1 //===--- ASTUnit.cpp - ASTUnit utility ------------------------------------===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 // 10 // ASTUnit Implementation. 11 // 12 //===----------------------------------------------------------------------===// 13 14 #include "clang/Frontend/ASTUnit.h" 15 #include "clang/AST/ASTConsumer.h" 16 #include "clang/AST/ASTContext.h" 17 #include "clang/AST/DeclVisitor.h" 18 #include "clang/AST/StmtVisitor.h" 19 #include "clang/AST/TypeOrdering.h" 20 #include "clang/Basic/Diagnostic.h" 21 #include "clang/Basic/TargetInfo.h" 22 #include "clang/Basic/TargetOptions.h" 23 #include "clang/Basic/VirtualFileSystem.h" 24 #include "clang/Frontend/CompilerInstance.h" 25 #include "clang/Frontend/FrontendActions.h" 26 #include "clang/Frontend/FrontendDiagnostic.h" 27 #include "clang/Frontend/FrontendOptions.h" 28 #include "clang/Frontend/MultiplexConsumer.h" 29 #include "clang/Frontend/Utils.h" 30 #include "clang/Lex/HeaderSearch.h" 31 #include "clang/Lex/Preprocessor.h" 32 #include "clang/Lex/PreprocessorOptions.h" 33 #include "clang/Sema/Sema.h" 34 #include "clang/Serialization/ASTReader.h" 35 #include "clang/Serialization/ASTWriter.h" 36 #include "llvm/ADT/ArrayRef.h" 37 #include "llvm/ADT/StringExtras.h" 38 #include "llvm/ADT/StringSet.h" 39 #include "llvm/Support/CrashRecoveryContext.h" 40 #include "llvm/Support/Host.h" 41 #include "llvm/Support/MemoryBuffer.h" 42 #include "llvm/Support/Mutex.h" 43 #include "llvm/Support/MutexGuard.h" 44 #include "llvm/Support/Path.h" 45 #include "llvm/Support/Timer.h" 46 #include "llvm/Support/raw_ostream.h" 47 #include <atomic> 48 #include <cstdio> 49 #include <cstdlib> 50 #include <sys/stat.h> 51 using namespace clang; 52 53 using llvm::TimeRecord; 54 55 namespace { 56 class SimpleTimer { 57 bool WantTiming; 58 TimeRecord Start; 59 std::string Output; 60 61 public: 62 explicit SimpleTimer(bool WantTiming) : WantTiming(WantTiming) { 63 if (WantTiming) 64 Start = TimeRecord::getCurrentTime(); 65 } 66 67 void setOutput(const Twine &Output) { 68 if (WantTiming) 69 this->Output = Output.str(); 70 } 71 72 ~SimpleTimer() { 73 if (WantTiming) { 74 TimeRecord Elapsed = TimeRecord::getCurrentTime(); 75 Elapsed -= Start; 76 llvm::errs() << Output << ':'; 77 Elapsed.print(Elapsed, llvm::errs()); 78 llvm::errs() << '\n'; 79 } 80 } 81 }; 82 83 struct OnDiskData { 84 /// \brief The file in which the precompiled preamble is stored. 85 std::string PreambleFile; 86 87 /// \brief Temporary files that should be removed when the ASTUnit is 88 /// destroyed. 89 SmallVector<std::string, 4> TemporaryFiles; 90 91 /// \brief Erase temporary files. 92 void CleanTemporaryFiles(); 93 94 /// \brief Erase the preamble file. 95 void CleanPreambleFile(); 96 97 /// \brief Erase temporary files and the preamble file. 98 void Cleanup(); 99 }; 100 } 101 102 static llvm::sys::SmartMutex<false> &getOnDiskMutex() { 103 static llvm::sys::SmartMutex<false> M(/* recursive = */ true); 104 return M; 105 } 106 107 static void cleanupOnDiskMapAtExit(); 108 109 typedef llvm::DenseMap<const ASTUnit *, OnDiskData *> OnDiskDataMap; 110 static OnDiskDataMap &getOnDiskDataMap() { 111 static OnDiskDataMap M; 112 static bool hasRegisteredAtExit = false; 113 if (!hasRegisteredAtExit) { 114 hasRegisteredAtExit = true; 115 atexit(cleanupOnDiskMapAtExit); 116 } 117 return M; 118 } 119 120 static void cleanupOnDiskMapAtExit() { 121 // Use the mutex because there can be an alive thread destroying an ASTUnit. 122 llvm::MutexGuard Guard(getOnDiskMutex()); 123 OnDiskDataMap &M = getOnDiskDataMap(); 124 for (OnDiskDataMap::iterator I = M.begin(), E = M.end(); I != E; ++I) { 125 // We don't worry about freeing the memory associated with OnDiskDataMap. 126 // All we care about is erasing stale files. 127 I->second->Cleanup(); 128 } 129 } 130 131 static OnDiskData &getOnDiskData(const ASTUnit *AU) { 132 // We require the mutex since we are modifying the structure of the 133 // DenseMap. 134 llvm::MutexGuard Guard(getOnDiskMutex()); 135 OnDiskDataMap &M = getOnDiskDataMap(); 136 OnDiskData *&D = M[AU]; 137 if (!D) 138 D = new OnDiskData(); 139 return *D; 140 } 141 142 static void erasePreambleFile(const ASTUnit *AU) { 143 getOnDiskData(AU).CleanPreambleFile(); 144 } 145 146 static void removeOnDiskEntry(const ASTUnit *AU) { 147 // We require the mutex since we are modifying the structure of the 148 // DenseMap. 149 llvm::MutexGuard Guard(getOnDiskMutex()); 150 OnDiskDataMap &M = getOnDiskDataMap(); 151 OnDiskDataMap::iterator I = M.find(AU); 152 if (I != M.end()) { 153 I->second->Cleanup(); 154 delete I->second; 155 M.erase(AU); 156 } 157 } 158 159 static void setPreambleFile(const ASTUnit *AU, StringRef preambleFile) { 160 getOnDiskData(AU).PreambleFile = preambleFile; 161 } 162 163 static const std::string &getPreambleFile(const ASTUnit *AU) { 164 return getOnDiskData(AU).PreambleFile; 165 } 166 167 void OnDiskData::CleanTemporaryFiles() { 168 for (unsigned I = 0, N = TemporaryFiles.size(); I != N; ++I) 169 llvm::sys::fs::remove(TemporaryFiles[I]); 170 TemporaryFiles.clear(); 171 } 172 173 void OnDiskData::CleanPreambleFile() { 174 if (!PreambleFile.empty()) { 175 llvm::sys::fs::remove(PreambleFile); 176 PreambleFile.clear(); 177 } 178 } 179 180 void OnDiskData::Cleanup() { 181 CleanTemporaryFiles(); 182 CleanPreambleFile(); 183 } 184 185 struct ASTUnit::ASTWriterData { 186 SmallString<128> Buffer; 187 llvm::BitstreamWriter Stream; 188 ASTWriter Writer; 189 190 ASTWriterData() : Stream(Buffer), Writer(Stream) { } 191 }; 192 193 void ASTUnit::clearFileLevelDecls() { 194 llvm::DeleteContainerSeconds(FileDecls); 195 } 196 197 void ASTUnit::CleanTemporaryFiles() { 198 getOnDiskData(this).CleanTemporaryFiles(); 199 } 200 201 void ASTUnit::addTemporaryFile(StringRef TempFile) { 202 getOnDiskData(this).TemporaryFiles.push_back(TempFile); 203 } 204 205 /// \brief After failing to build a precompiled preamble (due to 206 /// errors in the source that occurs in the preamble), the number of 207 /// reparses during which we'll skip even trying to precompile the 208 /// preamble. 209 const unsigned DefaultPreambleRebuildInterval = 5; 210 211 /// \brief Tracks the number of ASTUnit objects that are currently active. 212 /// 213 /// Used for debugging purposes only. 214 static std::atomic<unsigned> ActiveASTUnitObjects; 215 216 ASTUnit::ASTUnit(bool _MainFileIsAST) 217 : Reader(0), HadModuleLoaderFatalFailure(false), 218 OnlyLocalDecls(false), CaptureDiagnostics(false), 219 MainFileIsAST(_MainFileIsAST), 220 TUKind(TU_Complete), WantTiming(getenv("LIBCLANG_TIMING")), 221 OwnsRemappedFileBuffers(true), 222 NumStoredDiagnosticsFromDriver(0), 223 PreambleRebuildCounter(0), SavedMainFileBuffer(0), PreambleBuffer(0), 224 NumWarningsInPreamble(0), 225 ShouldCacheCodeCompletionResults(false), 226 IncludeBriefCommentsInCodeCompletion(false), UserFilesAreVolatile(false), 227 CompletionCacheTopLevelHashValue(0), 228 PreambleTopLevelHashValue(0), 229 CurrentTopLevelHashValue(0), 230 UnsafeToFree(false) { 231 if (getenv("LIBCLANG_OBJTRACKING")) 232 fprintf(stderr, "+++ %u translation units\n", ++ActiveASTUnitObjects); 233 } 234 235 ASTUnit::~ASTUnit() { 236 // If we loaded from an AST file, balance out the BeginSourceFile call. 237 if (MainFileIsAST && getDiagnostics().getClient()) { 238 getDiagnostics().getClient()->EndSourceFile(); 239 } 240 241 clearFileLevelDecls(); 242 243 // Clean up the temporary files and the preamble file. 244 removeOnDiskEntry(this); 245 246 // Free the buffers associated with remapped files. We are required to 247 // perform this operation here because we explicitly request that the 248 // compiler instance *not* free these buffers for each invocation of the 249 // parser. 250 if (Invocation.getPtr() && OwnsRemappedFileBuffers) { 251 PreprocessorOptions &PPOpts = Invocation->getPreprocessorOpts(); 252 for (PreprocessorOptions::remapped_file_buffer_iterator 253 FB = PPOpts.remapped_file_buffer_begin(), 254 FBEnd = PPOpts.remapped_file_buffer_end(); 255 FB != FBEnd; 256 ++FB) 257 delete FB->second; 258 } 259 260 delete SavedMainFileBuffer; 261 delete PreambleBuffer; 262 263 ClearCachedCompletionResults(); 264 265 if (getenv("LIBCLANG_OBJTRACKING")) 266 fprintf(stderr, "--- %u translation units\n", --ActiveASTUnitObjects); 267 } 268 269 void ASTUnit::setPreprocessor(Preprocessor *pp) { PP = pp; } 270 271 /// \brief Determine the set of code-completion contexts in which this 272 /// declaration should be shown. 273 static unsigned getDeclShowContexts(const NamedDecl *ND, 274 const LangOptions &LangOpts, 275 bool &IsNestedNameSpecifier) { 276 IsNestedNameSpecifier = false; 277 278 if (isa<UsingShadowDecl>(ND)) 279 ND = dyn_cast<NamedDecl>(ND->getUnderlyingDecl()); 280 if (!ND) 281 return 0; 282 283 uint64_t Contexts = 0; 284 if (isa<TypeDecl>(ND) || isa<ObjCInterfaceDecl>(ND) || 285 isa<ClassTemplateDecl>(ND) || isa<TemplateTemplateParmDecl>(ND)) { 286 // Types can appear in these contexts. 287 if (LangOpts.CPlusPlus || !isa<TagDecl>(ND)) 288 Contexts |= (1LL << CodeCompletionContext::CCC_TopLevel) 289 | (1LL << CodeCompletionContext::CCC_ObjCIvarList) 290 | (1LL << CodeCompletionContext::CCC_ClassStructUnion) 291 | (1LL << CodeCompletionContext::CCC_Statement) 292 | (1LL << CodeCompletionContext::CCC_Type) 293 | (1LL << CodeCompletionContext::CCC_ParenthesizedExpression); 294 295 // In C++, types can appear in expressions contexts (for functional casts). 296 if (LangOpts.CPlusPlus) 297 Contexts |= (1LL << CodeCompletionContext::CCC_Expression); 298 299 // In Objective-C, message sends can send interfaces. In Objective-C++, 300 // all types are available due to functional casts. 301 if (LangOpts.CPlusPlus || isa<ObjCInterfaceDecl>(ND)) 302 Contexts |= (1LL << CodeCompletionContext::CCC_ObjCMessageReceiver); 303 304 // In Objective-C, you can only be a subclass of another Objective-C class 305 if (isa<ObjCInterfaceDecl>(ND)) 306 Contexts |= (1LL << CodeCompletionContext::CCC_ObjCInterfaceName); 307 308 // Deal with tag names. 309 if (isa<EnumDecl>(ND)) { 310 Contexts |= (1LL << CodeCompletionContext::CCC_EnumTag); 311 312 // Part of the nested-name-specifier in C++0x. 313 if (LangOpts.CPlusPlus11) 314 IsNestedNameSpecifier = true; 315 } else if (const RecordDecl *Record = dyn_cast<RecordDecl>(ND)) { 316 if (Record->isUnion()) 317 Contexts |= (1LL << CodeCompletionContext::CCC_UnionTag); 318 else 319 Contexts |= (1LL << CodeCompletionContext::CCC_ClassOrStructTag); 320 321 if (LangOpts.CPlusPlus) 322 IsNestedNameSpecifier = true; 323 } else if (isa<ClassTemplateDecl>(ND)) 324 IsNestedNameSpecifier = true; 325 } else if (isa<ValueDecl>(ND) || isa<FunctionTemplateDecl>(ND)) { 326 // Values can appear in these contexts. 327 Contexts = (1LL << CodeCompletionContext::CCC_Statement) 328 | (1LL << CodeCompletionContext::CCC_Expression) 329 | (1LL << CodeCompletionContext::CCC_ParenthesizedExpression) 330 | (1LL << CodeCompletionContext::CCC_ObjCMessageReceiver); 331 } else if (isa<ObjCProtocolDecl>(ND)) { 332 Contexts = (1LL << CodeCompletionContext::CCC_ObjCProtocolName); 333 } else if (isa<ObjCCategoryDecl>(ND)) { 334 Contexts = (1LL << CodeCompletionContext::CCC_ObjCCategoryName); 335 } else if (isa<NamespaceDecl>(ND) || isa<NamespaceAliasDecl>(ND)) { 336 Contexts = (1LL << CodeCompletionContext::CCC_Namespace); 337 338 // Part of the nested-name-specifier. 339 IsNestedNameSpecifier = true; 340 } 341 342 return Contexts; 343 } 344 345 void ASTUnit::CacheCodeCompletionResults() { 346 if (!TheSema) 347 return; 348 349 SimpleTimer Timer(WantTiming); 350 Timer.setOutput("Cache global code completions for " + getMainFileName()); 351 352 // Clear out the previous results. 353 ClearCachedCompletionResults(); 354 355 // Gather the set of global code completions. 356 typedef CodeCompletionResult Result; 357 SmallVector<Result, 8> Results; 358 CachedCompletionAllocator = new GlobalCodeCompletionAllocator; 359 CodeCompletionTUInfo CCTUInfo(CachedCompletionAllocator); 360 TheSema->GatherGlobalCodeCompletions(*CachedCompletionAllocator, 361 CCTUInfo, Results); 362 363 // Translate global code completions into cached completions. 364 llvm::DenseMap<CanQualType, unsigned> CompletionTypes; 365 366 for (unsigned I = 0, N = Results.size(); I != N; ++I) { 367 switch (Results[I].Kind) { 368 case Result::RK_Declaration: { 369 bool IsNestedNameSpecifier = false; 370 CachedCodeCompletionResult CachedResult; 371 CachedResult.Completion = Results[I].CreateCodeCompletionString(*TheSema, 372 *CachedCompletionAllocator, 373 CCTUInfo, 374 IncludeBriefCommentsInCodeCompletion); 375 CachedResult.ShowInContexts = getDeclShowContexts(Results[I].Declaration, 376 Ctx->getLangOpts(), 377 IsNestedNameSpecifier); 378 CachedResult.Priority = Results[I].Priority; 379 CachedResult.Kind = Results[I].CursorKind; 380 CachedResult.Availability = Results[I].Availability; 381 382 // Keep track of the type of this completion in an ASTContext-agnostic 383 // way. 384 QualType UsageType = getDeclUsageType(*Ctx, Results[I].Declaration); 385 if (UsageType.isNull()) { 386 CachedResult.TypeClass = STC_Void; 387 CachedResult.Type = 0; 388 } else { 389 CanQualType CanUsageType 390 = Ctx->getCanonicalType(UsageType.getUnqualifiedType()); 391 CachedResult.TypeClass = getSimplifiedTypeClass(CanUsageType); 392 393 // Determine whether we have already seen this type. If so, we save 394 // ourselves the work of formatting the type string by using the 395 // temporary, CanQualType-based hash table to find the associated value. 