xref: /freebsd/contrib/llvm-project/clang/lib/ARCMigrate/ObjCMT.cpp (revision 271171e0d97b88ba2a7c3bf750c9672b484c1c13)
1 //===--- ObjCMT.cpp - ObjC Migrate Tool -----------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #include "Transforms.h"
10 #include "clang/Analysis/RetainSummaryManager.h"
11 #include "clang/ARCMigrate/ARCMT.h"
12 #include "clang/ARCMigrate/ARCMTActions.h"
13 #include "clang/AST/ASTConsumer.h"
14 #include "clang/AST/ASTContext.h"
15 #include "clang/AST/Attr.h"
16 #include "clang/AST/NSAPI.h"
17 #include "clang/AST/ParentMap.h"
18 #include "clang/AST/RecursiveASTVisitor.h"
19 #include "clang/Analysis/DomainSpecific/CocoaConventions.h"
20 #include "clang/Basic/FileManager.h"
21 #include "clang/Edit/Commit.h"
22 #include "clang/Edit/EditedSource.h"
23 #include "clang/Edit/EditsReceiver.h"
24 #include "clang/Edit/Rewriters.h"
25 #include "clang/Frontend/CompilerInstance.h"
26 #include "clang/Frontend/MultiplexConsumer.h"
27 #include "clang/Lex/PPConditionalDirectiveRecord.h"
28 #include "clang/Lex/Preprocessor.h"
29 #include "clang/Rewrite/Core/Rewriter.h"
30 #include "llvm/ADT/SmallString.h"
31 #include "llvm/ADT/StringSet.h"
32 #include "llvm/Support/Path.h"
33 #include "llvm/Support/SourceMgr.h"
34 #include "llvm/Support/YAMLParser.h"
35 
36 using namespace clang;
37 using namespace arcmt;
38 using namespace ento;
39 
40 namespace {
41 
42 class ObjCMigrateASTConsumer : public ASTConsumer {
43   enum CF_BRIDGING_KIND {
44     CF_BRIDGING_NONE,
45     CF_BRIDGING_ENABLE,
46     CF_BRIDGING_MAY_INCLUDE
47   };
48 
49   void migrateDecl(Decl *D);
50   void migrateObjCContainerDecl(ASTContext &Ctx, ObjCContainerDecl *D);
51   void migrateProtocolConformance(ASTContext &Ctx,
52                                   const ObjCImplementationDecl *ImpDecl);
53   void CacheObjCNSIntegerTypedefed(const TypedefDecl *TypedefDcl);
54   bool migrateNSEnumDecl(ASTContext &Ctx, const EnumDecl *EnumDcl,
55                      const TypedefDecl *TypedefDcl);
56   void migrateAllMethodInstaceType(ASTContext &Ctx, ObjCContainerDecl *CDecl);
57   void migrateMethodInstanceType(ASTContext &Ctx, ObjCContainerDecl *CDecl,
58                                  ObjCMethodDecl *OM);
59   bool migrateProperty(ASTContext &Ctx, ObjCContainerDecl *D, ObjCMethodDecl *OM);
60   void migrateNsReturnsInnerPointer(ASTContext &Ctx, ObjCMethodDecl *OM);
61   void migratePropertyNsReturnsInnerPointer(ASTContext &Ctx, ObjCPropertyDecl *P);
62   void migrateFactoryMethod(ASTContext &Ctx, ObjCContainerDecl *CDecl,
63                             ObjCMethodDecl *OM,
64                             ObjCInstanceTypeFamily OIT_Family = OIT_None);
65 
66   void migrateCFAnnotation(ASTContext &Ctx, const Decl *Decl);
67   void AddCFAnnotations(ASTContext &Ctx,
68                         const RetainSummary *RS,
69                         const FunctionDecl *FuncDecl, bool ResultAnnotated);
70   void AddCFAnnotations(ASTContext &Ctx,
71                         const RetainSummary *RS,
72                         const ObjCMethodDecl *MethodDecl, bool ResultAnnotated);
73 
74   void AnnotateImplicitBridging(ASTContext &Ctx);
75 
76   CF_BRIDGING_KIND migrateAddFunctionAnnotation(ASTContext &Ctx,
77                                                 const FunctionDecl *FuncDecl);
78 
79   void migrateARCSafeAnnotation(ASTContext &Ctx, ObjCContainerDecl *CDecl);
80 
81   void migrateAddMethodAnnotation(ASTContext &Ctx,
82                                   const ObjCMethodDecl *MethodDecl);
83 
84   void inferDesignatedInitializers(ASTContext &Ctx,
85                                    const ObjCImplementationDecl *ImplD);
86 
87   bool InsertFoundation(ASTContext &Ctx, SourceLocation Loc);
88 
89   std::unique_ptr<RetainSummaryManager> Summaries;
90 
91 public:
92   std::string MigrateDir;
93   unsigned ASTMigrateActions;
94   FileID FileId;
95   const TypedefDecl *NSIntegerTypedefed;
96   const TypedefDecl *NSUIntegerTypedefed;
97   std::unique_ptr<NSAPI> NSAPIObj;
98   std::unique_ptr<edit::EditedSource> Editor;
99   FileRemapper &Remapper;
100   FileManager &FileMgr;
101   const PPConditionalDirectiveRecord *PPRec;
102   Preprocessor &PP;
103   bool IsOutputFile;
104   bool FoundationIncluded;
105   llvm::SmallPtrSet<ObjCProtocolDecl *, 32> ObjCProtocolDecls;
106   llvm::SmallVector<const Decl *, 8> CFFunctionIBCandidates;
107   llvm::StringSet<> AllowListFilenames;
108 
109   RetainSummaryManager &getSummaryManager(ASTContext &Ctx) {
110     if (!Summaries)
111       Summaries.reset(new RetainSummaryManager(Ctx,
112                                                /*TrackNSCFObjects=*/true,
113                                                /*trackOSObjects=*/false));
114     return *Summaries;
115   }
116 
117   ObjCMigrateASTConsumer(StringRef migrateDir, unsigned astMigrateActions,
118                          FileRemapper &remapper, FileManager &fileMgr,
119                          const PPConditionalDirectiveRecord *PPRec,
120                          Preprocessor &PP, bool isOutputFile,
121                          ArrayRef<std::string> AllowList)
122       : MigrateDir(migrateDir), ASTMigrateActions(astMigrateActions),
123         NSIntegerTypedefed(nullptr), NSUIntegerTypedefed(nullptr),
124         Remapper(remapper), FileMgr(fileMgr), PPRec(PPRec), PP(PP),
125         IsOutputFile(isOutputFile), FoundationIncluded(false) {
126     // FIXME: StringSet should have insert(iter, iter) to use here.
127     for (const std::string &Val : AllowList)
128       AllowListFilenames.insert(Val);
129   }
130 
131 protected:
132   void Initialize(ASTContext &Context) override {
133     NSAPIObj.reset(new NSAPI(Context));
134     Editor.reset(new edit::EditedSource(Context.getSourceManager(),
135                                         Context.getLangOpts(),
136                                         PPRec));
137   }
138 
139   bool HandleTopLevelDecl(DeclGroupRef DG) override {
140     for (DeclGroupRef::iterator I = DG.begin(), E = DG.end(); I != E; ++I)
141       migrateDecl(*I);
142     return true;
143   }
144   void HandleInterestingDecl(DeclGroupRef DG) override {
145     // Ignore decls from the PCH.
146   }
147   void HandleTopLevelDeclInObjCContainer(DeclGroupRef DG) override {
148     ObjCMigrateASTConsumer::HandleTopLevelDecl(DG);
149   }
150 
151   void HandleTranslationUnit(ASTContext &Ctx) override;
152 
153   bool canModifyFile(StringRef Path) {
154     if (AllowListFilenames.empty())
155       return true;
156     return AllowListFilenames.find(llvm::sys::path::filename(Path)) !=
157            AllowListFilenames.end();
158   }
159   bool canModifyFile(Optional<FileEntryRef> FE) {
160     if (!FE)
161       return false;
162     return canModifyFile(FE->getName());
163   }
164   bool canModifyFile(FileID FID) {
165     if (FID.isInvalid())
166       return false;
167     return canModifyFile(PP.getSourceManager().getFileEntryRefForID(FID));
168   }
169 
170   bool canModify(const Decl *D) {
171     if (!D)
172       return false;
173     if (const ObjCCategoryImplDecl *CatImpl = dyn_cast<ObjCCategoryImplDecl>(D))
174       return canModify(CatImpl->getCategoryDecl());
175     if (const ObjCImplementationDecl *Impl = dyn_cast<ObjCImplementationDecl>(D))
176       return canModify(Impl->getClassInterface());
177     if (const ObjCMethodDecl *MD = dyn_cast<ObjCMethodDecl>(D))
178       return canModify(cast<Decl>(MD->getDeclContext()));
179 
180     FileID FID = PP.getSourceManager().getFileID(D->getLocation());
181     return canModifyFile(FID);
182   }
183 };
184 
185 } // end anonymous namespace
186 
187 ObjCMigrateAction::ObjCMigrateAction(
188     std::unique_ptr<FrontendAction> WrappedAction, StringRef migrateDir,
189     unsigned migrateAction)
190     : WrapperFrontendAction(std::move(WrappedAction)), MigrateDir(migrateDir),
191       ObjCMigAction(migrateAction), CompInst(nullptr) {
192   if (MigrateDir.empty())
193     MigrateDir = "."; // user current directory if none is given.
194 }
195 
196 std::unique_ptr<ASTConsumer>
197 ObjCMigrateAction::CreateASTConsumer(CompilerInstance &CI, StringRef InFile) {
198   PPConditionalDirectiveRecord *
199     PPRec = new PPConditionalDirectiveRecord(CompInst->getSourceManager());
200   CI.getPreprocessor().addPPCallbacks(std::unique_ptr<PPCallbacks>(PPRec));
201   std::vector<std::unique_ptr<ASTConsumer>> Consumers;
202   Consumers.push_back(WrapperFrontendAction::CreateASTConsumer(CI, InFile));
203   Consumers.push_back(std::make_unique<ObjCMigrateASTConsumer>(
204       MigrateDir, ObjCMigAction, Remapper, CompInst->getFileManager(), PPRec,
205       CompInst->getPreprocessor(), false, None));
206   return std::make_unique<MultiplexConsumer>(std::move(Consumers));
207 }
208 
209 bool ObjCMigrateAction::BeginInvocation(CompilerInstance &CI) {
210   Remapper.initFromDisk(MigrateDir, CI.getDiagnostics(),
211                         /*ignoreIfFilesChanged=*/true);
212   CompInst = &CI;
213   CI.getDiagnostics().setIgnoreAllWarnings(true);
214   return true;
215 }
216 
217 namespace {
218   // FIXME. This duplicates one in RewriteObjCFoundationAPI.cpp
219   bool subscriptOperatorNeedsParens(const Expr *FullExpr) {
220     const Expr* Expr = FullExpr->IgnoreImpCasts();
221     return !(isa<ArraySubscriptExpr>(Expr) || isa<CallExpr>(Expr) ||
222              isa<DeclRefExpr>(Expr) || isa<CXXNamedCastExpr>(Expr) ||
223              isa<CXXConstructExpr>(Expr) || isa<CXXThisExpr>(Expr) ||
224              isa<CXXTypeidExpr>(Expr) ||
225              isa<CXXUnresolvedConstructExpr>(Expr) ||
226              isa<ObjCMessageExpr>(Expr) || isa<ObjCPropertyRefExpr>(Expr) ||
227              isa<ObjCProtocolExpr>(Expr) || isa<MemberExpr>(Expr) ||
228              isa<ObjCIvarRefExpr>(Expr) || isa<ParenExpr>(FullExpr) ||
229              isa<ParenListExpr>(Expr) || isa<SizeOfPackExpr>(Expr));
230   }
231 
232   /// - Rewrite message expression for Objective-C setter and getters into
233   /// property-dot syntax.
234   bool rewriteToPropertyDotSyntax(const ObjCMessageExpr *Msg,
235                                   Preprocessor &PP,
236                                   const NSAPI &NS, edit::Commit &commit,
237                                   const ParentMap *PMap) {
238     if (!Msg || Msg->isImplicit() ||
239         (Msg->getReceiverKind() != ObjCMessageExpr::Instance &&
240          Msg->getReceiverKind() != ObjCMessageExpr::SuperInstance))
241       return false;
242     if (const Expr *Receiver = Msg->getInstanceReceiver())
243       if (Receiver->getType()->isObjCBuiltinType())
244         return false;
245 
246     const ObjCMethodDecl *Method = Msg->getMethodDecl();
247     if (!Method)
248       return false;
249     if (!Method->isPropertyAccessor())
250       return false;
251 
252     const ObjCPropertyDecl *Prop = Method->findPropertyDecl();
253     if (!Prop)
254       return false;
255 
256     SourceRange MsgRange = Msg->getSourceRange();
257     bool ReceiverIsSuper =
258       (Msg->getReceiverKind() == ObjCMessageExpr::SuperInstance);
259     // for 'super' receiver is nullptr.
260     const Expr *receiver = Msg->getInstanceReceiver();
261     bool NeedsParen =
262       ReceiverIsSuper ? false : subscriptOperatorNeedsParens(receiver);
263     bool IsGetter = (Msg->getNumArgs() == 0);
264     if (IsGetter) {
265       // Find space location range between receiver expression and getter method.
