a pointer or pointer
- /// to member to a function with an exception specification. This means that
- /// it is invalid to add another level of indirection.
- bool Sema::CheckDistantExceptionSpec(QualType T) {
- // C++17 removes this rule in favor of putting exception specifications into
- // the type system.
- if (getLangOpts().CPlusPlus17)
- return false;
- if (const PointerType *PT = T->getAs<PointerType>())
- T = PT->getPointeeType();
- else if (const MemberPointerType *PT = T->getAs<MemberPointerType>())
- T = PT->getPointeeType();
- else
- return false;
- const FunctionProtoType *FnT = T->getAs<FunctionProtoType>();
- if (!FnT)
- return false;
- return FnT->hasExceptionSpec();
- }
- const FunctionProtoType *
- Sema::ResolveExceptionSpec(SourceLocation Loc, const FunctionProtoType *FPT) {
- if (FPT->getExceptionSpecType() == EST_Unparsed) {
- Diag(Loc, diag::err_exception_spec_not_parsed);
- return nullptr;
- }
- if (!isUnresolvedExceptionSpec(FPT->getExceptionSpecType()))
- return FPT;
- FunctionDecl *SourceDecl = FPT->getExceptionSpecDecl();
- const FunctionProtoType *SourceFPT =
- SourceDecl->getType()->castAs<FunctionProtoType>();
- // If the exception specification has already been resolved, just return it.
- if (!isUnresolvedExceptionSpec(SourceFPT->getExceptionSpecType()))
- return SourceFPT;
- // Compute or instantiate the exception specification now.
- if (SourceFPT->getExceptionSpecType() == EST_Unevaluated)
- EvaluateImplicitExceptionSpec(Loc, SourceDecl);
- else
- InstantiateExceptionSpec(Loc, SourceDecl);
- const FunctionProtoType *Proto =
- SourceDecl->getType()->castAs<FunctionProtoType>();
- if (Proto->getExceptionSpecType() == clang::EST_Unparsed) {
- Diag(Loc, diag::err_exception_spec_not_parsed);
- Proto = nullptr;
- }
- return Proto;
- }
- void
- Sema::UpdateExceptionSpec(FunctionDecl *FD,
- const FunctionProtoType::ExceptionSpecInfo &ESI) {
- // If we've fully resolved the exception specification, notify listeners.
- if (!isUnresolvedExceptionSpec(ESI.Type))
- if (auto *Listener = getASTMutationListener())
- Listener->ResolvedExceptionSpec(FD);
- for (FunctionDecl *Redecl : FD->redecls())
- Context.adjustExceptionSpec(Redecl, ESI);
- }
- static bool exceptionSpecNotKnownYet(const FunctionDecl *FD) {
- auto *MD = dyn_cast<CXXMethodDecl>(FD);
- if (!MD)
- return false;
- auto EST = MD->getType()->castAs<FunctionProtoType>()->getExceptionSpecType();
- return EST == EST_Unparsed ||
- (EST == EST_Unevaluated && MD->getParent()->isBeingDefined());
- }
- static bool CheckEquivalentExceptionSpecImpl(
- Sema &S, const PartialDiagnostic &DiagID, const PartialDiagnostic &NoteID,
- const FunctionProtoType *Old, SourceLocation OldLoc,
- const FunctionProtoType *New, SourceLocation NewLoc,
- bool *MissingExceptionSpecification = nullptr,
- bool *MissingEmptyExceptionSpecification = nullptr,
- bool AllowNoexceptAllMatchWithNoSpec = false, bool IsOperatorNew = false);
- /// Determine whether a function has an implicitly-generated exception
- /// specification.
- static bool hasImplicitExceptionSpec(FunctionDecl *Decl) {
- if (!isa<CXXDestructorDecl>(Decl) &&
- Decl->getDeclName().getCXXOverloadedOperator() != OO_Delete &&
- Decl->getDeclName().getCXXOverloadedOperator() != OO_Array_Delete)
- return false;
- // For a function that the user didn't declare:
- // - if this is a destructor, its exception specification is implicit.
- // - if this is 'operator delete' or 'operator delete[]', the exception
- // specification is as-if an explicit exception specification was given
- // (per [basic.stc.dynamic]p2).
- if (!Decl->getTypeSourceInfo())
- return isa<CXXDestructorDecl>(Decl);
- auto *Ty = Decl->getTypeSourceInfo()->getType()->castAs<FunctionProtoType>();
- return !Ty->hasExceptionSpec();
- }
- bool Sema::CheckEquivalentExceptionSpec(FunctionDecl *Old, FunctionDecl *New) {
- // Just completely ignore this under -fno-exceptions prior to C++17.
- // In C++17 onwards, the exception specification is part of the type and
- // we will diagnose mismatches anyway, so it's better to check for them here.
- if (!getLangOpts().CXXExceptions && !getLangOpts().CPlusPlus17)
- return false;
- OverloadedOperatorKind OO = New->getDeclName().getCXXOverloadedOperator();
- bool IsOperatorNew = OO == OO_New || OO == OO_Array_New;
- bool MissingExceptionSpecification = false;
- bool MissingEmptyExceptionSpecification = false;
- unsigned DiagID = diag::err_mismatched_exception_spec;
- bool ReturnValueOnError = true;
- if (getLangOpts().MSVCCompat) {
- DiagID = diag::ext_mismatched_exception_spec;
- ReturnValueOnError = false;
- }
- // If we're befriending a member function of a class that's currently being
- // defined, we might not be able to work out its exception specification yet.
- // If not, defer the check until later.
- if (exceptionSpecNotKnownYet(Old) || exceptionSpecNotKnownYet(New)) {
- DelayedEquivalentExceptionSpecChecks.push_back({New, Old});
- return false;
- }
- // Check the types as written: they must match before any exception
- // specification adjustment is applied.
- if (!CheckEquivalentExceptionSpecImpl(
- *this, PDiag(DiagID), PDiag(diag::note_previous_declaration),
- Old->getType()->getAs<FunctionProtoType>(), Old->getLocation(),
- New->getType()->getAs<FunctionProtoType>(), New->getLocation(),
- &MissingExceptionSpecification, &MissingEmptyExceptionSpecification,
- /*AllowNoexceptAllMatchWithNoSpec=*/true, IsOperatorNew)) {
- // C++11 [except.spec]p4 [DR1492]:
- // If a declaration of a function has an implicit
- // exception-specification, other declarations of the function shall
- // not specify an exception-specification.
- if (getLangOpts().CPlusPlus11 && getLangOpts().CXXExceptions &&
- hasImplicitExceptionSpec(Old) != hasImplicitExceptionSpec(New)) {
- Diag(New->getLocation(), diag::ext_implicit_exception_spec_mismatch)
- << hasImplicitExceptionSpec(Old);
- if (Old->getLocation().isValid())
- Diag(Old->getLocation(), diag::note_previous_declaration);
- }
- return false;
- }
- // The failure was something other than an missing exception
- // specification; return an error, except in MS mode where this is a warning.
- if (!MissingExceptionSpecification)
- return ReturnValueOnError;
- const FunctionProtoType *NewProto =
- New->getType()->castAs<FunctionProtoType>();
- // The new function declaration is only missing an empty exception
- // specification "throw()". If the throw() specification came from a
- // function in a system header that has C linkage, just add an empty
- // exception specification to the "new" declaration. Note that C library
- // implementations are permitted to add these nothrow exception
- // specifications.
- //
- // Likewise if the old function is a builtin.