396 unsigned &TypeValue = CompletionTypes[CanUsageType]; 397 if (TypeValue == 0) { 398 TypeValue = CompletionTypes.size(); 399 CachedCompletionTypes[QualType(CanUsageType).getAsString()] 400 = TypeValue; 401 } 402 403 CachedResult.Type = TypeValue; 404 } 405 406 CachedCompletionResults.push_back(CachedResult); 407 408 /// Handle nested-name-specifiers in C++. 409 if (TheSema->Context.getLangOpts().CPlusPlus && 410 IsNestedNameSpecifier && !Results[I].StartsNestedNameSpecifier) { 411 // The contexts in which a nested-name-specifier can appear in C++. 412 uint64_t NNSContexts 413 = (1LL << CodeCompletionContext::CCC_TopLevel) 414 | (1LL << CodeCompletionContext::CCC_ObjCIvarList) 415 | (1LL << CodeCompletionContext::CCC_ClassStructUnion) 416 | (1LL << CodeCompletionContext::CCC_Statement) 417 | (1LL << CodeCompletionContext::CCC_Expression) 418 | (1LL << CodeCompletionContext::CCC_ObjCMessageReceiver) 419 | (1LL << CodeCompletionContext::CCC_EnumTag) 420 | (1LL << CodeCompletionContext::CCC_UnionTag) 421 | (1LL << CodeCompletionContext::CCC_ClassOrStructTag) 422 | (1LL << CodeCompletionContext::CCC_Type) 423 | (1LL << CodeCompletionContext::CCC_PotentiallyQualifiedName) 424 | (1LL << CodeCompletionContext::CCC_ParenthesizedExpression); 425 426 if (isa<NamespaceDecl>(Results[I].Declaration) || 427 isa<NamespaceAliasDecl>(Results[I].Declaration)) 428 NNSContexts |= (1LL << CodeCompletionContext::CCC_Namespace); 429 430 if (unsigned RemainingContexts 431 = NNSContexts & ~CachedResult.ShowInContexts) { 432 // If there any contexts where this completion can be a 433 // nested-name-specifier but isn't already an option, create a 434 // nested-name-specifier completion. 435 Results[I].StartsNestedNameSpecifier = true; 436 CachedResult.Completion 437 = Results[I].CreateCodeCompletionString(*TheSema, 438 *CachedCompletionAllocator, 439 CCTUInfo, 440 IncludeBriefCommentsInCodeCompletion); 441 CachedResult.ShowInContexts = RemainingContexts; 442 CachedResult.Priority = CCP_NestedNameSpecifier; 443 CachedResult.TypeClass = STC_Void; 444 CachedResult.Type = 0; 445 CachedCompletionResults.push_back(CachedResult); 446 } 447 } 448 break; 449 } 450 451 case Result::RK_Keyword: 452 case Result::RK_Pattern: 453 // Ignore keywords and patterns; we don't care, since they are so 454 // easily regenerated. 455 break; 456 457 case Result::RK_Macro: { 458 CachedCodeCompletionResult CachedResult; 459 CachedResult.Completion 460 = Results[I].CreateCodeCompletionString(*TheSema, 461 *CachedCompletionAllocator, 462 CCTUInfo, 463 IncludeBriefCommentsInCodeCompletion); 464 CachedResult.ShowInContexts 465 = (1LL << CodeCompletionContext::CCC_TopLevel) 466 | (1LL << CodeCompletionContext::CCC_ObjCInterface) 467 | (1LL << CodeCompletionContext::CCC_ObjCImplementation) 468 | (1LL << CodeCompletionContext::CCC_ObjCIvarList) 469 | (1LL << CodeCompletionContext::CCC_ClassStructUnion) 470 | (1LL << CodeCompletionContext::CCC_Statement) 471 | (1LL << CodeCompletionContext::CCC_Expression) 472 | (1LL << CodeCompletionContext::CCC_ObjCMessageReceiver) 473 | (1LL << CodeCompletionContext::CCC_MacroNameUse) 474 | (1LL << CodeCompletionContext::CCC_PreprocessorExpression) 475 | (1LL << CodeCompletionContext::CCC_ParenthesizedExpression) 476 | (1LL << CodeCompletionContext::CCC_OtherWithMacros); 477 478 CachedResult.Priority = Results[I].Priority; 479 CachedResult.Kind = Results[I].CursorKind; 480 CachedResult.Availability = Results[I].Availability; 481 CachedResult.TypeClass = STC_Void; 482 CachedResult.Type = 0; 483 CachedCompletionResults.push_back(CachedResult); 484 break; 485 } 486 } 487 } 488 489 // Save the current top-level hash value. 490 CompletionCacheTopLevelHashValue = CurrentTopLevelHashValue; 491 } 492 493 void ASTUnit::ClearCachedCompletionResults() { 494 CachedCompletionResults.clear(); 495 CachedCompletionTypes.clear(); 496 CachedCompletionAllocator = 0; 497 } 498 499 namespace { 500 501 /// \brief Gathers information from ASTReader that will be used to initialize 502 /// a Preprocessor. 503 class ASTInfoCollector : public ASTReaderListener { 504 Preprocessor &PP; 505 ASTContext &Context; 506 LangOptions &LangOpt; 507 IntrusiveRefCntPtr<TargetOptions> &TargetOpts; 508 IntrusiveRefCntPtr<TargetInfo> &Target; 509 unsigned &Counter; 510 511 bool InitializedLanguage; 512 public: 513 ASTInfoCollector(Preprocessor &PP, ASTContext &Context, LangOptions &LangOpt, 514 IntrusiveRefCntPtr<TargetOptions> &TargetOpts, 515 IntrusiveRefCntPtr<TargetInfo> &Target, 516 unsigned &Counter) 517 : PP(PP), Context(Context), LangOpt(LangOpt), 518 TargetOpts(TargetOpts), Target(Target), 519 Counter(Counter), 520 InitializedLanguage(false) {} 521 522 bool ReadLanguageOptions(const LangOptions &LangOpts, 523 bool Complain) override { 524 if (InitializedLanguage) 525 return false; 526 527 LangOpt = LangOpts; 528 InitializedLanguage = true; 529 530 updated(); 531 return false; 532 } 533 534 bool ReadTargetOptions(const TargetOptions &TargetOpts, 535 bool Complain) override { 536 // If we've already initialized the target, don't do it again. 537 if (Target) 538 return false; 539 540 this->TargetOpts = new TargetOptions(TargetOpts); 541 Target = TargetInfo::CreateTargetInfo(PP.getDiagnostics(), 542 &*this->TargetOpts); 543 544 updated(); 545 return false; 546 } 547 548 void ReadCounter(const serialization::ModuleFile &M, 549 unsigned Value) override { 550 Counter = Value; 551 } 552 553 private: 554 void updated() { 555 if (!Target || !InitializedLanguage) 556 return; 557 558 // Inform the target of the language options. 559 // 560 // FIXME: We shouldn't need to do this, the target should be immutable once 561 // created. This complexity should be lifted elsewhere. 562 Target->setForcedLangOptions(LangOpt); 563 564 // Initialize the preprocessor. 565 PP.Initialize(*Target); 566 567 // Initialize the ASTContext 568 Context.InitBuiltinTypes(*Target); 569 570 // We didn't have access to the comment options when the ASTContext was 571 // constructed, so register them now. 572 Context.getCommentCommandTraits().registerCommentOptions( 573 LangOpt.CommentOpts); 574 } 575 }; 576 577 /// \brief Diagnostic consumer that saves each diagnostic it is given. 578 class StoredDiagnosticConsumer : public DiagnosticConsumer { 579 SmallVectorImpl<StoredDiagnostic> &StoredDiags; 580 SourceManager *SourceMgr; 581 582 public: 583 explicit StoredDiagnosticConsumer( 584 SmallVectorImpl<StoredDiagnostic> &StoredDiags) 585 : StoredDiags(StoredDiags), SourceMgr(0) { } 586 587 void BeginSourceFile(const LangOptions &LangOpts, 588 const Preprocessor *PP = 0) override { 589 if (PP) 590 SourceMgr = &PP->getSourceManager(); 591 } 592 593 void HandleDiagnostic(DiagnosticsEngine::Level Level, 594 const Diagnostic &Info) override; 595 }; 596 597 /// \brief RAII object that optionally captures diagnostics, if 598 /// there is no diagnostic client to capture them already. 599 class CaptureDroppedDiagnostics { 600 DiagnosticsEngine &Diags; 601 StoredDiagnosticConsumer Client; 602 DiagnosticConsumer *PreviousClient; 603 604 public: 605 CaptureDroppedDiagnostics(bool RequestCapture, DiagnosticsEngine &Diags, 606 SmallVectorImpl<StoredDiagnostic> &StoredDiags) 607 : Diags(Diags), Client(StoredDiags), PreviousClient(0) 608 { 609 if (RequestCapture || Diags.getClient() == 0) { 610 PreviousClient = Diags.takeClient(); 611 Diags.setClient(&Client); 612 } 613 } 614 615 ~CaptureDroppedDiagnostics() { 616 if (Diags.getClient() == &Client) { 617 Diags.takeClient(); 618 Diags.setClient(PreviousClient); 619 } 620 } 621 }; 622 623 } // anonymous namespace 624 625 void StoredDiagnosticConsumer::HandleDiagnostic(DiagnosticsEngine::Level Level, 626 const Diagnostic &Info) { 627 // Default implementation (Warnings/errors count). 628 DiagnosticConsumer::HandleDiagnostic(Level, Info); 629 630 // Only record the diagnostic if it's part of the source manager we know 631 // about. This effectively drops diagnostics from modules we're building. 632 // FIXME: In the long run, ee don't want to drop source managers from modules. 633 if (!Info.hasSourceManager() || &Info.getSourceManager() == SourceMgr) 634 StoredDiags.push_back(StoredDiagnostic(Level, Info)); 635 } 636 637 ASTMutationListener *ASTUnit::getASTMutationListener() { 638 if (WriterData) 639 return &WriterData->Writer; 640 return 0; 641 } 642 643 ASTDeserializationListener *ASTUnit::getDeserializationListener() { 644 if (WriterData) 645 return &WriterData->Writer; 646 return 0; 647 } 648 649 llvm::MemoryBuffer *ASTUnit::getBufferForFile(StringRef Filename, 650 std::string *ErrorStr) { 651 assert(FileMgr); 652 return FileMgr->getBufferForFile(Filename, ErrorStr); 653 } 654 655 /// \brief Configure the diagnostics object for use with ASTUnit. 656 void ASTUnit::ConfigureDiags(IntrusiveRefCntPtr<DiagnosticsEngine> &Diags, 657 const char **ArgBegin, const char **ArgEnd, 658 ASTUnit &AST, bool CaptureDiagnostics) { 659 if (!Diags.getPtr()) { 660 // No diagnostics engine was provided, so create our own diagnostics object 661 // with the default options. 662 DiagnosticConsumer *Client = 0; 663 if (CaptureDiagnostics) 664 Client = new StoredDiagnosticConsumer(AST.StoredDiagnostics); 665 Diags = CompilerInstance::createDiagnostics(new DiagnosticOptions(), 666 Client, 667 /*ShouldOwnClient=*/true); 668 } else if (CaptureDiagnostics) { 669 Diags->setClient(new StoredDiagnosticConsumer(AST.StoredDiagnostics)); 670 } 671 } 672 673 ASTUnit *ASTUnit::LoadFromASTFile(const std::string &Filename, 674 IntrusiveRefCntPtr<DiagnosticsEngine> Diags, 675 const FileSystemOptions &FileSystemOpts, 676 bool OnlyLocalDecls, 677 ArrayRef<RemappedFile> RemappedFiles, 678 bool CaptureDiagnostics, 679 bool AllowPCHWithCompilerErrors, 680 bool UserFilesAreVolatile) { 681 std::unique_ptr<ASTUnit> AST(new ASTUnit(true)); 682 683 // Recover resources if we crash before exiting this method. 684 llvm::CrashRecoveryContextCleanupRegistrar<ASTUnit> 685 ASTUnitCleanup(AST.get()); 686 llvm::CrashRecoveryContextCleanupRegistrar<DiagnosticsEngine, 687 llvm::CrashRecoveryContextReleaseRefCleanup<DiagnosticsEngine> > 688 DiagCleanup(Diags.getPtr()); 689 690 ConfigureDiags(Diags, 0, 0, *AST, CaptureDiagnostics); 691 692 AST->OnlyLocalDecls = OnlyLocalDecls; 693 AST->CaptureDiagnostics = CaptureDiagnostics; 694 AST->Diagnostics = Diags; 695 IntrusiveRefCntPtr<vfs::FileSystem> VFS = vfs::getRealFileSystem(); 696 AST->FileMgr = new FileManager(FileSystemOpts, VFS); 697 AST->UserFilesAreVolatile = UserFilesAreVolatile; 698 AST->SourceMgr = new SourceManager(AST->getDiagnostics(), 699 AST->getFileManager(), 700 UserFilesAreVolatile); 701 AST->HSOpts = new HeaderSearchOptions(); 702 703 AST->HeaderInfo.reset(new HeaderSearch(AST->HSOpts, 704 AST->getSourceManager(), 705 AST->getDiagnostics(), 706 AST->ASTFileLangOpts, 707 /*Target=*/0)); 708 709 PreprocessorOptions *PPOpts = new PreprocessorOptions(); 710 711 for (unsigned I = 0, N = RemappedFiles.size(); I != N; ++I) 712 PPOpts->addRemappedFile(RemappedFiles[I].first, RemappedFiles[I].second); 713 714 // Gather Info for preprocessor construction later on. 715 716 HeaderSearch &HeaderInfo = *AST->HeaderInfo.get(); 717 unsigned Counter; 718 719 AST->PP = new Preprocessor(PPOpts, 720 AST->getDiagnostics(), AST->ASTFileLangOpts, 721 /*Target=*/0, AST->getSourceManager(), HeaderInfo, 722 *AST, 723 /*IILookup=*/0, 724 /*OwnsHeaderSearch=*/false, 725 /*DelayInitialization=*/true); 726 Preprocessor &PP = *AST->PP; 727 728 AST->Ctx = new ASTContext(AST->ASTFileLangOpts, 729 AST->getSourceManager(), 730 /*Target=*/0, 731 PP.getIdentifierTable(), 732 PP.getSelectorTable(), 733 PP.getBuiltinInfo(), 734 /* size_reserve = */0, 735 /*DelayInitialization=*/true); 736 ASTContext &Context = *AST->Ctx; 737 738 bool disableValid = false; 739 if (::getenv("LIBCLANG_DISABLE_PCH_VALIDATION")) 740 disableValid = true; 741 AST->Reader = new ASTReader(PP, Context, 742 /*isysroot=*/"", 743 /*DisableValidation=*/disableValid, 744 AllowPCHWithCompilerErrors); 745 746 AST->Reader->setListener(new ASTInfoCollector(*AST->PP, Context, 747 AST->ASTFileLangOpts, 748 AST->TargetOpts, AST->Target, 749 Counter)); 750 751 switch (AST->Reader->ReadAST(Filename, serialization::MK_MainFile, 752 SourceLocation(), ASTReader::ARR_None)) { 753 case ASTReader::Success: 754 break; 755 756 case ASTReader::Failure: 757 case ASTReader::Missing: 758 case ASTReader::OutOfDate: 759 case ASTReader::VersionMismatch: 760 case ASTReader::ConfigurationMismatch: 761 case ASTReader::HadErrors: 762 AST->getDiagnostics().Report(diag::err_fe_unable_to_load_pch); 763 return NULL; 764 } 765 766 AST->OriginalSourceFile = AST->Reader->getOriginalSourceFile(); 767 768 PP.setCounterValue(Counter); 769 770 // Attach the AST reader to the AST context as an external AST 771 // source, so that declarations will be deserialized from the 772 // AST file as needed. 