266       SourceLocation BegLoc =
267           ReceiverIsSuper ? Msg->getSuperLoc() : receiver->getEndLoc();
268       BegLoc = PP.getLocForEndOfToken(BegLoc);
269       SourceLocation EndLoc = Msg->getSelectorLoc(0);
270       SourceRange SpaceRange(BegLoc, EndLoc);
271       std::string PropertyDotString;
272       // rewrite getter method expression into: receiver.property or
273       // (receiver).property
274       if (NeedsParen) {
275         commit.insertBefore(receiver->getBeginLoc(), "(");
276         PropertyDotString = ").";
277       }
278       else
279         PropertyDotString = ".";
280       PropertyDotString += Prop->getName();
281       commit.replace(SpaceRange, PropertyDotString);
282 
283       // remove '[' ']'
284       commit.replace(SourceRange(MsgRange.getBegin(), MsgRange.getBegin()), "");
285       commit.replace(SourceRange(MsgRange.getEnd(), MsgRange.getEnd()), "");
286     } else {
287       if (NeedsParen)
288         commit.insertWrap("(", receiver->getSourceRange(), ")");
289       std::string PropertyDotString = ".";
290       PropertyDotString += Prop->getName();
291       PropertyDotString += " =";
292       const Expr*const* Args = Msg->getArgs();
293       const Expr *RHS = Args[0];
294       if (!RHS)
295         return false;
296       SourceLocation BegLoc =
297           ReceiverIsSuper ? Msg->getSuperLoc() : receiver->getEndLoc();
298       BegLoc = PP.getLocForEndOfToken(BegLoc);
299       SourceLocation EndLoc = RHS->getBeginLoc();
300       EndLoc = EndLoc.getLocWithOffset(-1);
301       const char *colon = PP.getSourceManager().getCharacterData(EndLoc);
302       // Add a space after '=' if there is no space between RHS and '='
303       if (colon && colon[0] == ':')
304         PropertyDotString += " ";
305       SourceRange Range(BegLoc, EndLoc);
306       commit.replace(Range, PropertyDotString);
307       // remove '[' ']'
308       commit.replace(SourceRange(MsgRange.getBegin(), MsgRange.getBegin()), "");
309       commit.replace(SourceRange(MsgRange.getEnd(), MsgRange.getEnd()), "");
310     }
311     return true;
312   }
313 
314 class ObjCMigrator : public RecursiveASTVisitor<ObjCMigrator> {
315   ObjCMigrateASTConsumer &Consumer;
316   ParentMap &PMap;
317 
318 public:
319   ObjCMigrator(ObjCMigrateASTConsumer &consumer, ParentMap &PMap)
320     : Consumer(consumer), PMap(PMap) { }
321 
322   bool shouldVisitTemplateInstantiations() const { return false; }
323   bool shouldWalkTypesOfTypeLocs() const { return false; }
324 
325   bool VisitObjCMessageExpr(ObjCMessageExpr *E) {
326     if (Consumer.ASTMigrateActions & FrontendOptions::ObjCMT_Literals) {
327       edit::Commit commit(*Consumer.Editor);
328       edit::rewriteToObjCLiteralSyntax(E, *Consumer.NSAPIObj, commit, &PMap);
329       Consumer.Editor->commit(commit);
330     }
331 
332     if (Consumer.ASTMigrateActions & FrontendOptions::ObjCMT_Subscripting) {
333       edit::Commit commit(*Consumer.Editor);
334       edit::rewriteToObjCSubscriptSyntax(E, *Consumer.NSAPIObj, commit);
335       Consumer.Editor->commit(commit);
336     }
337 
338     if (Consumer.ASTMigrateActions & FrontendOptions::ObjCMT_PropertyDotSyntax) {
339       edit::Commit commit(*Consumer.Editor);
340       rewriteToPropertyDotSyntax(E, Consumer.PP, *Consumer.NSAPIObj,
341                                  commit, &PMap);
342       Consumer.Editor->commit(commit);
343     }
344 
345     return true;
346   }
347 
348   bool TraverseObjCMessageExpr(ObjCMessageExpr *E) {
349     // Do depth first; we want to rewrite the subexpressions first so that if
350     // we have to move expressions we will move them already rewritten.
351     for (Stmt *SubStmt : E->children())
352       if (!TraverseStmt(SubStmt))
353         return false;
354 
355     return WalkUpFromObjCMessageExpr(E);
356   }
357 };
358 
359 class BodyMigrator : public RecursiveASTVisitor<BodyMigrator> {
360   ObjCMigrateASTConsumer &Consumer;
361   std::unique_ptr<ParentMap> PMap;
362 
363 public:
364   BodyMigrator(ObjCMigrateASTConsumer &consumer) : Consumer(consumer) { }
365 
366   bool shouldVisitTemplateInstantiations() const { return false; }
367   bool shouldWalkTypesOfTypeLocs() const { return false; }
368 
369   bool TraverseStmt(Stmt *S) {
370     PMap.reset(new ParentMap(S));
371     ObjCMigrator(Consumer, *PMap).TraverseStmt(S);
372     return true;
373   }
374 };
375 } // end anonymous namespace
376 
377 void ObjCMigrateASTConsumer::migrateDecl(Decl *D) {
378   if (!D)
379     return;
380   if (isa<ObjCMethodDecl>(D))
381     return; // Wait for the ObjC container declaration.
382 
383   BodyMigrator(*this).TraverseDecl(D);
384 }
385 
386 static void append_attr(std::string &PropertyString, const char *attr,
387                         bool &LParenAdded) {
388   if (!LParenAdded) {
389     PropertyString += "(";
390     LParenAdded = true;
391   }
392   else
393     PropertyString += ", ";
394   PropertyString += attr;
395 }
396 
397 static
398 void MigrateBlockOrFunctionPointerTypeVariable(std::string & PropertyString,
399                                                const std::string& TypeString,
400                                                const char *name) {
401   const char *argPtr = TypeString.c_str();
402   int paren = 0;
403   while (*argPtr) {
404     switch (*argPtr) {
405       case '(':
406         PropertyString += *argPtr;
407         paren++;
408         break;
409       case ')':
410         PropertyString += *argPtr;
411         paren--;
412         break;
413       case '^':
414       case '*':
415         PropertyString += (*argPtr);
416         if (paren == 1) {
417           PropertyString += name;
418           name = "";
419         }
420         break;
421       default:
422         PropertyString += *argPtr;
423         break;
424     }
425     argPtr++;
426   }
427 }
428 
429 static const char *PropertyMemoryAttribute(ASTContext &Context, QualType ArgType) {
430   Qualifiers::ObjCLifetime propertyLifetime = ArgType.getObjCLifetime();
431   bool RetainableObject = ArgType->isObjCRetainableType();
432   if (RetainableObject &&
433       (propertyLifetime == Qualifiers::OCL_Strong
434        || propertyLifetime == Qualifiers::OCL_None)) {
435     if (const ObjCObjectPointerType *ObjPtrTy =
436         ArgType->getAs<ObjCObjectPointerType>()) {
437       ObjCInterfaceDecl *IDecl = ObjPtrTy->getObjectType()->getInterface();
438       if (IDecl &&
439           IDecl->lookupNestedProtocol(&Context.Idents.get("NSCopying")))
440         return "copy";
441       else
442         return "strong";
443     }
444     else if (ArgType->isBlockPointerType())
445       return "copy";
446   } else if (propertyLifetime == Qualifiers::OCL_Weak)
447     // TODO. More precise determination of 'weak' attribute requires
448     // looking into setter's implementation for backing weak ivar.
449     return "weak";
450   else if (RetainableObject)
451     return ArgType->isBlockPointerType() ? "copy" : "strong";
452   return nullptr;
453 }
454 
455 static void rewriteToObjCProperty(const ObjCMethodDecl *Getter,
456                                   const ObjCMethodDecl *Setter,
457                                   const NSAPI &NS, edit::Commit &commit,
458                                   unsigned LengthOfPrefix,
459                                   bool Atomic, bool UseNsIosOnlyMacro,
460                                   bool AvailabilityArgsMatch) {
461   ASTContext &Context = NS.getASTContext();
462   bool LParenAdded = false;
463   std::string PropertyString = "@property ";
464   if (UseNsIosOnlyMacro && NS.isMacroDefined("NS_NONATOMIC_IOSONLY")) {
465     PropertyString += "(NS_NONATOMIC_IOSONLY";
466     LParenAdded = true;
467   } else if (!Atomic) {
468     PropertyString += "(nonatomic";
469     LParenAdded = true;
470   }
471 
472   std::string PropertyNameString = Getter->getNameAsString();
473   StringRef PropertyName(PropertyNameString);
474   if (LengthOfPrefix > 0) {
475     if (!LParenAdded) {
476       PropertyString += "(getter=";
477       LParenAdded = true;
478     }
479     else
480       PropertyString += ", getter=";
481     PropertyString += PropertyNameString;
482   }
483   // Property with no setter may be suggested as a 'readonly' property.
484   if (!Setter)
485     append_attr(PropertyString, "readonly", LParenAdded);
486 
487 
488   // Short circuit 'delegate' properties that contain the name "delegate" or
489   // "dataSource", or have exact name "target" to have 'assign' attribute.
490   if (PropertyName.equals("target") || PropertyName.contains("delegate") ||
491       PropertyName.contains("dataSource")) {
492     QualType QT = Getter->getReturnType();
493     if (!QT->isRealType())
494       append_attr(PropertyString, "assign", LParenAdded);
495   } else if (!Setter) {
496     QualType ResType = Context.getCanonicalType(Getter->getReturnType());
497     if (const char *MemoryManagementAttr = PropertyMemoryAttribute(Context, ResType))
498       append_attr(PropertyString, MemoryManagementAttr, LParenAdded);
499   } else {
500     const ParmVarDecl *argDecl = *Setter->param_begin();
501     QualType ArgType = Context.getCanonicalType(argDecl->getType());
502     if (const char *MemoryManagementAttr = PropertyMemoryAttribute(Context, ArgType))
503       append_attr(PropertyString, MemoryManagementAttr, LParenAdded);
504   }
505   if (LParenAdded)
506     PropertyString += ')';
507   QualType RT = Getter->getReturnType();
508   if (!isa<TypedefType>(RT)) {
509     // strip off any ARC lifetime qualifier.
510     QualType CanResultTy = Context.getCanonicalType(RT);
511     if (CanResultTy.getQualifiers().hasObjCLifetime()) {
512       Qualifiers Qs = CanResultTy.getQualifiers();
513       Qs.removeObjCLifetime();
514       RT = Context.getQualifiedType(CanResultTy.getUnqualifiedType(), Qs);
515     }
516   }
517   PropertyString += " ";
518   PrintingPolicy SubPolicy(Context.getPrintingPolicy());
519   SubPolicy.SuppressStrongLifetime = true;
520   SubPolicy.SuppressLifetimeQualifiers = true;
521   std::string TypeString = RT.getAsString(SubPolicy);
522   if (LengthOfPrefix > 0) {
523     // property name must strip off "is" and lower case the first character
524     // after that; e.g. isContinuous will become continuous.
525     StringRef PropertyNameStringRef(PropertyNameString);
526     PropertyNameStringRef = PropertyNameStringRef.drop_front(LengthOfPrefix);
527     PropertyNameString = std::string(PropertyNameStringRef);
528     bool NoLowering = (isUppercase(PropertyNameString[0]) &&
529                        PropertyNameString.size() > 1 &&
530                        isUppercase(PropertyNameString[1]));
531     if (!NoLowering)
532       PropertyNameString[0] = toLowercase(PropertyNameString[0]);
533   }
534   if (RT->isBlockPointerType() || RT->isFunctionPointerType())
535     MigrateBlockOrFunctionPointerTypeVariable(PropertyString,
536                                               TypeString,
537                                               PropertyNameString.c_str());
538   else {
539     char LastChar = TypeString[TypeString.size()-1];
540     PropertyString += TypeString;
541     if (LastChar != '*')
542       PropertyString += ' ';
543     PropertyString += PropertyNameString;
544   }
545   SourceLocation StartGetterSelectorLoc = Getter->getSelectorStartLoc();
546   Selector GetterSelector = Getter->getSelector();
547 
548   SourceLocation EndGetterSelectorLoc =
549     StartGetterSelectorLoc.getLocWithOffset(GetterSelector.getNameForSlot(0).size());
550   commit.replace(CharSourceRange::getCharRange(Getter->getBeginLoc(),
551                                                EndGetterSelectorLoc),
552                  PropertyString);
553   if (Setter && AvailabilityArgsMatch) {
554     SourceLocation EndLoc = Setter->getDeclaratorEndLoc();
555     // Get location past ';'
556     EndLoc = EndLoc.getLocWithOffset(1);
557     SourceLocation BeginOfSetterDclLoc = Setter->getBeginLoc();
558     // FIXME. This assumes that setter decl; is immediately preceded by eoln.
559     // It is trying to remove the setter method decl. line entirely.
