Current Path : /compat/linux/proc/68247/root/usr/src/contrib/llvm/tools/clang/lib/ARCMigrate/ |
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Current File : //compat/linux/proc/68247/root/usr/src/contrib/llvm/tools/clang/lib/ARCMigrate/TransUnbridgedCasts.cpp |
//===--- TransUnbridgedCasts.cpp - Tranformations to ARC mode -------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // rewriteUnbridgedCasts: // // A cast of non-objc pointer to an objc one is checked. If the non-objc pointer // is from a file-level variable, __bridge cast is used to convert it. // For the result of a function call that we know is +1/+0, // __bridge/__bridge_transfer is used. // // NSString *str = (NSString *)kUTTypePlainText; // str = b ? kUTTypeRTF : kUTTypePlainText; // NSString *_uuidString = (NSString *)CFUUIDCreateString(kCFAllocatorDefault, // _uuid); // ----> // NSString *str = (__bridge NSString *)kUTTypePlainText; // str = (__bridge NSString *)(b ? kUTTypeRTF : kUTTypePlainText); // NSString *_uuidString = (__bridge_transfer NSString *) // CFUUIDCreateString(kCFAllocatorDefault, _uuid); // // For a C pointer to ObjC, for casting 'self', __bridge is used. // // CFStringRef str = (CFStringRef)self; // ----> // CFStringRef str = (__bridge CFStringRef)self; // //===----------------------------------------------------------------------===// #include "Transforms.h" #include "Internals.h" #include "clang/Analysis/DomainSpecific/CocoaConventions.h" #include "clang/Sema/SemaDiagnostic.h" #include "clang/AST/ParentMap.h" #include "clang/Basic/SourceManager.h" #include "llvm/ADT/SmallString.h" using namespace clang; using namespace arcmt; using namespace trans; namespace { class UnbridgedCastRewriter : public RecursiveASTVisitor<UnbridgedCastRewriter>{ MigrationPass &Pass; IdentifierInfo *SelfII; OwningPtr<ParentMap> StmtMap; public: UnbridgedCastRewriter(MigrationPass &pass) : Pass(pass) { SelfII = &Pass.Ctx.Idents.get("self"); } void transformBody(Stmt *body) { StmtMap.reset(new ParentMap(body)); TraverseStmt(body); } bool VisitCastExpr(CastExpr *E) { if (E->getCastKind() != CK_CPointerToObjCPointerCast && E->getCastKind() != CK_BitCast) return true; QualType castType = E->getType(); Expr *castExpr = E->getSubExpr(); QualType castExprType = castExpr->getType(); if (castType->isObjCObjectPointerType() && castExprType->isObjCObjectPointerType()) return true; if (!castType->isObjCObjectPointerType() && !castExprType->isObjCObjectPointerType()) return true; bool exprRetainable = castExprType->isObjCIndirectLifetimeType(); bool castRetainable = castType->isObjCIndirectLifetimeType(); if (exprRetainable == castRetainable) return true; if (castExpr->isNullPointerConstant(Pass.Ctx, Expr::NPC_ValueDependentIsNull)) return true; SourceLocation loc = castExpr->getExprLoc(); if (loc.isValid() && Pass.Ctx.getSourceManager().isInSystemHeader(loc)) return true; if (castType->isObjCObjectPointerType()) transformNonObjCToObjCCast(E); else transformObjCToNonObjCCast(E); return true; } private: void transformNonObjCToObjCCast(CastExpr *E) { if (!E) return; // Global vars are assumed that are cast as unretained. if (isGlobalVar(E)) if (E->getSubExpr()->getType()->isPointerType()) { castToObjCObject(E, /*retained=*/false); return; } // If the cast is directly