773 Context.setExternalSource(AST->Reader); 774 775 // Create an AST consumer, even though it isn't used. 776 AST->Consumer.reset(new ASTConsumer); 777 778 // Create a semantic analysis object and tell the AST reader about it. 779 AST->TheSema.reset(new Sema(PP, Context, *AST->Consumer)); 780 AST->TheSema->Initialize(); 781 AST->Reader->InitializeSema(*AST->TheSema); 782 783 // Tell the diagnostic client that we have started a source file. 784 AST->getDiagnostics().getClient()->BeginSourceFile(Context.getLangOpts(),&PP); 785 786 return AST.release(); 787 } 788 789 namespace { 790 791 /// \brief Preprocessor callback class that updates a hash value with the names 792 /// of all macros that have been defined by the translation unit. 793 class MacroDefinitionTrackerPPCallbacks : public PPCallbacks { 794 unsigned &Hash; 795 796 public: 797 explicit MacroDefinitionTrackerPPCallbacks(unsigned &Hash) : Hash(Hash) { } 798 799 void MacroDefined(const Token &MacroNameTok, 800 const MacroDirective *MD) override { 801 Hash = llvm::HashString(MacroNameTok.getIdentifierInfo()->getName(), Hash); 802 } 803 }; 804 805 /// \brief Add the given declaration to the hash of all top-level entities. 806 void AddTopLevelDeclarationToHash(Decl *D, unsigned &Hash) { 807 if (!D) 808 return; 809 810 DeclContext *DC = D->getDeclContext(); 811 if (!DC) 812 return; 813 814 if (!(DC->isTranslationUnit() || DC->getLookupParent()->isTranslationUnit())) 815 return; 816 817 if (NamedDecl *ND = dyn_cast<NamedDecl>(D)) { 818 if (EnumDecl *EnumD = dyn_cast<EnumDecl>(D)) { 819 // For an unscoped enum include the enumerators in the hash since they 820 // enter the top-level namespace. 821 if (!EnumD->isScoped()) { 822 for (const auto *EI : EnumD->enumerators()) { 823 if (EI->getIdentifier()) 824 Hash = llvm::HashString(EI->getIdentifier()->getName(), Hash); 825 } 826 } 827 } 828 829 if (ND->getIdentifier()) 830 Hash = llvm::HashString(ND->getIdentifier()->getName(), Hash); 831 else if (DeclarationName Name = ND->getDeclName()) { 832 std::string NameStr = Name.getAsString(); 833 Hash = llvm::HashString(NameStr, Hash); 834 } 835 return; 836 } 837 838 if (ImportDecl *ImportD = dyn_cast<ImportDecl>(D)) { 839 if (Module *Mod = ImportD->getImportedModule()) { 840 std::string ModName = Mod->getFullModuleName(); 841 Hash = llvm::HashString(ModName, Hash); 842 } 843 return; 844 } 845 } 846 847 class TopLevelDeclTrackerConsumer : public ASTConsumer { 848 ASTUnit &Unit; 849 unsigned &Hash; 850 851 public: 852 TopLevelDeclTrackerConsumer(ASTUnit &_Unit, unsigned &Hash) 853 : Unit(_Unit), Hash(Hash) { 854 Hash = 0; 855 } 856 857 void handleTopLevelDecl(Decl *D) { 858 if (!D) 859 return; 860 861 // FIXME: Currently ObjC method declarations are incorrectly being 862 // reported as top-level declarations, even though their DeclContext 863 // is the containing ObjC @interface/@implementation. This is a 864 // fundamental problem in the parser right now. 865 if (isa<ObjCMethodDecl>(D)) 866 return; 867 868 AddTopLevelDeclarationToHash(D, Hash); 869 Unit.addTopLevelDecl(D); 870 871 handleFileLevelDecl(D); 872 } 873 874 void handleFileLevelDecl(Decl *D) { 875 Unit.addFileLevelDecl(D); 876 if (NamespaceDecl *NSD = dyn_cast<NamespaceDecl>(D)) { 877 for (auto *I : NSD->decls()) 878 handleFileLevelDecl(I); 879 } 880 } 881 882 bool HandleTopLevelDecl(DeclGroupRef D) override { 883 for (DeclGroupRef::iterator it = D.begin(), ie = D.end(); it != ie; ++it) 884 handleTopLevelDecl(*it); 885 return true; 886 } 887 888 // We're not interested in "interesting" decls. 889 void HandleInterestingDecl(DeclGroupRef) override {} 890 891 void HandleTopLevelDeclInObjCContainer(DeclGroupRef D) override { 892 for (DeclGroupRef::iterator it = D.begin(), ie = D.end(); it != ie; ++it) 893 handleTopLevelDecl(*it); 894 } 895 896 ASTMutationListener *GetASTMutationListener() override { 897 return Unit.getASTMutationListener(); 898 } 899 900 ASTDeserializationListener *GetASTDeserializationListener() override { 901 return Unit.getDeserializationListener(); 902 } 903 }; 904 905 class TopLevelDeclTrackerAction : public ASTFrontendAction { 906 public: 907 ASTUnit &Unit; 908 909 ASTConsumer *CreateASTConsumer(CompilerInstance &CI, 910 StringRef InFile) override { 911 CI.getPreprocessor().addPPCallbacks( 912 new MacroDefinitionTrackerPPCallbacks(Unit.getCurrentTopLevelHashValue())); 913 return new TopLevelDeclTrackerConsumer(Unit, 914 Unit.getCurrentTopLevelHashValue()); 915 } 916 917 public: 918 TopLevelDeclTrackerAction(ASTUnit &_Unit) : Unit(_Unit) {} 919 920 bool hasCodeCompletionSupport() const override { return false; } 921 TranslationUnitKind getTranslationUnitKind() override { 922 return Unit.getTranslationUnitKind(); 923 } 924 }; 925 926 class PrecompilePreambleAction : public ASTFrontendAction { 927 ASTUnit &Unit; 928 bool HasEmittedPreamblePCH; 929 930 public: 931 explicit PrecompilePreambleAction(ASTUnit &Unit) 932 : Unit(Unit), HasEmittedPreamblePCH(false) {} 933 934 ASTConsumer *CreateASTConsumer(CompilerInstance &CI, 935 StringRef InFile) override; 936 bool hasEmittedPreamblePCH() const { return HasEmittedPreamblePCH; } 937 void setHasEmittedPreamblePCH() { HasEmittedPreamblePCH = true; } 938 bool shouldEraseOutputFiles() override { return !hasEmittedPreamblePCH(); } 939 940 bool hasCodeCompletionSupport() const override { return false; } 941 bool hasASTFileSupport() const override { return false; } 942 TranslationUnitKind getTranslationUnitKind() override { return TU_Prefix; } 943 }; 944 945 class PrecompilePreambleConsumer : public PCHGenerator { 946 ASTUnit &Unit; 947 unsigned &Hash; 948 std::vector<Decl *> TopLevelDecls; 949 PrecompilePreambleAction *Action; 950 951 public: 952 PrecompilePreambleConsumer(ASTUnit &Unit, PrecompilePreambleAction *Action, 953 const Preprocessor &PP, StringRef isysroot, 954 raw_ostream *Out) 955 : PCHGenerator(PP, "", 0, isysroot, Out, /*AllowASTWithErrors=*/true), 956 Unit(Unit), Hash(Unit.getCurrentTopLevelHashValue()), Action(Action) { 957 Hash = 0; 958 } 959 960 bool HandleTopLevelDecl(DeclGroupRef D) override { 961 for (DeclGroupRef::iterator it = D.begin(), ie = D.end(); it != ie; ++it) { 962 Decl *D = *it; 963 // FIXME: Currently ObjC method declarations are incorrectly being 964 // reported as top-level declarations, even though their DeclContext 965 // is the containing ObjC @interface/@implementation. This is a 966 // fundamental problem in the parser right now. 967 if (isa<ObjCMethodDecl>(D)) 968 continue; 969 AddTopLevelDeclarationToHash(D, Hash); 970 TopLevelDecls.push_back(D); 971 } 972 return true; 973 } 974 975 void HandleTranslationUnit(ASTContext &Ctx) override { 976 PCHGenerator::HandleTranslationUnit(Ctx); 977 if (hasEmittedPCH()) { 978 // Translate the top-level declarations we captured during 979 // parsing into declaration IDs in the precompiled 980 // preamble. This will allow us to deserialize those top-level 981 // declarations when requested. 982 for (unsigned I = 0, N = TopLevelDecls.size(); I != N; ++I) { 983 Decl *D = TopLevelDecls[I]; 984 // Invalid top-level decls may not have been serialized. 985 if (D->isInvalidDecl()) 986 continue; 987 Unit.addTopLevelDeclFromPreamble(getWriter().getDeclID(D)); 988 } 989 990 Action->setHasEmittedPreamblePCH(); 991 } 992 } 993 }; 994 995 } 996 997 ASTConsumer *PrecompilePreambleAction::CreateASTConsumer(CompilerInstance &CI, 998 StringRef InFile) { 999 std::string Sysroot; 1000 std::string OutputFile; 1001 raw_ostream *OS = 0; 1002 if (GeneratePCHAction::ComputeASTConsumerArguments(CI, InFile, Sysroot, 1003 OutputFile, OS)) 1004 return 0; 1005 1006 if (!CI.getFrontendOpts().RelocatablePCH) 1007 Sysroot.clear(); 1008 1009 CI.getPreprocessor().addPPCallbacks(new MacroDefinitionTrackerPPCallbacks( 1010 Unit.getCurrentTopLevelHashValue())); 1011 return new PrecompilePreambleConsumer(Unit, this, CI.getPreprocessor(), 1012 Sysroot, OS); 1013 } 1014 1015 static bool isNonDriverDiag(const StoredDiagnostic &StoredDiag) { 1016 return StoredDiag.getLocation().isValid(); 1017 } 1018 1019 static void 1020 checkAndRemoveNonDriverDiags(SmallVectorImpl<StoredDiagnostic> &StoredDiags) { 1021 // Get rid of stored diagnostics except the ones from the driver which do not 1022 // have a source location. 1023 StoredDiags.erase( 1024 std::remove_if(StoredDiags.begin(), StoredDiags.end(), isNonDriverDiag), 1025 StoredDiags.end()); 1026 } 1027 1028 static void checkAndSanitizeDiags(SmallVectorImpl<StoredDiagnostic> & 1029 StoredDiagnostics, 1030 SourceManager &SM) { 1031 // The stored diagnostic has the old source manager in it; update 1032 // the locations to refer into the new source manager. Since we've 1033 // been careful to make sure that the source manager's state 1034 // before and after are identical, so that we can reuse the source 1035 // location itself. 1036 for (unsigned I = 0, N = StoredDiagnostics.size(); I < N; ++I) { 1037 if (StoredDiagnostics[I].getLocation().isValid()) { 1038 FullSourceLoc Loc(StoredDiagnostics[I].getLocation(), SM); 1039 StoredDiagnostics[I].setLocation(Loc); 1040 } 1041 } 1042 } 1043 1044 /// Parse the source file into a translation unit using the given compiler 1045 /// invocation, replacing the current translation unit. 1046 /// 1047 /// \returns True if a failure occurred that causes the ASTUnit not to 1048 /// contain any translation-unit information, false otherwise. 1049 bool ASTUnit::Parse(llvm::MemoryBuffer *OverrideMainBuffer) { 1050 delete SavedMainFileBuffer; 1051 SavedMainFileBuffer = 0; 1052 1053 if (!Invocation) { 1054 delete OverrideMainBuffer; 1055 return true; 1056 } 1057 1058 // Create the compiler instance to use for building the AST. 1059 std::unique_ptr<CompilerInstance> Clang(new CompilerInstance()); 1060 1061 // Recover resources if we crash before exiting this method. 1062 llvm::CrashRecoveryContextCleanupRegistrar<CompilerInstance> 1063 CICleanup(Clang.get()); 1064 1065 IntrusiveRefCntPtr<CompilerInvocation> 1066 CCInvocation(new CompilerInvocation(*Invocation)); 1067 1068 Clang->setInvocation(CCInvocation.getPtr()); 1069 OriginalSourceFile = Clang->getFrontendOpts().Inputs[0].getFile(); 1070 1071 // Set up diagnostics, capturing any diagnostics that would 1072 // otherwise be dropped. 1073 Clang->setDiagnostics(&getDiagnostics()); 1074 1075 // Create the target instance. 1076 Clang->setTarget(TargetInfo::CreateTargetInfo(Clang->getDiagnostics(), 1077 &Clang->getTargetOpts())); 1078 if (!Clang->hasTarget()) { 1079 delete OverrideMainBuffer; 1080 return true; 1081 } 1082 1083 // Inform the target of the language options. 1084 // 1085 // FIXME: We shouldn't need to do this, the target should be immutable once 1086 // created. This complexity should be lifted elsewhere. 1087 Clang->getTarget().setForcedLangOptions(Clang->getLangOpts()); 1088 1089 assert(Clang->getFrontendOpts().Inputs.size() == 1 && 1090 "Invocation must have exactly one source file!"); 1091 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_AST && 1092 "FIXME: AST inputs not yet supported here!"); 1093 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_LLVM_IR && 1094 "IR inputs not support here!"); 1095 1096 // Configure the various subsystems. 1097 LangOpts = &Clang->getLangOpts(); 1098 FileSystemOpts = Clang->getFileSystemOpts(); 1099 // Re-use the existing FileManager 1100 SourceMgr = new SourceManager(getDiagnostics(), *FileMgr, 1101 UserFilesAreVolatile); 1102 TheSema.reset(); 1103 Ctx = 0; 1104 PP = 0; 1105 Reader = 0; 1106 1107 // Clear out old caches and data. 1108 TopLevelDecls.clear(); 1109 clearFileLevelDecls(); 1110 CleanTemporaryFiles(); 1111 1112 if (!OverrideMainBuffer) { 1113 checkAndRemoveNonDriverDiags(StoredDiagnostics); 1114 TopLevelDeclsInPreamble.clear(); 1115 } 1116 1117 // Create a file manager object to provide access to and cache the filesystem. 1118 Clang->setFileManager(&getFileManager()); 1119 1120 // Create the source manager. 1121 Clang->setSourceManager(&getSourceManager()); 1122 1123 // If the main file has been overridden due to the use of a preamble, 1124 // make that override happen and introduce the preamble. 1125 PreprocessorOptions &PreprocessorOpts = Clang->getPreprocessorOpts(); 1126 if (OverrideMainBuffer) { 1127 PreprocessorOpts.addRemappedFile(OriginalSourceFile, OverrideMainBuffer); 1128 PreprocessorOpts.PrecompiledPreambleBytes.first = Preamble.size(); 1129 PreprocessorOpts.PrecompiledPreambleBytes.second 1130 = PreambleEndsAtStartOfLine; 1131 PreprocessorOpts.ImplicitPCHInclude = getPreambleFile(this); 1132 PreprocessorOpts.DisablePCHValidation = true; 1133 1134 // The stored diagnostic has the old source manager in it; update 1135 // the locations to refer into the new source manager. Since we've 1136 // been careful to make sure that the source manager's state 1137 // before and after are identical, so that we can reuse the source 1138 // location itself. 