- if (MissingEmptyExceptionSpecification && NewProto &&
- (Old->getLocation().isInvalid() ||
- Context.getSourceManager().isInSystemHeader(Old->getLocation()) ||
- Old->getBuiltinID()) &&
- Old->isExternC()) {
- New->setType(Context.getFunctionType(
- NewProto->getReturnType(), NewProto->getParamTypes(),
- NewProto->getExtProtoInfo().withExceptionSpec(EST_DynamicNone)));
- return false;
- }
- const FunctionProtoType *OldProto =
- Old->getType()->castAs<FunctionProtoType>();
- FunctionProtoType::ExceptionSpecInfo ESI = OldProto->getExceptionSpecType();
- if (ESI.Type == EST_Dynamic) {
- // FIXME: What if the exceptions are described in terms of the old
- // prototype's parameters?
- ESI.Exceptions = OldProto->exceptions();
- }
- if (ESI.Type == EST_NoexceptFalse)
- ESI.Type = EST_None;
- if (ESI.Type == EST_NoexceptTrue)
- ESI.Type = EST_BasicNoexcept;
- // For dependent noexcept, we can't just take the expression from the old
- // prototype. It likely contains references to the old prototype's parameters.
- if (ESI.Type == EST_DependentNoexcept) {
- New->setInvalidDecl();
- } else {
- // Update the type of the function with the appropriate exception
- // specification.
- New->setType(Context.getFunctionType(
- NewProto->getReturnType(), NewProto->getParamTypes(),
- NewProto->getExtProtoInfo().withExceptionSpec(ESI)));
- }
- if (getLangOpts().MSVCCompat && isDynamicExceptionSpec(ESI.Type)) {
- DiagID = diag::ext_missing_exception_specification;
- ReturnValueOnError = false;
- } else if (New->isReplaceableGlobalAllocationFunction() &&
- ESI.Type != EST_DependentNoexcept) {
- // Allow missing exception specifications in redeclarations as an extension,
- // when declaring a replaceable global allocation function.
- DiagID = diag::ext_missing_exception_specification;
- ReturnValueOnError = false;
- } else if (ESI.Type == EST_NoThrow) {
- // Don't emit any warning for missing 'nothrow' in MSVC.
- if (getLangOpts().MSVCCompat) {
- return false;
- }
- // Allow missing attribute 'nothrow' in redeclarations, since this is a very
- // common omission.
- DiagID = diag::ext_missing_exception_specification;
- ReturnValueOnError = false;
- } else {
- DiagID = diag::err_missing_exception_specification;
- ReturnValueOnError = true;
- }
- // Warn about the lack of exception specification.
- SmallString<128> ExceptionSpecString;
- llvm::raw_svector_ostream OS(ExceptionSpecString);
- switch (OldProto->getExceptionSpecType()) {
- case EST_DynamicNone:
- OS << "throw()";
- break;
- case EST_Dynamic: {
- OS << "throw(";
- bool OnFirstException = true;
- for (const auto &E : OldProto->exceptions()) {
- if (OnFirstException)
- OnFirstException = false;
- else
- OS << ", ";
- OS << E.getAsString(getPrintingPolicy());
- }
- OS << ")";
- break;
- }
- case EST_BasicNoexcept:
- OS << "noexcept";
- break;
- case EST_DependentNoexcept:
- case EST_NoexceptFalse:
- case EST_NoexceptTrue:
- OS << "noexcept(";
- assert(OldProto->getNoexceptExpr() != nullptr && "Expected non-null Expr");
- OldProto->getNoexceptExpr()->printPretty(OS, nullptr, getPrintingPolicy());
- OS << ")";
- break;
- case EST_NoThrow:
- OS <<"__attribute__((nothrow))";
- break;
- case EST_None:
- case EST_MSAny:
- case EST_Unevaluated:
- case EST_Uninstantiated:
- case EST_Unparsed:
- llvm_unreachable("This spec type is compatible with none.");
- }
- SourceLocation FixItLoc;
- if (TypeSourceInfo *TSInfo = New->getTypeSourceInfo()) {
- TypeLoc TL = TSInfo->getTypeLoc().IgnoreParens();
- // FIXME: Preserve enough information so that we can produce a correct fixit
- // location when there is a trailing return type.
- if (auto FTLoc = TL.getAs<FunctionProtoTypeLoc>())
- if (!FTLoc.getTypePtr()->hasTrailingReturn())
- FixItLoc = getLocForEndOfToken(FTLoc.getLocalRangeEnd());
- }
- if (FixItLoc.isInvalid())
- Diag(New->getLocation(), DiagID)
- << New << OS.str();
- else {
- Diag(New->getLocation(), DiagID)
- << New << OS.str()
- << FixItHint::CreateInsertion(FixItLoc, " " + OS.str().str());
- }
- if (Old->getLocation().isValid())
- Diag(Old->getLocation(), diag::note_previous_declaration);
- return ReturnValueOnError;
- }
- /// CheckEquivalentExceptionSpec - Check if the two types have equivalent
- /// exception specifications. Exception specifications are equivalent if
- /// they allow exactly the same set of exception types. It does not matter how
- /// that is achieved. See C++ [except.spec]p2.
- bool Sema::CheckEquivalentExceptionSpec(
- const FunctionProtoType *Old, SourceLocation OldLoc,
- const FunctionProtoType *New, SourceLocation NewLoc) {
- if (!getLangOpts().CXXExceptions)
- return false;
- unsigned DiagID = diag::err_mismatched_exception_spec;
- if (getLangOpts().MSVCCompat)
- DiagID = diag::ext_mismatched_exception_spec;
- bool Result = CheckEquivalentExceptionSpecImpl(
- *this, PDiag(DiagID), PDiag(diag::note_previous_declaration),
- Old, OldLoc, New, NewLoc);
- // In Microsoft mode, mismatching exception specifications just cause a warning.
- if (getLangOpts().MSVCCompat)
- return false;
- return Result;
- }
- /// CheckEquivalentExceptionSpec - Check if the two types have compatible
- /// exception specifications. See C++ [except.spec]p3.
- ///
- /// \return \c false if the exception specifications match, \c true if there is
- /// a problem. If \c true is returned, either a diagnostic has already been
- /// produced or \c *MissingExceptionSpecification is set to \c true.
- static bool CheckEquivalentExceptionSpecImpl(
- Sema &S, const PartialDiagnostic &DiagID, const PartialDiagnostic &NoteID,
- const FunctionProtoType *Old, SourceLocation OldLoc,
- const FunctionProtoType *New, SourceLocation NewLoc,
- bool *MissingExceptionSpecification,
- bool *MissingEmptyExceptionSpecification,
- bool AllowNoexceptAllMatchWithNoSpec, bool IsOperatorNew) {
- if (MissingExceptionSpecification)
- *MissingExceptionSpecification = false;
- if (MissingEmptyExceptionSpecification)
- *MissingEmptyExceptionSpecification = false;
- Old = S.ResolveExceptionSpec(NewLoc, Old);
- if (!Old)
- return false;
- New = S.ResolveExceptionSpec(NewLoc, New);
- if (!New)
- return false;
- // C++0x [except.spec]p3: Two exception-specifications are compatible if:
- // - both are non-throwing, regardless of their form,
- // - both have the form noexcept(constant-expression) and the constant-
- // expressions are equivalent,
- // - both are dynamic-exception-specifications that have the same set of
- // adjusted types.
- //
- // C++0x [except.spec]p12: An exception-specification is non-throwing if it is
- // of the form throw(), noexcept, or noexcept(constant-expression) where the
- // constant-expression yields true.
