1 //===--- Parser.h - C Language Parser ---------------------------*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This file defines the Parser interface. 10 // 11 //===----------------------------------------------------------------------===// 12 13 #ifndef LLVM_CLANG_PARSE_PARSER_H 14 #define LLVM_CLANG_PARSE_PARSER_H 15 16 #include "clang/AST/Availability.h" 17 #include "clang/Basic/BitmaskEnum.h" 18 #include "clang/Basic/OpenMPKinds.h" 19 #include "clang/Basic/OperatorPrecedence.h" 20 #include "clang/Basic/Specifiers.h" 21 #include "clang/Lex/CodeCompletionHandler.h" 22 #include "clang/Lex/Preprocessor.h" 23 #include "clang/Sema/DeclSpec.h" 24 #include "clang/Sema/Sema.h" 25 #include "llvm/ADT/SmallVector.h" 26 #include "llvm/Frontend/OpenMP/OMPContext.h" 27 #include "llvm/Support/Compiler.h" 28 #include "llvm/Support/PrettyStackTrace.h" 29 #include "llvm/Support/SaveAndRestore.h" 30 #include <memory> 31 #include <optional> 32 #include <stack> 33 34 namespace clang { 35 class PragmaHandler; 36 class Scope; 37 class BalancedDelimiterTracker; 38 class CorrectionCandidateCallback; 39 class DeclGroupRef; 40 class DiagnosticBuilder; 41 struct LoopHint; 42 class Parser; 43 class ParsingDeclRAIIObject; 44 class ParsingDeclSpec; 45 class ParsingDeclarator; 46 class ParsingFieldDeclarator; 47 class ColonProtectionRAIIObject; 48 class InMessageExpressionRAIIObject; 49 class PoisonSEHIdentifiersRAIIObject; 50 class OMPClause; 51 class ObjCTypeParamList; 52 struct OMPTraitProperty; 53 struct OMPTraitSelector; 54 struct OMPTraitSet; 55 class OMPTraitInfo; 56 57 /// Parser - This implements a parser for the C family of languages. After 58 /// parsing units of the grammar, productions are invoked to handle whatever has 59 /// been read. 60 /// 61 class Parser : public CodeCompletionHandler { 62 friend class ColonProtectionRAIIObject; 63 friend class ParsingOpenMPDirectiveRAII; 64 friend class InMessageExpressionRAIIObject; 65 friend class OffsetOfStateRAIIObject; 66 friend class PoisonSEHIdentifiersRAIIObject; 67 friend class ObjCDeclContextSwitch; 68 friend class ParenBraceBracketBalancer; 69 friend class BalancedDelimiterTracker; 70 71 Preprocessor &PP; 72 73 /// Tok - The current token we are peeking ahead. All parsing methods assume 74 /// that this is valid. 75 Token Tok; 76 77 // PrevTokLocation - The location of the token we previously 78 // consumed. This token is used for diagnostics where we expected to 79 // see a token following another token (e.g., the ';' at the end of 80 // a statement). 81 SourceLocation PrevTokLocation; 82 83 /// Tracks an expected type for the current token when parsing an expression. 84 /// Used by code completion for ranking. 85 PreferredTypeBuilder PreferredType; 86 87 unsigned short ParenCount = 0, BracketCount = 0, BraceCount = 0; 88 unsigned short MisplacedModuleBeginCount = 0; 89 90 /// Actions - These are the callbacks we invoke as we parse various constructs 91 /// in the file. 92 Sema &Actions; 93 94 DiagnosticsEngine &Diags; 95 96 /// ScopeCache - Cache scopes to reduce malloc traffic. 97 enum { ScopeCacheSize = 16 }; 98 unsigned NumCachedScopes; 99 Scope *ScopeCache[ScopeCacheSize]; 100 101 /// Identifiers used for SEH handling in Borland. These are only 102 /// allowed in particular circumstances 103 // __except block 104 IdentifierInfo *Ident__exception_code, 105 *Ident___exception_code, 106 *Ident_GetExceptionCode; 107 // __except filter expression 108 IdentifierInfo *Ident__exception_info, 109 *Ident___exception_info, 110 *Ident_GetExceptionInfo; 111 // __finally 112 IdentifierInfo *Ident__abnormal_termination, 113 *Ident___abnormal_termination, 114 *Ident_AbnormalTermination; 115 116 /// Contextual keywords for Microsoft extensions. 