1139 checkAndSanitizeDiags(StoredDiagnostics, getSourceManager()); 1140 1141 // Keep track of the override buffer; 1142 SavedMainFileBuffer = OverrideMainBuffer; 1143 } 1144 1145 std::unique_ptr<TopLevelDeclTrackerAction> Act( 1146 new TopLevelDeclTrackerAction(*this)); 1147 1148 // Recover resources if we crash before exiting this method. 1149 llvm::CrashRecoveryContextCleanupRegistrar<TopLevelDeclTrackerAction> 1150 ActCleanup(Act.get()); 1151 1152 if (!Act->BeginSourceFile(*Clang.get(), Clang->getFrontendOpts().Inputs[0])) 1153 goto error; 1154 1155 if (OverrideMainBuffer) { 1156 std::string ModName = getPreambleFile(this); 1157 TranslateStoredDiagnostics(getFileManager(), getSourceManager(), 1158 PreambleDiagnostics, StoredDiagnostics); 1159 } 1160 1161 if (!Act->Execute()) 1162 goto error; 1163 1164 transferASTDataFromCompilerInstance(*Clang); 1165 1166 Act->EndSourceFile(); 1167 1168 FailedParseDiagnostics.clear(); 1169 1170 return false; 1171 1172 error: 1173 // Remove the overridden buffer we used for the preamble. 1174 if (OverrideMainBuffer) { 1175 delete OverrideMainBuffer; 1176 SavedMainFileBuffer = 0; 1177 } 1178 1179 // Keep the ownership of the data in the ASTUnit because the client may 1180 // want to see the diagnostics. 1181 transferASTDataFromCompilerInstance(*Clang); 1182 FailedParseDiagnostics.swap(StoredDiagnostics); 1183 StoredDiagnostics.clear(); 1184 NumStoredDiagnosticsFromDriver = 0; 1185 return true; 1186 } 1187 1188 /// \brief Simple function to retrieve a path for a preamble precompiled header. 1189 static std::string GetPreamblePCHPath() { 1190 // FIXME: This is a hack so that we can override the preamble file during 1191 // crash-recovery testing, which is the only case where the preamble files 1192 // are not necessarily cleaned up. 1193 const char *TmpFile = ::getenv("CINDEXTEST_PREAMBLE_FILE"); 1194 if (TmpFile) 1195 return TmpFile; 1196 1197 SmallString<128> Path; 1198 llvm::sys::fs::createTemporaryFile("preamble", "pch", Path); 1199 1200 return Path.str(); 1201 } 1202 1203 /// \brief Compute the preamble for the main file, providing the source buffer 1204 /// that corresponds to the main file along with a pair (bytes, start-of-line) 1205 /// that describes the preamble. 1206 std::pair<llvm::MemoryBuffer *, std::pair<unsigned, bool> > 1207 ASTUnit::ComputePreamble(CompilerInvocation &Invocation, 1208 unsigned MaxLines, bool &CreatedBuffer) { 1209 FrontendOptions &FrontendOpts = Invocation.getFrontendOpts(); 1210 PreprocessorOptions &PreprocessorOpts = Invocation.getPreprocessorOpts(); 1211 CreatedBuffer = false; 1212 1213 // Try to determine if the main file has been remapped, either from the 1214 // command line (to another file) or directly through the compiler invocation 1215 // (to a memory buffer). 1216 llvm::MemoryBuffer *Buffer = 0; 1217 std::string MainFilePath(FrontendOpts.Inputs[0].getFile()); 1218 llvm::sys::fs::UniqueID MainFileID; 1219 if (!llvm::sys::fs::getUniqueID(MainFilePath, MainFileID)) { 1220 // Check whether there is a file-file remapping of the main file 1221 for (PreprocessorOptions::remapped_file_iterator 1222 M = PreprocessorOpts.remapped_file_begin(), 1223 E = PreprocessorOpts.remapped_file_end(); 1224 M != E; 1225 ++M) { 1226 std::string MPath(M->first); 1227 llvm::sys::fs::UniqueID MID; 1228 if (!llvm::sys::fs::getUniqueID(MPath, MID)) { 1229 if (MainFileID == MID) { 1230 // We found a remapping. Try to load the resulting, remapped source. 1231 if (CreatedBuffer) { 1232 delete Buffer; 1233 CreatedBuffer = false; 1234 } 1235 1236 Buffer = getBufferForFile(M->second); 1237 if (!Buffer) 1238 return std::make_pair((llvm::MemoryBuffer*)0, 1239 std::make_pair(0, true)); 1240 CreatedBuffer = true; 1241 } 1242 } 1243 } 1244 1245 // Check whether there is a file-buffer remapping. It supercedes the 1246 // file-file remapping. 1247 for (PreprocessorOptions::remapped_file_buffer_iterator 1248 M = PreprocessorOpts.remapped_file_buffer_begin(), 1249 E = PreprocessorOpts.remapped_file_buffer_end(); 1250 M != E; 1251 ++M) { 1252 std::string MPath(M->first); 1253 llvm::sys::fs::UniqueID MID; 1254 if (!llvm::sys::fs::getUniqueID(MPath, MID)) { 1255 if (MainFileID == MID) { 1256 // We found a remapping. 1257 if (CreatedBuffer) { 1258 delete Buffer; 1259 CreatedBuffer = false; 1260 } 1261 1262 Buffer = const_cast<llvm::MemoryBuffer *>(M->second); 1263 } 1264 } 1265 } 1266 } 1267 1268 // If the main source file was not remapped, load it now. 1269 if (!Buffer) { 1270 Buffer = getBufferForFile(FrontendOpts.Inputs[0].getFile()); 1271 if (!Buffer) 1272 return std::make_pair((llvm::MemoryBuffer*)0, std::make_pair(0, true)); 1273 1274 CreatedBuffer = true; 1275 } 1276 1277 return std::make_pair(Buffer, Lexer::ComputePreamble(Buffer, 1278 *Invocation.getLangOpts(), 1279 MaxLines)); 1280 } 1281 1282 ASTUnit::PreambleFileHash 1283 ASTUnit::PreambleFileHash::createForFile(off_t Size, time_t ModTime) { 1284 PreambleFileHash Result; 1285 Result.Size = Size; 1286 Result.ModTime = ModTime; 1287 memset(Result.MD5, 0, sizeof(Result.MD5)); 1288 return Result; 1289 } 1290 1291 ASTUnit::PreambleFileHash ASTUnit::PreambleFileHash::createForMemoryBuffer( 1292 const llvm::MemoryBuffer *Buffer) { 1293 PreambleFileHash Result; 1294 Result.Size = Buffer->getBufferSize(); 1295 Result.ModTime = 0; 1296 1297 llvm::MD5 MD5Ctx; 1298 MD5Ctx.update(Buffer->getBuffer().data()); 1299 MD5Ctx.final(Result.MD5); 1300 1301 return Result; 1302 } 1303 1304 namespace clang { 1305 bool operator==(const ASTUnit::PreambleFileHash &LHS, 1306 const ASTUnit::PreambleFileHash &RHS) { 1307 return LHS.Size == RHS.Size && LHS.ModTime == RHS.ModTime && 1308 memcmp(LHS.MD5, RHS.MD5, sizeof(LHS.MD5)) == 0; 1309 } 1310 } // namespace clang 1311 1312 static std::pair<unsigned, unsigned> 1313 makeStandaloneRange(CharSourceRange Range, const SourceManager &SM, 1314 const LangOptions &LangOpts) { 1315 CharSourceRange FileRange = Lexer::makeFileCharRange(Range, SM, LangOpts); 1316 unsigned Offset = SM.getFileOffset(FileRange.getBegin()); 1317 unsigned EndOffset = SM.getFileOffset(FileRange.getEnd()); 1318 return std::make_pair(Offset, EndOffset); 1319 } 1320 1321 static void makeStandaloneFixIt(const SourceManager &SM, 1322 const LangOptions &LangOpts, 1323 const FixItHint &InFix, 1324 ASTUnit::StandaloneFixIt &OutFix) { 1325 OutFix.RemoveRange = makeStandaloneRange(InFix.RemoveRange, SM, LangOpts); 1326 OutFix.InsertFromRange = makeStandaloneRange(InFix.InsertFromRange, SM, 1327 LangOpts); 1328 OutFix.CodeToInsert = InFix.CodeToInsert; 1329 OutFix.BeforePreviousInsertions = InFix.BeforePreviousInsertions; 1330 } 1331 1332 static void makeStandaloneDiagnostic(const LangOptions &LangOpts, 1333 const StoredDiagnostic &InDiag, 1334 ASTUnit::StandaloneDiagnostic &OutDiag) { 1335 OutDiag.ID = InDiag.getID(); 1336 OutDiag.Level = InDiag.getLevel(); 1337 OutDiag.Message = InDiag.getMessage(); 1338 OutDiag.LocOffset = 0; 1339 if (InDiag.getLocation().isInvalid()) 1340 return; 1341 const SourceManager &SM = InDiag.getLocation().getManager(); 1342 SourceLocation FileLoc = SM.getFileLoc(InDiag.getLocation()); 1343 OutDiag.Filename = SM.getFilename(FileLoc); 1344 if (OutDiag.Filename.empty()) 1345 return; 1346 OutDiag.LocOffset = SM.getFileOffset(FileLoc); 1347 for (StoredDiagnostic::range_iterator 1348 I = InDiag.range_begin(), E = InDiag.range_end(); I != E; ++I) { 1349 OutDiag.Ranges.push_back(makeStandaloneRange(*I, SM, LangOpts)); 1350 } 1351 for (StoredDiagnostic::fixit_iterator 1352 I = InDiag.fixit_begin(), E = InDiag.fixit_end(); I != E; ++I) { 1353 ASTUnit::StandaloneFixIt Fix; 1354 makeStandaloneFixIt(SM, LangOpts, *I, Fix); 1355 OutDiag.FixIts.push_back(Fix); 1356 } 1357 } 1358 1359 /// \brief Attempt to build or re-use a precompiled preamble when (re-)parsing 1360 /// the source file. 1361 /// 1362 /// This routine will compute the preamble of the main source file. If a 1363 /// non-trivial preamble is found, it will precompile that preamble into a 1364 /// precompiled header so that the precompiled preamble can be used to reduce 1365 /// reparsing time. If a precompiled preamble has already been constructed, 1366 /// this routine will determine if it is still valid and, if so, avoid 1367 /// rebuilding the precompiled preamble. 1368 /// 1369 /// \param AllowRebuild When true (the default), this routine is 1370 /// allowed to rebuild the precompiled preamble if it is found to be 1371 /// out-of-date. 1372 /// 1373 /// \param MaxLines When non-zero, the maximum number of lines that 1374 /// can occur within the preamble. 1375 /// 1376 /// \returns If the precompiled preamble can be used, returns a newly-allocated 1377 /// buffer that should be used in place of the main file when doing so. 1378 /// Otherwise, returns a NULL pointer. 1379 llvm::MemoryBuffer *ASTUnit::getMainBufferWithPrecompiledPreamble( 1380 const CompilerInvocation &PreambleInvocationIn, 1381 bool AllowRebuild, 1382 unsigned MaxLines) { 1383 1384 IntrusiveRefCntPtr<CompilerInvocation> 1385 PreambleInvocation(new CompilerInvocation(PreambleInvocationIn)); 1386 FrontendOptions &FrontendOpts = PreambleInvocation->getFrontendOpts(); 1387 PreprocessorOptions &PreprocessorOpts 1388 = PreambleInvocation->getPreprocessorOpts(); 1389 1390 bool CreatedPreambleBuffer = false; 1391 std::pair<llvm::MemoryBuffer *, std::pair<unsigned, bool> > NewPreamble 1392 = ComputePreamble(*PreambleInvocation, MaxLines, CreatedPreambleBuffer); 1393 1394 // If ComputePreamble() Take ownership of the preamble buffer. 1395 std::unique_ptr<llvm::MemoryBuffer> OwnedPreambleBuffer; 1396 if (CreatedPreambleBuffer) 1397 OwnedPreambleBuffer.reset(NewPreamble.first); 1398 1399 if (!NewPreamble.second.first) { 1400 // We couldn't find a preamble in the main source. Clear out the current 1401 // preamble, if we have one. It's obviously no good any more. 1402 Preamble.clear(); 1403 erasePreambleFile(this); 1404 1405 // The next time we actually see a preamble, precompile it. 1406 PreambleRebuildCounter = 1; 1407 return 0; 1408 } 1409 1410 if (!Preamble.empty()) { 1411 // We've previously computed a preamble. Check whether we have the same 1412 // preamble now that we did before, and that there's enough space in 1413 // the main-file buffer within the precompiled preamble to fit the 1414 // new main file. 1415 if (Preamble.size() == NewPreamble.second.first && 1416 PreambleEndsAtStartOfLine == NewPreamble.second.second && 1417 memcmp(Preamble.getBufferStart(), NewPreamble.first->getBufferStart(), 1418 NewPreamble.second.first) == 0) { 1419 // The preamble has not changed. We may be able to re-use the precompiled 1420 // preamble. 1421 1422 // Check that none of the files used by the preamble have changed. 1423 bool AnyFileChanged = false; 1424 1425 // First, make a record of those files that have been overridden via 1426 // remapping or unsaved_files. 1427 llvm::StringMap<PreambleFileHash> OverriddenFiles; 1428 for (PreprocessorOptions::remapped_file_iterator 1429 R = PreprocessorOpts.remapped_file_begin(), 1430 REnd = PreprocessorOpts.remapped_file_end(); 1431 !AnyFileChanged && R != REnd; 1432 ++R) { 1433 vfs::Status Status; 1434 if (FileMgr->getNoncachedStatValue(R->second, Status)) { 1435 // If we can't stat the file we're remapping to, assume that something 1436 // horrible happened. 1437 AnyFileChanged = true; 1438 break; 1439 } 1440 1441 OverriddenFiles[R->first] = PreambleFileHash::createForFile( 1442 Status.getSize(), Status.getLastModificationTime().toEpochTime()); 1443 } 1444 for (PreprocessorOptions::remapped_file_buffer_iterator 1445 R = PreprocessorOpts.remapped_file_buffer_begin(), 1446 REnd = PreprocessorOpts.remapped_file_buffer_end(); 1447 !AnyFileChanged && R != REnd; 1448 ++R) { 1449 OverriddenFiles[R->first] = 1450 PreambleFileHash::createForMemoryBuffer(R->second); 1451 } 1452 1453 // Check whether anything has changed. 1454 for (llvm::StringMap<PreambleFileHash>::iterator 1455 F = FilesInPreamble.begin(), FEnd = FilesInPreamble.end(); 1456 !AnyFileChanged && F != FEnd; 1457 ++F) { 1458 llvm::StringMap<PreambleFileHash>::iterator Overridden 1459 = OverriddenFiles.find(F->first()); 1460 if (Overridden != OverriddenFiles.end()) { 1461 // This file was remapped; check whether the newly-mapped file 1462 // matches up with the previous mapping. 1463 if (Overridden->second != F->second) 1464 AnyFileChanged = true; 1465 continue; 1466 } 1467 1468 // The file was not remapped; check whether it has changed on disk. 1469 vfs::Status Status; 1470 if (FileMgr->getNoncachedStatValue(F->first(), Status)) { 1471 // If we can't stat the file, assume that something horrible happened. 1472 AnyFileChanged = true; 1473 } else if (Status.getSize() != uint64_t(F->second.Size) || 1474 Status.getLastModificationTime().toEpochTime() != 1475 uint64_t(F->second.ModTime)) 1476 AnyFileChanged = true; 1477 } 1478 1479 if (!AnyFileChanged) { 1480 // Okay! We can re-use the precompiled preamble. 1481 1482 // Set the state of the diagnostic object to mimic its state 1483 // after parsing the preamble. 