560     BeginOfSetterDclLoc = BeginOfSetterDclLoc.getLocWithOffset(-1);
561     commit.remove(SourceRange(BeginOfSetterDclLoc, EndLoc));
562   }
563 }
564 
565 static bool IsCategoryNameWithDeprecatedSuffix(ObjCContainerDecl *D) {
566   if (ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(D)) {
567     StringRef Name = CatDecl->getName();
568     return Name.endswith("Deprecated");
569   }
570   return false;
571 }
572 
573 void ObjCMigrateASTConsumer::migrateObjCContainerDecl(ASTContext &Ctx,
574                                                       ObjCContainerDecl *D) {
575   if (D->isDeprecated() || IsCategoryNameWithDeprecatedSuffix(D))
576     return;
577 
578   for (auto *Method : D->methods()) {
579     if (Method->isDeprecated())
580       continue;
581     bool PropertyInferred = migrateProperty(Ctx, D, Method);
582     // If a property is inferred, do not attempt to attach NS_RETURNS_INNER_POINTER to
583     // the getter method as it ends up on the property itself which we don't want
584     // to do unless -objcmt-returns-innerpointer-property  option is on.
585     if (!PropertyInferred ||
586         (ASTMigrateActions & FrontendOptions::ObjCMT_ReturnsInnerPointerProperty))
587       if (ASTMigrateActions & FrontendOptions::ObjCMT_Annotation)
588         migrateNsReturnsInnerPointer(Ctx, Method);
589   }
590   if (!(ASTMigrateActions & FrontendOptions::ObjCMT_ReturnsInnerPointerProperty))
591     return;
592 
593   for (auto *Prop : D->instance_properties()) {
594     if ((ASTMigrateActions & FrontendOptions::ObjCMT_Annotation) &&
595         !Prop->isDeprecated())
596       migratePropertyNsReturnsInnerPointer(Ctx, Prop);
597   }
598 }
599 
600 static bool
601 ClassImplementsAllMethodsAndProperties(ASTContext &Ctx,
602                                       const ObjCImplementationDecl *ImpDecl,
603                                        const ObjCInterfaceDecl *IDecl,
604                                       ObjCProtocolDecl *Protocol) {
605   // In auto-synthesis, protocol properties are not synthesized. So,
606   // a conforming protocol must have its required properties declared
607   // in class interface.
608   bool HasAtleastOneRequiredProperty = false;
609   if (const ObjCProtocolDecl *PDecl = Protocol->getDefinition())
610     for (const auto *Property : PDecl->instance_properties()) {
611       if (Property->getPropertyImplementation() == ObjCPropertyDecl::Optional)
612         continue;
613       HasAtleastOneRequiredProperty = true;
614       DeclContext::lookup_result R = IDecl->lookup(Property->getDeclName());
615       if (R.empty()) {
616         // Relax the rule and look into class's implementation for a synthesize
617         // or dynamic declaration. Class is implementing a property coming from
618         // another protocol. This still makes the target protocol as conforming.
619         if (!ImpDecl->FindPropertyImplDecl(
620                                   Property->getDeclName().getAsIdentifierInfo(),
621                                   Property->getQueryKind()))
622           return false;
623       } else if (auto *ClassProperty = R.find_first<ObjCPropertyDecl>()) {
624         if ((ClassProperty->getPropertyAttributes() !=
625              Property->getPropertyAttributes()) ||
626             !Ctx.hasSameType(ClassProperty->getType(), Property->getType()))
627           return false;
628       } else
629         return false;
630     }
631 
632   // At this point, all required properties in this protocol conform to those
633   // declared in the class.
634   // Check that class implements the required methods of the protocol too.
635   bool HasAtleastOneRequiredMethod = false;
636   if (const ObjCProtocolDecl *PDecl = Protocol->getDefinition()) {
637     if (PDecl->meth_begin() == PDecl->meth_end())
638       return HasAtleastOneRequiredProperty;
639     for (const auto *MD : PDecl->methods()) {
640       if (MD->isImplicit())
641         continue;
642       if (MD->getImplementationControl() == ObjCMethodDecl::Optional)
643         continue;
644       DeclContext::lookup_result R = ImpDecl->lookup(MD->getDeclName());
645       if (R.empty())
646         return false;
647       bool match = false;
648       HasAtleastOneRequiredMethod = true;
649       for (NamedDecl *ND : R)
650         if (ObjCMethodDecl *ImpMD = dyn_cast<ObjCMethodDecl>(ND))
651           if (Ctx.ObjCMethodsAreEqual(MD, ImpMD)) {
652             match = true;
653             break;
654           }
655       if (!match)
656         return false;
657     }
658   }
659   return HasAtleastOneRequiredProperty || HasAtleastOneRequiredMethod;
660 }
661 
662 static bool rewriteToObjCInterfaceDecl(const ObjCInterfaceDecl *IDecl,
663                     llvm::SmallVectorImpl<ObjCProtocolDecl*> &ConformingProtocols,
664                     const NSAPI &NS, edit::Commit &commit) {
665   const ObjCList<ObjCProtocolDecl> &Protocols = IDecl->getReferencedProtocols();
666   std::string ClassString;
667   SourceLocation EndLoc =
668   IDecl->getSuperClass() ? IDecl->getSuperClassLoc() : IDecl->getLocation();
669 
670   if (Protocols.empty()) {
671     ClassString = '<';
672     for (unsigned i = 0, e = ConformingProtocols.size(); i != e; i++) {
673       ClassString += ConformingProtocols[i]->getNameAsString();
674       if (i != (e-1))
675         ClassString += ", ";
676     }
677     ClassString += "> ";
678   }
679   else {
680     ClassString = ", ";
681     for (unsigned i = 0, e = ConformingProtocols.size(); i != e; i++) {
682       ClassString += ConformingProtocols[i]->getNameAsString();
683       if (i != (e-1))
684         ClassString += ", ";
685     }
686     ObjCInterfaceDecl::protocol_loc_iterator PL = IDecl->protocol_loc_end() - 1;
687     EndLoc = *PL;
688   }
689 
690   commit.insertAfterToken(EndLoc, ClassString);
691   return true;
692 }
693 
694 static StringRef GetUnsignedName(StringRef NSIntegerName) {
695   StringRef UnsignedName = llvm::StringSwitch<StringRef>(NSIntegerName)
696     .Case("int8_t", "uint8_t")
697     .Case("int16_t", "uint16_t")
698     .Case("int32_t", "uint32_t")
699     .Case("NSInteger", "NSUInteger")
700     .Case("int64_t", "uint64_t")
701     .Default(NSIntegerName);
702   return UnsignedName;
703 }
704 
705 static bool rewriteToNSEnumDecl(const EnumDecl *EnumDcl,
706                                 const TypedefDecl *TypedefDcl,
707                                 const NSAPI &NS, edit::Commit &commit,
708                                 StringRef NSIntegerName,
709                                 bool NSOptions) {
710   std::string ClassString;
711   if (NSOptions) {
712     ClassString = "typedef NS_OPTIONS(";
713     ClassString += GetUnsignedName(NSIntegerName);
714   }
715   else {
716     ClassString = "typedef NS_ENUM(";
717     ClassString += NSIntegerName;
718   }
719   ClassString += ", ";
720 
721   ClassString += TypedefDcl->getIdentifier()->getName();
722   ClassString += ')';
723   SourceRange R(EnumDcl->getBeginLoc(), EnumDcl->getBeginLoc());
724   commit.replace(R, ClassString);
725   SourceLocation EndOfEnumDclLoc = EnumDcl->getEndLoc();
726   EndOfEnumDclLoc = trans::findSemiAfterLocation(EndOfEnumDclLoc,
727                                                  NS.getASTContext(), /*IsDecl*/true);
728   if (EndOfEnumDclLoc.isValid()) {
729     SourceRange EnumDclRange(EnumDcl->getBeginLoc(), EndOfEnumDclLoc);
730     commit.insertFromRange(TypedefDcl->getBeginLoc(), EnumDclRange);
731   }
732   else
733     return false;
734 
735   SourceLocation EndTypedefDclLoc = TypedefDcl->getEndLoc();
736   EndTypedefDclLoc = trans::findSemiAfterLocation(EndTypedefDclLoc,
737                                                  NS.getASTContext(), /*IsDecl*/true);
738   if (EndTypedefDclLoc.isValid()) {
739     SourceRange TDRange(TypedefDcl->getBeginLoc(), EndTypedefDclLoc);
740     commit.remove(TDRange);
741   }
742   else
743     return false;
744 
745   EndOfEnumDclLoc =
746       trans::findLocationAfterSemi(EnumDcl->getEndLoc(), NS.getASTContext(),
747                                    /*IsDecl*/ true);
748   if (EndOfEnumDclLoc.isValid()) {
749     SourceLocation BeginOfEnumDclLoc = EnumDcl->getBeginLoc();
750     // FIXME. This assumes that enum decl; is immediately preceded by eoln.
751     // It is trying to remove the enum decl. lines entirely.
752     BeginOfEnumDclLoc = BeginOfEnumDclLoc.getLocWithOffset(-1);
753     commit.remove(SourceRange(BeginOfEnumDclLoc, EndOfEnumDclLoc));
754     return true;
755   }
756   return false;
757 }
758 
759 static void rewriteToNSMacroDecl(ASTContext &Ctx,
760                                  const EnumDecl *EnumDcl,
761                                 const TypedefDecl *TypedefDcl,
762                                 const NSAPI &NS, edit::Commit &commit,
763                                  bool IsNSIntegerType) {
764   QualType DesignatedEnumType = EnumDcl->getIntegerType();
765   assert(!DesignatedEnumType.isNull()
766          && "rewriteToNSMacroDecl - underlying enum type is null");
767 
768   PrintingPolicy Policy(Ctx.getPrintingPolicy());
769   std::string TypeString = DesignatedEnumType.getAsString(Policy);
770   std::string ClassString = IsNSIntegerType ? "NS_ENUM(" : "NS_OPTIONS(";
771   ClassString += TypeString;
772   ClassString += ", ";
773 
774   ClassString += TypedefDcl->getIdentifier()->getName();
775   ClassString += ") ";
776   SourceLocation EndLoc = EnumDcl->getBraceRange().getBegin();
777   if (EndLoc.isInvalid())
778     return;
779   CharSourceRange R =
780       CharSourceRange::getCharRange(EnumDcl->getBeginLoc(), EndLoc);
781   commit.replace(R, ClassString);
782   // This is to remove spaces between '}' and typedef name.
783   SourceLocation StartTypedefLoc = EnumDcl->getEndLoc();
784   StartTypedefLoc = StartTypedefLoc.getLocWithOffset(+1);
785   SourceLocation EndTypedefLoc = TypedefDcl->getEndLoc();
786 
787   commit.remove(SourceRange(StartTypedefLoc, EndTypedefLoc));
788 }
789 
790 static bool UseNSOptionsMacro(Preprocessor &PP, ASTContext &Ctx,
791                               const EnumDecl *EnumDcl) {
792   bool PowerOfTwo = true;
793   bool AllHexdecimalEnumerator = true;
794   uint64_t MaxPowerOfTwoVal = 0;
795   for (auto Enumerator : EnumDcl->enumerators()) {
796     const Expr *InitExpr = Enumerator->getInitExpr();
797     if (!InitExpr) {
798       PowerOfTwo = false;
799       AllHexdecimalEnumerator = false;
800       continue;
801     }
802     InitExpr = InitExpr->IgnoreParenCasts();
803     if (const BinaryOperator *BO = dyn_cast<BinaryOperator>(InitExpr))
804       if (BO->isShiftOp() || BO->isBitwiseOp())
805         return true;
806 
807     uint64_t EnumVal = Enumerator->getInitVal().getZExtValue();
808     if (PowerOfTwo && EnumVal) {
809       if (!llvm::isPowerOf2_64(EnumVal))
810         PowerOfTwo = false;
811       else if (EnumVal > MaxPowerOfTwoVal)
812         MaxPowerOfTwoVal = EnumVal;
813     }
814     if (AllHexdecimalEnumerator && EnumVal) {
815       bool FoundHexdecimalEnumerator = false;
816       SourceLocation EndLoc = Enumerator->getEndLoc();
817       Token Tok;
818       if (!PP.getRawToken(EndLoc, Tok, /*IgnoreWhiteSpace=*/true))
819         if (Tok.isLiteral() && Tok.getLength() > 2) {
820           if (const char *StringLit = Tok.getLiteralData())
821             FoundHexdecimalEnumerator =
822               (StringLit[0] == '0' && (toLowercase(StringLit[1]) == 'x'));
823         }
824       if (!FoundHexdecimalEnumerator)
825         AllHexdecimalEnumerator = false;
826     }
827   }
828   return AllHexdecimalEnumerator || (PowerOfTwo && (MaxPowerOfTwoVal > 2));
829 }
830 
831 void ObjCMigrateASTConsumer::migrateProtocolConformance(ASTContext &Ctx,
832                                             const ObjCImplementationDecl *ImpDecl) {
833   const ObjCInterfaceDecl *IDecl = ImpDecl->getClassInterface();
834   if (!IDecl || ObjCProtocolDecls.empty() || IDecl->isDeprecated())
835     return;
836   // Find all implicit conforming protocols for this class
837   // and make them explicit.