- //
- // C++0x [except.spec]p4: If any declaration of a function has an exception-
- // specifier that is not a noexcept-specification allowing all exceptions,
- // all declarations [...] of that function shall have a compatible
- // exception-specification.
- //
- // That last point basically means that noexcept(false) matches no spec.
- // It's considered when AllowNoexceptAllMatchWithNoSpec is true.
- ExceptionSpecificationType OldEST = Old->getExceptionSpecType();
- ExceptionSpecificationType NewEST = New->getExceptionSpecType();
- assert(!isUnresolvedExceptionSpec(OldEST) &&
- !isUnresolvedExceptionSpec(NewEST) &&
- "Shouldn't see unknown exception specifications here");
- CanThrowResult OldCanThrow = Old->canThrow();
- CanThrowResult NewCanThrow = New->canThrow();
- // Any non-throwing specifications are compatible.
- if (OldCanThrow == CT_Cannot && NewCanThrow == CT_Cannot)
- return false;
- // Any throws-anything specifications are usually compatible.
- if (OldCanThrow == CT_Can && OldEST != EST_Dynamic &&
- NewCanThrow == CT_Can && NewEST != EST_Dynamic) {
- // The exception is that the absence of an exception specification only
- // matches noexcept(false) for functions, as described above.
- if (!AllowNoexceptAllMatchWithNoSpec &&
- ((OldEST == EST_None && NewEST == EST_NoexceptFalse) ||
- (OldEST == EST_NoexceptFalse && NewEST == EST_None))) {
- // This is the disallowed case.
- } else {
- return false;
- }
- }
- // C++14 [except.spec]p3:
- // Two exception-specifications are compatible if [...] both have the form
- // noexcept(constant-expression) and the constant-expressions are equivalent
- if (OldEST == EST_DependentNoexcept && NewEST == EST_DependentNoexcept) {
- llvm::FoldingSetNodeID OldFSN, NewFSN;
- Old->getNoexceptExpr()->Profile(OldFSN, S.Context, true);
- New->getNoexceptExpr()->Profile(NewFSN, S.Context, true);
- if (OldFSN == NewFSN)
- return false;
- }
- // Dynamic exception specifications with the same set of adjusted types
- // are compatible.
- if (OldEST == EST_Dynamic && NewEST == EST_Dynamic) {
- bool Success = true;
- // Both have a dynamic exception spec. Collect the first set, then compare
- // to the second.
- llvm::SmallPtrSet<CanQualType, 8> OldTypes, NewTypes;
- for (const auto &I : Old->exceptions())
- OldTypes.insert(S.Context.getCanonicalType(I).getUnqualifiedType());
- for (const auto &I : New->exceptions()) {
- CanQualType TypePtr = S.Context.getCanonicalType(I).getUnqualifiedType();
- if (OldTypes.count(TypePtr))
- NewTypes.insert(TypePtr);
- else {
- Success = false;
- break;
- }
- }
- if (Success && OldTypes.size() == NewTypes.size())
- return false;
- }
- // As a special compatibility feature, under C++0x we accept no spec and
- // throw(std::bad_alloc) as equivalent for operator new and operator new[].
- // This is because the implicit declaration changed, but old code would break.
- if (S.getLangOpts().CPlusPlus11 && IsOperatorNew) {
- const FunctionProtoType *WithExceptions = nullptr;
- if (OldEST == EST_None && NewEST == EST_Dynamic)
- WithExceptions = New;
- else if (OldEST == EST_Dynamic && NewEST == EST_None)
- WithExceptions = Old;
- if (WithExceptions && WithExceptions->getNumExceptions() == 1) {
- // One has no spec, the other throw(something). If that something is
- // std::bad_alloc, all conditions are met.
- QualType Exception = *WithExceptions->exception_begin();
- if (CXXRecordDecl *ExRecord = Exception->getAsCXXRecordDecl()) {
- IdentifierInfo* Name = ExRecord->getIdentifier();
- if (Name && Name->getName() == "bad_alloc") {
- // It's called bad_alloc, but is it in std?
- if (ExRecord->isInStdNamespace()) {
- return false;
- }
- }
- }
- }
- }
- // If the caller wants to handle the case that the new function is
- // incompatible due to a missing exception specification, let it.
- if (MissingExceptionSpecification && OldEST != EST_None &&
- NewEST == EST_None) {
- // The old type has an exception specification of some sort, but
- // the new type does not.
- *MissingExceptionSpecification = true;
- if (MissingEmptyExceptionSpecification && OldCanThrow == CT_Cannot) {
- // The old type has a throw() or noexcept(true) exception specification
- // and the new type has no exception specification, and the caller asked
- // to handle this itself.
- *MissingEmptyExceptionSpecification = true;
- }
- return true;
- }
- S.Diag(NewLoc, DiagID);
- if (NoteID.getDiagID() != 0 && OldLoc.isValid())
- S.Diag(OldLoc, NoteID);
- return true;
- }
- bool Sema::CheckEquivalentExceptionSpec(const PartialDiagnostic &DiagID,
- const PartialDiagnostic &NoteID,
- const FunctionProtoType *Old,
- SourceLocation OldLoc,
- const FunctionProtoType *New,
- SourceLocation NewLoc) {
- if (!getLangOpts().CXXExceptions)
- return false;
- return CheckEquivalentExceptionSpecImpl(*this, DiagID, NoteID, Old, OldLoc,
- New, NewLoc);
- }
- bool Sema::handlerCanCatch(QualType HandlerType, QualType ExceptionType) {
- // [except.handle]p3:
- // A handler is a match for an exception object of type E if:
- // HandlerType must be ExceptionType or derived from it, or pointer or
- // reference to such types.
- const ReferenceType *RefTy = HandlerType->getAs<ReferenceType>();
- if (RefTy)
- HandlerType = RefTy->getPointeeType();
- // -- the handler is of type cv T or cv T& and E and T are the same type
- if (Context.hasSameUnqualifiedType(ExceptionType, HandlerType))
- return true;
- // FIXME: ObjC pointer types?
- if (HandlerType->isPointerType() || HandlerType->isMemberPointerType()) {
- if (RefTy && (!HandlerType.isConstQualified() ||
- HandlerType.isVolatileQualified()))
- return false;
- // -- the handler is of type cv T or const T& where T is a pointer or
- // pointer to member type and E is std::nullptr_t
- if (ExceptionType->isNullPtrType())
- return true;
- // -- the handler is of type cv T or const T& where T is a pointer or
- // pointer to member type and E is a pointer or pointer to member type
- // that can be converted to T by one or more of
- // -- a qualification conversion
- // -- a function pointer conversion
- bool LifetimeConv;
- QualType Result;
- // FIXME: Should we treat the exception as catchable if a lifetime
- // conversion is required?
- if (IsQualificationConversion(ExceptionType, HandlerType, false,
- LifetimeConv) ||
- IsFunctionConversion(ExceptionType, HandlerType, Result))
- return true;
- // -- a standard pointer conversion [...]
- if (!ExceptionType->isPointerType() || !HandlerType->isPointerType())
- return false;
- // Handle the "qualification conversion" portion.
- Qualifiers EQuals, HQuals;
- ExceptionType = Context.getUnqualifiedArrayType(
- ExceptionType->getPointeeType(), EQuals);
- HandlerType = Context.getUnqualifiedArrayType(
- HandlerType->getPointeeType(), HQuals);
- if (!HQuals.compatiblyIncludes(EQuals))
- return false;
- if (HandlerType->isVoidType() && ExceptionType->isObjectType())
- return true;
- // The only remaining case is a derived-to-base conversion.