1484 getDiagnostics().Reset(); 1485 ProcessWarningOptions(getDiagnostics(), 1486 PreambleInvocation->getDiagnosticOpts()); 1487 getDiagnostics().setNumWarnings(NumWarningsInPreamble); 1488 1489 return llvm::MemoryBuffer::getMemBufferCopy( 1490 NewPreamble.first->getBuffer(), FrontendOpts.Inputs[0].getFile()); 1491 } 1492 } 1493 1494 // If we aren't allowed to rebuild the precompiled preamble, just 1495 // return now. 1496 if (!AllowRebuild) 1497 return 0; 1498 1499 // We can't reuse the previously-computed preamble. Build a new one. 1500 Preamble.clear(); 1501 PreambleDiagnostics.clear(); 1502 erasePreambleFile(this); 1503 PreambleRebuildCounter = 1; 1504 } else if (!AllowRebuild) { 1505 // We aren't allowed to rebuild the precompiled preamble; just 1506 // return now. 1507 return 0; 1508 } 1509 1510 // If the preamble rebuild counter > 1, it's because we previously 1511 // failed to build a preamble and we're not yet ready to try 1512 // again. Decrement the counter and return a failure. 1513 if (PreambleRebuildCounter > 1) { 1514 --PreambleRebuildCounter; 1515 return 0; 1516 } 1517 1518 // Create a temporary file for the precompiled preamble. In rare 1519 // circumstances, this can fail. 1520 std::string PreamblePCHPath = GetPreamblePCHPath(); 1521 if (PreamblePCHPath.empty()) { 1522 // Try again next time. 1523 PreambleRebuildCounter = 1; 1524 return 0; 1525 } 1526 1527 // We did not previously compute a preamble, or it can't be reused anyway. 1528 SimpleTimer PreambleTimer(WantTiming); 1529 PreambleTimer.setOutput("Precompiling preamble"); 1530 1531 // Save the preamble text for later; we'll need to compare against it for 1532 // subsequent reparses. 1533 StringRef MainFilename = FrontendOpts.Inputs[0].getFile(); 1534 Preamble.assign(FileMgr->getFile(MainFilename), 1535 NewPreamble.first->getBufferStart(), 1536 NewPreamble.first->getBufferStart() 1537 + NewPreamble.second.first); 1538 PreambleEndsAtStartOfLine = NewPreamble.second.second; 1539 1540 delete PreambleBuffer; 1541 PreambleBuffer 1542 = llvm::MemoryBuffer::getMemBufferCopy( 1543 NewPreamble.first->getBuffer().slice(0, Preamble.size()), MainFilename); 1544 1545 // Remap the main source file to the preamble buffer. 1546 StringRef MainFilePath = FrontendOpts.Inputs[0].getFile(); 1547 PreprocessorOpts.addRemappedFile(MainFilePath, PreambleBuffer); 1548 1549 // Tell the compiler invocation to generate a temporary precompiled header. 1550 FrontendOpts.ProgramAction = frontend::GeneratePCH; 1551 // FIXME: Generate the precompiled header into memory? 1552 FrontendOpts.OutputFile = PreamblePCHPath; 1553 PreprocessorOpts.PrecompiledPreambleBytes.first = 0; 1554 PreprocessorOpts.PrecompiledPreambleBytes.second = false; 1555 1556 // Create the compiler instance to use for building the precompiled preamble. 1557 std::unique_ptr<CompilerInstance> Clang(new CompilerInstance()); 1558 1559 // Recover resources if we crash before exiting this method. 1560 llvm::CrashRecoveryContextCleanupRegistrar<CompilerInstance> 1561 CICleanup(Clang.get()); 1562 1563 Clang->setInvocation(&*PreambleInvocation); 1564 OriginalSourceFile = Clang->getFrontendOpts().Inputs[0].getFile(); 1565 1566 // Set up diagnostics, capturing all of the diagnostics produced. 1567 Clang->setDiagnostics(&getDiagnostics()); 1568 1569 // Create the target instance. 1570 Clang->setTarget(TargetInfo::CreateTargetInfo(Clang->getDiagnostics(), 1571 &Clang->getTargetOpts())); 1572 if (!Clang->hasTarget()) { 1573 llvm::sys::fs::remove(FrontendOpts.OutputFile); 1574 Preamble.clear(); 1575 PreambleRebuildCounter = DefaultPreambleRebuildInterval; 1576 PreprocessorOpts.eraseRemappedFile( 1577 PreprocessorOpts.remapped_file_buffer_end() - 1); 1578 return 0; 1579 } 1580 1581 // Inform the target of the language options. 1582 // 1583 // FIXME: We shouldn't need to do this, the target should be immutable once 1584 // created. This complexity should be lifted elsewhere. 1585 Clang->getTarget().setForcedLangOptions(Clang->getLangOpts()); 1586 1587 assert(Clang->getFrontendOpts().Inputs.size() == 1 && 1588 "Invocation must have exactly one source file!"); 1589 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_AST && 1590 "FIXME: AST inputs not yet supported here!"); 1591 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_LLVM_IR && 1592 "IR inputs not support here!"); 1593 1594 // Clear out old caches and data. 1595 getDiagnostics().Reset(); 1596 ProcessWarningOptions(getDiagnostics(), Clang->getDiagnosticOpts()); 1597 checkAndRemoveNonDriverDiags(StoredDiagnostics); 1598 TopLevelDecls.clear(); 1599 TopLevelDeclsInPreamble.clear(); 1600 PreambleDiagnostics.clear(); 1601 1602 IntrusiveRefCntPtr<vfs::FileSystem> VFS = 1603 createVFSFromCompilerInvocation(Clang->getInvocation(), getDiagnostics()); 1604 if (!VFS) 1605 return nullptr; 1606 1607 // Create a file manager object to provide access to and cache the filesystem. 1608 Clang->setFileManager(new FileManager(Clang->getFileSystemOpts(), VFS)); 1609 1610 // Create the source manager. 1611 Clang->setSourceManager(new SourceManager(getDiagnostics(), 1612 Clang->getFileManager())); 1613 1614 std::unique_ptr<PrecompilePreambleAction> Act; 1615 Act.reset(new PrecompilePreambleAction(*this)); 1616 if (!Act->BeginSourceFile(*Clang.get(), Clang->getFrontendOpts().Inputs[0])) { 1617 llvm::sys::fs::remove(FrontendOpts.OutputFile); 1618 Preamble.clear(); 1619 PreambleRebuildCounter = DefaultPreambleRebuildInterval; 1620 PreprocessorOpts.eraseRemappedFile( 1621 PreprocessorOpts.remapped_file_buffer_end() - 1); 1622 return 0; 1623 } 1624 1625 Act->Execute(); 1626 1627 // Transfer any diagnostics generated when parsing the preamble into the set 1628 // of preamble diagnostics. 1629 for (stored_diag_iterator 1630 I = stored_diag_afterDriver_begin(), 1631 E = stored_diag_end(); I != E; ++I) { 1632 StandaloneDiagnostic Diag; 1633 makeStandaloneDiagnostic(Clang->getLangOpts(), *I, Diag); 1634 PreambleDiagnostics.push_back(Diag); 1635 } 1636 1637 Act->EndSourceFile(); 1638 1639 checkAndRemoveNonDriverDiags(StoredDiagnostics); 1640 1641 if (!Act->hasEmittedPreamblePCH()) { 1642 // The preamble PCH failed (e.g. there was a module loading fatal error), 1643 // so no precompiled header was generated. Forget that we even tried. 1644 // FIXME: Should we leave a note for ourselves to try again? 1645 llvm::sys::fs::remove(FrontendOpts.OutputFile); 1646 Preamble.clear(); 1647 TopLevelDeclsInPreamble.clear(); 1648 PreambleRebuildCounter = DefaultPreambleRebuildInterval; 1649 PreprocessorOpts.eraseRemappedFile( 1650 PreprocessorOpts.remapped_file_buffer_end() - 1); 1651 return 0; 1652 } 1653 1654 // Keep track of the preamble we precompiled. 1655 setPreambleFile(this, FrontendOpts.OutputFile); 1656 NumWarningsInPreamble = getDiagnostics().getNumWarnings(); 1657 1658 // Keep track of all of the files that the source manager knows about, 1659 // so we can verify whether they have changed or not. 1660 FilesInPreamble.clear(); 1661 SourceManager &SourceMgr = Clang->getSourceManager(); 1662 const llvm::MemoryBuffer *MainFileBuffer 1663 = SourceMgr.getBuffer(SourceMgr.getMainFileID()); 1664 for (SourceManager::fileinfo_iterator F = SourceMgr.fileinfo_begin(), 1665 FEnd = SourceMgr.fileinfo_end(); 1666 F != FEnd; 1667 ++F) { 1668 const FileEntry *File = F->second->OrigEntry; 1669 if (!File) 1670 continue; 1671 const llvm::MemoryBuffer *Buffer = F->second->getRawBuffer(); 1672 if (Buffer == MainFileBuffer) 1673 continue; 1674 1675 if (time_t ModTime = File->getModificationTime()) { 1676 FilesInPreamble[File->getName()] = PreambleFileHash::createForFile( 1677 F->second->getSize(), ModTime); 1678 } else { 1679 assert(F->second->getSize() == Buffer->getBufferSize()); 1680 FilesInPreamble[File->getName()] = 1681 PreambleFileHash::createForMemoryBuffer(Buffer); 1682 } 1683 } 1684 1685 PreambleRebuildCounter = 1; 1686 PreprocessorOpts.eraseRemappedFile( 1687 PreprocessorOpts.remapped_file_buffer_end() - 1); 1688 1689 // If the hash of top-level entities differs from the hash of the top-level 1690 // entities the last time we rebuilt the preamble, clear out the completion 1691 // cache. 1692 if (CurrentTopLevelHashValue != PreambleTopLevelHashValue) { 1693 CompletionCacheTopLevelHashValue = 0; 1694 PreambleTopLevelHashValue = CurrentTopLevelHashValue; 1695 } 1696 1697 return llvm::MemoryBuffer::getMemBufferCopy(NewPreamble.first->getBuffer(), 1698 MainFilename); 1699 } 1700 1701 void ASTUnit::RealizeTopLevelDeclsFromPreamble() { 1702 std::vector<Decl *> Resolved; 1703 Resolved.reserve(TopLevelDeclsInPreamble.size()); 1704 ExternalASTSource &Source = *getASTContext().getExternalSource(); 1705 for (unsigned I = 0, N = TopLevelDeclsInPreamble.size(); I != N; ++I) { 1706 // Resolve the declaration ID to an actual declaration, possibly 1707 // deserializing the declaration in the process. 1708 Decl *D = Source.GetExternalDecl(TopLevelDeclsInPreamble[I]); 1709 if (D) 1710 Resolved.push_back(D); 1711 } 1712 TopLevelDeclsInPreamble.clear(); 1713 TopLevelDecls.insert(TopLevelDecls.begin(), Resolved.begin(), Resolved.end()); 1714 } 1715 1716 void ASTUnit::transferASTDataFromCompilerInstance(CompilerInstance &CI) { 1717 // Steal the created target, context, and preprocessor. 1718 TheSema.reset(CI.takeSema()); 1719 Consumer.reset(CI.takeASTConsumer()); 1720 Ctx = &CI.getASTContext(); 1721 PP = &CI.getPreprocessor(); 1722 CI.setSourceManager(0); 1723 CI.setFileManager(0); 1724 Target = &CI.getTarget(); 1725 Reader = CI.getModuleManager(); 1726 HadModuleLoaderFatalFailure = CI.hadModuleLoaderFatalFailure(); 1727 } 1728 1729 StringRef ASTUnit::getMainFileName() const { 1730 if (Invocation && !Invocation->getFrontendOpts().Inputs.empty()) { 1731 const FrontendInputFile &Input = Invocation->getFrontendOpts().Inputs[0]; 1732 if (Input.isFile()) 1733 return Input.getFile(); 1734 else 1735 return Input.getBuffer()->getBufferIdentifier(); 1736 } 1737 1738 if (SourceMgr) { 1739 if (const FileEntry * 1740 FE = SourceMgr->getFileEntryForID(SourceMgr->getMainFileID())) 1741 return FE->getName(); 1742 } 1743 1744 return StringRef(); 1745 } 1746 1747 StringRef ASTUnit::getASTFileName() const { 1748 if (!isMainFileAST()) 1749 return StringRef(); 1750 1751 serialization::ModuleFile & 1752 Mod = Reader->getModuleManager().getPrimaryModule(); 1753 return Mod.FileName; 1754 } 1755 1756 ASTUnit *ASTUnit::create(CompilerInvocation *CI, 1757 IntrusiveRefCntPtr<DiagnosticsEngine> Diags, 1758 bool CaptureDiagnostics, 1759 bool UserFilesAreVolatile) { 1760 std::unique_ptr<ASTUnit> AST; 1761 AST.reset(new ASTUnit(false)); 1762 ConfigureDiags(Diags, 0, 0, *AST, CaptureDiagnostics); 1763 AST->Diagnostics = Diags; 1764 AST->Invocation = CI; 1765 AST->FileSystemOpts = CI->getFileSystemOpts(); 1766 IntrusiveRefCntPtr<vfs::FileSystem> VFS = 1767 createVFSFromCompilerInvocation(*CI, *Diags); 1768 if (!VFS) 1769 return nullptr; 1770 AST->FileMgr = new FileManager(AST->FileSystemOpts, VFS); 1771 AST->UserFilesAreVolatile = UserFilesAreVolatile; 1772 AST->SourceMgr = new SourceManager(AST->getDiagnostics(), *AST->FileMgr, 1773 UserFilesAreVolatile); 1774 1775 return AST.release(); 1776 } 1777 1778 ASTUnit *ASTUnit::LoadFromCompilerInvocationAction( 1779 CompilerInvocation *CI, IntrusiveRefCntPtr<DiagnosticsEngine> Diags, 1780 ASTFrontendAction *Action, ASTUnit *Unit, bool Persistent, 1781 StringRef ResourceFilesPath, bool OnlyLocalDecls, bool CaptureDiagnostics, 1782 bool PrecompilePreamble, bool CacheCodeCompletionResults, 1783 bool IncludeBriefCommentsInCodeCompletion, bool UserFilesAreVolatile, 1784 std::unique_ptr<ASTUnit> *ErrAST) { 1785 assert(CI && "A CompilerInvocation is required"); 1786 1787 std::unique_ptr<ASTUnit> OwnAST; 1788 ASTUnit *AST = Unit; 1789 if (!AST) { 1790 // Create the AST unit. 1791 OwnAST.reset(create(CI, Diags, CaptureDiagnostics, UserFilesAreVolatile)); 1792 AST = OwnAST.get(); 1793 if (!AST) 1794 return nullptr; 1795 } 1796 1797 if (!ResourceFilesPath.empty()) { 1798 // Override the resources path. 1799 CI->getHeaderSearchOpts().ResourceDir = ResourceFilesPath; 1800 } 1801 AST->OnlyLocalDecls = OnlyLocalDecls; 1802 AST->CaptureDiagnostics = CaptureDiagnostics; 1803 if (PrecompilePreamble) 1804 AST->PreambleRebuildCounter = 2; 1805 AST->TUKind = Action ? Action->getTranslationUnitKind() : TU_Complete; 1806 AST->ShouldCacheCodeCompletionResults = CacheCodeCompletionResults; 1807 AST->IncludeBriefCommentsInCodeCompletion 1808 = IncludeBriefCommentsInCodeCompletion; 1809 1810 // Recover resources if we crash before exiting this method. 1811 llvm::CrashRecoveryContextCleanupRegistrar<ASTUnit> 1812 ASTUnitCleanup(OwnAST.get()); 1813 llvm::CrashRecoveryContextCleanupRegistrar<DiagnosticsEngine, 1814 llvm::CrashRecoveryContextReleaseRefCleanup<DiagnosticsEngine> > 1815 DiagCleanup(Diags.getPtr()); 1816 1817 // We'll manage file buffers ourselves. 1818 CI->getPreprocessorOpts().RetainRemappedFileBuffers = true; 1819 CI->getFrontendOpts().DisableFree = false; 1820 ProcessWarningOptions(AST->getDiagnostics(), CI->getDiagnosticOpts()); 1821 1822 // Create the compiler instance to use for building the AST. 1823 std::unique_ptr<CompilerInstance> Clang(new CompilerInstance()); 1824 1825 // Recover resources if we crash before exiting this method. 