838   llvm::SmallPtrSet<ObjCProtocolDecl *, 8> ExplicitProtocols;
839   Ctx.CollectInheritedProtocols(IDecl, ExplicitProtocols);
840   llvm::SmallVector<ObjCProtocolDecl *, 8> PotentialImplicitProtocols;
841 
842   for (ObjCProtocolDecl *ProtDecl : ObjCProtocolDecls)
843     if (!ExplicitProtocols.count(ProtDecl))
844       PotentialImplicitProtocols.push_back(ProtDecl);
845 
846   if (PotentialImplicitProtocols.empty())
847     return;
848 
849   // go through list of non-optional methods and properties in each protocol
850   // in the PotentialImplicitProtocols list. If class implements every one of the
851   // methods and properties, then this class conforms to this protocol.
852   llvm::SmallVector<ObjCProtocolDecl*, 8> ConformingProtocols;
853   for (unsigned i = 0, e = PotentialImplicitProtocols.size(); i != e; i++)
854     if (ClassImplementsAllMethodsAndProperties(Ctx, ImpDecl, IDecl,
855                                               PotentialImplicitProtocols[i]))
856       ConformingProtocols.push_back(PotentialImplicitProtocols[i]);
857 
858   if (ConformingProtocols.empty())
859     return;
860 
861   // Further reduce number of conforming protocols. If protocol P1 is in the list
862   // protocol P2 (P2<P1>), No need to include P1.
863   llvm::SmallVector<ObjCProtocolDecl*, 8> MinimalConformingProtocols;
864   for (unsigned i = 0, e = ConformingProtocols.size(); i != e; i++) {
865     bool DropIt = false;
866     ObjCProtocolDecl *TargetPDecl = ConformingProtocols[i];
867     for (unsigned i1 = 0, e1 = ConformingProtocols.size(); i1 != e1; i1++) {
868       ObjCProtocolDecl *PDecl = ConformingProtocols[i1];
869       if (PDecl == TargetPDecl)
870         continue;
871       if (PDecl->lookupProtocolNamed(
872             TargetPDecl->getDeclName().getAsIdentifierInfo())) {
873         DropIt = true;
874         break;
875       }
876     }
877     if (!DropIt)
878       MinimalConformingProtocols.push_back(TargetPDecl);
879   }
880   if (MinimalConformingProtocols.empty())
881     return;
882   edit::Commit commit(*Editor);
883   rewriteToObjCInterfaceDecl(IDecl, MinimalConformingProtocols,
884                              *NSAPIObj, commit);
885   Editor->commit(commit);
886 }
887 
888 void ObjCMigrateASTConsumer::CacheObjCNSIntegerTypedefed(
889                                           const TypedefDecl *TypedefDcl) {
890 
891   QualType qt = TypedefDcl->getTypeSourceInfo()->getType();
892   if (NSAPIObj->isObjCNSIntegerType(qt))
893     NSIntegerTypedefed = TypedefDcl;
894   else if (NSAPIObj->isObjCNSUIntegerType(qt))
895     NSUIntegerTypedefed = TypedefDcl;
896 }
897 
898 bool ObjCMigrateASTConsumer::migrateNSEnumDecl(ASTContext &Ctx,
899                                            const EnumDecl *EnumDcl,
900                                            const TypedefDecl *TypedefDcl) {
901   if (!EnumDcl->isCompleteDefinition() || EnumDcl->getIdentifier() ||
902       EnumDcl->isDeprecated())
903     return false;
904   if (!TypedefDcl) {
905     if (NSIntegerTypedefed) {
906       TypedefDcl = NSIntegerTypedefed;
907       NSIntegerTypedefed = nullptr;
908     }
909     else if (NSUIntegerTypedefed) {
910       TypedefDcl = NSUIntegerTypedefed;
911       NSUIntegerTypedefed = nullptr;
912     }
913     else
914       return false;
915     FileID FileIdOfTypedefDcl =
916       PP.getSourceManager().getFileID(TypedefDcl->getLocation());
917     FileID FileIdOfEnumDcl =
918       PP.getSourceManager().getFileID(EnumDcl->getLocation());
919     if (FileIdOfTypedefDcl != FileIdOfEnumDcl)
920       return false;
921   }
922   if (TypedefDcl->isDeprecated())
923     return false;
924 
925   QualType qt = TypedefDcl->getTypeSourceInfo()->getType();
926   StringRef NSIntegerName = NSAPIObj->GetNSIntegralKind(qt);
927 
928   if (NSIntegerName.empty()) {
929     // Also check for typedef enum {...} TD;
930     if (const EnumType *EnumTy = qt->getAs<EnumType>()) {
931       if (EnumTy->getDecl() == EnumDcl) {
932         bool NSOptions = UseNSOptionsMacro(PP, Ctx, EnumDcl);
933         if (!InsertFoundation(Ctx, TypedefDcl->getBeginLoc()))
934           return false;
935         edit::Commit commit(*Editor);
936         rewriteToNSMacroDecl(Ctx, EnumDcl, TypedefDcl, *NSAPIObj, commit, !NSOptions);
937         Editor->commit(commit);
938         return true;
939       }
940     }
941     return false;
942   }
943 
944   // We may still use NS_OPTIONS based on what we find in the enumertor list.
945   bool NSOptions = UseNSOptionsMacro(PP, Ctx, EnumDcl);
946   if (!InsertFoundation(Ctx, TypedefDcl->getBeginLoc()))
947     return false;
948   edit::Commit commit(*Editor);
949   bool Res = rewriteToNSEnumDecl(EnumDcl, TypedefDcl, *NSAPIObj,
950                                  commit, NSIntegerName, NSOptions);
951   Editor->commit(commit);
952   return Res;
953 }
954 
955 static void ReplaceWithInstancetype(ASTContext &Ctx,
956                                     const ObjCMigrateASTConsumer &ASTC,
957                                     ObjCMethodDecl *OM) {
958   if (OM->getReturnType() == Ctx.getObjCInstanceType())
959     return; // already has instancetype.
960 
961   SourceRange R;
962   std::string ClassString;
963   if (TypeSourceInfo *TSInfo = OM->getReturnTypeSourceInfo()) {
964     TypeLoc TL = TSInfo->getTypeLoc();
965     R = SourceRange(TL.getBeginLoc(), TL.getEndLoc());
966     ClassString = "instancetype";
967   }
968   else {
969     R = SourceRange(OM->getBeginLoc(), OM->getBeginLoc());
970     ClassString = OM->isInstanceMethod() ? '-' : '+';
971     ClassString += " (instancetype)";
972   }
973   edit::Commit commit(*ASTC.Editor);
974   commit.replace(R, ClassString);
975   ASTC.Editor->commit(commit);
976 }
977 
978 static void ReplaceWithClasstype(const ObjCMigrateASTConsumer &ASTC,
979                                     ObjCMethodDecl *OM) {
980   ObjCInterfaceDecl *IDecl = OM->getClassInterface();
981   SourceRange R;
982   std::string ClassString;
983   if (TypeSourceInfo *TSInfo = OM->getReturnTypeSourceInfo()) {
984     TypeLoc TL = TSInfo->getTypeLoc();
985     R = SourceRange(TL.getBeginLoc(), TL.getEndLoc()); {
986       ClassString = std::string(IDecl->getName());
987       ClassString += "*";
988     }
989   }
990   else {
991     R = SourceRange(OM->getBeginLoc(), OM->getBeginLoc());
992     ClassString = "+ (";
993     ClassString += IDecl->getName(); ClassString += "*)";
994   }
995   edit::Commit commit(*ASTC.Editor);
996   commit.replace(R, ClassString);
997   ASTC.Editor->commit(commit);
998 }
999 
1000 void ObjCMigrateASTConsumer::migrateMethodInstanceType(ASTContext &Ctx,
1001                                                        ObjCContainerDecl *CDecl,
1002                                                        ObjCMethodDecl *OM) {
1003   ObjCInstanceTypeFamily OIT_Family =
1004     Selector::getInstTypeMethodFamily(OM->getSelector());
1005 
1006   std::string ClassName;
1007   switch (OIT_Family) {
1008     case OIT_None:
1009       migrateFactoryMethod(Ctx, CDecl, OM);
1010       return;
1011     case OIT_Array:
1012       ClassName = "NSArray";
1013       break;
1014     case OIT_Dictionary:
1015       ClassName = "NSDictionary";
1016       break;
1017     case OIT_Singleton:
1018       migrateFactoryMethod(Ctx, CDecl, OM, OIT_Singleton);
1019       return;
1020     case OIT_Init:
1021       if (OM->getReturnType()->isObjCIdType())
1022         ReplaceWithInstancetype(Ctx, *this, OM);
1023       return;
1024     case OIT_ReturnsSelf:
1025       migrateFactoryMethod(Ctx, CDecl, OM, OIT_ReturnsSelf);
1026       return;
1027   }
1028   if (!OM->getReturnType()->isObjCIdType())
1029     return;
1030 
1031   ObjCInterfaceDecl *IDecl = dyn_cast<ObjCInterfaceDecl>(CDecl);
1032   if (!IDecl) {
1033     if (ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(CDecl))
1034       IDecl = CatDecl->getClassInterface();
1035     else if (ObjCImplDecl *ImpDecl = dyn_cast<ObjCImplDecl>(CDecl))
1036       IDecl = ImpDecl->getClassInterface();
1037   }
1038   if (!IDecl ||
1039       !IDecl->lookupInheritedClass(&Ctx.Idents.get(ClassName))) {
1040     migrateFactoryMethod(Ctx, CDecl, OM);
1041     return;
1042   }
1043   ReplaceWithInstancetype(Ctx, *this, OM);
1044 }
1045 
1046 static bool TypeIsInnerPointer(QualType T) {
1047   if (!T->isAnyPointerType())
1048     return false;
1049   if (T->isObjCObjectPointerType() || T->isObjCBuiltinType() ||
1050       T->isBlockPointerType() || T->isFunctionPointerType() ||
1051       ento::coreFoundation::isCFObjectRef(T))
1052     return false;
1053   // Also, typedef-of-pointer-to-incomplete-struct is something that we assume
1054   // is not an innter pointer type.
1055   QualType OrigT = T;
1056   while (const TypedefType *TD = dyn_cast<TypedefType>(T.getTypePtr()))
1057     T = TD->getDecl()->getUnderlyingType();
1058   if (OrigT == T || !T->isPointerType())
1059     return true;
1060   const PointerType* PT = T->getAs<PointerType>();
1061   QualType UPointeeT = PT->getPointeeType().getUnqualifiedType();
1062   if (UPointeeT->isRecordType()) {
1063     const RecordType *RecordTy = UPointeeT->getAs<RecordType>();
1064     if (!RecordTy->getDecl()->isCompleteDefinition())
1065       return false;
1066   }
1067   return true;
1068 }
1069 
1070 /// Check whether the two versions match.
1071 static bool versionsMatch(const VersionTuple &X, const VersionTuple &Y) {
1072   return (X == Y);
1073 }
1074 
1075 /// AvailabilityAttrsMatch - This routine checks that if comparing two
1076 /// availability attributes, all their components match. It returns
1077 /// true, if not dealing with availability or when all components of
1078 /// availability attributes match. This routine is only called when
1079 /// the attributes are of the same kind.
1080 static bool AvailabilityAttrsMatch(Attr *At1, Attr *At2) {
1081   const AvailabilityAttr *AA1 = dyn_cast<AvailabilityAttr>(At1);
1082   if (!AA1)
1083     return true;
1084   const AvailabilityAttr *AA2 = cast<AvailabilityAttr>(At2);
1085 
1086   VersionTuple Introduced1 = AA1->getIntroduced();
1087   VersionTuple Deprecated1 = AA1->getDeprecated();
1088   VersionTuple Obsoleted1 = AA1->getObsoleted();
1089   bool IsUnavailable1 = AA1->getUnavailable();
1090   VersionTuple Introduced2 = AA2->getIntroduced();
1091   VersionTuple Deprecated2 = AA2->getDeprecated();
1092   VersionTuple Obsoleted2 = AA2->getObsoleted();
1093   bool IsUnavailable2 = AA2->getUnavailable();
1094   return (versionsMatch(Introduced1, Introduced2) &&
1095           versionsMatch(Deprecated1, Deprecated2) &&
1096           versionsMatch(Obsoleted1, Obsoleted2) &&
1097           IsUnavailable1 == IsUnavailable2);
1098 }
1099 
1100 static bool MatchTwoAttributeLists(const AttrVec &Attrs1, const AttrVec &Attrs2,
1101                                    bool &AvailabilityArgsMatch) {
1102   // This list is very small, so this need not be optimized.
1103   for (unsigned i = 0, e = Attrs1.size(); i != e; i++) {
1104     bool match = false;
1105     for (unsigned j = 0, f = Attrs2.size(); j != f; j++) {
1106       // Matching attribute kind only. Except for Availability attributes,
1107       // we are not getting into details of the attributes. For all practical purposes
1108       // this is sufficient.
1109       if (Attrs1[i]->getKind() == Attrs2[j]->getKind()) {
1110         if (AvailabilityArgsMatch)
1111           AvailabilityArgsMatch = AvailabilityAttrsMatch(Attrs1[i], Attrs2[j]);
1112         match = true;
1113         break;
1114       }
1115     }
1116     if (!match)
1117       return false;
1118   }
1119   return true;
1120 }
1121 
1122 /// AttributesMatch - This routine checks list of attributes for two
1123 /// decls. It returns false, if there is a mismatch in kind of
1124 /// attributes seen in the decls. It returns true if the two decls
1125 /// have list of same kind of attributes. Furthermore, when there
1126 /// are availability attributes in the two decls, it sets the
1127 /// AvailabilityArgsMatch to false if availability attributes have
1128 /// different versions, etc.