over the result of a Core Foundation function // try to figure out whether it should be cast as retained or unretained. Expr *inner = E->IgnoreParenCasts(); if (CallExpr *callE = dyn_cast<CallExpr>(inner)) { if (FunctionDecl *FD = callE->getDirectCallee()) { if (FD->getAttr<CFReturnsRetainedAttr>()) { castToObjCObject(E, /*retained=*/true); return; } if (FD->getAttr<CFReturnsNotRetainedAttr>()) { castToObjCObject(E, /*retained=*/false); return; } if (FD->isGlobal() && FD->getIdentifier() && ento::cocoa::isRefType(E->getSubExpr()->getType(), "CF", FD->getIdentifier()->getName())) { StringRef fname = FD->getIdentifier()->getName(); if (fname.endswith("Retain") || fname.find("Create") != StringRef::npos || fname.find("Copy") != StringRef::npos) { // Do not migrate to couple of bridge transfer casts which // cancel each other out. Leave it unchanged so error gets user // attention instead. if (FD->getName() == "CFRetain" && FD->getNumParams() == 1 && FD->getParent()->isTranslationUnit() && FD->getLinkage() == ExternalLinkage) { Expr *Arg = callE->getArg(0); if (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(Arg)) { const Expr *sub = ICE->getSubExpr(); QualType T = sub->getType(); if (T->isObjCObjectPointerType()) return; } } castToObjCObject(E, /*retained=*/true); return; } if (fname.find("Get") != StringRef::npos) { castToObjCObject(E, /*retained=*/false); return; } } } } } void castToObjCObject(CastExpr *E, bool retained) { rewriteToBridgedCast(E, retained ? OBC_BridgeTransfer : OBC_Bridge); } void rewriteToBridgedCast(CastExpr *E, ObjCBridgeCastKind Kind) { Transaction Trans(Pass.TA); rewriteToBridgedCast(E, Kind, Trans); } void rewriteToBridgedCast(CastExpr *E, ObjCBridgeCastKind Kind, Transaction &Trans) { TransformActions &TA = Pass.TA; // We will remove the compiler diagnostic. if (!TA.hasDiagnostic(diag::err_arc_mismatched_cast, diag::err_arc_cast_requires_bridge, E->getLocStart())) { Trans.abort(); return; } StringRef bridge; switch(Kind) { case OBC_Bridge: bridge = "__bridge "; break; case OBC_BridgeTransfer: bridge = "__bridge_transfer "; break; case OBC_BridgeRetained: bridge = "__bridge_retained "; break; } TA.clearDiagnostic(diag::err_arc_mismatched_cast, diag::err_arc_cast_requires_bridge, E->getLocStart()); if (CStyleCastExpr *CCE = dyn_cast<CStyleCastExpr>(E)) { TA.insertAfterToken(CCE->getLParenLoc(), bridge); } else { SourceLocation insertLoc = E->getSubExpr()->getLocStart(); SmallString<128> newCast; newCast += '('; newCast += bridge; newCast += E->getType().getAsString(Pass.Ctx.getPrintingPolicy()); newCast += ')'; if (isa<ParenExpr>(E->getSubExpr())) { TA.insert(insertLoc, newCast.str()); } else { newCast += '('; TA.insert(insertLoc, newCast.str()); TA.insertAfterToken(E->getLocEnd(), ")"); } } } void rewriteCastForCFRetain(CastExpr *castE, CallExpr *callE) { Transaction Trans(Pass.TA); Pass.TA.replace(callE->getSourceRange(), callE->getArg(0)->getSourceRange()); rewriteToBridgedCast(castE, OBC_BridgeRetained, Trans); } void transformObjCToNonObjCCast(CastExpr *E) { if (isSelf(E->getSubExpr())) return rewriteToBridgedCast(E, OBC_Bridge); CallExpr *callE; if (isPassedToCFRetain(E, callE)) return rewriteCastForCFRetain(E, callE); ObjCMethodFamily family = getFamilyOfMessage(E->getSubExpr()); if (family == OMF_retain) return rewriteToBridgedCast(E, OBC_BridgeRetained); if (family == OMF_autorelease || family == OMF_release) { std::string err = "it is not safe to cast to '"; err += E->getType().getAsString(Pass.Ctx.getPrintingPolicy()); err += "' the result of '"; err += family == OMF_autorelease ? "autorelease" : "release"; err += "' message; a __bridge cast may result in a pointer to a " "destroyed object and a __bridge_retained may leak the object"; Pass.TA.reportError(err, E->getLocStart(), E->getSubExpr()->getSourceRange()); Stmt *parent = E; do { parent = StmtMap->getParentIgnoreParenImpCasts(parent); } while (parent && isa<ExprWithCleanups>(parent)); if (ReturnStmt *retS = dyn_cast_or_null<ReturnStmt>(parent)) { std::string note = "remove the cast and change return type of function " "to '"; note += E->getSubExpr()->getType().getAsString(Pass.Ctx.getPrintingPolicy()); note += "' to have the object automatically autoreleased"; Pass.TA.reportNote(note, retS->getLocStart()); } } Expr *subExpr = E->getSubExpr(); // Look through pseudo-object expressions. if (PseudoObjectExpr *pseudo = dyn_cast<PseudoObjectExpr>(subExpr)) { subExpr = pseudo->getResultExpr(); assert(subExpr && "no result for pseudo-object of non-void type?"); } if (ImplicitCastExpr *implCE = dyn_cast<ImplicitCastExpr>(subExpr)) { if (implCE->getCastKind() == CK_ARCConsumeObject) return rewriteToBridgedCast(E, OBC_BridgeRetained); if (implCE->getCastKind() == CK_ARCReclaimReturnedObject) return rewriteToBridgedCast(E, OBC_Bridge); } bool isConsumed = false; if (isPassedToCParamWithKnownOwnership(E, isConsumed)) return rewriteToBridgedCast(E, isConsumed ? OBC_BridgeRetained : OBC_Bridge); } static ObjCMethodFamily getFamilyOfMessage(Expr *E) { E = E->IgnoreParenCasts(); if (ObjCMessageExpr *ME = dyn_cast<ObjCMessageExpr>(E)) return ME->getMethodFamily(); return OMF_None; } bool isPassedToCFRetain(Expr *E, CallExpr *&callE) const { if ((callE = dyn_cast_or_null<CallExpr>( StmtMap->getParentIgnoreParenImpCasts(E)))) if (FunctionDecl * FD = dyn_cast_or_null<FunctionDecl>(callE->getCalleeDecl())) if (FD->getName() == "CFRetain" && FD->getNumParams() == 1 && FD->getParent()->isTranslationUnit() && FD->getLinkage() == ExternalLinkage) return true; return false; } bool isPassedToCParamWithKnownOwnership(Expr *E, bool &isConsumed) const { if (CallExpr *callE = dyn_cast_or_null<CallExpr>( StmtMap->getParentIgnoreParenImpCasts(E))) if (FunctionDecl * FD = dyn_cast_or_null<FunctionDecl>(callE->getCalleeDecl())) { unsigned i = 0; for (unsigned e = callE->getNumArgs(); i != e; ++i) { Expr *arg = callE->getArg(i); if (arg == E || arg->IgnoreParenImpCasts() == E) break; } if (i < callE->getNumArgs()) { ParmVarDecl *PD = FD->getParamDecl(i); if (PD->getAttr<CFConsumedAttr>()) { isConsumed = true; return true; } } } return false; } bool isSelf(Expr *E) const { E = E->IgnoreParenLValueCasts(); if (DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(E)) if (ImplicitParamDecl *IPD = dyn_cast<ImplicitParamDecl>(DRE->getDecl())) if (IPD->getIdentifier() == SelfII) return true; return false; } }; } // end anonymous namespace void trans::rewriteUnbridgedCasts(MigrationPass &pass) { BodyTransform<UnbridgedCastRewriter> trans(pass); trans.TraverseDecl(pass.Ctx.getTranslationUnitDecl()); }