1826 llvm::CrashRecoveryContextCleanupRegistrar<CompilerInstance> 1827 CICleanup(Clang.get()); 1828 1829 Clang->setInvocation(CI); 1830 AST->OriginalSourceFile = Clang->getFrontendOpts().Inputs[0].getFile(); 1831 1832 // Set up diagnostics, capturing any diagnostics that would 1833 // otherwise be dropped. 1834 Clang->setDiagnostics(&AST->getDiagnostics()); 1835 1836 // Create the target instance. 1837 Clang->setTarget(TargetInfo::CreateTargetInfo(Clang->getDiagnostics(), 1838 &Clang->getTargetOpts())); 1839 if (!Clang->hasTarget()) 1840 return 0; 1841 1842 // Inform the target of the language options. 1843 // 1844 // FIXME: We shouldn't need to do this, the target should be immutable once 1845 // created. This complexity should be lifted elsewhere. 1846 Clang->getTarget().setForcedLangOptions(Clang->getLangOpts()); 1847 1848 assert(Clang->getFrontendOpts().Inputs.size() == 1 && 1849 "Invocation must have exactly one source file!"); 1850 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_AST && 1851 "FIXME: AST inputs not yet supported here!"); 1852 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_LLVM_IR && 1853 "IR inputs not supported here!"); 1854 1855 // Configure the various subsystems. 1856 AST->TheSema.reset(); 1857 AST->Ctx = 0; 1858 AST->PP = 0; 1859 AST->Reader = 0; 1860 1861 // Create a file manager object to provide access to and cache the filesystem. 1862 Clang->setFileManager(&AST->getFileManager()); 1863 1864 // Create the source manager. 1865 Clang->setSourceManager(&AST->getSourceManager()); 1866 1867 ASTFrontendAction *Act = Action; 1868 1869 std::unique_ptr<TopLevelDeclTrackerAction> TrackerAct; 1870 if (!Act) { 1871 TrackerAct.reset(new TopLevelDeclTrackerAction(*AST)); 1872 Act = TrackerAct.get(); 1873 } 1874 1875 // Recover resources if we crash before exiting this method. 1876 llvm::CrashRecoveryContextCleanupRegistrar<TopLevelDeclTrackerAction> 1877 ActCleanup(TrackerAct.get()); 1878 1879 if (!Act->BeginSourceFile(*Clang.get(), Clang->getFrontendOpts().Inputs[0])) { 1880 AST->transferASTDataFromCompilerInstance(*Clang); 1881 if (OwnAST && ErrAST) 1882 ErrAST->swap(OwnAST); 1883 1884 return 0; 1885 } 1886 1887 if (Persistent && !TrackerAct) { 1888 Clang->getPreprocessor().addPPCallbacks( 1889 new MacroDefinitionTrackerPPCallbacks(AST->getCurrentTopLevelHashValue())); 1890 std::vector<ASTConsumer*> Consumers; 1891 if (Clang->hasASTConsumer()) 1892 Consumers.push_back(Clang->takeASTConsumer()); 1893 Consumers.push_back(new TopLevelDeclTrackerConsumer(*AST, 1894 AST->getCurrentTopLevelHashValue())); 1895 Clang->setASTConsumer(new MultiplexConsumer(Consumers)); 1896 } 1897 if (!Act->Execute()) { 1898 AST->transferASTDataFromCompilerInstance(*Clang); 1899 if (OwnAST && ErrAST) 1900 ErrAST->swap(OwnAST); 1901 1902 return 0; 1903 } 1904 1905 // Steal the created target, context, and preprocessor. 1906 AST->transferASTDataFromCompilerInstance(*Clang); 1907 1908 Act->EndSourceFile(); 1909 1910 if (OwnAST) 1911 return OwnAST.release(); 1912 else 1913 return AST; 1914 } 1915 1916 bool ASTUnit::LoadFromCompilerInvocation(bool PrecompilePreamble) { 1917 if (!Invocation) 1918 return true; 1919 1920 // We'll manage file buffers ourselves. 1921 Invocation->getPreprocessorOpts().RetainRemappedFileBuffers = true; 1922 Invocation->getFrontendOpts().DisableFree = false; 1923 ProcessWarningOptions(getDiagnostics(), Invocation->getDiagnosticOpts()); 1924 1925 llvm::MemoryBuffer *OverrideMainBuffer = 0; 1926 if (PrecompilePreamble) { 1927 PreambleRebuildCounter = 2; 1928 OverrideMainBuffer 1929 = getMainBufferWithPrecompiledPreamble(*Invocation); 1930 } 1931 1932 SimpleTimer ParsingTimer(WantTiming); 1933 ParsingTimer.setOutput("Parsing " + getMainFileName()); 1934 1935 // Recover resources if we crash before exiting this method. 1936 llvm::CrashRecoveryContextCleanupRegistrar<llvm::MemoryBuffer> 1937 MemBufferCleanup(OverrideMainBuffer); 1938 1939 return Parse(OverrideMainBuffer); 1940 } 1941 1942 ASTUnit *ASTUnit::LoadFromCompilerInvocation(CompilerInvocation *CI, 1943 IntrusiveRefCntPtr<DiagnosticsEngine> Diags, 1944 bool OnlyLocalDecls, 1945 bool CaptureDiagnostics, 1946 bool PrecompilePreamble, 1947 TranslationUnitKind TUKind, 1948 bool CacheCodeCompletionResults, 1949 bool IncludeBriefCommentsInCodeCompletion, 1950 bool UserFilesAreVolatile) { 1951 // Create the AST unit. 1952 std::unique_ptr<ASTUnit> AST; 1953 AST.reset(new ASTUnit(false)); 1954 ConfigureDiags(Diags, 0, 0, *AST, CaptureDiagnostics); 1955 AST->Diagnostics = Diags; 1956 AST->OnlyLocalDecls = OnlyLocalDecls; 1957 AST->CaptureDiagnostics = CaptureDiagnostics; 1958 AST->TUKind = TUKind; 1959 AST->ShouldCacheCodeCompletionResults = CacheCodeCompletionResults; 1960 AST->IncludeBriefCommentsInCodeCompletion 1961 = IncludeBriefCommentsInCodeCompletion; 1962 AST->Invocation = CI; 1963 AST->FileSystemOpts = CI->getFileSystemOpts(); 1964 IntrusiveRefCntPtr<vfs::FileSystem> VFS = 1965 createVFSFromCompilerInvocation(*CI, *Diags); 1966 if (!VFS) 1967 return nullptr; 1968 AST->FileMgr = new FileManager(AST->FileSystemOpts, VFS); 1969 AST->UserFilesAreVolatile = UserFilesAreVolatile; 1970 1971 // Recover resources if we crash before exiting this method. 1972 llvm::CrashRecoveryContextCleanupRegistrar<ASTUnit> 1973 ASTUnitCleanup(AST.get()); 1974 llvm::CrashRecoveryContextCleanupRegistrar<DiagnosticsEngine, 1975 llvm::CrashRecoveryContextReleaseRefCleanup<DiagnosticsEngine> > 1976 DiagCleanup(Diags.getPtr()); 1977 1978 return AST->LoadFromCompilerInvocation(PrecompilePreamble) ? 0 1979 : AST.release(); 1980 } 1981 1982 ASTUnit *ASTUnit::LoadFromCommandLine( 1983 const char **ArgBegin, const char **ArgEnd, 1984 IntrusiveRefCntPtr<DiagnosticsEngine> Diags, StringRef ResourceFilesPath, 1985 bool OnlyLocalDecls, bool CaptureDiagnostics, 1986 ArrayRef<RemappedFile> RemappedFiles, bool RemappedFilesKeepOriginalName, 1987 bool PrecompilePreamble, TranslationUnitKind TUKind, 1988 bool CacheCodeCompletionResults, bool IncludeBriefCommentsInCodeCompletion, 1989 bool AllowPCHWithCompilerErrors, bool SkipFunctionBodies, 1990 bool UserFilesAreVolatile, bool ForSerialization, 1991 std::unique_ptr<ASTUnit> *ErrAST) { 1992 if (!Diags.getPtr()) { 1993 // No diagnostics engine was provided, so create our own diagnostics object 1994 // with the default options. 1995 Diags = CompilerInstance::createDiagnostics(new DiagnosticOptions()); 1996 } 1997 1998 SmallVector<StoredDiagnostic, 4> StoredDiagnostics; 1999 2000 IntrusiveRefCntPtr<CompilerInvocation> CI; 2001 2002 { 2003 2004 CaptureDroppedDiagnostics Capture(CaptureDiagnostics, *Diags, 2005 StoredDiagnostics); 2006 2007 CI = clang::createInvocationFromCommandLine( 2008 llvm::makeArrayRef(ArgBegin, ArgEnd), 2009 Diags); 2010 if (!CI) 2011 return 0; 2012 } 2013 2014 // Override any files that need remapping 2015 for (unsigned I = 0, N = RemappedFiles.size(); I != N; ++I) { 2016 CI->getPreprocessorOpts().addRemappedFile(RemappedFiles[I].first, 2017 RemappedFiles[I].second); 2018 } 2019 PreprocessorOptions &PPOpts = CI->getPreprocessorOpts(); 2020 PPOpts.RemappedFilesKeepOriginalName = RemappedFilesKeepOriginalName; 2021 PPOpts.AllowPCHWithCompilerErrors = AllowPCHWithCompilerErrors; 2022 2023 // Override the resources path. 2024 CI->getHeaderSearchOpts().ResourceDir = ResourceFilesPath; 2025 2026 CI->getFrontendOpts().SkipFunctionBodies = SkipFunctionBodies; 2027 2028 // Create the AST unit. 2029 std::unique_ptr<ASTUnit> AST; 2030 AST.reset(new ASTUnit(false)); 2031 ConfigureDiags(Diags, ArgBegin, ArgEnd, *AST, CaptureDiagnostics); 2032 AST->Diagnostics = Diags; 2033 Diags = 0; // Zero out now to ease cleanup during crash recovery. 2034 AST->FileSystemOpts = CI->getFileSystemOpts(); 2035 IntrusiveRefCntPtr<vfs::FileSystem> VFS = 2036 createVFSFromCompilerInvocation(*CI, *Diags); 2037 if (!VFS) 2038 return nullptr; 2039 AST->FileMgr = new FileManager(AST->FileSystemOpts, VFS); 2040 AST->OnlyLocalDecls = OnlyLocalDecls; 2041 AST->CaptureDiagnostics = CaptureDiagnostics; 2042 AST->TUKind = TUKind; 2043 AST->ShouldCacheCodeCompletionResults = CacheCodeCompletionResults; 2044 AST->IncludeBriefCommentsInCodeCompletion 2045 = IncludeBriefCommentsInCodeCompletion; 2046 AST->UserFilesAreVolatile = UserFilesAreVolatile; 2047 AST->NumStoredDiagnosticsFromDriver = StoredDiagnostics.size(); 2048 AST->StoredDiagnostics.swap(StoredDiagnostics); 2049 AST->Invocation = CI; 2050 if (ForSerialization) 2051 AST->WriterData.reset(new ASTWriterData()); 2052 CI = 0; // Zero out now to ease cleanup during crash recovery. 2053 2054 // Recover resources if we crash before exiting this method. 2055 llvm::CrashRecoveryContextCleanupRegistrar<ASTUnit> 2056 ASTUnitCleanup(AST.get()); 2057 2058 if (AST->LoadFromCompilerInvocation(PrecompilePreamble)) { 2059 // Some error occurred, if caller wants to examine diagnostics, pass it the 2060 // ASTUnit. 2061 if (ErrAST) { 2062 AST->StoredDiagnostics.swap(AST->FailedParseDiagnostics); 2063 ErrAST->swap(AST); 2064 } 2065 return 0; 2066 } 2067 2068 return AST.release(); 2069 } 2070 2071 bool ASTUnit::Reparse(ArrayRef<RemappedFile> RemappedFiles) { 2072 if (!Invocation) 2073 return true; 2074 2075 clearFileLevelDecls(); 2076 2077 SimpleTimer ParsingTimer(WantTiming); 2078 ParsingTimer.setOutput("Reparsing " + getMainFileName()); 2079 2080 // Remap files. 2081 PreprocessorOptions &PPOpts = Invocation->getPreprocessorOpts(); 2082 for (PreprocessorOptions::remapped_file_buffer_iterator 2083 R = PPOpts.remapped_file_buffer_begin(), 2084 REnd = PPOpts.remapped_file_buffer_end(); 2085 R != REnd; 2086 ++R) { 2087 delete R->second; 2088 } 2089 Invocation->getPreprocessorOpts().clearRemappedFiles(); 2090 for (unsigned I = 0, N = RemappedFiles.size(); I != N; ++I) { 2091 Invocation->getPreprocessorOpts().addRemappedFile(RemappedFiles[I].first, 2092 RemappedFiles[I].second); 2093 } 2094 2095 // If we have a preamble file lying around, or if we might try to 2096 // build a precompiled preamble, do so now. 2097 llvm::MemoryBuffer *OverrideMainBuffer = 0; 2098 if (!getPreambleFile(this).empty() || PreambleRebuildCounter > 0) 2099 OverrideMainBuffer = getMainBufferWithPrecompiledPreamble(*Invocation); 2100 2101 // Clear out the diagnostics state. 2102 getDiagnostics().Reset(); 2103 ProcessWarningOptions(getDiagnostics(), Invocation->getDiagnosticOpts()); 2104 if (OverrideMainBuffer) 2105 getDiagnostics().setNumWarnings(NumWarningsInPreamble); 2106 2107 // Parse the sources 2108 bool Result = Parse(OverrideMainBuffer); 2109 2110 // If we're caching global code-completion results, and the top-level 2111 // declarations have changed, clear out the code-completion cache. 2112 if (!Result && ShouldCacheCodeCompletionResults && 2113 CurrentTopLevelHashValue != CompletionCacheTopLevelHashValue) 2114 CacheCodeCompletionResults(); 2115 2116 // We now need to clear out the completion info related to this translation 2117 // unit; it'll be recreated if necessary. 2118 CCTUInfo.reset(); 2119 2120 return Result; 2121 } 2122 2123 //----------------------------------------------------------------------------// 2124 // Code completion 2125 //----------------------------------------------------------------------------// 2126 2127 namespace { 2128 /// \brief Code completion consumer that combines the cached code-completion 2129 /// results from an ASTUnit with the code-completion results provided to it, 2130 /// then passes the result on to 2131 class AugmentedCodeCompleteConsumer : public CodeCompleteConsumer { 2132 uint64_t NormalContexts; 2133 ASTUnit &AST; 2134 CodeCompleteConsumer &Next; 2135 2136 public: 2137 AugmentedCodeCompleteConsumer(ASTUnit &AST, CodeCompleteConsumer &Next, 2138 const CodeCompleteOptions &CodeCompleteOpts) 2139 : CodeCompleteConsumer(CodeCompleteOpts, Next.isOutputBinary()), 2140 AST(AST), Next(Next) 2141 { 2142 // Compute the set of contexts in which we will look when we don't have 2143 // any information about the specific context. 2144 NormalContexts 2145 = (1LL << CodeCompletionContext::CCC_TopLevel) 2146 | (1LL << CodeCompletionContext::CCC_ObjCInterface) 2147 | (1LL << CodeCompletionContext::CCC_ObjCImplementation) 2148 | (1LL << CodeCompletionContext::CCC_ObjCIvarList) 2149 | (1LL << CodeCompletionContext::CCC_Statement) 2150 | (1LL << CodeCompletionContext::CCC_Expression) 2151 | (1LL << CodeCompletionContext::CCC_ObjCMessageReceiver) 2152 | (1LL << CodeCompletionContext::CCC_DotMemberAccess) 2153 | (1LL << CodeCompletionContext::CCC_ArrowMemberAccess) 2154 | (1LL << CodeCompletionContext::CCC_ObjCPropertyAccess) 2155 | (1LL << CodeCompletionContext::CCC_ObjCProtocolName) 2156 | (1LL << CodeCompletionContext::CCC_ParenthesizedExpression) 2157 | (1LL << CodeCompletionContext::CCC_Recovery); 2158 2159 if (AST.getASTContext().getLangOpts().CPlusPlus) 2160 NormalContexts |= (1LL << CodeCompletionContext::CCC_EnumTag) 2161 | (1LL << CodeCompletionContext::CCC_UnionTag) 2162 | (1LL << CodeCompletionContext::CCC_ClassOrStructTag); 2163 } 2164 2165 void ProcessCodeCompleteResults(Sema &S, CodeCompletionContext Context, 2166 CodeCompletionResult *Results, 2167 unsigned NumResults) override; 2168 2169 void ProcessOverloadCandidates(Sema &S, unsigned CurrentArg, 2170 OverloadCandidate *Candidates, 2171 unsigned NumCandidates) override { 2172 Next.ProcessOverloadCandidates(S, CurrentArg, Candidates, NumCandidates); 2173 } 2174 2175 CodeCompletionAllocator &getAllocator() override { 2176 return Next.getAllocator(); 2177 } 2178 2179 CodeCompletionTUInfo &getCodeCompletionTUInfo() override { 2180 return Next.getCodeCompletionTUInfo(); 2181 } 2182 }; 2183 } 2184 2185 /// \brief Helper function that computes which global names are hidden by the 2186 /// local code-completion results. 