1129 static bool AttributesMatch(const Decl *Decl1, const Decl *Decl2,
1130                             bool &AvailabilityArgsMatch) {
1131   if (!Decl1->hasAttrs() || !Decl2->hasAttrs()) {
1132     AvailabilityArgsMatch = (Decl1->hasAttrs() == Decl2->hasAttrs());
1133     return true;
1134   }
1135   AvailabilityArgsMatch = true;
1136   const AttrVec &Attrs1 = Decl1->getAttrs();
1137   const AttrVec &Attrs2 = Decl2->getAttrs();
1138   bool match = MatchTwoAttributeLists(Attrs1, Attrs2, AvailabilityArgsMatch);
1139   if (match && (Attrs2.size() > Attrs1.size()))
1140     return MatchTwoAttributeLists(Attrs2, Attrs1, AvailabilityArgsMatch);
1141   return match;
1142 }
1143 
1144 static bool IsValidIdentifier(ASTContext &Ctx,
1145                               const char *Name) {
1146   if (!isAsciiIdentifierStart(Name[0]))
1147     return false;
1148   std::string NameString = Name;
1149   NameString[0] = toLowercase(NameString[0]);
1150   IdentifierInfo *II = &Ctx.Idents.get(NameString);
1151   return II->getTokenID() ==  tok::identifier;
1152 }
1153 
1154 bool ObjCMigrateASTConsumer::migrateProperty(ASTContext &Ctx,
1155                              ObjCContainerDecl *D,
1156                              ObjCMethodDecl *Method) {
1157   if (Method->isPropertyAccessor() || !Method->isInstanceMethod() ||
1158       Method->param_size() != 0)
1159     return false;
1160   // Is this method candidate to be a getter?
1161   QualType GRT = Method->getReturnType();
1162   if (GRT->isVoidType())
1163     return false;
1164 
1165   Selector GetterSelector = Method->getSelector();
1166   ObjCInstanceTypeFamily OIT_Family =
1167     Selector::getInstTypeMethodFamily(GetterSelector);
1168 
1169   if (OIT_Family != OIT_None)
1170     return false;
1171 
1172   IdentifierInfo *getterName = GetterSelector.getIdentifierInfoForSlot(0);
1173   Selector SetterSelector =
1174   SelectorTable::constructSetterSelector(PP.getIdentifierTable(),
1175                                          PP.getSelectorTable(),
1176                                          getterName);
1177   ObjCMethodDecl *SetterMethod = D->getInstanceMethod(SetterSelector);
1178   unsigned LengthOfPrefix = 0;
1179   if (!SetterMethod) {
1180     // try a different naming convention for getter: isXxxxx
1181     StringRef getterNameString = getterName->getName();
1182     bool IsPrefix = getterNameString.startswith("is");
1183     // Note that we don't want to change an isXXX method of retainable object
1184     // type to property (readonly or otherwise).
1185     if (IsPrefix && GRT->isObjCRetainableType())
1186       return false;
1187     if (IsPrefix || getterNameString.startswith("get")) {
1188       LengthOfPrefix = (IsPrefix ? 2 : 3);
1189       const char *CGetterName = getterNameString.data() + LengthOfPrefix;
1190       // Make sure that first character after "is" or "get" prefix can
1191       // start an identifier.
1192       if (!IsValidIdentifier(Ctx, CGetterName))
1193         return false;
1194       if (CGetterName[0] && isUppercase(CGetterName[0])) {
1195         getterName = &Ctx.Idents.get(CGetterName);
1196         SetterSelector =
1197         SelectorTable::constructSetterSelector(PP.getIdentifierTable(),
1198                                                PP.getSelectorTable(),
1199                                                getterName);
1200         SetterMethod = D->getInstanceMethod(SetterSelector);
1201       }
1202     }
1203   }
1204 
1205   if (SetterMethod) {
1206     if ((ASTMigrateActions & FrontendOptions::ObjCMT_ReadwriteProperty) == 0)
1207       return false;
1208     bool AvailabilityArgsMatch;
1209     if (SetterMethod->isDeprecated() ||
1210         !AttributesMatch(Method, SetterMethod, AvailabilityArgsMatch))
1211       return false;
1212 
1213     // Is this a valid setter, matching the target getter?
1214     QualType SRT = SetterMethod->getReturnType();
1215     if (!SRT->isVoidType())
1216       return false;
1217     const ParmVarDecl *argDecl = *SetterMethod->param_begin();
1218     QualType ArgType = argDecl->getType();
1219     if (!Ctx.hasSameUnqualifiedType(ArgType, GRT))
1220       return false;
1221     edit::Commit commit(*Editor);
1222     rewriteToObjCProperty(Method, SetterMethod, *NSAPIObj, commit,
1223                           LengthOfPrefix,
1224                           (ASTMigrateActions &
1225                            FrontendOptions::ObjCMT_AtomicProperty) != 0,
1226                           (ASTMigrateActions &
1227                            FrontendOptions::ObjCMT_NsAtomicIOSOnlyProperty) != 0,
1228                           AvailabilityArgsMatch);
1229     Editor->commit(commit);
1230     return true;
1231   }
1232   else if (ASTMigrateActions & FrontendOptions::ObjCMT_ReadonlyProperty) {
1233     // Try a non-void method with no argument (and no setter or property of same name
1234     // as a 'readonly' property.
1235     edit::Commit commit(*Editor);
1236     rewriteToObjCProperty(Method, nullptr /*SetterMethod*/, *NSAPIObj, commit,
1237                           LengthOfPrefix,
1238                           (ASTMigrateActions &
1239                            FrontendOptions::ObjCMT_AtomicProperty) != 0,
1240                           (ASTMigrateActions &
1241                            FrontendOptions::ObjCMT_NsAtomicIOSOnlyProperty) != 0,
1242                           /*AvailabilityArgsMatch*/false);
1243     Editor->commit(commit);
1244     return true;
1245   }
1246   return false;
1247 }
1248 
1249 void ObjCMigrateASTConsumer::migrateNsReturnsInnerPointer(ASTContext &Ctx,
1250                                                           ObjCMethodDecl *OM) {
1251   if (OM->isImplicit() ||
1252       !OM->isInstanceMethod() ||
1253       OM->hasAttr<ObjCReturnsInnerPointerAttr>())
1254     return;
1255 
1256   QualType RT = OM->getReturnType();
1257   if (!TypeIsInnerPointer(RT) ||
1258       !NSAPIObj->isMacroDefined("NS_RETURNS_INNER_POINTER"))
1259     return;
1260 
1261   edit::Commit commit(*Editor);
1262   commit.insertBefore(OM->getEndLoc(), " NS_RETURNS_INNER_POINTER");
1263   Editor->commit(commit);
1264 }
1265 
1266 void ObjCMigrateASTConsumer::migratePropertyNsReturnsInnerPointer(ASTContext &Ctx,
1267                                                                   ObjCPropertyDecl *P) {
1268   QualType T = P->getType();
1269 
1270   if (!TypeIsInnerPointer(T) ||
1271       !NSAPIObj->isMacroDefined("NS_RETURNS_INNER_POINTER"))
1272     return;
1273   edit::Commit commit(*Editor);
1274   commit.insertBefore(P->getEndLoc(), " NS_RETURNS_INNER_POINTER ");
1275   Editor->commit(commit);
1276 }
1277 
1278 void ObjCMigrateASTConsumer::migrateAllMethodInstaceType(ASTContext &Ctx,
1279                                                  ObjCContainerDecl *CDecl) {
1280   if (CDecl->isDeprecated() || IsCategoryNameWithDeprecatedSuffix(CDecl))
1281     return;
1282 
1283   // migrate methods which can have instancetype as their result type.
1284   for (auto *Method : CDecl->methods()) {
1285     if (Method->isDeprecated())
1286       continue;
1287     migrateMethodInstanceType(Ctx, CDecl, Method);
1288   }
1289 }
1290 
1291 void ObjCMigrateASTConsumer::migrateFactoryMethod(ASTContext &Ctx,
1292                                                   ObjCContainerDecl *CDecl,
1293                                                   ObjCMethodDecl *OM,
1294                                                   ObjCInstanceTypeFamily OIT_Family) {
1295   if (OM->isInstanceMethod() ||
1296       OM->getReturnType() == Ctx.getObjCInstanceType() ||
1297       !OM->getReturnType()->isObjCIdType())
1298     return;
1299 
1300   // Candidate factory methods are + (id) NaMeXXX : ... which belong to a class
1301   // NSYYYNamE with matching names be at least 3 characters long.
1302   ObjCInterfaceDecl *IDecl = dyn_cast<ObjCInterfaceDecl>(CDecl);
1303   if (!IDecl) {
1304     if (ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(CDecl))
1305       IDecl = CatDecl->getClassInterface();
1306     else if (ObjCImplDecl *ImpDecl = dyn_cast<ObjCImplDecl>(CDecl))
1307       IDecl = ImpDecl->getClassInterface();
1308   }
1309   if (!IDecl)
1310     return;
1311 
1312   std::string StringClassName = std::string(IDecl->getName());
1313   StringRef LoweredClassName(StringClassName);
1314   std::string StringLoweredClassName = LoweredClassName.lower();
1315   LoweredClassName = StringLoweredClassName;
1316 
1317   IdentifierInfo *MethodIdName = OM->getSelector().getIdentifierInfoForSlot(0);
1318   // Handle method with no name at its first selector slot; e.g. + (id):(int)x.
1319   if (!MethodIdName)
1320     return;
1321 
1322   std::string MethodName = std::string(MethodIdName->getName());
1323   if (OIT_Family == OIT_Singleton || OIT_Family == OIT_ReturnsSelf) {
1324     StringRef STRefMethodName(MethodName);
1325     size_t len = 0;
1326     if (STRefMethodName.startswith("standard"))
1327       len = strlen("standard");
1328     else if (STRefMethodName.startswith("shared"))
1329       len = strlen("shared");
1330     else if (STRefMethodName.startswith("default"))
1331       len = strlen("default");
1332     else
1333       return;
1334     MethodName = std::string(STRefMethodName.substr(len));
1335   }
1336   std::string MethodNameSubStr = MethodName.substr(0, 3);
1337   StringRef MethodNamePrefix(MethodNameSubStr);
1338   std::string StringLoweredMethodNamePrefix = MethodNamePrefix.lower();
1339   MethodNamePrefix = StringLoweredMethodNamePrefix;
1340   size_t Ix = LoweredClassName.rfind(MethodNamePrefix);
1341   if (Ix == StringRef::npos)
1342     return;
1343   std::string ClassNamePostfix = std::string(LoweredClassName.substr(Ix));
1344   StringRef LoweredMethodName(MethodName);
1345   std::string StringLoweredMethodName = LoweredMethodName.lower();
1346   LoweredMethodName = StringLoweredMethodName;
1347   if (!LoweredMethodName.startswith(ClassNamePostfix))
1348     return;
1349   if (OIT_Family == OIT_ReturnsSelf)
1350     ReplaceWithClasstype(*this, OM);
1351   else
1352     ReplaceWithInstancetype(Ctx, *this, OM);
1353 }
1354 
1355 static bool IsVoidStarType(QualType Ty) {
1356   if (!Ty->isPointerType())
1357     return false;
1358 
1359   while (const TypedefType *TD = dyn_cast<TypedefType>(Ty.getTypePtr()))
1360     Ty = TD->getDecl()->getUnderlyingType();
1361 
1362   // Is the type void*?
1363   const PointerType* PT = Ty->castAs<PointerType>();
1364   if (PT->getPointeeType().getUnqualifiedType()->isVoidType())
1365     return true;
1366   return IsVoidStarType(PT->getPointeeType());
1367 }
1368 
1369 /// AuditedType - This routine audits the type AT and returns false if it is one of known
1370 /// CF object types or of the "void *" variety. It returns true if we don't care about the type
1371 /// such as a non-pointer or pointers which have no ownership issues (such as "int *").
1372 static bool AuditedType (QualType AT) {
1373   if (!AT->isAnyPointerType() && !AT->isBlockPointerType())
1374     return true;
1375   // FIXME. There isn't much we can say about CF pointer type; or is there?
1376   if (ento::coreFoundation::isCFObjectRef(AT) ||
1377       IsVoidStarType(AT) ||
1378       // If an ObjC object is type, assuming that it is not a CF function and
1379       // that it is an un-audited function.
1380       AT->isObjCObjectPointerType() || AT->isObjCBuiltinType())
1381     return false;
1382   // All other pointers are assumed audited as harmless.
1383   return true;
1384 }
1385 
1386 void ObjCMigrateASTConsumer::AnnotateImplicitBridging(ASTContext &Ctx) {
1387   if (CFFunctionIBCandidates.empty())
1388     return;
1389   if (!NSAPIObj->isMacroDefined("CF_IMPLICIT_BRIDGING_ENABLED")) {
1390     CFFunctionIBCandidates.clear();
1391     FileId = FileID();
1392     return;
1393   }
1394   // Insert CF_IMPLICIT_BRIDGING_ENABLE/CF_IMPLICIT_BRIDGING_DISABLED
1395   const Decl *FirstFD = CFFunctionIBCandidates[0];
1396   const Decl *LastFD  =
1397     CFFunctionIBCandidates[CFFunctionIBCandidates.size()-1];
1398   const char *PragmaString = "\nCF_IMPLICIT_BRIDGING_ENABLED\n\n";
1399   edit::Commit commit(*Editor);
1400   commit.insertBefore(FirstFD->getBeginLoc(), PragmaString);
1401   PragmaString = "\n\nCF_IMPLICIT_BRIDGING_DISABLED\n";
1402   SourceLocation EndLoc = LastFD->getEndLoc();
1403   // get location just past end of function location.