- }
- // -- the handler is of type cg T or cv T& and T is an unambiguous public
- // base class of E
- if (!ExceptionType->isRecordType() || !HandlerType->isRecordType())
- return false;
- CXXBasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,
- /*DetectVirtual=*/false);
- if (!IsDerivedFrom(SourceLocation(), ExceptionType, HandlerType, Paths) ||
- Paths.isAmbiguous(Context.getCanonicalType(HandlerType)))
- return false;
- // Do this check from a context without privileges.
- switch (CheckBaseClassAccess(SourceLocation(), HandlerType, ExceptionType,
- Paths.front(),
- /*Diagnostic*/ 0,
- /*ForceCheck*/ true,
- /*ForceUnprivileged*/ true)) {
- case AR_accessible: return true;
- case AR_inaccessible: return false;
- case AR_dependent:
- llvm_unreachable("access check dependent for unprivileged context");
- case AR_delayed:
- llvm_unreachable("access check delayed in non-declaration");
- }
- llvm_unreachable("unexpected access check result");
- }
- /// CheckExceptionSpecSubset - Check whether the second function type's
- /// exception specification is a subset (or equivalent) of the first function
- /// type. This is used by override and pointer assignment checks.
- bool Sema::CheckExceptionSpecSubset(const PartialDiagnostic &DiagID,
- const PartialDiagnostic &NestedDiagID,
- const PartialDiagnostic &NoteID,
- const PartialDiagnostic &NoThrowDiagID,
- const FunctionProtoType *Superset,
- SourceLocation SuperLoc,
- const FunctionProtoType *Subset,
- SourceLocation SubLoc) {
- // Just auto-succeed under -fno-exceptions.
- if (!getLangOpts().CXXExceptions)
- return false;
- // FIXME: As usual, we could be more specific in our error messages, but
- // that better waits until we've got types with source locations.
- if (!SubLoc.isValid())
- SubLoc = SuperLoc;
- // Resolve the exception specifications, if needed.
- Superset = ResolveExceptionSpec(SuperLoc, Superset);
- if (!Superset)
- return false;
- Subset = ResolveExceptionSpec(SubLoc, Subset);
- if (!Subset)
- return false;
- ExceptionSpecificationType SuperEST = Superset->getExceptionSpecType();
- ExceptionSpecificationType SubEST = Subset->getExceptionSpecType();
- assert(!isUnresolvedExceptionSpec(SuperEST) &&
- !isUnresolvedExceptionSpec(SubEST) &&
- "Shouldn't see unknown exception specifications here");
- // If there are dependent noexcept specs, assume everything is fine. Unlike
- // with the equivalency check, this is safe in this case, because we don't
- // want to merge declarations. Checks after instantiation will catch any
- // omissions we make here.
- if (SuperEST == EST_DependentNoexcept || SubEST == EST_DependentNoexcept)
- return false;
- CanThrowResult SuperCanThrow = Superset->canThrow();
- CanThrowResult SubCanThrow = Subset->canThrow();
- // If the superset contains everything or the subset contains nothing, we're
- // done.
- if ((SuperCanThrow == CT_Can && SuperEST != EST_Dynamic) ||
- SubCanThrow == CT_Cannot)
- return CheckParamExceptionSpec(NestedDiagID, NoteID, Superset, SuperLoc,
- Subset, SubLoc);
- // Allow __declspec(nothrow) to be missing on redeclaration as an extension in
- // some cases.
- if (NoThrowDiagID.getDiagID() != 0 && SubCanThrow == CT_Can &&
- SuperCanThrow == CT_Cannot && SuperEST == EST_NoThrow) {
- Diag(SubLoc, NoThrowDiagID);
- if (NoteID.getDiagID() != 0)
- Diag(SuperLoc, NoteID);
- return true;
- }
- // If the subset contains everything or the superset contains nothing, we've
- // failed.
- if ((SubCanThrow == CT_Can && SubEST != EST_Dynamic) ||
- SuperCanThrow == CT_Cannot) {
- Diag(SubLoc, DiagID);
- if (NoteID.getDiagID() != 0)
- Diag(SuperLoc, NoteID);
- return true;
- }
- assert(SuperEST == EST_Dynamic && SubEST == EST_Dynamic &&
- "Exception spec subset: non-dynamic case slipped through.");
- // Neither contains everything or nothing. Do a proper comparison.
- for (QualType SubI : Subset->exceptions()) {
- if (const ReferenceType *RefTy = SubI->getAs<ReferenceType>())
- SubI = RefTy->getPointeeType();
- // Make sure it's in the superset.
- bool Contained = false;
- for (QualType SuperI : Superset->exceptions()) {
- // [except.spec]p5:
- // the target entity shall allow at least the exceptions allowed by the
- // source
- //
- // We interpret this as meaning that a handler for some target type would
- // catch an exception of each source type.
- if (handlerCanCatch(SuperI, SubI)) {
- Contained = true;
- break;
- }
- }
- if (!Contained) {
- Diag(SubLoc, DiagID);
- if (NoteID.getDiagID() != 0)
- Diag(SuperLoc, NoteID);
- return true;
- }
- }
- // We've run half the gauntlet.
- return CheckParamExceptionSpec(NestedDiagID, NoteID, Superset, SuperLoc,
- Subset, SubLoc);
- }
- static bool
- CheckSpecForTypesEquivalent(Sema &S, const PartialDiagnostic &DiagID,
- const PartialDiagnostic &NoteID, QualType Target,
- SourceLocation TargetLoc, QualType Source,
- SourceLocation SourceLoc) {
- const FunctionProtoType *TFunc = GetUnderlyingFunction(Target);
- if (!TFunc)
- return false;
- const FunctionProtoType *SFunc = GetUnderlyingFunction(Source);
- if (!SFunc)
- return false;
- return S.CheckEquivalentExceptionSpec(DiagID, NoteID, TFunc, TargetLoc,
- SFunc, SourceLoc);
- }
- /// CheckParamExceptionSpec - Check if the parameter and return types of the
- /// two functions have equivalent exception specs. This is part of the
- /// assignment and override compatibility check. We do not check the parameters
- /// of parameter function pointers recursively, as no sane programmer would
- /// even be able to write such a function type.
- bool Sema::CheckParamExceptionSpec(const PartialDiagnostic &DiagID,
- const PartialDiagnostic &NoteID,
- const FunctionProtoType *Target,
- SourceLocation TargetLoc,
- const FunctionProtoType *Source,
- SourceLocation SourceLoc) {
- auto RetDiag = DiagID;
- RetDiag << 0;
- if (CheckSpecForTypesEquivalent(
- *this, RetDiag, PDiag(),
- Target->getReturnType(), TargetLoc, Source->getReturnType(),
- SourceLoc))
- return true;
- // We shouldn't even be testing this unless the arguments are otherwise
- // compatible.
- assert(Target->getNumParams() == Source->getNumParams() &&
- "Functions have different argument counts.");
- for (unsigned i = 0, E = Target->getNumParams(); i != E; ++i) {
- auto ParamDiag = DiagID;
- ParamDiag << 1;
- if (CheckSpecForTypesEquivalent(
- *this, ParamDiag, PDiag(),
- Target->getParamType(i), TargetLoc, Source->getParamType(i),
- SourceLoc))
- return true;
- }
- return false;
- }
- bool Sema::CheckExceptionSpecCompatibility(Expr *From, QualType ToType) {
- // First we check for applicability.