2187 static void CalculateHiddenNames(const CodeCompletionContext &Context, 2188 CodeCompletionResult *Results, 2189 unsigned NumResults, 2190 ASTContext &Ctx, 2191 llvm::StringSet<llvm::BumpPtrAllocator> &HiddenNames){ 2192 bool OnlyTagNames = false; 2193 switch (Context.getKind()) { 2194 case CodeCompletionContext::CCC_Recovery: 2195 case CodeCompletionContext::CCC_TopLevel: 2196 case CodeCompletionContext::CCC_ObjCInterface: 2197 case CodeCompletionContext::CCC_ObjCImplementation: 2198 case CodeCompletionContext::CCC_ObjCIvarList: 2199 case CodeCompletionContext::CCC_ClassStructUnion: 2200 case CodeCompletionContext::CCC_Statement: 2201 case CodeCompletionContext::CCC_Expression: 2202 case CodeCompletionContext::CCC_ObjCMessageReceiver: 2203 case CodeCompletionContext::CCC_DotMemberAccess: 2204 case CodeCompletionContext::CCC_ArrowMemberAccess: 2205 case CodeCompletionContext::CCC_ObjCPropertyAccess: 2206 case CodeCompletionContext::CCC_Namespace: 2207 case CodeCompletionContext::CCC_Type: 2208 case CodeCompletionContext::CCC_Name: 2209 case CodeCompletionContext::CCC_PotentiallyQualifiedName: 2210 case CodeCompletionContext::CCC_ParenthesizedExpression: 2211 case CodeCompletionContext::CCC_ObjCInterfaceName: 2212 break; 2213 2214 case CodeCompletionContext::CCC_EnumTag: 2215 case CodeCompletionContext::CCC_UnionTag: 2216 case CodeCompletionContext::CCC_ClassOrStructTag: 2217 OnlyTagNames = true; 2218 break; 2219 2220 case CodeCompletionContext::CCC_ObjCProtocolName: 2221 case CodeCompletionContext::CCC_MacroName: 2222 case CodeCompletionContext::CCC_MacroNameUse: 2223 case CodeCompletionContext::CCC_PreprocessorExpression: 2224 case CodeCompletionContext::CCC_PreprocessorDirective: 2225 case CodeCompletionContext::CCC_NaturalLanguage: 2226 case CodeCompletionContext::CCC_SelectorName: 2227 case CodeCompletionContext::CCC_TypeQualifiers: 2228 case CodeCompletionContext::CCC_Other: 2229 case CodeCompletionContext::CCC_OtherWithMacros: 2230 case CodeCompletionContext::CCC_ObjCInstanceMessage: 2231 case CodeCompletionContext::CCC_ObjCClassMessage: 2232 case CodeCompletionContext::CCC_ObjCCategoryName: 2233 // We're looking for nothing, or we're looking for names that cannot 2234 // be hidden. 2235 return; 2236 } 2237 2238 typedef CodeCompletionResult Result; 2239 for (unsigned I = 0; I != NumResults; ++I) { 2240 if (Results[I].Kind != Result::RK_Declaration) 2241 continue; 2242 2243 unsigned IDNS 2244 = Results[I].Declaration->getUnderlyingDecl()->getIdentifierNamespace(); 2245 2246 bool Hiding = false; 2247 if (OnlyTagNames) 2248 Hiding = (IDNS & Decl::IDNS_Tag); 2249 else { 2250 unsigned HiddenIDNS = (Decl::IDNS_Type | Decl::IDNS_Member | 2251 Decl::IDNS_Namespace | Decl::IDNS_Ordinary | 2252 Decl::IDNS_NonMemberOperator); 2253 if (Ctx.getLangOpts().CPlusPlus) 2254 HiddenIDNS |= Decl::IDNS_Tag; 2255 Hiding = (IDNS & HiddenIDNS); 2256 } 2257 2258 if (!Hiding) 2259 continue; 2260 2261 DeclarationName Name = Results[I].Declaration->getDeclName(); 2262 if (IdentifierInfo *Identifier = Name.getAsIdentifierInfo()) 2263 HiddenNames.insert(Identifier->getName()); 2264 else 2265 HiddenNames.insert(Name.getAsString()); 2266 } 2267 } 2268 2269 2270 void AugmentedCodeCompleteConsumer::ProcessCodeCompleteResults(Sema &S, 2271 CodeCompletionContext Context, 2272 CodeCompletionResult *Results, 2273 unsigned NumResults) { 2274 // Merge the results we were given with the results we cached. 2275 bool AddedResult = false; 2276 uint64_t InContexts = 2277 Context.getKind() == CodeCompletionContext::CCC_Recovery 2278 ? NormalContexts : (1LL << Context.getKind()); 2279 // Contains the set of names that are hidden by "local" completion results. 2280 llvm::StringSet<llvm::BumpPtrAllocator> HiddenNames; 2281 typedef CodeCompletionResult Result; 2282 SmallVector<Result, 8> AllResults; 2283 for (ASTUnit::cached_completion_iterator 2284 C = AST.cached_completion_begin(), 2285 CEnd = AST.cached_completion_end(); 2286 C != CEnd; ++C) { 2287 // If the context we are in matches any of the contexts we are 2288 // interested in, we'll add this result. 2289 if ((C->ShowInContexts & InContexts) == 0) 2290 continue; 2291 2292 // If we haven't added any results previously, do so now. 2293 if (!AddedResult) { 2294 CalculateHiddenNames(Context, Results, NumResults, S.Context, 2295 HiddenNames); 2296 AllResults.insert(AllResults.end(), Results, Results + NumResults); 2297 AddedResult = true; 2298 } 2299 2300 // Determine whether this global completion result is hidden by a local 2301 // completion result. If so, skip it. 2302 if (C->Kind != CXCursor_MacroDefinition && 2303 HiddenNames.count(C->Completion->getTypedText())) 2304 continue; 2305 2306 // Adjust priority based on similar type classes. 2307 unsigned Priority = C->Priority; 2308 CodeCompletionString *Completion = C->Completion; 2309 if (!Context.getPreferredType().isNull()) { 2310 if (C->Kind == CXCursor_MacroDefinition) { 2311 Priority = getMacroUsagePriority(C->Completion->getTypedText(), 2312 S.getLangOpts(), 2313 Context.getPreferredType()->isAnyPointerType()); 2314 } else if (C->Type) { 2315 CanQualType Expected 2316 = S.Context.getCanonicalType( 2317 Context.getPreferredType().getUnqualifiedType()); 2318 SimplifiedTypeClass ExpectedSTC = getSimplifiedTypeClass(Expected); 2319 if (ExpectedSTC == C->TypeClass) { 2320 // We know this type is similar; check for an exact match. 2321 llvm::StringMap<unsigned> &CachedCompletionTypes 2322 = AST.getCachedCompletionTypes(); 2323 llvm::StringMap<unsigned>::iterator Pos 2324 = CachedCompletionTypes.find(QualType(Expected).getAsString()); 2325 if (Pos != CachedCompletionTypes.end() && Pos->second == C->Type) 2326 Priority /= CCF_ExactTypeMatch; 2327 else 2328 Priority /= CCF_SimilarTypeMatch; 2329 } 2330 } 2331 } 2332 2333 // Adjust the completion string, if required. 2334 if (C->Kind == CXCursor_MacroDefinition && 2335 Context.getKind() == CodeCompletionContext::CCC_MacroNameUse) { 2336 // Create a new code-completion string that just contains the 2337 // macro name, without its arguments. 2338 CodeCompletionBuilder Builder(getAllocator(), getCodeCompletionTUInfo(), 2339 CCP_CodePattern, C->Availability); 2340 Builder.AddTypedTextChunk(C->Completion->getTypedText()); 2341 Priority = CCP_CodePattern; 2342 Completion = Builder.TakeString(); 2343 } 2344 2345 AllResults.push_back(Result(Completion, Priority, C->Kind, 2346 C->Availability)); 2347 } 2348 2349 // If we did not add any cached completion results, just forward the 2350 // results we were given to the next consumer. 2351 if (!AddedResult) { 2352 Next.ProcessCodeCompleteResults(S, Context, Results, NumResults); 2353 return; 2354 } 2355 2356 Next.ProcessCodeCompleteResults(S, Context, AllResults.data(), 2357 AllResults.size()); 2358 } 2359 2360 2361 2362 void ASTUnit::CodeComplete(StringRef File, unsigned Line, unsigned Column, 2363 ArrayRef<RemappedFile> RemappedFiles, 2364 bool IncludeMacros, 2365 bool IncludeCodePatterns, 2366 bool IncludeBriefComments, 2367 CodeCompleteConsumer &Consumer, 2368 DiagnosticsEngine &Diag, LangOptions &LangOpts, 2369 SourceManager &SourceMgr, FileManager &FileMgr, 2370 SmallVectorImpl<StoredDiagnostic> &StoredDiagnostics, 2371 SmallVectorImpl<const llvm::MemoryBuffer *> &OwnedBuffers) { 2372 if (!Invocation) 2373 return; 2374 2375 SimpleTimer CompletionTimer(WantTiming); 2376 CompletionTimer.setOutput("Code completion @ " + File + ":" + 2377 Twine(Line) + ":" + Twine(Column)); 2378 2379 IntrusiveRefCntPtr<CompilerInvocation> 2380 CCInvocation(new CompilerInvocation(*Invocation)); 2381 2382 FrontendOptions &FrontendOpts = CCInvocation->getFrontendOpts(); 2383 CodeCompleteOptions &CodeCompleteOpts = FrontendOpts.CodeCompleteOpts; 2384 PreprocessorOptions &PreprocessorOpts = CCInvocation->getPreprocessorOpts(); 2385 2386 CodeCompleteOpts.IncludeMacros = IncludeMacros && 2387 CachedCompletionResults.empty(); 2388 CodeCompleteOpts.IncludeCodePatterns = IncludeCodePatterns; 2389 CodeCompleteOpts.IncludeGlobals = CachedCompletionResults.empty(); 2390 CodeCompleteOpts.IncludeBriefComments = IncludeBriefComments; 2391 2392 assert(IncludeBriefComments == this->IncludeBriefCommentsInCodeCompletion); 2393 2394 FrontendOpts.CodeCompletionAt.FileName = File; 2395 FrontendOpts.CodeCompletionAt.Line = Line; 2396 FrontendOpts.CodeCompletionAt.Column = Column; 2397 2398 // Set the language options appropriately. 2399 LangOpts = *CCInvocation->getLangOpts(); 2400 2401 std::unique_ptr<CompilerInstance> Clang(new CompilerInstance()); 2402 2403 // Recover resources if we crash before exiting this method. 2404 llvm::CrashRecoveryContextCleanupRegistrar<CompilerInstance> 2405 CICleanup(Clang.get()); 2406 2407 Clang->setInvocation(&*CCInvocation); 2408 OriginalSourceFile = Clang->getFrontendOpts().Inputs[0].getFile(); 2409 2410 // Set up diagnostics, capturing any diagnostics produced. 2411 Clang->setDiagnostics(&Diag); 2412 CaptureDroppedDiagnostics Capture(true, 2413 Clang->getDiagnostics(), 2414 StoredDiagnostics); 2415 ProcessWarningOptions(Diag, CCInvocation->getDiagnosticOpts()); 2416 2417 // Create the target instance. 2418 Clang->setTarget(TargetInfo::CreateTargetInfo(Clang->getDiagnostics(), 2419 &Clang->getTargetOpts())); 2420 if (!Clang->hasTarget()) { 2421 Clang->setInvocation(0); 2422 return; 2423 } 2424 2425 // Inform the target of the language options. 2426 // 2427 // FIXME: We shouldn't need to do this, the target should be immutable once 2428 // created. This complexity should be lifted elsewhere. 2429 Clang->getTarget().setForcedLangOptions(Clang->getLangOpts()); 2430 2431 assert(Clang->getFrontendOpts().Inputs.size() == 1 && 2432 "Invocation must have exactly one source file!"); 2433 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_AST && 2434 "FIXME: AST inputs not yet supported here!"); 2435 assert(Clang->getFrontendOpts().Inputs[0].getKind() != IK_LLVM_IR && 2436 "IR inputs not support here!"); 2437 2438 2439 // Use the source and file managers that we were given. 2440 Clang->setFileManager(&FileMgr); 2441 Clang->setSourceManager(&SourceMgr); 2442 2443 // Remap files. 2444 PreprocessorOpts.clearRemappedFiles(); 2445 PreprocessorOpts.RetainRemappedFileBuffers = true; 2446 for (unsigned I = 0, N = RemappedFiles.size(); I != N; ++I) { 2447 PreprocessorOpts.addRemappedFile(RemappedFiles[I].first, 2448 RemappedFiles[I].second); 2449 OwnedBuffers.push_back(RemappedFiles[I].second); 2450 } 2451 2452 // Use the code completion consumer we were given, but adding any cached 2453 // code-completion results. 2454 AugmentedCodeCompleteConsumer *AugmentedConsumer 2455 = new AugmentedCodeCompleteConsumer(*this, Consumer, CodeCompleteOpts); 2456 Clang->setCodeCompletionConsumer(AugmentedConsumer); 2457 2458 // If we have a precompiled preamble, try to use it. We only allow 2459 // the use of the precompiled preamble if we're if the completion 2460 // point is within the main file, after the end of the precompiled 2461 // preamble. 2462 llvm::MemoryBuffer *OverrideMainBuffer = 0; 2463 if (!getPreambleFile(this).empty()) { 2464 std::string CompleteFilePath(File); 2465 llvm::sys::fs::UniqueID CompleteFileID; 2466 2467 if (!llvm::sys::fs::getUniqueID(CompleteFilePath, CompleteFileID)) { 2468 std::string MainPath(OriginalSourceFile); 2469 llvm::sys::fs::UniqueID MainID; 2470 if (!llvm::sys::fs::getUniqueID(MainPath, MainID)) { 2471 if (CompleteFileID == MainID && Line > 1) 2472 OverrideMainBuffer 2473 = getMainBufferWithPrecompiledPreamble(*CCInvocation, false, 2474 Line - 1); 2475 } 2476 } 2477 } 2478 2479 // If the main file has been overridden due to the use of a preamble, 2480 // make that override happen and introduce the preamble. 2481 if (OverrideMainBuffer) { 2482 PreprocessorOpts.addRemappedFile(OriginalSourceFile, OverrideMainBuffer); 2483 PreprocessorOpts.PrecompiledPreambleBytes.first = Preamble.size(); 2484 PreprocessorOpts.PrecompiledPreambleBytes.second 2485 = PreambleEndsAtStartOfLine; 2486 PreprocessorOpts.ImplicitPCHInclude = getPreambleFile(this); 2487 PreprocessorOpts.DisablePCHValidation = true; 2488 2489 OwnedBuffers.push_back(OverrideMainBuffer); 2490 } else { 2491 PreprocessorOpts.PrecompiledPreambleBytes.first = 0; 2492 PreprocessorOpts.PrecompiledPreambleBytes.second = false; 2493 } 2494 2495 // Disable the preprocessing record if modules are not enabled. 2496 if (!Clang->getLangOpts().Modules) 2497 PreprocessorOpts.DetailedRecord = false; 2498 2499 std::unique_ptr<SyntaxOnlyAction> Act; 2500 Act.reset(new SyntaxOnlyAction); 2501 if (Act->BeginSourceFile(*Clang.get(), Clang->getFrontendOpts().Inputs[0])) { 2502 Act->Execute(); 2503 Act->EndSourceFile(); 2504 } 2505 } 2506 2507 bool ASTUnit::Save(StringRef File) { 2508 if (HadModuleLoaderFatalFailure) 2509 return true; 2510 2511 // Write to a temporary file and later rename it to the actual file, to avoid 2512 // possible race conditions. 