diff --git a/clang/include/clang/Basic/DiagnosticSemaKinds.td b/clang/include/clang/Basic/DiagnosticSemaKinds.td index a98dc7cd462f..65f72167f1aa 100644 --- a/clang/include/clang/Basic/DiagnosticSemaKinds.td +++ b/clang/include/clang/Basic/DiagnosticSemaKinds.td @@ -1754,20 +1754,20 @@ def err_undeclared_label_use : Error<"use of undeclared label '%0'">; def err_goto_into_protected_scope : Error<"illegal goto into protected scope">; def err_switch_into_protected_scope : Error< "illegal switch case into protected scope">; -def err_indirect_goto_in_protected_scope : Warning< - "illegal indirect goto in protected scope, unknown effect on scopes">, - InGroup>; -def err_addr_of_label_in_protected_scope : Warning< - "address taken of label in protected scope, jump to it would have " - "unknown effect on scope">, InGroup>; +def err_indirect_goto_without_addrlabel : Error< + "indirect goto in function with no address-of-label expressions">; +def warn_indirect_goto_in_protected_scope : Warning< + "indirect goto might cross protected scopes">, + InGroup>; +def note_indirect_goto_target : Note<"possible target of indirect goto">; def note_protected_by_variable_init : Note< "jump bypasses variable initialization">; +def note_protected_by_cleanup : Note< + "jump bypasses initialization of variable with __attribute__((cleanup))">; def note_protected_by_vla_typedef : Note< "jump bypasses initialization of VLA typedef">; def note_protected_by_vla : Note< "jump bypasses initialization of variable length array">; -def note_protected_by_cleanup : Note< - "jump bypasses initialization of declaration with __attribute__((cleanup))">; def note_protected_by_objc_try : Note< "jump bypasses initialization of @try block">; def note_protected_by_objc_catch : Note< @@ -1783,6 +1783,25 @@ def note_protected_by_cxx_catch : Note< def note_protected_by___block : Note< "jump bypasses setup of __block variable">; +def note_exits_cleanup : Note< + "jump exits scope of variable with __attribute__((cleanup))">; +def note_exits_dtor : Note< + "jump exits scope of variable with non-trivial destructor">; +def note_exits___block : Note< + "jump exits scope of __block variable">; +def note_exits_objc_try : Note< + "jump exits @try block">; +def note_exits_objc_catch : Note< + "jump exits @catch block">; +def note_exits_objc_finally : Note< + "jump exits @finally block">; +def note_exits_objc_synchronized : Note< + "jump exits @synchronized block">; +def note_exits_cxx_try : Note< + "jump exits try block">; +def note_exits_cxx_catch : Note< + "jump exits catch block">; + def err_func_returning_array_function : Error< "function cannot return %select{array|function}0 type %1">; def err_field_declared_as_function : Error<"field %0 declared as a function">; diff --git a/clang/lib/Sema/JumpDiagnostics.cpp b/clang/lib/Sema/JumpDiagnostics.cpp index 069429490385..3a8ac464b4d8 100644 --- a/clang/lib/Sema/JumpDiagnostics.cpp +++ b/clang/lib/Sema/JumpDiagnostics.cpp @@ -12,6 +12,7 @@ // //===----------------------------------------------------------------------===// +#include "llvm/ADT/BitVector.h" #include "Sema.h" #include "clang/AST/Expr.h" #include "clang/AST/StmtObjC.h" @@ -39,24 +40,36 @@ class JumpScopeChecker { /// the parent scope is the function body. unsigned ParentScope; - /// Diag - The diagnostic to emit if there is a jump into this scope. - unsigned Diag; + /// InDiag - The diagnostic to emit if there is a jump into this scope. + unsigned InDiag; + + /// OutDiag - The diagnostic to emit if there is an indirect jump out + /// of this scope. Direct jumps always clean up their current scope + /// in an orderly way. + unsigned OutDiag; /// Loc - Location to emit the diagnostic. SourceLocation Loc; - GotoScope(unsigned parentScope, unsigned diag, SourceLocation L) - : ParentScope(parentScope), Diag(diag), Loc(L) {} + GotoScope(unsigned