1404   EndLoc = PP.getLocForEndOfToken(EndLoc);
1405   if (isa<FunctionDecl>(LastFD)) {
1406     // For Methods, EndLoc points to the ending semcolon. So,
1407     // not of these extra work is needed.
1408     Token Tok;
1409     // get locaiton of token that comes after end of function.
1410     bool Failed = PP.getRawToken(EndLoc, Tok, /*IgnoreWhiteSpace=*/true);
1411     if (!Failed)
1412       EndLoc = Tok.getLocation();
1413   }
1414   commit.insertAfterToken(EndLoc, PragmaString);
1415   Editor->commit(commit);
1416   FileId = FileID();
1417   CFFunctionIBCandidates.clear();
1418 }
1419 
1420 void ObjCMigrateASTConsumer::migrateCFAnnotation(ASTContext &Ctx, const Decl *Decl) {
1421   if (Decl->isDeprecated())
1422     return;
1423 
1424   if (Decl->hasAttr<CFAuditedTransferAttr>()) {
1425     assert(CFFunctionIBCandidates.empty() &&
1426            "Cannot have audited functions/methods inside user "
1427            "provided CF_IMPLICIT_BRIDGING_ENABLE");
1428     return;
1429   }
1430 
1431   // Finction must be annotated first.
1432   if (const FunctionDecl *FuncDecl = dyn_cast<FunctionDecl>(Decl)) {
1433     CF_BRIDGING_KIND AuditKind = migrateAddFunctionAnnotation(Ctx, FuncDecl);
1434     if (AuditKind == CF_BRIDGING_ENABLE) {
1435       CFFunctionIBCandidates.push_back(Decl);
1436       if (FileId.isInvalid())
1437         FileId = PP.getSourceManager().getFileID(Decl->getLocation());
1438     }
1439     else if (AuditKind == CF_BRIDGING_MAY_INCLUDE) {
1440       if (!CFFunctionIBCandidates.empty()) {
1441         CFFunctionIBCandidates.push_back(Decl);
1442         if (FileId.isInvalid())
1443           FileId = PP.getSourceManager().getFileID(Decl->getLocation());
1444       }
1445     }
1446     else
1447       AnnotateImplicitBridging(Ctx);
1448   }
1449   else {
1450     migrateAddMethodAnnotation(Ctx, cast<ObjCMethodDecl>(Decl));
1451     AnnotateImplicitBridging(Ctx);
1452   }
1453 }
1454 
1455 void ObjCMigrateASTConsumer::AddCFAnnotations(ASTContext &Ctx,
1456                                               const RetainSummary *RS,
1457                                               const FunctionDecl *FuncDecl,
1458                                               bool ResultAnnotated) {
1459   // Annotate function.
1460   if (!ResultAnnotated) {
1461     RetEffect Ret = RS->getRetEffect();
1462     const char *AnnotationString = nullptr;
1463     if (Ret.getObjKind() == ObjKind::CF) {
1464       if (Ret.isOwned() && NSAPIObj->isMacroDefined("CF_RETURNS_RETAINED"))
1465         AnnotationString = " CF_RETURNS_RETAINED";
1466       else if (Ret.notOwned() &&
1467                NSAPIObj->isMacroDefined("CF_RETURNS_NOT_RETAINED"))
1468         AnnotationString = " CF_RETURNS_NOT_RETAINED";
1469     }
1470     else if (Ret.getObjKind() == ObjKind::ObjC) {
1471       if (Ret.isOwned() && NSAPIObj->isMacroDefined("NS_RETURNS_RETAINED"))
1472         AnnotationString = " NS_RETURNS_RETAINED";
1473     }
1474 
1475     if (AnnotationString) {
1476       edit::Commit commit(*Editor);
1477       commit.insertAfterToken(FuncDecl->getEndLoc(), AnnotationString);
1478       Editor->commit(commit);
1479     }
1480   }
1481   unsigned i = 0;
1482   for (FunctionDecl::param_const_iterator pi = FuncDecl->param_begin(),
1483        pe = FuncDecl->param_end(); pi != pe; ++pi, ++i) {
1484     const ParmVarDecl *pd = *pi;
1485     ArgEffect AE = RS->getArg(i);
1486     if (AE.getKind() == DecRef && AE.getObjKind() == ObjKind::CF &&
1487         !pd->hasAttr<CFConsumedAttr>() &&
1488         NSAPIObj->isMacroDefined("CF_CONSUMED")) {
1489       edit::Commit commit(*Editor);
1490       commit.insertBefore(pd->getLocation(), "CF_CONSUMED ");
1491       Editor->commit(commit);
1492     } else if (AE.getKind() == DecRef && AE.getObjKind() == ObjKind::ObjC &&
1493                !pd->hasAttr<NSConsumedAttr>() &&
1494                NSAPIObj->isMacroDefined("NS_CONSUMED")) {
1495       edit::Commit commit(*Editor);
1496       commit.insertBefore(pd->getLocation(), "NS_CONSUMED ");
1497       Editor->commit(commit);
1498     }
1499   }
1500 }
1501 
1502 ObjCMigrateASTConsumer::CF_BRIDGING_KIND
1503   ObjCMigrateASTConsumer::migrateAddFunctionAnnotation(
1504                                                   ASTContext &Ctx,
1505                                                   const FunctionDecl *FuncDecl) {
1506   if (FuncDecl->hasBody())
1507     return CF_BRIDGING_NONE;
1508 
1509   const RetainSummary *RS =
1510       getSummaryManager(Ctx).getSummary(AnyCall(FuncDecl));
1511   bool FuncIsReturnAnnotated = (FuncDecl->hasAttr<CFReturnsRetainedAttr>() ||
1512                                 FuncDecl->hasAttr<CFReturnsNotRetainedAttr>() ||
1513                                 FuncDecl->hasAttr<NSReturnsRetainedAttr>() ||
1514                                 FuncDecl->hasAttr<NSReturnsNotRetainedAttr>() ||
1515                                 FuncDecl->hasAttr<NSReturnsAutoreleasedAttr>());
1516 
1517   // Trivial case of when function is annotated and has no argument.
1518   if (FuncIsReturnAnnotated && FuncDecl->getNumParams() == 0)
1519     return CF_BRIDGING_NONE;
1520 
1521   bool ReturnCFAudited = false;
1522   if (!FuncIsReturnAnnotated) {
1523     RetEffect Ret = RS->getRetEffect();
1524     if (Ret.getObjKind() == ObjKind::CF &&
1525         (Ret.isOwned() || Ret.notOwned()))
1526       ReturnCFAudited = true;
1527     else if (!AuditedType(FuncDecl->getReturnType()))
1528       return CF_BRIDGING_NONE;
1529   }
1530 
1531   // At this point result type is audited for potential inclusion.
1532   unsigned i = 0;
1533   bool ArgCFAudited = false;
1534   for (FunctionDecl::param_const_iterator pi = FuncDecl->param_begin(),
1535        pe = FuncDecl->param_end(); pi != pe; ++pi, ++i) {
1536     const ParmVarDecl *pd = *pi;
1537     ArgEffect AE = RS->getArg(i);
1538     if ((AE.getKind() == DecRef /*CFConsumed annotated*/ ||
1539          AE.getKind() == IncRef) && AE.getObjKind() == ObjKind::CF) {
1540       if (AE.getKind() == DecRef && !pd->hasAttr<CFConsumedAttr>())
1541         ArgCFAudited = true;
1542       else if (AE.getKind() == IncRef)
1543         ArgCFAudited = true;
1544     } else {
1545       QualType AT = pd->getType();
1546       if (!AuditedType(AT)) {
1547         AddCFAnnotations(Ctx, RS, FuncDecl, FuncIsReturnAnnotated);
1548         return CF_BRIDGING_NONE;
1549       }
1550     }
1551   }
1552   if (ReturnCFAudited || ArgCFAudited)
1553     return CF_BRIDGING_ENABLE;
1554 
1555   return CF_BRIDGING_MAY_INCLUDE;
1556 }
1557 
1558 void ObjCMigrateASTConsumer::migrateARCSafeAnnotation(ASTContext &Ctx,
1559                                                  ObjCContainerDecl *CDecl) {
1560   if (!isa<ObjCInterfaceDecl>(CDecl) || CDecl->isDeprecated())
1561     return;
1562 
1563   // migrate methods which can have instancetype as their result type.
1564   for (const auto *Method : CDecl->methods())
1565     migrateCFAnnotation(Ctx, Method);
1566 }
1567 
1568 void ObjCMigrateASTConsumer::AddCFAnnotations(ASTContext &Ctx,
1569                                               const RetainSummary *RS,
1570                                               const ObjCMethodDecl *MethodDecl,
1571                                               bool ResultAnnotated) {
1572   // Annotate function.
1573   if (!ResultAnnotated) {
1574     RetEffect Ret = RS->getRetEffect();
1575     const char *AnnotationString = nullptr;
1576     if (Ret.getObjKind() == ObjKind::CF) {
1577       if (Ret.isOwned() && NSAPIObj->isMacroDefined("CF_RETURNS_RETAINED"))
1578         AnnotationString = " CF_RETURNS_RETAINED";
1579       else if (Ret.notOwned() &&
1580                NSAPIObj->isMacroDefined("CF_RETURNS_NOT_RETAINED"))
1581         AnnotationString = " CF_RETURNS_NOT_RETAINED";
1582     }
1583     else if (Ret.getObjKind() == ObjKind::ObjC) {
1584       ObjCMethodFamily OMF = MethodDecl->getMethodFamily();
1585       switch (OMF) {
1586         case clang::OMF_alloc:
1587         case clang::OMF_new:
1588         case clang::OMF_copy:
1589         case clang::OMF_init:
1590         case clang::OMF_mutableCopy:
1591           break;
1592 
1593         default:
1594           if (Ret.isOwned() && NSAPIObj->isMacroDefined("NS_RETURNS_RETAINED"))
1595             AnnotationString = " NS_RETURNS_RETAINED";
1596           break;
1597       }
1598     }
1599 
1600     if (AnnotationString) {
1601       edit::Commit commit(*Editor);
1602       commit.insertBefore(MethodDecl->getEndLoc(), AnnotationString);
1603       Editor->commit(commit);
1604     }
1605   }
1606   unsigned i = 0;
1607   for (ObjCMethodDecl::param_const_iterator pi = MethodDecl->param_begin(),
1608        pe = MethodDecl->param_end(); pi != pe; ++pi, ++i) {
1609     const ParmVarDecl *pd = *pi;
1610     ArgEffect AE = RS->getArg(i);
1611     if (AE.getKind() == DecRef
1612         && AE.getObjKind() == ObjKind::CF
1613         && !pd->hasAttr<CFConsumedAttr>() &&
1614         NSAPIObj->isMacroDefined("CF_CONSUMED")) {
1615       edit::Commit commit(*Editor);
1616       commit.insertBefore(pd->getLocation(), "CF_CONSUMED ");
1617       Editor->commit(commit);
1618     }
1619   }
1620 }
1621 
1622 void ObjCMigrateASTConsumer::migrateAddMethodAnnotation(
1623                                             ASTContext &Ctx,
1624                                             const ObjCMethodDecl *MethodDecl) {
1625   if (MethodDecl->hasBody() || MethodDecl->isImplicit())
1626     return;
1627 
1628   const RetainSummary *RS =
1629       getSummaryManager(Ctx).getSummary(AnyCall(MethodDecl));
1630 
1631   bool MethodIsReturnAnnotated =
1632       (MethodDecl->hasAttr<CFReturnsRetainedAttr>() ||
1633        MethodDecl->hasAttr<CFReturnsNotRetainedAttr>() ||
1634        MethodDecl->hasAttr<NSReturnsRetainedAttr>() ||
1635        MethodDecl->hasAttr<NSReturnsNotRetainedAttr>() ||
1636        MethodDecl->hasAttr<NSReturnsAutoreleasedAttr>());
1637 
1638   if (RS->getReceiverEffect().getKind() == DecRef &&
1639       !MethodDecl->hasAttr<NSConsumesSelfAttr>() &&
1640       MethodDecl->getMethodFamily() != OMF_init &&
1641       MethodDecl->getMethodFamily() != OMF_release &&
1642       NSAPIObj->isMacroDefined("NS_CONSUMES_SELF")) {
1643     edit::Commit commit(*Editor);
1644     commit.insertBefore(MethodDecl->getEndLoc(), " NS_CONSUMES_SELF");
1645     Editor->commit(commit);
1646   }
1647 
1648   // Trivial case of when function is annotated and has no argument.