- // Target type must be a function, function pointer or function reference.
- const FunctionProtoType *ToFunc = GetUnderlyingFunction(ToType);
- if (!ToFunc || ToFunc->hasDependentExceptionSpec())
- return false;
- // SourceType must be a function or function pointer.
- const FunctionProtoType *FromFunc = GetUnderlyingFunction(From->getType());
- if (!FromFunc || FromFunc->hasDependentExceptionSpec())
- return false;
- unsigned DiagID = diag::err_incompatible_exception_specs;
- unsigned NestedDiagID = diag::err_deep_exception_specs_differ;
- // This is not an error in C++17 onwards, unless the noexceptness doesn't
- // match, but in that case we have a full-on type mismatch, not just a
- // type sugar mismatch.
- if (getLangOpts().CPlusPlus17) {
- DiagID = diag::warn_incompatible_exception_specs;
- NestedDiagID = diag::warn_deep_exception_specs_differ;
- }
- // Now we've got the correct types on both sides, check their compatibility.
- // This means that the source of the conversion can only throw a subset of
- // the exceptions of the target, and any exception specs on arguments or
- // return types must be equivalent.
- //
- // FIXME: If there is a nested dependent exception specification, we should
- // not be checking it here. This is fine:
- // template<typename T> void f() {
- // void (*p)(void (*) throw(T));
- // void (*q)(void (*) throw(int)) = p;
- // }
- // ... because it might be instantiated with T=int.
- return CheckExceptionSpecSubset(
- PDiag(DiagID), PDiag(NestedDiagID), PDiag(), PDiag(), ToFunc,
- From->getSourceRange().getBegin(), FromFunc, SourceLocation()) &&
- !getLangOpts().CPlusPlus17;
- }
- bool Sema::CheckOverridingFunctionExceptionSpec(const CXXMethodDecl *New,
- const CXXMethodDecl *Old) {
- // If the new exception specification hasn't been parsed yet, skip the check.
- // We'll get called again once it's been parsed.
- if (New->getType()->castAs<FunctionProtoType>()->getExceptionSpecType() ==
- EST_Unparsed)
- return false;
- // Don't check uninstantiated template destructors at all. We can only
- // synthesize correct specs after the template is instantiated.
- if (isa<CXXDestructorDecl>(New) && New->getParent()->isDependentType())
- return false;
- // If the old exception specification hasn't been parsed yet, or the new
- // exception specification can't be computed yet, remember that we need to
- // perform this check when we get to the end of the outermost
- // lexically-surrounding class.
- if (exceptionSpecNotKnownYet(Old) || exceptionSpecNotKnownYet(New)) {
- DelayedOverridingExceptionSpecChecks.push_back({New, Old});
- return false;
- }
- unsigned DiagID = diag::err_override_exception_spec;
- if (getLangOpts().MSVCCompat)
- DiagID = diag::ext_override_exception_spec;
- return CheckExceptionSpecSubset(PDiag(DiagID),
- PDiag(diag::err_deep_exception_specs_differ),
- PDiag(diag::note_overridden_virtual_function),
- PDiag(diag::ext_override_exception_spec),
- Old->getType()->castAs<FunctionProtoType>(),
- Old->getLocation(),
- New->getType()->castAs<FunctionProtoType>(),
- New->getLocation());
- }
- static CanThrowResult canSubStmtsThrow(Sema &Self, const Stmt *S) {
- CanThrowResult R = CT_Cannot;
- for (const Stmt *SubStmt : S->children()) {
- if (!SubStmt)
- continue;
- R = mergeCanThrow(R, Self.canThrow(SubStmt));
- if (R == CT_Can)
- break;
- }
- return R;
- }
- CanThrowResult Sema::canCalleeThrow(Sema &S, const Expr *E, const Decl *D,
- SourceLocation Loc) {
- // As an extension, we assume that __attribute__((nothrow)) functions don't
- // throw.
- if (D && isa<FunctionDecl>(D) && D->hasAttr<NoThrowAttr>())
- return CT_Cannot;
- QualType T;
- // In C++1z, just look at the function type of the callee.
- if (S.getLangOpts().CPlusPlus17 && E && isa<CallExpr>(E)) {
- E = cast<CallExpr>(E)->getCallee();
- T = E->getType();
- if (T->isSpecificPlaceholderType(BuiltinType::BoundMember)) {
- // Sadly we don't preserve the actual type as part of the "bound member"
- // placeholder, so we need to reconstruct it.
- E = E->IgnoreParenImpCasts();
- // Could be a call to a pointer-to-member or a plain member access.
- if (auto *Op = dyn_cast<BinaryOperator>(E)) {
- assert(Op->getOpcode() == BO_PtrMemD || Op->getOpcode() == BO_PtrMemI);
- T = Op->getRHS()->getType()
- ->castAs<MemberPointerType>()->getPointeeType();
- } else {
- T = cast<MemberExpr>(E)->getMemberDecl()->getType();
- }
- }
- } else if (const ValueDecl *VD = dyn_cast_or_null<ValueDecl>(D))
- T = VD->getType();
- else
- // If we have no clue what we're calling, assume the worst.
- return CT_Can;
- const FunctionProtoType *FT;
- if ((FT = T->getAs<FunctionProtoType>())) {
- } else if (const PointerType *PT = T->getAs<PointerType>())
- FT = PT->getPointeeType()->getAs<FunctionProtoType>();
- else if (const ReferenceType *RT = T->getAs<ReferenceType>())
- FT = RT->getPointeeType()->getAs<FunctionProtoType>();
- else if (const MemberPointerType *MT = T->getAs<MemberPointerType>())
- FT = MT->getPointeeType()->getAs<FunctionProtoType>();
- else if (const BlockPointerType *BT = T->getAs<BlockPointerType>())
- FT = BT->getPointeeType()->getAs<FunctionProtoType>();
- if (!FT)
- return CT_Can;
- if (Loc.isValid() || (Loc.isInvalid() && E))
- FT = S.ResolveExceptionSpec(Loc.isInvalid() ? E->getBeginLoc() : Loc, FT);
- if (!FT)
- return CT_Can;
- return FT->canThrow();
- }
- static CanThrowResult canVarDeclThrow(Sema &Self, const VarDecl *VD) {
- CanThrowResult CT = CT_Cannot;
- // Initialization might throw.
- if (!VD->isUsableInConstantExpressions(Self.Context))
- if (const Expr *Init = VD->getInit())
- CT = mergeCanThrow(CT, Self.canThrow(Init));
- // Destructor might throw.
- if (VD->needsDestruction(Self.Context) == QualType::DK_cxx_destructor) {
- if (auto *RD =
- VD->getType()->getBaseElementTypeUnsafe()->getAsCXXRecordDecl()) {
- if (auto *Dtor = RD->getDestructor()) {
- CT = mergeCanThrow(
- CT, Sema::canCalleeThrow(Self, nullptr, Dtor, VD->getLocation()));
- }
- }
- }
- // If this is a decomposition declaration, bindings might throw.