parentScope, unsigned InDiag, unsigned OutDiag, + SourceLocation L) + : ParentScope(parentScope), InDiag(InDiag), OutDiag(OutDiag), Loc(L) {} }; llvm::SmallVector Scopes; llvm::DenseMap LabelAndGotoScopes; llvm::SmallVector Jumps; + + llvm::SmallVector IndirectJumps; + llvm::SmallVector IndirectJumpTargets; public: JumpScopeChecker(Stmt *Body, Sema &S); private: void BuildScopeInformation(Stmt *S, unsigned ParentScope); void VerifyJumps(); + void VerifyIndirectJumps(); + void DiagnoseIndirectJump(IndirectGotoStmt *IG, unsigned IGScope, + LabelStmt *Target, unsigned TargetScope); void CheckJump(Stmt *From, Stmt *To, SourceLocation DiagLoc, unsigned JumpDiag); }; @@ -65,7 +78,7 @@ private: JumpScopeChecker::JumpScopeChecker(Stmt *Body, Sema &s) : S(s) { // Add a scope entry for function scope. - Scopes.push_back(GotoScope(~0U, ~0U, SourceLocation())); + Scopes.push_back(GotoScope(~0U, ~0U, ~0U, SourceLocation())); // Build information for the top level compound statement, so that we have a // defined scope record for every "goto" and label. @@ -73,29 +86,47 @@ JumpScopeChecker::JumpScopeChecker(Stmt *Body, Sema &s) : S(s) { // Check that all jumps we saw are kosher. VerifyJumps(); + VerifyIndirectJumps(); } /// GetDiagForGotoScopeDecl - If this decl induces a new goto scope, return a /// diagnostic that should be emitted if control goes over it. If not, return 0. -static unsigned GetDiagForGotoScopeDecl(const Decl *D, bool isCPlusPlus) { +static std::pair + GetDiagForGotoScopeDecl(const Decl *D, bool isCPlusPlus) { if (const VarDecl *VD = dyn_cast(D)) { + unsigned InDiag = 0, OutDiag = 0; if (VD->getType()->isVariablyModifiedType()) - return diag::note_protected_by_vla; - if (VD->hasAttr()) - return diag::note_protected_by_cleanup; - if (VD->hasAttr()) - return diag::note_protected_by___block; - // FIXME: In C++0x, we have to check more conditions than "did we - // just give it an initializer?". See 6.7p3. - if (isCPlusPlus && VD->hasLocalStorage() && VD->hasInit()) - return diag::note_protected_by_variable_init; + InDiag = diag::note_protected_by_vla; + + if (VD->hasAttr()) { + InDiag = diag::note_protected_by___block; + OutDiag = diag::note_exits___block; + } else if (VD->hasAttr()) { + InDiag = diag::note_protected_by_cleanup; + OutDiag = diag::note_exits_cleanup; + } else if (isCPlusPlus) { + // FIXME: In C++0x, we have to check more conditions than "did we + // just give it an initializer?". See 6.7p3. + if (VD->hasLocalStorage() && VD->hasInit()) + InDiag = diag::note_protected_by_variable_init; + + CanQualType T = VD->getType()->getCanonicalTypeUnqualified(); + while (CanQual AT = T->getAs()) + T = AT->getElementType(); + if (CanQual RT = T->getAs()) + if (!cast(RT->getDecl())->hasTrivialDestructor()) + OutDiag = diag::note_exits_dtor; + } - } else if (const TypedefDecl *TD = dyn_cast(D)) { - if (TD->getUnderlyingType()->isVariablyModifiedType()) - return diag::note_protected_by_vla_typedef; + return std::make_pair(InDiag, OutDiag); } - return 0; + if (const TypedefDecl *TD = dyn_cast(D)) { + if (TD->getUnderlyingType()->isVariablyModifiedType()) + return std::make_pair((unsigned) diag::note_protected_by_vla_typedef, 0); + } + + return std::make_pair(0U, 0U); } @@ -106,14 +137,32 @@ static unsigned GetDiagForGotoScopeDecl(const Decl *D, bool isCPlusPlus) { void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { // If we found a label, remember that it is in ParentScope scope. - if (isa(S) || isa(S) || isa(S)) { + switch (S->getStmtClass()) { + case Stmt::LabelStmtClass: + case Stmt::DefaultStmtClass: + case Stmt::CaseStmtClass: LabelAndGotoScopes[S] = ParentScope; - } else if (isa(S) || isa(S) || - isa(S) || isa(S)) { + break; + + case Stmt::AddrLabelExprClass: + IndirectJumpTargets.push_back(cast(S)->getLabel()); + break; + + case Stmt::IndirectGotoStmtClass: + LabelAndGotoScopes[S] = ParentScope; + IndirectJumps.push_back(cast(S)); + break; + + case