1649   if (MethodIsReturnAnnotated &&
1650       (MethodDecl->param_begin() == MethodDecl->param_end()))
1651     return;
1652 
1653   if (!MethodIsReturnAnnotated) {
1654     RetEffect Ret = RS->getRetEffect();
1655     if ((Ret.getObjKind() == ObjKind::CF ||
1656          Ret.getObjKind() == ObjKind::ObjC) &&
1657         (Ret.isOwned() || Ret.notOwned())) {
1658       AddCFAnnotations(Ctx, RS, MethodDecl, false);
1659       return;
1660     } else if (!AuditedType(MethodDecl->getReturnType()))
1661       return;
1662   }
1663 
1664   // At this point result type is either annotated or audited.
1665   unsigned i = 0;
1666   for (ObjCMethodDecl::param_const_iterator pi = MethodDecl->param_begin(),
1667        pe = MethodDecl->param_end(); pi != pe; ++pi, ++i) {
1668     const ParmVarDecl *pd = *pi;
1669     ArgEffect AE = RS->getArg(i);
1670     if ((AE.getKind() == DecRef && !pd->hasAttr<CFConsumedAttr>()) ||
1671         AE.getKind() == IncRef || !AuditedType(pd->getType())) {
1672       AddCFAnnotations(Ctx, RS, MethodDecl, MethodIsReturnAnnotated);
1673       return;
1674     }
1675   }
1676 }
1677 
1678 namespace {
1679 class SuperInitChecker : public RecursiveASTVisitor<SuperInitChecker> {
1680 public:
1681   bool shouldVisitTemplateInstantiations() const { return false; }
1682   bool shouldWalkTypesOfTypeLocs() const { return false; }
1683 
1684   bool VisitObjCMessageExpr(ObjCMessageExpr *E) {
1685     if (E->getReceiverKind() == ObjCMessageExpr::SuperInstance) {
1686       if (E->getMethodFamily() == OMF_init)
1687         return false;
1688     }
1689     return true;
1690   }
1691 };
1692 } // end anonymous namespace
1693 
1694 static bool hasSuperInitCall(const ObjCMethodDecl *MD) {
1695   return !SuperInitChecker().TraverseStmt(MD->getBody());
1696 }
1697 
1698 void ObjCMigrateASTConsumer::inferDesignatedInitializers(
1699     ASTContext &Ctx,
1700     const ObjCImplementationDecl *ImplD) {
1701 
1702   const ObjCInterfaceDecl *IFace = ImplD->getClassInterface();
1703   if (!IFace || IFace->hasDesignatedInitializers())
1704     return;
1705   if (!NSAPIObj->isMacroDefined("NS_DESIGNATED_INITIALIZER"))
1706     return;
1707 
1708   for (const auto *MD : ImplD->instance_methods()) {
1709     if (MD->isDeprecated() ||
1710         MD->getMethodFamily() != OMF_init ||
1711         MD->isDesignatedInitializerForTheInterface())
1712       continue;
1713     const ObjCMethodDecl *IFaceM = IFace->getMethod(MD->getSelector(),
1714                                                     /*isInstance=*/true);
1715     if (!IFaceM)
1716       continue;
1717     if (hasSuperInitCall(MD)) {
1718       edit::Commit commit(*Editor);
1719       commit.insert(IFaceM->getEndLoc(), " NS_DESIGNATED_INITIALIZER");
1720       Editor->commit(commit);
1721     }
1722   }
1723 }
1724 
1725 bool ObjCMigrateASTConsumer::InsertFoundation(ASTContext &Ctx,
1726                                               SourceLocation  Loc) {
1727   if (FoundationIncluded)
1728     return true;
1729   if (Loc.isInvalid())
1730     return false;
1731   auto *nsEnumId = &Ctx.Idents.get("NS_ENUM");
1732   if (PP.getMacroDefinitionAtLoc(nsEnumId, Loc)) {
1733     FoundationIncluded = true;
1734     return true;
1735   }
1736   edit::Commit commit(*Editor);
1737   if (Ctx.getLangOpts().Modules)
1738     commit.insert(Loc, "#ifndef NS_ENUM\n@import Foundation;\n#endif\n");
1739   else
1740     commit.insert(Loc, "#ifndef NS_ENUM\n#import <Foundation/Foundation.h>\n#endif\n");
1741   Editor->commit(commit);
1742   FoundationIncluded = true;
1743   return true;
1744 }
1745 
1746 namespace {
1747 
1748 class RewritesReceiver : public edit::EditsReceiver {
1749   Rewriter &Rewrite;
1750 
1751 public:
1752   RewritesReceiver(Rewriter &Rewrite) : Rewrite(Rewrite) { }
1753 
1754   void insert(SourceLocation loc, StringRef text) override {
1755     Rewrite.InsertText(loc, text);
1756   }
1757   void replace(CharSourceRange range, StringRef text) override {
1758     Rewrite.ReplaceText(range.getBegin(), Rewrite.getRangeSize(range), text);
1759   }
1760 };
1761 
1762 class JSONEditWriter : public edit::EditsReceiver {
1763   SourceManager &SourceMgr;
1764   llvm::raw_ostream &OS;
1765 
1766 public:
1767   JSONEditWriter(SourceManager &SM, llvm::raw_ostream &OS)
1768     : SourceMgr(SM), OS(OS) {
1769     OS << "[\n";
1770   }
1771   ~JSONEditWriter() override { OS << "]\n"; }
1772 
1773 private:
1774   struct EntryWriter {
1775     SourceManager &SourceMgr;
1776     llvm::raw_ostream &OS;
1777 
1778     EntryWriter(SourceManager &SM, llvm::raw_ostream &OS)
1779       : SourceMgr(SM), OS(OS) {
1780       OS << " {\n";
1781     }
1782     ~EntryWriter() {
1783       OS << " },\n";
1784     }
1785 
1786     void writeLoc(SourceLocation Loc) {
1787       FileID FID;
1788       unsigned Offset;
1789       std::tie(FID, Offset) = SourceMgr.getDecomposedLoc(Loc);
1790       assert(FID.isValid());
1791       SmallString<200> Path =
1792           StringRef(SourceMgr.getFileEntryForID(FID)->getName());
1793       llvm::sys::fs::make_absolute(Path);
1794       OS << "  \"file\": \"";
1795       OS.write_escaped(Path.str()) << "\",\n";
1796       OS << "  \"offset\": " << Offset << ",\n";
1797     }
1798 
1799     void writeRemove(CharSourceRange Range) {
1800       assert(Range.isCharRange());
1801       std::pair<FileID, unsigned> Begin =
1802           SourceMgr.getDecomposedLoc(Range.getBegin());
1803       std::pair<FileID, unsigned> End =
1804           SourceMgr.getDecomposedLoc(Range.getEnd());
1805       assert(Begin.first == End.first);
1806       assert(Begin.second <= End.second);
1807       unsigned Length = End.second - Begin.second;
1808 
1809       OS << "  \"remove\": " << Length << ",\n";
1810     }
1811 
1812     void writeText(StringRef Text) {
1813       OS << "  \"text\": \"";
1814       OS.write_escaped(Text) << "\",\n";
1815     }
1816   };
1817 
1818   void insert(SourceLocation Loc, StringRef Text) override {
1819     EntryWriter Writer(SourceMgr, OS);
1820     Writer.writeLoc(Loc);
1821     Writer.writeText(Text);
1822   }
1823 
1824   void replace(CharSourceRange Range, StringRef Text) override {
1825     EntryWriter Writer(SourceMgr, OS);
1826     Writer.writeLoc(Range.getBegin());
1827     Writer.writeRemove(Range);
1828     Writer.writeText(Text);
1829   }
1830 
1831   void remove(CharSourceRange Range) override {
1832     EntryWriter Writer(SourceMgr, OS);
1833     Writer.writeLoc(Range.getBegin());
1834     Writer.writeRemove(Range);
1835   }
1836 };
1837 
1838 } // end anonymous namespace
1839 
1840 void ObjCMigrateASTConsumer::HandleTranslationUnit(ASTContext &Ctx) {
1841 
1842   TranslationUnitDecl *TU = Ctx.getTranslationUnitDecl();
1843   if (ASTMigrateActions & FrontendOptions::ObjCMT_MigrateDecls) {
1844     for (DeclContext::decl_iterator D = TU->decls_begin(), DEnd = TU->decls_end();
1845          D != DEnd; ++D) {
1846       FileID FID = PP.getSourceManager().getFileID((*D)->getLocation());
1847       if (FID.isValid())
1848         if (FileId.isValid() && FileId != FID) {
1849           if (ASTMigrateActions & FrontendOptions::ObjCMT_Annotation)
1850             AnnotateImplicitBridging(Ctx);
1851         }
1852 
1853       if (ObjCInterfaceDecl *CDecl = dyn_cast<ObjCInterfaceDecl>(*D))
1854         if (canModify(CDecl))
1855           migrateObjCContainerDecl(Ctx, CDecl);
1856       if (ObjCCategoryDecl *CatDecl = dyn_cast<ObjCCategoryDecl>(*D)) {
1857         if (canModify(CatDecl))
1858           migrateObjCContainerDecl(Ctx, CatDecl);
1859       }
1860       else if (ObjCProtocolDecl *PDecl = dyn_cast<ObjCProtocolDecl>(*D)) {
1861         ObjCProtocolDecls.insert(PDecl->getCanonicalDecl());
1862         if (canModify(PDecl))
1863           migrateObjCContainerDecl(Ctx, PDecl);
1864       }
1865       else if (const ObjCImplementationDecl *ImpDecl =
1866                dyn_cast<ObjCImplementationDecl>(*D)) {
1867         if ((ASTMigrateActions & FrontendOptions::ObjCMT_ProtocolConformance) &&
1868             canModify(ImpDecl))
1869           migrateProtocolConformance(Ctx, ImpDecl);
1870       }
1871       else if (const EnumDecl *ED = dyn_cast<EnumDecl>(*D)) {
1872         if (!(ASTMigrateActions & FrontendOptions::ObjCMT_NsMacros))
1873           continue;
1874         if (!canModify(ED))
1875           continue;
1876         DeclContext::decl_iterator N = D;
1877         if (++N != DEnd) {
1878           const TypedefDecl *TD = dyn_cast<TypedefDecl>(*N);
1879           if (migrateNSEnumDecl(Ctx, ED, TD) && TD)
1880             D++;
1881         }
1882         else
1883           migrateNSEnumDecl(Ctx, ED, /*TypedefDecl */nullptr);
1884       }
1885       else if (const TypedefDecl *TD = dyn_cast<TypedefDecl>(*D)) {
1886         if (!(ASTMigrateActions & FrontendOptions::ObjCMT_NsMacros))
1887           continue;
1888         if (!canModify(TD))
1889           continue;
1890         DeclContext::decl_iterator N = D;
1891         if (++N == DEnd)
1892           continue;
1893         if (const EnumDecl *ED = dyn_cast<EnumDecl>(*N)) {
1894           if (canModify(ED)) {
1895             if (++N != DEnd)
1896               if (const TypedefDecl *TDF = dyn_cast<TypedefDecl>(*N)) {
1897                 // prefer typedef-follows-enum to enum-follows-typedef pattern.
1898                 if (migrateNSEnumDecl(Ctx, ED, TDF)) {
1899                   ++D; ++D;
1900                   CacheObjCNSIntegerTypedefed(TD);
1901                   continue;
1902                 }
1903               }
1904             if (migrateNSEnumDecl(Ctx, ED, TD)) {
1905               ++D;
1906               continue;
1907             }
1908           }
1909         }
1910         CacheObjCNSIntegerTypedefed(TD);
1911       }
1912       else if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(*D)) {
1913         if ((ASTMigrateActions & FrontendOptions::ObjCMT_Annotation) &&
1914             canModify(FD))
1915           migrateCFAnnotation(Ctx, FD);
1916       }
1917 
1918       if (ObjCContainerDecl *CDecl = dyn_cast<ObjCContainerDecl>(*D)) {
1919         bool CanModify = canModify(CDecl);
1920         // migrate methods which can have instancetype as their result type.
1921         if ((ASTMigrateActions & FrontendOptions::ObjCMT_Instancetype) &&
1922             CanModify)
1923           migrateAllMethodInstaceType(Ctx, CDecl);
1924         // annotate methods with CF annotations.