- if (auto *DD = dyn_cast<DecompositionDecl>(VD))
- for (auto *B : DD->bindings())
- if (auto *HD = B->getHoldingVar())
- CT = mergeCanThrow(CT, canVarDeclThrow(Self, HD));
- return CT;
- }
- static CanThrowResult canDynamicCastThrow(const CXXDynamicCastExpr *DC) {
- if (DC->isTypeDependent())
- return CT_Dependent;
- if (!DC->getTypeAsWritten()->isReferenceType())
- return CT_Cannot;
- if (DC->getSubExpr()->isTypeDependent())
- return CT_Dependent;
- return DC->getCastKind() == clang::CK_Dynamic? CT_Can : CT_Cannot;
- }
- static CanThrowResult canTypeidThrow(Sema &S, const CXXTypeidExpr *DC) {
- if (DC->isTypeOperand())
- return CT_Cannot;
- Expr *Op = DC->getExprOperand();
- if (Op->isTypeDependent())
- return CT_Dependent;
- const RecordType *RT = Op->getType()->getAs<RecordType>();
- if (!RT)
- return CT_Cannot;
- if (!cast<CXXRecordDecl>(RT->getDecl())->isPolymorphic())
- return CT_Cannot;
- if (Op->Classify(S.Context).isPRValue())
- return CT_Cannot;
- return CT_Can;
- }
- CanThrowResult Sema::canThrow(const Stmt *S) {
- // C++ [expr.unary.noexcept]p3:
- // [Can throw] if in a potentially-evaluated context the expression would
- // contain:
- switch (S->getStmtClass()) {
- case Expr::ConstantExprClass:
- return canThrow(cast<ConstantExpr>(S)->getSubExpr());
- case Expr::CXXThrowExprClass:
- // - a potentially evaluated throw-expression
- return CT_Can;
- case Expr::CXXDynamicCastExprClass: {
- // - a potentially evaluated dynamic_cast expression dynamic_cast<T>(v),
- // where T is a reference type, that requires a run-time check
- auto *CE = cast<CXXDynamicCastExpr>(S);
- // FIXME: Properly determine whether a variably-modified type can throw.
- if (CE->getType()->isVariablyModifiedType())
- return CT_Can;
- CanThrowResult CT = canDynamicCastThrow(CE);
- if (CT == CT_Can)
- return CT;
- return mergeCanThrow(CT, canSubStmtsThrow(*this, CE));
- }
- case Expr::CXXTypeidExprClass:
- // - a potentially evaluated typeid expression applied to a glvalue
- // expression whose type is a polymorphic class type
- return canTypeidThrow(*this, cast<CXXTypeidExpr>(S));
- // - a potentially evaluated call to a function, member function, function
- // pointer, or member function pointer that does not have a non-throwing
- // exception-specification
- case Expr::CallExprClass:
- case Expr::CXXMemberCallExprClass:
- case Expr::CXXOperatorCallExprClass:
- case Expr::UserDefinedLiteralClass: {
- const CallExpr *CE = cast<CallExpr>(S);
- CanThrowResult CT;
- if (CE->isTypeDependent())
- CT = CT_Dependent;
- else if (isa<CXXPseudoDestructorExpr>(CE->getCallee()->IgnoreParens()))
- CT = CT_Cannot;
- else
- CT = canCalleeThrow(*this, CE, CE->getCalleeDecl());
- if (CT == CT_Can)
- return CT;
- return mergeCanThrow(CT, canSubStmtsThrow(*this, CE));
- }
- case Expr::CXXConstructExprClass:
- case Expr::CXXTemporaryObjectExprClass: {
- auto *CE = cast<CXXConstructExpr>(S);
- // FIXME: Properly determine whether a variably-modified type can throw.
- if (CE->getType()->isVariablyModifiedType())
- return CT_Can;
- CanThrowResult CT = canCalleeThrow(*this, CE, CE->getConstructor());
- if (CT == CT_Can)
- return CT;
- return mergeCanThrow(CT, canSubStmtsThrow(*this, CE));
- }
- case Expr::CXXInheritedCtorInitExprClass: {
- auto *ICIE = cast<CXXInheritedCtorInitExpr>(S);
- return canCalleeThrow(*this, ICIE, ICIE->getConstructor());
- }
- case Expr::LambdaExprClass: {
- const LambdaExpr *Lambda = cast<LambdaExpr>(S);
- CanThrowResult CT = CT_Cannot;
- for (LambdaExpr::const_capture_init_iterator
- Cap = Lambda->capture_init_begin(),
- CapEnd = Lambda->capture_init_end();
- Cap != CapEnd; ++Cap)
- CT = mergeCanThrow(CT, canThrow(*Cap));
- return CT;
- }
- case Expr::CXXNewExprClass: {
- auto *NE = cast<CXXNewExpr>(S);
- CanThrowResult CT;
- if (NE->isTypeDependent())
- CT = CT_Dependent;
- else
- CT = canCalleeThrow(*this, NE, NE->getOperatorNew());
- if (CT == CT_Can)
- return CT;
- return mergeCanThrow(CT, canSubStmtsThrow(*this, NE));
- }
- case Expr::CXXDeleteExprClass: {
- auto *DE = cast<CXXDeleteExpr>(S);
- CanThrowResult CT;
- QualType DTy = DE->getDestroyedType();
- if (DTy.isNull() || DTy->isDependentType()) {
- CT = CT_Dependent;
- } else {
- CT = canCalleeThrow(*this, DE, DE->getOperatorDelete());
- if (const RecordType *RT = DTy->getAs<RecordType>()) {
- const CXXRecordDecl *RD = cast<CXXRecordDecl>(RT->getDecl());
- const CXXDestructorDecl *DD = RD->getDestructor();
- if (DD)
- CT = mergeCanThrow(CT, canCalleeThrow(*this, DE, DD));
- }
- if (CT == CT_Can)
- return CT;
- }
- return mergeCanThrow(CT, canSubStmtsThrow(*this, DE));
- }
- case Expr::CXXBindTemporaryExprClass: {
- auto *BTE = cast<CXXBindTemporaryExpr>(S);
- // The bound temporary has to be destroyed again, which might throw.
- CanThrowResult CT =
- canCalleeThrow(*this, BTE, BTE->getTemporary()->getDestructor());
- if (CT == CT_Can)
- return CT;
- return mergeCanThrow(CT, canSubStmtsThrow(*this, BTE));
- }
- case Expr::PseudoObjectExprClass: {
- auto *POE = cast<PseudoObjectExpr>(S);
- CanThrowResult CT = CT_Cannot;
- for (const Expr *E : POE->semantics()) {
- CT = mergeCanThrow(CT, canThrow(E));
- if (CT == CT_Can)
- break;
- }
- return CT;
- }
- // ObjC message sends are like function calls, but never have exception
- // specs.
- case Expr::ObjCMessageExprClass:
- case Expr::ObjCPropertyRefExprClass:
- case Expr::ObjCSubscriptRefExprClass:
- return CT_Can;
- // All the ObjC literals that are implemented as calls are
- // potentially throwing unless we decide to close off that
- // possibility.
- case Expr::ObjCArrayLiteralClass:
- case Expr::ObjCDictionaryLiteralClass:
- case Expr::ObjCBoxedExprClass:
- return CT_Can;
- // Many other things have subexpressions, so we have to test those.
- // Some are simple:
- case Expr::CoawaitExprClass:
- case Expr::ConditionalOperatorClass:
- case Expr::CoyieldExprClass:
- case Expr::CXXRewrittenBinaryOperatorClass:
- case Expr::CXXStdInitializerListExprClass:
- case Expr::DesignatedInitExprClass:
- case Expr::DesignatedInitUpdateExprClass:
- case Expr::ExprWithCleanupsClass:
- case Expr::ExtVectorElementExprClass:
- case Expr::InitListExprClass:
- case Expr::ArrayInitLoopExprClass:
- case Expr::MemberExprClass:
- case Expr::ObjCIsaExprClass:
- case Expr::ObjCIvarRefExprClass:
- case Expr::ParenExprClass:
- case Expr::ParenListExprClass:
- case Expr::ShuffleVectorExprClass:
- case Expr::StmtExprClass:
- case Expr::ConvertVectorExprClass:
- case Expr::VAArgExprClass:
- return canSubStmtsThrow(*this, S);
- case Expr::CompoundLiteralExprClass:
- case Expr::CXXConstCastExprClass:
- case Expr::CXXAddrspaceCastExprClass:
- case Expr::CXXReinterpretCastExprClass:
- case Expr::BuiltinBitCastExprClass:
- // FIXME: Properly determine whether a variably-modified type can throw.