Stmt::GotoStmtClass: + case Stmt::SwitchStmtClass: // Remember both what scope a goto is in as well as the fact that we have // it. This makes the second scan not have to walk the AST again. LabelAndGotoScopes[S] = ParentScope; Jumps.push_back(S); + break; + + default: + break; } for (Stmt::child_iterator CI = S->child_begin(), E = S->child_end(); CI != E; @@ -131,8 +180,11 @@ void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { for (DeclStmt::decl_iterator I = DS->decl_begin(), E = DS->decl_end(); I != E; ++I) { // If this decl causes a new scope, push and switch to it. - if (unsigned Diag = GetDiagForGotoScopeDecl(*I, isCPlusPlus)) { - Scopes.push_back(GotoScope(ParentScope, Diag, (*I)->getLocation())); + std::pair Diags + = GetDiagForGotoScopeDecl(*I, isCPlusPlus); + if (Diags.first || Diags.second) { + Scopes.push_back(GotoScope(ParentScope, Diags.first, Diags.second, + (*I)->getLocation())); ParentScope = Scopes.size()-1; } @@ -149,7 +201,9 @@ void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { // walking all sub-stmts in that scope. if (ObjCAtTryStmt *AT = dyn_cast(SubStmt)) { // Recursively walk the AST for the @try part. - Scopes.push_back(GotoScope(ParentScope,diag::note_protected_by_objc_try, + Scopes.push_back(GotoScope(ParentScope, + diag::note_protected_by_objc_try, + diag::note_exits_objc_try, AT->getAtTryLoc())); if (Stmt *TryPart = AT->getTryBody()) BuildScopeInformation(TryPart, Scopes.size()-1); @@ -159,6 +213,7 @@ void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { ObjCAtCatchStmt *AC = AT->getCatchStmt(I); Scopes.push_back(GotoScope(ParentScope, diag::note_protected_by_objc_catch, + diag::note_exits_objc_catch, AC->getAtCatchLoc())); // @catches are nested and it isn't BuildScopeInformation(AC->getCatchBody(), Scopes.size()-1); @@ -168,6 +223,7 @@ void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { if (ObjCAtFinallyStmt *AF = AT->getFinallyStmt()) { Scopes.push_back(GotoScope(ParentScope, diag::note_protected_by_objc_finally, + diag::note_exits_objc_finally, AF->getAtFinallyLoc())); BuildScopeInformation(AF, Scopes.size()-1); } @@ -186,6 +242,7 @@ void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { // scope. Scopes.push_back(GotoScope(ParentScope, diag::note_protected_by_objc_synchronized, + diag::note_exits_objc_synchronized, AS->getAtSynchronizedLoc())); BuildScopeInformation(AS->getSynchBody(), Scopes.size()-1); continue; @@ -194,7 +251,9 @@ void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { // Disallow jumps into any part of a C++ try statement. This is pretty // much the same as for Obj-C. if (CXXTryStmt *TS = dyn_cast(SubStmt)) { - Scopes.push_back(GotoScope(ParentScope, diag::note_protected_by_cxx_try, + Scopes.push_back(GotoScope(ParentScope, + diag::note_protected_by_cxx_try, + diag::note_exits_cxx_try, TS->getSourceRange().getBegin())); if (Stmt *TryBlock = TS->getTryBlock()) BuildScopeInformation(TryBlock, Scopes.size()-1); @@ -204,6 +263,7 @@ void JumpScopeChecker::BuildScopeInformation(Stmt *S, unsigned ParentScope) { CXXCatchStmt *CS = TS->getHandler(I); Scopes.push_back(GotoScope(ParentScope, diag::note_protected_by_cxx_catch, + diag::note_exits_cxx_catch, CS->getSourceRange().getBegin())); BuildScopeInformation(CS->getHandlerBlock(), Scopes.size()-1); } @@ -229,54 +289,163 @@ void JumpScopeChecker::VerifyJumps() { continue; } - if (SwitchStmt *SS = dyn_cast(Jump)) { - for (SwitchCase *SC = SS->getSwitchCaseList(); SC; - SC = SC->getNextSwitchCase()) { - assert(LabelAndGotoScopes.count(SC) && "Case not visited?"); - CheckJump(SS, SC, SC->getLocStart(), - diag::err_switch_into_protected_scope); - } - continue; - } - - unsigned DiagnosticScope; - - // We don't know where an indirect goto goes, require that it be at the - // top level of scoping. - if (IndirectGotoStmt *IG = dyn_cast(Jump)) { - assert(LabelAndGotoScopes.count(Jump) && - "Jump didn't get added to scopes?"); - unsigned GotoScope = LabelAndGotoScopes[IG]; - if (GotoScope == 0) continue; // indirect jump is ok. - S.Diag(IG->getGotoLoc(), diag::err_indirect_goto_in_protected_scope); - DiagnosticScope = GotoScope; - } else { - // We model &&Label as a jump for purposes of scope tracking. We actually - // don't care *where* the address of label is, but we require the *label - // itself* to be in scope 0. If it is nested inside of a VLA scope, then - // it is possible for an indirect goto to illegally enter the VLA scope by - // indirectly jumping to the label. - assert(isa(Jump) && "Unknown jump type"); - LabelStmt *TheLabel = cast(Jump)->getLabel(); - - assert(LabelAndGotoScopes.count(TheLabel) && - "Referenced label didn't get added to scopes?"); - unsigned LabelScope = LabelAndGotoScopes[TheLabel]; - if (LabelScope == 0) continue; // Addr of label is ok. - - S.Diag(Jump->getLocStart(), diag::err_addr_of_label_in_protected_scope); - DiagnosticScope = LabelScope; - } - - // Report all the things that would be skipped over by this &&label or - // indirect goto. - while (DiagnosticScope != 0) { - S.Diag(Scopes[DiagnosticScope].Loc, Scopes[DiagnosticScope].Diag); - DiagnosticScope = Scopes[DiagnosticScope].ParentScope; + SwitchStmt *SS = cast(Jump); + for (SwitchCase *SC = SS->getSwitchCaseList(); SC; + SC = SC->getNextSwitchCase()) { + assert(LabelAndGotoScopes.count(SC) && "Case not visited?"); + CheckJump(SS, SC, SC->getLocStart(), + diag::err_switch_into_protected_scope); } } } +/// VerifyIndirectJumps - Verify whether any possible indirect jump might +/// cross a protection boundary. +/// +/// An indirect jump is "trivial" if it bypasses no initializations +/// and no teardowns. More formally, the jump from A to B is trivial +/// if the path out from A to DCA(A,B) is trivial and the path in from +/// DCA(A,B) to B is trivial, where DCA(A,B) is the deepest common +/// ancestor of A and B. +/// A path in is trivial if none of the entered scopes have an InDiag. +/// A path out is trivial is none of the exited scopes have an OutDiag. +/// Jump-triviality is transitive but asymmetric. +void JumpScopeChecker::VerifyIndirectJumps() { + if (IndirectJumps.empty()) return; + + // If there aren't any address-of-label expressions in this function, + // complain about the first indirect goto. + if (IndirectJumpTargets.empty()) { + S.Diag(IndirectJumps[0]->getGotoLoc(), + diag::err_indirect_goto_without_addrlabel); + return; + } + + // Build a vector of source scopes. This serves to unique source + // scopes as well as to eliminate redundant lookups into + // LabelAndGotoScopes. + typedef std::pair JumpScope; + llvm::SmallVector JumpScopes; + { + llvm::DenseMap JumpScopesMap; + for (llvm::SmallVectorImpl::iterator + I = IndirectJumps.begin(), E = IndirectJumps.end(); I != E; ++I) { + IndirectGotoStmt *IG = *I; + assert(LabelAndGotoScopes.count(IG) && + "indirect jump didn't get added to scopes?"); + unsigned IGScope = LabelAndGotoScopes[IG]; + IndirectGotoStmt *&Entry = JumpScopesMap[IGScope]; + if (!Entry) Entry = IG; + } + JumpScopes.reserve(JumpScopesMap.size()); + for (llvm::DenseMap::iterator + I = JumpScopesMap.begin(), E = JumpScopesMap.end(); I != E; ++I) + JumpScopes.push_back(*I); + } + + // Find a representative label from each protection scope. + llvm::DenseMap TargetScopes; + for (llvm::SmallVectorImpl::iterator + I = IndirectJumpTargets.begin(), E = IndirectJumpTargets.end(); + I != E; ++I) { + LabelStmt *TheLabel = *I; + assert(LabelAndGotoScopes.count(TheLabel) && + "Referenced label didn't get added to scopes?"); + unsigned LabelScope = LabelAndGotoScopes[TheLabel]; + LabelStmt *&Target = TargetScopes[LabelScope]; + if (!Target) Target = TheLabel; + } + + llvm::BitVector Reachable(Scopes.size(), false); + for (llvm::DenseMap::iterator + TI = TargetScopes.begin(), TE = TargetScopes.end(); TI != TE; ++TI) { + unsigned TargetScope = TI->first; + LabelStmt *TargetLabel = TI->second; + + Reachable.reset(); + + // Mark all the enclosing scopes from which you can safely jump + // into the target scope. + unsigned Min = TargetScope; + while (true) { + Reachable.set(Min); + + // Don't go beyond the outermost scope. + if (Min == 0) break; + + // Don't go further if we couldn't trivially enter this scope. + if (Scopes[Min].InDiag) break; + + Min = Scopes[Min].ParentScope; + } + + // Walk through all the jump sites, checking that they can trivially + // reach this label scope. + for (llvm::SmallVectorImpl::iterator + I = JumpScopes.begin(), E = JumpScopes.end(); I != E; ++I) { + unsigned Scope = I->first; + + // Walk out the "scope chain" for this scope, looking for a scope + // we've marked reachable. + bool IsReachable = false; + while (true) { + if (Reachable.test(Scope)) { + // If we find something reachable, mark all the scopes we just + // walked through as reachable. + for (unsigned S = I->first; S != Scope; S = Scopes[S].ParentScope) + Reachable.set(S); + IsReachable = true; + break; + } + + // Don't walk out if we've reached the top-level scope or we've + // gotten shallower than the shallowest reachable scope. + if (Scope == 0 || Scope < Min) break; + + // Don't walk out through an out-diagnostic. + if (Scopes[Scope].OutDiag) break; + + Scope = Scopes[Scope].ParentScope; + } + + // Only diagnose if we didn't find something. + if (IsReachable) continue; + + DiagnoseIndirectJump(I->second, I->first, TargetLabel, TargetScope); + } + } +} + +void JumpScopeChecker::DiagnoseIndirectJump(IndirectGotoStmt *Jump, + unsigned JumpScope, + LabelStmt *Target, + unsigned TargetScope) { + assert(JumpScope != TargetScope); + + S.Diag(Jump->getGotoLoc(), diag::warn_indirect_goto_in_protected_scope); + S.Diag(Target->getIdentLoc(), diag::note_indirect_goto_target); + + // Collect everything in the target scope chain. + llvm::DenseSet TargetScopeChain; + for (unsigned SI = TargetScope; SI != 0; SI = Scopes[SI].ParentScope) + TargetScopeChain.insert(SI); + TargetScopeChain.insert(0); + + // Walk out the scopes containing the indirect goto until we find a + // common ancestor with the target label. + unsigned Common = JumpScope; + while (!TargetScopeChain.count(Common)) { + // FIXME: this isn't necessarily a problem! Not every protected + // scope requires destruction. + S.Diag(Scopes[Common].Loc, Scopes[Common].OutDiag); + Common = Scopes[Common].ParentScope; + } + + // Now walk into the scopes containing the label whose address was taken. + for (unsigned SI = TargetScope; SI != Common; SI = Scopes[SI].ParentScope) + S.Diag(Scopes[SI].Loc, Scopes[SI].InDiag); +} + /// CheckJump - Validate that the specified jump statement is valid: that it is /// jumping within or out of its current scope, not into a deeper one. void JumpScopeChecker::CheckJump(Stmt *From, Stmt *To, @@ -303,9 +472,10 @@ void JumpScopeChecker::CheckJump(Stmt *From, Stmt *To, TestScope = Scopes[TestScope].ParentScope; } - // If we get here, then we know we have invalid code. Diagnose the bad jump, - // and then emit a note at each VLA being jumped out of. - S.Diag(DiagLoc, JumpDiag); + // If we get here, then either we have invalid code or we're jumping in + // past some cleanup blocks. It may seem strange to have a declaration + // with a trivial constructor and a non-trivial destructor, but it's + // possible. // Eliminate the common prefix of the jump and the target. Start by // linearizing both scopes, reversing them as we go. @@ -318,14 +488,23 @@ void JumpScopeChecker::CheckJump(Stmt *From, Stmt *To, ToScopes.push_back(TestScope); // Remove any common entries (such as the top-level function scope). - while (!FromScopes.empty() && FromScopes.back() == ToScopes.back()) { + while (!FromScopes.empty() && (FromScopes.back() == ToScopes.back())) { FromScopes.pop_back(); ToScopes.pop_back(); } + // Ignore any cleanup blocks on the way in. + while (!ToScopes.empty()) { + if (Scopes[ToScopes.back()].InDiag) break; + ToScopes.pop_back(); + } + if (ToScopes.empty()) return; + + S.Diag(DiagLoc, JumpDiag); + // Emit diagnostics for whatever is left in ToScopes. for (unsigned i = 0, e = ToScopes.size(); i != e; ++i) - S.Diag(Scopes[ToScopes[i]].Loc, Scopes[ToScopes[i]].Diag); + S.Diag(Scopes[ToScopes[i]].Loc, Scopes[ToScopes[i]].InDiag); } void Sema::DiagnoseInvalidJumps(Stmt *Body) { diff --git a/clang/test/Sema/scope-check.c b/clang/test/Sema/scope-check.c index 6f8640255a9e..28e2d0ead51b 100644 --- a/clang/test/Sema/scope-check.c +++ b/clang/test/Sema/scope-check.c @@ -133,20 +133,20 @@ int test8(int x) { void test9(int n, void *P) { int Y; int Z = 4; - goto *P; // ok. + goto *P; // expected-warning {{indirect goto might cross protected scopes}} L2: ; - int a[n]; // expected-note 2 {{jump bypasses initialization of variable length array}} + int a[n]; // expected-note {{jump bypasses initialization of variable length array}} -L3: +L3: // expected-note {{possible target of indirect goto}} L4: - goto *P; // expected-warning {{illegal indirect goto in protected scope, unknown effect on scopes}} + goto *P; goto L3; // ok goto L4; // ok void *Ptrs[] = { - &&L2, // Ok. - &&L3 // expected-warning {{address taken of label in protected scope, jump to it would have unknown effect on scope}} + &&L2, + &&L3 }; } @@ -193,3 +193,9 @@ void test12(int n) { }; } +void test13(int n, void *p) { + int vla[n]; + goto *p; + a0: ; + static void *ps[] = { &&a0 }; +} diff --git a/clang/test/SemaCXX/scope-check.cpp b/clang/test/SemaCXX/scope-check.cpp new file mode 100644 index 000000000000..cef64f6322c5 --- /dev/null +++ b/clang/test/SemaCXX/scope-check.cpp @@ -0,0 +1,123 @@ +// RUN: %clang_cc1 -fsyntax-only -verify -fblocks %s -Wno-unreachable-code + +namespace test0 { + struct D { ~D(); }; + + int f(bool b) { + if (b) { + D d; + goto end; + } + + end: + return 1; + } +} + +namespace test1 { + struct C { C(); }; + + int f(bool b) { + if (b) + goto foo; // expected-error {{illegal goto into protected scope}} + C c; // expected-note {{jump bypasses variable initialization}} + foo: + return 1; + } +} + +namespace test2 { + struct C { C(); }; + + int f(void **ip) { + static void *ips[] = { &&lbl1, &&lbl2 }; + + C c; + goto *ip; + lbl1: + return 0; + lbl2: + return 1; + } +} + +namespace test3 { + struct C { C(); }; + + int f(void **ip) { + static void *ips[] = { &&lbl1, &&lbl2 }; + + goto *ip; + lbl1: { + C c; + return 0; + } + lbl2: + return 1; + } +} + +namespace test4 { + struct C { C(); }; + struct D { ~D(); }; + + int f(void **ip) { + static void *ips[] = { &&lbl1, &&lbl2 }; + + C c0; + + goto *ip; // expected-warning {{indirect goto might cross protected scopes}} + C c1; // expected-note {{jump bypasses variable initialization}} + lbl1: // expected-note {{possible target of indirect goto}} + return 0; + lbl2: + return 1; + } +} + +namespace test5 { + struct C { C(); }; + struct D { ~D(); }; + + int f(void **ip) { + static void *ips[] = { &&lbl1, &&lbl2 }; + C c0; + + goto *ip; + lbl1: // expected-note {{possible target of indirect goto}} + return 0; + lbl2: + if (ip[1]) { + D d; // expected-note {{jump exits scope of variable with non-trivial destructor}} + ip += 2; + goto *ip; // expected-warning {{indirect goto might cross protected scopes}} + } + return 1; + } +} + +namespace test6 { + struct C { C(); }; + + unsigned f(unsigned s0, unsigned s1, void **ip) { + static void *ips[] = { &&lbl1, &&lbl2, &&lbl3, &&lbl4 }; + C c0; + + goto *ip; + lbl1: + s0++; + goto *++ip; + lbl2: + s0 -= s1; + goto *++ip; + lbl3: { + unsigned tmp = s0; + s0 = s1; + s1 = tmp; + goto *++ip; + } + lbl4: + return s0; + } +} +