2513 SmallString<128> TempPath; 2514 TempPath = File; 2515 TempPath += "-%%%%%%%%"; 2516 int fd; 2517 if (llvm::sys::fs::createUniqueFile(TempPath.str(), fd, TempPath)) 2518 return true; 2519 2520 // FIXME: Can we somehow regenerate the stat cache here, or do we need to 2521 // unconditionally create a stat cache when we parse the file? 2522 llvm::raw_fd_ostream Out(fd, /*shouldClose=*/true); 2523 2524 serialize(Out); 2525 Out.close(); 2526 if (Out.has_error()) { 2527 Out.clear_error(); 2528 return true; 2529 } 2530 2531 if (llvm::sys::fs::rename(TempPath.str(), File)) { 2532 llvm::sys::fs::remove(TempPath.str()); 2533 return true; 2534 } 2535 2536 return false; 2537 } 2538 2539 static bool serializeUnit(ASTWriter &Writer, 2540 SmallVectorImpl<char> &Buffer, 2541 Sema &S, 2542 bool hasErrors, 2543 raw_ostream &OS) { 2544 Writer.WriteAST(S, std::string(), 0, "", hasErrors); 2545 2546 // Write the generated bitstream to "Out". 2547 if (!Buffer.empty()) 2548 OS.write(Buffer.data(), Buffer.size()); 2549 2550 return false; 2551 } 2552 2553 bool ASTUnit::serialize(raw_ostream &OS) { 2554 bool hasErrors = getDiagnostics().hasErrorOccurred(); 2555 2556 if (WriterData) 2557 return serializeUnit(WriterData->Writer, WriterData->Buffer, 2558 getSema(), hasErrors, OS); 2559 2560 SmallString<128> Buffer; 2561 llvm::BitstreamWriter Stream(Buffer); 2562 ASTWriter Writer(Stream); 2563 return serializeUnit(Writer, Buffer, getSema(), hasErrors, OS); 2564 } 2565 2566 typedef ContinuousRangeMap<unsigned, int, 2> SLocRemap; 2567 2568 void ASTUnit::TranslateStoredDiagnostics( 2569 FileManager &FileMgr, 2570 SourceManager &SrcMgr, 2571 const SmallVectorImpl<StandaloneDiagnostic> &Diags, 2572 SmallVectorImpl<StoredDiagnostic> &Out) { 2573 // Map the standalone diagnostic into the new source manager. We also need to 2574 // remap all the locations to the new view. This includes the diag location, 2575 // any associated source ranges, and the source ranges of associated fix-its. 2576 // FIXME: There should be a cleaner way to do this. 2577 2578 SmallVector<StoredDiagnostic, 4> Result; 2579 Result.reserve(Diags.size()); 2580 for (unsigned I = 0, N = Diags.size(); I != N; ++I) { 2581 // Rebuild the StoredDiagnostic. 2582 const StandaloneDiagnostic &SD = Diags[I]; 2583 if (SD.Filename.empty()) 2584 continue; 2585 const FileEntry *FE = FileMgr.getFile(SD.Filename); 2586 if (!FE) 2587 continue; 2588 FileID FID = SrcMgr.translateFile(FE); 2589 SourceLocation FileLoc = SrcMgr.getLocForStartOfFile(FID); 2590 if (FileLoc.isInvalid()) 2591 continue; 2592 SourceLocation L = FileLoc.getLocWithOffset(SD.LocOffset); 2593 FullSourceLoc Loc(L, SrcMgr); 2594 2595 SmallVector<CharSourceRange, 4> Ranges; 2596 Ranges.reserve(SD.Ranges.size()); 2597 for (std::vector<std::pair<unsigned, unsigned> >::const_iterator 2598 I = SD.Ranges.begin(), E = SD.Ranges.end(); I != E; ++I) { 2599 SourceLocation BL = FileLoc.getLocWithOffset((*I).first); 2600 SourceLocation EL = FileLoc.getLocWithOffset((*I).second); 2601 Ranges.push_back(CharSourceRange::getCharRange(BL, EL)); 2602 } 2603 2604 SmallVector<FixItHint, 2> FixIts; 2605 FixIts.reserve(SD.FixIts.size()); 2606 for (std::vector<StandaloneFixIt>::const_iterator 2607 I = SD.FixIts.begin(), E = SD.FixIts.end(); 2608 I != E; ++I) { 2609 FixIts.push_back(FixItHint()); 2610 FixItHint &FH = FixIts.back(); 2611 FH.CodeToInsert = I->CodeToInsert; 2612 SourceLocation BL = FileLoc.getLocWithOffset(I->RemoveRange.first); 2613 SourceLocation EL = FileLoc.getLocWithOffset(I->RemoveRange.second); 2614 FH.RemoveRange = CharSourceRange::getCharRange(BL, EL); 2615 } 2616 2617 Result.push_back(StoredDiagnostic(SD.Level, SD.ID, 2618 SD.Message, Loc, Ranges, FixIts)); 2619 } 2620 Result.swap(Out); 2621 } 2622 2623 void ASTUnit::addFileLevelDecl(Decl *D) { 2624 assert(D); 2625 2626 // We only care about local declarations. 2627 if (D->isFromASTFile()) 2628 return; 2629 2630 SourceManager &SM = *SourceMgr; 2631 SourceLocation Loc = D->getLocation(); 2632 if (Loc.isInvalid() || !SM.isLocalSourceLocation(Loc)) 2633 return; 2634 2635 // We only keep track of the file-level declarations of each file. 2636 if (!D->getLexicalDeclContext()->isFileContext()) 2637 return; 2638 2639 SourceLocation FileLoc = SM.getFileLoc(Loc); 2640 assert(SM.isLocalSourceLocation(FileLoc)); 2641 FileID FID; 2642 unsigned Offset; 2643 std::tie(FID, Offset) = SM.getDecomposedLoc(FileLoc); 2644 if (FID.isInvalid()) 2645 return; 2646 2647 LocDeclsTy *&Decls = FileDecls[FID]; 2648 if (!Decls) 2649 Decls = new LocDeclsTy(); 2650 2651 std::pair<unsigned, Decl *> LocDecl(Offset, D); 2652 2653 if (Decls->empty() || Decls->back().first <= Offset) { 2654 Decls->push_back(LocDecl); 2655 return; 2656 } 2657 2658 LocDeclsTy::iterator I = std::upper_bound(Decls->begin(), Decls->end(), 2659 LocDecl, llvm::less_first()); 2660 2661 Decls->insert(I, LocDecl); 2662 } 2663 2664 void ASTUnit::findFileRegionDecls(FileID File, unsigned Offset, unsigned Length, 2665 SmallVectorImpl<Decl *> &Decls) { 2666 if (File.isInvalid()) 2667 return; 2668 2669 if (SourceMgr->isLoadedFileID(File)) { 2670 assert(Ctx->getExternalSource() && "No external source!"); 2671 return Ctx->getExternalSource()->FindFileRegionDecls(File, Offset, Length, 2672 Decls); 2673 } 2674 2675 FileDeclsTy::iterator I = FileDecls.find(File); 2676 if (I == FileDecls.end()) 2677 return; 2678 2679 LocDeclsTy &LocDecls = *I->second; 2680 if (LocDecls.empty()) 2681 return; 2682 2683 LocDeclsTy::iterator BeginIt = 2684 std::lower_bound(LocDecls.begin(), LocDecls.end(), 2685 std::make_pair(Offset, (Decl *)0), llvm::less_first()); 2686 if (BeginIt != LocDecls.begin()) 2687 --BeginIt; 2688 2689 // If we are pointing at a top-level decl inside an objc container, we need 2690 // to backtrack until we find it otherwise we will fail to report that the 2691 // region overlaps with an objc container. 2692 while (BeginIt != LocDecls.begin() && 2693 BeginIt->second->isTopLevelDeclInObjCContainer()) 2694 --BeginIt; 2695 2696 LocDeclsTy::iterator EndIt = std::upper_bound( 2697 LocDecls.begin(), LocDecls.end(), 2698 std::make_pair(Offset + Length, (Decl *)0), llvm::less_first()); 2699 if (EndIt != LocDecls.end()) 2700 ++EndIt; 2701 2702 for (LocDeclsTy::iterator DIt = BeginIt; DIt != EndIt; ++DIt) 2703 Decls.push_back(DIt->second); 2704 } 2705 2706 SourceLocation ASTUnit::getLocation(const FileEntry *File, 2707 unsigned Line, unsigned Col) const { 2708 const SourceManager &SM = getSourceManager(); 2709 SourceLocation Loc = SM.translateFileLineCol(File, Line, Col); 2710 return SM.getMacroArgExpandedLocation(Loc); 2711 } 2712 2713 SourceLocation ASTUnit::getLocation(const FileEntry *File, 2714 unsigned Offset) const { 2715 const SourceManager &SM = getSourceManager(); 2716 SourceLocation FileLoc = SM.translateFileLineCol(File, 1, 1); 2717 return SM.getMacroArgExpandedLocation(FileLoc.getLocWithOffset(Offset)); 2718 } 2719 2720 /// \brief If \arg Loc is a loaded location from the preamble, returns 2721 /// the corresponding local location of the main file, otherwise it returns 2722 /// \arg Loc. 2723 SourceLocation ASTUnit::mapLocationFromPreamble(SourceLocation Loc) { 2724 FileID PreambleID; 2725 if (SourceMgr) 2726 PreambleID = SourceMgr->getPreambleFileID(); 2727 2728 if (Loc.isInvalid() || Preamble.empty() || PreambleID.isInvalid()) 2729 return Loc; 2730 2731 unsigned Offs; 2732 if (SourceMgr->isInFileID(Loc, PreambleID, &Offs) && Offs < Preamble.size()) { 2733 SourceLocation FileLoc 2734 = SourceMgr->getLocForStartOfFile(SourceMgr->getMainFileID()); 2735 return FileLoc.getLocWithOffset(Offs); 2736 } 2737 2738 return Loc; 2739 } 2740 2741 /// \brief If \arg Loc is a local location of the main file but inside the 2742 /// preamble chunk, returns the corresponding loaded location from the 2743 /// preamble, otherwise it returns \arg Loc. 2744 SourceLocation ASTUnit::mapLocationToPreamble(SourceLocation Loc) { 2745 FileID PreambleID; 2746 if (SourceMgr) 2747 PreambleID = SourceMgr->getPreambleFileID(); 2748 2749 if (Loc.isInvalid() || Preamble.empty() || PreambleID.isInvalid()) 2750 return Loc; 2751 2752 unsigned Offs; 2753 if (SourceMgr->isInFileID(Loc, SourceMgr->getMainFileID(), &Offs) && 2754 Offs < Preamble.size()) { 2755 SourceLocation FileLoc = SourceMgr->getLocForStartOfFile(PreambleID); 2756 return FileLoc.getLocWithOffset(Offs); 2757 } 2758 2759 return Loc; 2760 } 2761 2762 bool ASTUnit::isInPreambleFileID(SourceLocation Loc) { 2763 FileID FID; 2764 if (SourceMgr) 2765 FID = SourceMgr->getPreambleFileID(); 2766 2767 if (Loc.isInvalid() || FID.isInvalid()) 2768 return false; 2769 2770 return SourceMgr->isInFileID(Loc, FID); 2771 } 2772 2773 bool ASTUnit::isInMainFileID(SourceLocation Loc) { 2774 FileID FID; 2775 if (SourceMgr) 2776 FID = SourceMgr->getMainFileID(); 2777 2778 if (Loc.isInvalid() || FID.isInvalid()) 2779 return false; 2780 2781 return SourceMgr->isInFileID(Loc, FID); 2782 } 2783 2784 SourceLocation ASTUnit::getEndOfPreambleFileID() { 2785 FileID FID; 2786 if (SourceMgr) 2787 FID = SourceMgr->getPreambleFileID(); 2788 2789 if (FID.isInvalid()) 2790 return SourceLocation(); 2791 2792 return SourceMgr->getLocForEndOfFile(FID); 2793 } 2794 2795 SourceLocation ASTUnit::getStartOfMainFileID() { 2796 FileID FID; 2797 if (SourceMgr) 2798 FID = SourceMgr->getMainFileID(); 2799 2800 if (FID.isInvalid()) 2801 return SourceLocation(); 2802 2803 return SourceMgr->getLocForStartOfFile(FID); 2804 } 2805 2806 std::pair<PreprocessingRecord::iterator, PreprocessingRecord::iterator> 2807 ASTUnit::getLocalPreprocessingEntities() const { 2808 if (isMainFileAST()) { 2809 serialization::ModuleFile & 2810 Mod = Reader->getModuleManager().getPrimaryModule(); 2811 return Reader->getModulePreprocessedEntities(Mod); 2812 } 2813 2814 if (PreprocessingRecord *PPRec = PP->getPreprocessingRecord()) 2815 return std::make_pair(PPRec->local_begin(), PPRec->local_end()); 2816 2817 return std::make_pair(PreprocessingRecord::iterator(), 2818 PreprocessingRecord::iterator()); 2819 } 2820 2821 bool ASTUnit::visitLocalTopLevelDecls(void *context, DeclVisitorFn Fn) { 2822 if (isMainFileAST()) { 2823 serialization::ModuleFile & 2824 Mod = Reader->getModuleManager().getPrimaryModule(); 2825 ASTReader::ModuleDeclIterator MDI, MDE; 2826 std::tie(MDI, MDE) = Reader->getModuleFileLevelDecls(Mod); 2827 for (; MDI != MDE; ++MDI) { 2828 if (!Fn(context, *MDI)) 2829 return false; 2830 } 2831 2832 return true; 2833 } 2834 2835 for (ASTUnit::top_level_iterator TL = top_level_begin(), 2836 TLEnd = top_level_end(); 2837 TL != TLEnd; ++TL) { 2838 if (!Fn(context, *TL)) 2839 return false; 2840 } 2841 2842 return true; 2843 } 2844 2845 namespace { 2846 struct PCHLocatorInfo { 2847 serialization::ModuleFile *Mod; 2848 PCHLocatorInfo() : Mod(0) {} 2849 }; 2850 } 2851 2852 static bool PCHLocator(serialization::ModuleFile &M, void *UserData) { 2853 PCHLocatorInfo &Info = *static_cast<PCHLocatorInfo*>(UserData); 2854 switch (M.Kind) { 2855 case serialization::MK_Module: 2856 return true; // skip dependencies. 2857 case serialization::MK_PCH: 2858 Info.Mod = &M; 2859 return true; // found it. 2860 case serialization::MK_Preamble: 2861 return false; // look in dependencies. 2862 case serialization::MK_MainFile: 2863 return false; // look in dependencies. 2864 } 2865 2866 return true; 2867 } 2868 2869 const FileEntry *ASTUnit::getPCHFile() { 2870 if (!Reader) 2871 return 0; 2872 2873 PCHLocatorInfo Info; 2874 Reader->getModuleManager().visit(PCHLocator, &Info); 2875 if (Info.Mod) 2876 return Info.Mod->File; 2877 2878 return 0; 2879 } 2880 2881 bool ASTUnit::isModuleFile() { 2882 return isMainFileAST() && !ASTFileLangOpts.CurrentModule.empty(); 2883 } 2884 2885 void ASTUnit::PreambleData::countLines() const { 2886 NumLines = 0; 2887 if (empty()) 2888 return; 2889 2890 for (std::vector<char>::const_iterator 2891 I = Buffer.begin(), E = Buffer.end(); I != E; ++I) { 2892 if (*I == '\n') 2893 ++NumLines; 2894 } 2895 if (Buffer.back() != '\n') 2896 ++NumLines; 2897 } 2898 2899 #ifndef NDEBUG 2900 ASTUnit::ConcurrencyState::ConcurrencyState() { 2901 Mutex = new llvm::sys::MutexImpl(/*recursive=*/true); 2902 } 2903 2904 ASTUnit::ConcurrencyState::~ConcurrencyState() { 2905 delete static_cast<llvm::sys::MutexImpl *>(Mutex); 2906 } 2907 2908 void ASTUnit::ConcurrencyState::start() { 2909 bool acquired = static_cast<llvm::sys::MutexImpl *>(Mutex)->tryacquire(); 2910 assert(acquired && "Concurrent access to ASTUnit!"); 2911 } 2912 2913 void ASTUnit::ConcurrencyState::finish() { 2914 static_cast<llvm::sys::MutexImpl *>(Mutex)->release(); 2915 } 2916 2917 #else // NDEBUG 2918 2919 ASTUnit::ConcurrencyState::ConcurrencyState() { Mutex = 0; } 2920 ASTUnit::ConcurrencyState::~ConcurrencyState() {} 2921 void ASTUnit::ConcurrencyState::start() {} 2922 void ASTUnit::ConcurrencyState::finish() {} 2923 2924 #endif 2925