- if (cast<Expr>(S)->getType()->isVariablyModifiedType())
- return CT_Can;
- return canSubStmtsThrow(*this, S);
- // Some might be dependent for other reasons.
- case Expr::ArraySubscriptExprClass:
- case Expr::MatrixSubscriptExprClass:
- case Expr::OMPArraySectionExprClass:
- case Expr::OMPArrayShapingExprClass:
- case Expr::OMPIteratorExprClass:
- case Expr::BinaryOperatorClass:
- case Expr::DependentCoawaitExprClass:
- case Expr::CompoundAssignOperatorClass:
- case Expr::CStyleCastExprClass:
- case Expr::CXXStaticCastExprClass:
- case Expr::CXXFunctionalCastExprClass:
- case Expr::ImplicitCastExprClass:
- case Expr::MaterializeTemporaryExprClass:
- case Expr::UnaryOperatorClass: {
- // FIXME: Properly determine whether a variably-modified type can throw.
- if (auto *CE = dyn_cast<CastExpr>(S))
- if (CE->getType()->isVariablyModifiedType())
- return CT_Can;
- CanThrowResult CT =
- cast<Expr>(S)->isTypeDependent() ? CT_Dependent : CT_Cannot;
- return mergeCanThrow(CT, canSubStmtsThrow(*this, S));
- }
- case Expr::CXXDefaultArgExprClass:
- return canThrow(cast<CXXDefaultArgExpr>(S)->getExpr());
- case Expr::CXXDefaultInitExprClass:
- return canThrow(cast<CXXDefaultInitExpr>(S)->getExpr());
- case Expr::ChooseExprClass: {
- auto *CE = cast<ChooseExpr>(S);
- if (CE->isTypeDependent() || CE->isValueDependent())
- return CT_Dependent;
- return canThrow(CE->getChosenSubExpr());
- }
- case Expr::GenericSelectionExprClass:
- if (cast<GenericSelectionExpr>(S)->isResultDependent())
- return CT_Dependent;
- return canThrow(cast<GenericSelectionExpr>(S)->getResultExpr());
- // Some expressions are always dependent.
- case Expr::CXXDependentScopeMemberExprClass:
- case Expr::CXXUnresolvedConstructExprClass:
- case Expr::DependentScopeDeclRefExprClass:
- case Expr::CXXFoldExprClass:
- case Expr::RecoveryExprClass:
- return CT_Dependent;
- case Expr::AsTypeExprClass:
- case Expr::BinaryConditionalOperatorClass:
- case Expr::BlockExprClass:
- case Expr::CUDAKernelCallExprClass:
- case Expr::DeclRefExprClass:
- case Expr::ObjCBridgedCastExprClass:
- case Expr::ObjCIndirectCopyRestoreExprClass:
- case Expr::ObjCProtocolExprClass:
- case Expr::ObjCSelectorExprClass:
- case Expr::ObjCAvailabilityCheckExprClass:
- case Expr::OffsetOfExprClass:
- case Expr::PackExpansionExprClass:
- case Expr::SubstNonTypeTemplateParmExprClass:
- case Expr::SubstNonTypeTemplateParmPackExprClass:
- case Expr::FunctionParmPackExprClass:
- case Expr::UnaryExprOrTypeTraitExprClass:
- case Expr::UnresolvedLookupExprClass:
- case Expr::UnresolvedMemberExprClass:
- case Expr::TypoExprClass:
- // FIXME: Many of the above can throw.
- return CT_Cannot;
- case Expr::AddrLabelExprClass:
- case Expr::ArrayTypeTraitExprClass:
- case Expr::AtomicExprClass:
- case Expr::TypeTraitExprClass:
- case Expr::CXXBoolLiteralExprClass:
- case Expr::CXXNoexceptExprClass:
- case Expr::CXXNullPtrLiteralExprClass:
- case Expr::CXXPseudoDestructorExprClass:
- case Expr::CXXScalarValueInitExprClass:
- case Expr::CXXThisExprClass:
- case Expr::CXXUuidofExprClass:
- case Expr::CharacterLiteralClass:
- case Expr::ExpressionTraitExprClass:
- case Expr::FloatingLiteralClass:
- case Expr::GNUNullExprClass:
- case Expr::ImaginaryLiteralClass:
- case Expr::ImplicitValueInitExprClass:
- case Expr::IntegerLiteralClass:
- case Expr::FixedPointLiteralClass:
- case Expr::ArrayInitIndexExprClass:
- case Expr::NoInitExprClass:
- case Expr::ObjCEncodeExprClass:
- case Expr::ObjCStringLiteralClass:
- case Expr::ObjCBoolLiteralExprClass:
- case Expr::OpaqueValueExprClass:
- case Expr::PredefinedExprClass:
- case Expr::SizeOfPackExprClass:
- case Expr::StringLiteralClass:
- case Expr::SourceLocExprClass:
- case Expr::ConceptSpecializationExprClass:
- case Expr::RequiresExprClass:
- // These expressions can never throw.
- return CT_Cannot;
- case Expr::MSPropertyRefExprClass:
- case Expr::MSPropertySubscriptExprClass:
- llvm_unreachable("Invalid class for expression");
- // Most statements can throw if any substatement can throw.