1925         if ((ASTMigrateActions & FrontendOptions::ObjCMT_Annotation) &&
1926             CanModify)
1927           migrateARCSafeAnnotation(Ctx, CDecl);
1928       }
1929 
1930       if (const ObjCImplementationDecl *
1931             ImplD = dyn_cast<ObjCImplementationDecl>(*D)) {
1932         if ((ASTMigrateActions & FrontendOptions::ObjCMT_DesignatedInitializer) &&
1933             canModify(ImplD))
1934           inferDesignatedInitializers(Ctx, ImplD);
1935       }
1936     }
1937     if (ASTMigrateActions & FrontendOptions::ObjCMT_Annotation)
1938       AnnotateImplicitBridging(Ctx);
1939   }
1940 
1941  if (IsOutputFile) {
1942    std::error_code EC;
1943    llvm::raw_fd_ostream OS(MigrateDir, EC, llvm::sys::fs::OF_None);
1944    if (EC) {
1945       DiagnosticsEngine &Diags = Ctx.getDiagnostics();
1946       Diags.Report(Diags.getCustomDiagID(DiagnosticsEngine::Error, "%0"))
1947           << EC.message();
1948       return;
1949     }
1950 
1951    JSONEditWriter Writer(Ctx.getSourceManager(), OS);
1952    Editor->applyRewrites(Writer);
1953    return;
1954  }
1955 
1956   Rewriter rewriter(Ctx.getSourceManager(), Ctx.getLangOpts());
1957   RewritesReceiver Rec(rewriter);
1958   Editor->applyRewrites(Rec);
1959 
1960   for (Rewriter::buffer_iterator
1961         I = rewriter.buffer_begin(), E = rewriter.buffer_end(); I != E; ++I) {
1962     FileID FID = I->first;
1963     RewriteBuffer &buf = I->second;
1964     Optional<FileEntryRef> file = Ctx.getSourceManager().getFileEntryRefForID(FID);
1965     assert(file);
1966     SmallString<512> newText;
1967     llvm::raw_svector_ostream vecOS(newText);
1968     buf.write(vecOS);
1969     std::unique_ptr<llvm::MemoryBuffer> memBuf(
1970         llvm::MemoryBuffer::getMemBufferCopy(
1971             StringRef(newText.data(), newText.size()), file->getName()));
1972     SmallString<64> filePath(file->getName());
1973     FileMgr.FixupRelativePath(filePath);
1974     Remapper.remap(filePath.str(), std::move(memBuf));
1975   }
1976 
1977   if (IsOutputFile) {
1978     Remapper.flushToFile(MigrateDir, Ctx.getDiagnostics());
1979   } else {
1980     Remapper.flushToDisk(MigrateDir, Ctx.getDiagnostics());
1981   }
1982 }
1983 
1984 bool MigrateSourceAction::BeginInvocation(CompilerInstance &CI) {
1985   CI.getDiagnostics().setIgnoreAllWarnings(true);
1986   return true;
1987 }
1988 
1989 static std::vector<std::string> getAllowListFilenames(StringRef DirPath) {
1990   using namespace llvm::sys::fs;
1991   using namespace llvm::sys::path;
1992 
1993   std::vector<std::string> Filenames;
1994   if (DirPath.empty() || !is_directory(DirPath))
1995     return Filenames;
1996 
1997   std::error_code EC;
1998   directory_iterator DI = directory_iterator(DirPath, EC);
1999   directory_iterator DE;
2000   for (; !EC && DI != DE; DI = DI.increment(EC)) {
2001     if (is_regular_file(DI->path()))
2002       Filenames.push_back(std::string(filename(DI->path())));
2003   }
2004 
2005   return Filenames;
2006 }
2007 
2008 std::unique_ptr<ASTConsumer>
2009 MigrateSourceAction::CreateASTConsumer(CompilerInstance &CI, StringRef InFile) {
2010   PPConditionalDirectiveRecord *
2011     PPRec = new PPConditionalDirectiveRecord(CI.getSourceManager());
2012   unsigned ObjCMTAction = CI.getFrontendOpts().ObjCMTAction;
2013   unsigned ObjCMTOpts = ObjCMTAction;
2014   // These are companion flags, they do not enable transformations.
2015   ObjCMTOpts &= ~(FrontendOptions::ObjCMT_AtomicProperty |
2016                   FrontendOptions::ObjCMT_NsAtomicIOSOnlyProperty);
2017   if (ObjCMTOpts == FrontendOptions::ObjCMT_None) {
2018     // If no specific option was given, enable literals+subscripting transforms
2019     // by default.
2020     ObjCMTAction |=
2021         FrontendOptions::ObjCMT_Literals | FrontendOptions::ObjCMT_Subscripting;
2022   }
2023   CI.getPreprocessor().addPPCallbacks(std::unique_ptr<PPCallbacks>(PPRec));
2024   std::vector<std::string> AllowList =
2025       getAllowListFilenames(CI.getFrontendOpts().ObjCMTAllowListPath);
2026   return std::make_unique<ObjCMigrateASTConsumer>(
2027       CI.getFrontendOpts().OutputFile, ObjCMTAction, Remapper,
2028       CI.getFileManager(), PPRec, CI.getPreprocessor(),
2029       /*isOutputFile=*/true, AllowList);
2030 }
2031 
2032 namespace {
2033 struct EditEntry {
2034   Optional<FileEntryRef> File;
2035   unsigned Offset = 0;
2036   unsigned RemoveLen = 0;
2037   std::string Text;
2038 };
2039 } // end anonymous namespace
2040 
2041 namespace llvm {
2042 template<> struct DenseMapInfo<EditEntry> {
2043   static inline EditEntry getEmptyKey() {
2044     EditEntry Entry;
2045     Entry.Offset = unsigned(-1);
2046     return Entry;
2047   }
2048   static inline EditEntry getTombstoneKey() {
2049     EditEntry Entry;
2050     Entry.Offset = unsigned(-2);
2051     return Entry;
2052   }
2053   static unsigned getHashValue(const EditEntry& Val) {
2054     return (unsigned)llvm::hash_combine(Val.File, Val.Offset, Val.RemoveLen,
2055                                         Val.Text);
2056   }
2057   static bool isEqual(const EditEntry &LHS, const EditEntry &RHS) {
2058     return LHS.File == RHS.File &&
2059         LHS.Offset == RHS.Offset &&
2060         LHS.RemoveLen == RHS.RemoveLen &&
2061         LHS.Text == RHS.Text;
2062   }
2063 };
2064 } // end namespace llvm
2065 
2066 namespace {
2067 class RemapFileParser {
2068   FileManager &FileMgr;
2069 
2070 public:
2071   RemapFileParser(FileManager &FileMgr) : FileMgr(FileMgr) { }
2072 
2073   bool parse(StringRef File, SmallVectorImpl<EditEntry> &Entries) {
2074     using namespace llvm::yaml;
2075 
2076     llvm::ErrorOr<std::unique_ptr<llvm::MemoryBuffer>> FileBufOrErr =
2077         llvm::MemoryBuffer::getFile(File);
2078     if (!FileBufOrErr)
2079       return true;
2080 
2081     llvm::SourceMgr SM;
2082     Stream YAMLStream(FileBufOrErr.get()->getMemBufferRef(), SM);
2083     document_iterator I = YAMLStream.begin();
2084     if (I == YAMLStream.end())
2085       return true;
2086     Node *Root = I->getRoot();
2087     if (!Root)
2088       return true;
2089 
2090     SequenceNode *SeqNode = dyn_cast<SequenceNode>(Root);
2091     if (!SeqNode)
2092       return true;
2093 
2094     for (SequenceNode::iterator
2095            AI = SeqNode->begin(), AE = SeqNode->end(); AI != AE; ++AI) {
2096       MappingNode *MapNode = dyn_cast<MappingNode>(&*AI);
2097       if (!MapNode)
2098         continue;
2099       parseEdit(MapNode, Entries);
2100     }
2101 
2102     return false;
2103   }
2104 
2105 private:
2106   void parseEdit(llvm::yaml::MappingNode *Node,
2107                  SmallVectorImpl<EditEntry> &Entries) {
2108     using namespace llvm::yaml;
2109     EditEntry Entry;
2110     bool Ignore = false;
2111 
2112     for (MappingNode::iterator
2113            KVI = Node->begin(), KVE = Node->end(); KVI != KVE; ++KVI) {
2114       ScalarNode *KeyString = dyn_cast<ScalarNode>((*KVI).getKey());
2115       if (!KeyString)
2116         continue;
2117       SmallString<10> KeyStorage;
2118       StringRef Key = KeyString->getValue(KeyStorage);
2119 
2120       ScalarNode *ValueString = dyn_cast<ScalarNode>((*KVI).getValue());
2121       if (!ValueString)
2122         continue;
2123       SmallString<64> ValueStorage;
2124       StringRef Val = ValueString->getValue(ValueStorage);
2125 
2126       if (Key == "file") {
2127         if (auto File = FileMgr.getOptionalFileRef(Val))
2128           Entry.File = File;
2129         else
2130           Ignore = true;
2131       } else if (Key == "offset") {
2132         if (Val.getAsInteger(10, Entry.Offset))
2133           Ignore = true;
2134       } else if (Key == "remove") {
2135         if (Val.getAsInteger(10, Entry.RemoveLen))
2136           Ignore = true;
2137       } else if (Key == "text") {
2138         Entry.Text = std::string(Val);
2139       }
2140     }
2141 
2142     if (!Ignore)
2143       Entries.push_back(Entry);
2144   }
2145 };
2146 } // end anonymous namespace
2147 
2148 static bool reportDiag(const Twine &Err, DiagnosticsEngine &Diag) {
2149   Diag.Report(Diag.getCustomDiagID(DiagnosticsEngine::Error, "%0"))
2150       << Err.str();
2151   return true;
2152 }
2153 
2154 static std::string applyEditsToTemp(FileEntryRef FE,
2155                                     ArrayRef<EditEntry> Edits,
2156                                     FileManager &FileMgr,
2157                                     DiagnosticsEngine &Diag) {
2158   using namespace llvm::sys;
2159 
2160   SourceManager SM(Diag, FileMgr);
2161   FileID FID = SM.createFileID(FE, SourceLocation(), SrcMgr::C_User);
2162   LangOptions LangOpts;
2163   edit::EditedSource Editor(SM, LangOpts);
2164   for (ArrayRef<EditEntry>::iterator
2165         I = Edits.begin(), E = Edits.end(); I != E; ++I) {
2166     const EditEntry &Entry = *I;
2167     assert(Entry.File == FE);
2168     SourceLocation Loc =
2169         SM.getLocForStartOfFile(FID).getLocWithOffset(Entry.Offset);
2170     CharSourceRange Range;
2171     if (Entry.RemoveLen != 0) {
2172       Range = CharSourceRange::getCharRange(Loc,
2173                                          Loc.getLocWithOffset(Entry.RemoveLen));
2174     }
2175 
2176     edit::Commit commit(Editor);
2177     if (Range.isInvalid()) {
2178       commit.insert(Loc, Entry.Text);
2179     } else if (Entry.Text.empty()) {
2180       commit.remove(Range);
2181     } else {
2182       commit.replace(Range, Entry.Text);
2183     }
2184     Editor.commit(commit);
2185   }
2186 
2187   Rewriter rewriter(SM, LangOpts);
2188   RewritesReceiver Rec(rewriter);
2189   Editor.applyRewrites(Rec, /*adjustRemovals=*/false);
2190 
2191   const RewriteBuffer *Buf = rewriter.getRewriteBufferFor(FID);
2192   SmallString<512> NewText;
2193   llvm::raw_svector_ostream OS(NewText);
2194   Buf->write(OS);
2195 
2196   SmallString<64> TempPath;
2197   int FD;
2198   if (fs::createTemporaryFile(path::filename(FE.getName()),
2199                               path::extension(FE.getName()).drop_front(), FD,
2200                               TempPath)) {
2201     reportDiag("Could not create file: " + TempPath.str(), Diag);
2202     return std::string();
2203   }
2204 
2205   llvm::raw_fd_ostream TmpOut(FD, /*shouldClose=*/true);
2206   TmpOut.write(NewText.data(), NewText.size());
2207   TmpOut.close();
2208 
2209   return std::string(TempPath.str());
2210 }
2211 
2212 bool arcmt::getFileRemappingsFromFileList(
2213                         std::vector<std::pair<std::string,std::string> > &remap,
2214                         ArrayRef<StringRef> remapFiles,
2215                         DiagnosticConsumer *DiagClient) {
2216   bool hasErrorOccurred = false;
2217 
2218   FileSystemOptions FSOpts;
2219   FileManager FileMgr(FSOpts);
2220   RemapFileParser Parser(FileMgr);
2221 
2222   IntrusiveRefCntPtr<DiagnosticIDs> DiagID(new DiagnosticIDs());
2223   IntrusiveRefCntPtr<DiagnosticsEngine> Diags(
2224       new DiagnosticsEngine(DiagID, new DiagnosticOptions,
2225                             DiagClient, /*ShouldOwnClient=*/false));
2226 
2227   typedef llvm::DenseMap<FileEntryRef, std::vector<EditEntry> >
2228       FileEditEntriesTy;
2229   FileEditEntriesTy FileEditEntries;
2230 
2231   llvm::DenseSet<EditEntry> EntriesSet;
2232 
2233   for (ArrayRef<StringRef>::iterator
2234          I = remapFiles.begin(), E = remapFiles.end(); I != E; ++I) {
2235     SmallVector<EditEntry, 16> Entries;
2236     if (Parser.parse(*I, Entries))
2237       continue;
2238 
2239     for (SmallVectorImpl<EditEntry>::iterator
2240            EI = Entries.begin(), EE = Entries.end(); EI != EE; ++EI) {
2241       EditEntry &Entry = *EI;
2242       if (!Entry.File)
2243         continue;
2244       std::pair<llvm::DenseSet<EditEntry>::iterator, bool>
2245         Insert = EntriesSet.insert(Entry);
2246       if (!Insert.second)
2247         continue;
2248 
2249       FileEditEntries[*Entry.File].push_back(Entry);
2250     }
2251   }
2252 
2253   for (FileEditEntriesTy::iterator
2254          I = FileEditEntries.begin(), E = FileEditEntries.end(); I != E; ++I) {
2255     std::string TempFile = applyEditsToTemp(I->first, I->second,
2256                                             FileMgr, *Diags);
2257     if (TempFile.empty()) {
2258       hasErrorOccurred = true;
2259       continue;
2260     }
2261 
2262     remap.emplace_back(std::string(I->first.getName()), TempFile);
2263   }
2264 
2265   return hasErrorOccurred;
2266 }
2267