- case Stmt::AttributedStmtClass:
- case Stmt::BreakStmtClass:
- case Stmt::CapturedStmtClass:
- case Stmt::CaseStmtClass:
- case Stmt::CompoundStmtClass:
- case Stmt::ContinueStmtClass:
- case Stmt::CoreturnStmtClass:
- case Stmt::CoroutineBodyStmtClass:
- case Stmt::CXXCatchStmtClass:
- case Stmt::CXXForRangeStmtClass:
- case Stmt::DefaultStmtClass:
- case Stmt::DoStmtClass:
- case Stmt::ForStmtClass:
- case Stmt::GCCAsmStmtClass:
- case Stmt::GotoStmtClass:
- case Stmt::IndirectGotoStmtClass:
- case Stmt::LabelStmtClass:
- case Stmt::MSAsmStmtClass:
- case Stmt::MSDependentExistsStmtClass:
- case Stmt::NullStmtClass:
- case Stmt::ObjCAtCatchStmtClass:
- case Stmt::ObjCAtFinallyStmtClass:
- case Stmt::ObjCAtSynchronizedStmtClass:
- case Stmt::ObjCAutoreleasePoolStmtClass:
- case Stmt::ObjCForCollectionStmtClass:
- case Stmt::OMPAtomicDirectiveClass:
- case Stmt::OMPBarrierDirectiveClass:
- case Stmt::OMPCancelDirectiveClass:
- case Stmt::OMPCancellationPointDirectiveClass:
- case Stmt::OMPCriticalDirectiveClass:
- case Stmt::OMPDistributeDirectiveClass:
- case Stmt::OMPDistributeParallelForDirectiveClass:
- case Stmt::OMPDistributeParallelForSimdDirectiveClass:
- case Stmt::OMPDistributeSimdDirectiveClass:
- case Stmt::OMPFlushDirectiveClass:
- case Stmt::OMPDepobjDirectiveClass:
- case Stmt::OMPScanDirectiveClass:
- case Stmt::OMPForDirectiveClass:
- case Stmt::OMPForSimdDirectiveClass:
- case Stmt::OMPMasterDirectiveClass:
- case Stmt::OMPMasterTaskLoopDirectiveClass:
- case Stmt::OMPMasterTaskLoopSimdDirectiveClass:
- case Stmt::OMPOrderedDirectiveClass:
- case Stmt::OMPCanonicalLoopClass:
- case Stmt::OMPParallelDirectiveClass:
- case Stmt::OMPParallelForDirectiveClass:
- case Stmt::OMPParallelForSimdDirectiveClass:
- case Stmt::OMPParallelMasterDirectiveClass:
- case Stmt::OMPParallelMasterTaskLoopDirectiveClass:
- case Stmt::OMPParallelMasterTaskLoopSimdDirectiveClass:
- case Stmt::OMPParallelSectionsDirectiveClass:
- case Stmt::OMPSectionDirectiveClass:
- case Stmt::OMPSectionsDirectiveClass:
- case Stmt::OMPSimdDirectiveClass:
- case Stmt::OMPTileDirectiveClass:
- case Stmt::OMPUnrollDirectiveClass:
- case Stmt::OMPSingleDirectiveClass:
- case Stmt::OMPTargetDataDirectiveClass:
- case Stmt::OMPTargetDirectiveClass:
- case Stmt::OMPTargetEnterDataDirectiveClass:
- case Stmt::OMPTargetExitDataDirectiveClass:
- case Stmt::OMPTargetParallelDirectiveClass:
- case Stmt::OMPTargetParallelForDirectiveClass:
- case Stmt::OMPTargetParallelForSimdDirectiveClass:
- case Stmt::OMPTargetSimdDirectiveClass:
- case Stmt::OMPTargetTeamsDirectiveClass:
- case Stmt::OMPTargetTeamsDistributeDirectiveClass:
- case Stmt::OMPTargetTeamsDistributeParallelForDirectiveClass:
- case Stmt::OMPTargetTeamsDistributeParallelForSimdDirectiveClass:
- case Stmt::OMPTargetTeamsDistributeSimdDirectiveClass:
- case Stmt::OMPTargetUpdateDirectiveClass:
- case Stmt::OMPTaskDirectiveClass:
- case Stmt::OMPTaskgroupDirectiveClass:
- case Stmt::OMPTaskLoopDirectiveClass:
- case Stmt::OMPTaskLoopSimdDirectiveClass:
- case Stmt::OMPTaskwaitDirectiveClass:
- case Stmt::OMPTaskyieldDirectiveClass:
- case Stmt::OMPTeamsDirectiveClass:
- case Stmt::OMPTeamsDistributeDirectiveClass:
- case Stmt::OMPTeamsDistributeParallelForDirectiveClass:
- case Stmt::OMPTeamsDistributeParallelForSimdDirectiveClass:
- case Stmt::OMPTeamsDistributeSimdDirectiveClass:
- case Stmt::OMPInteropDirectiveClass:
- case Stmt::OMPDispatchDirectiveClass:
- case Stmt::OMPMaskedDirectiveClass:
- case Stmt::OMPMetaDirectiveClass:
- case Stmt::OMPGenericLoopDirectiveClass:
- case Stmt::ReturnStmtClass:
- case Stmt::SEHExceptStmtClass:
- case Stmt::SEHFinallyStmtClass:
- case Stmt::SEHLeaveStmtClass:
- case Stmt::SEHTryStmtClass:
- case Stmt::SwitchStmtClass:
- case Stmt::WhileStmtClass:
- return canSubStmtsThrow(*this, S);
- case Stmt::DeclStmtClass: {
- CanThrowResult CT = CT_Cannot;
- for (const Decl *D : cast<DeclStmt>(S)->decls()) {
- if (auto *VD = dyn_cast<VarDecl>(D))
- CT = mergeCanThrow(CT, canVarDeclThrow(*this, VD));
- // FIXME: Properly determine whether a variably-modified type can throw.
- if (auto *TND = dyn_cast<TypedefNameDecl>(D))
- if (TND->getUnderlyingType()->isVariablyModifiedType())
- return CT_Can;
- if (auto *VD = dyn_cast<ValueDecl>(D))
- if (VD->getType()->isVariablyModifiedType())
- return CT_Can;
- }
- return CT;
- }
- case Stmt::IfStmtClass: {
- auto *IS = cast<IfStmt>(S);
- CanThrowResult CT = CT_Cannot;
- if (const Stmt *Init = IS->getInit())
- CT = mergeCanThrow(CT, canThrow(Init));
- if (const Stmt *CondDS = IS->getConditionVariableDeclStmt())
- CT = mergeCanThrow(CT, canThrow(CondDS));
- CT = mergeCanThrow(CT, canThrow(IS->getCond()));
- // For 'if constexpr', consider only the non-discarded case.
- // FIXME: We should add a DiscardedStmt marker to the AST.
- if (Optional<const Stmt *> Case = IS->getNondiscardedCase(Context))
- return *Case ? mergeCanThrow(CT, canThrow(*Case)) : CT;
- CanThrowResult Then = canThrow(IS->getThen());
- CanThrowResult Else = IS->getElse() ? canThrow(IS->getElse()) : CT_Cannot;
- if (Then == Else)
- return mergeCanThrow(CT, Then);
- // For a dependent 'if constexpr', the result is dependent if it depends on
- // the value of the condition.
- return mergeCanThrow(CT, IS->isConstexpr() ? CT_Dependent
- : mergeCanThrow(Then, Else));
- }
- case Stmt::CXXTryStmtClass: {
- auto *TS = cast<CXXTryStmt>(S);
- // try /*...*/ catch (...) { H } can throw only if H can throw.
- // Any other try-catch can throw if any substatement can throw.
- const CXXCatchStmt *FinalHandler = TS->getHandler(TS->getNumHandlers() - 1);
- if (!FinalHandler->getExceptionDecl())
- return canThrow(FinalHandler->getHandlerBlock());
- return canSubStmtsThrow(*this, S);
- }
- case Stmt::ObjCAtThrowStmtClass:
- return CT_Can;
- case Stmt::ObjCAtTryStmtClass: {
- auto *TS = cast<ObjCAtTryStmt>(S);
- // @catch(...) need not be last in Objective-C. Walk backwards until we
- // see one or hit the @try.
- CanThrowResult CT = CT_Cannot;
- if (const Stmt *Finally = TS->getFinallyStmt())
- CT = mergeCanThrow(CT, canThrow(Finally));
- for (unsigned I = TS->getNumCatchStmts(); I != 0; --I) {
- const ObjCAtCatchStmt *Catch = TS->getCatchStmt(I - 1);
- CT = mergeCanThrow(CT, canThrow(Catch));
- // If we reach a @catch(...), no earlier exceptions can escape.
- if (Catch->hasEllipsis())
- return CT;
- }
- // Didn't find an @catch(...). Exceptions from the @try body can escape.
- return mergeCanThrow(CT, canThrow(TS->getTryBody()));
- }
- case Stmt::SYCLUniqueStableNameExprClass:
- return CT_Cannot;
- case Stmt::NoStmtClass:
- llvm_unreachable("Invalid class for statement");
- }
- llvm_unreachable("Bogus StmtClass");
- }
- } // end namespace clang
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