117 IdentifierInfo *Ident__except; 118 mutable IdentifierInfo *Ident_sealed; 119 mutable IdentifierInfo *Ident_abstract; 120 121 /// Ident_super - IdentifierInfo for "super", to support fast 122 /// comparison. 123 IdentifierInfo *Ident_super; 124 /// Ident_vector, Ident_bool, Ident_Bool - cached IdentifierInfos for "vector" 125 /// and "bool" fast comparison. Only present if AltiVec or ZVector are 126 /// enabled. 127 IdentifierInfo *Ident_vector; 128 IdentifierInfo *Ident_bool; 129 IdentifierInfo *Ident_Bool; 130 /// Ident_pixel - cached IdentifierInfos for "pixel" fast comparison. 131 /// Only present if AltiVec enabled. 132 IdentifierInfo *Ident_pixel; 133 134 /// Objective-C contextual keywords. 135 IdentifierInfo *Ident_instancetype; 136 137 /// Identifier for "introduced". 138 IdentifierInfo *Ident_introduced; 139 140 /// Identifier for "deprecated". 141 IdentifierInfo *Ident_deprecated; 142 143 /// Identifier for "obsoleted". 144 IdentifierInfo *Ident_obsoleted; 145 146 /// Identifier for "unavailable". 147 IdentifierInfo *Ident_unavailable; 148 149 /// Identifier for "message". 150 IdentifierInfo *Ident_message; 151 152 /// Identifier for "strict". 153 IdentifierInfo *Ident_strict; 154 155 /// Identifier for "replacement". 156 IdentifierInfo *Ident_replacement; 157 158 /// Identifiers used by the 'external_source_symbol' attribute. 159 IdentifierInfo *Ident_language, *Ident_defined_in, 160 *Ident_generated_declaration; 161 162 /// C++11 contextual keywords. 163 mutable IdentifierInfo *Ident_final; 164 mutable IdentifierInfo *Ident_GNU_final; 165 mutable IdentifierInfo *Ident_override; 166 167 // C++2a contextual keywords. 168 mutable IdentifierInfo *Ident_import; 169 mutable IdentifierInfo *Ident_module; 170 171 // C++ type trait keywords that can be reverted to identifiers and still be 172 // used as type traits. 173 llvm::SmallDenseMap<IdentifierInfo *, tok::TokenKind> RevertibleTypeTraits; 174 175 std::unique_ptr<PragmaHandler> AlignHandler; 176 std::unique_ptr<PragmaHandler> GCCVisibilityHandler; 177 std::unique_ptr<PragmaHandler> OptionsHandler; 178 std::unique_ptr<PragmaHandler> PackHandler; 179 std::unique_ptr<PragmaHandler> MSStructHandler; 180 std::unique_ptr<PragmaHandler> UnusedHandler; 181 std::unique_ptr<PragmaHandler> WeakHandler; 182 std::unique_ptr<PragmaHandler> RedefineExtnameHandler; 183 std::unique_ptr<PragmaHandler> FPContractHandler; 184 std::unique_ptr<PragmaHandler> OpenCLExtensionHandler; 185 std::unique_ptr<PragmaHandler> OpenMPHandler; 186 std::unique_ptr<PragmaHandler> PCSectionHandler; 187 std::unique_ptr<PragmaHandler> MSCommentHandler; 188 std::unique_ptr<PragmaHandler> MSDetectMismatchHandler; 189 std::unique_ptr<PragmaHandler> FPEvalMethodHandler; 190 std::unique_ptr<PragmaHandler> FloatControlHandler; 191 std::unique_ptr<PragmaHandler> MSPointersToMembers; 192 std::unique_ptr<PragmaHandler> MSVtorDisp; 193 std::unique_ptr<PragmaHandler> MSInitSeg; 194 std::unique_ptr<PragmaHandler> MSDataSeg; 195 std::unique_ptr<PragmaHandler> MSBSSSeg; 196 std::unique_ptr<PragmaHandler> MSConstSeg; 197 std::unique_ptr<PragmaHandler> MSCodeSeg; 198 std::unique_ptr<PragmaHandler> MSSection; 199 std::unique_ptr<PragmaHandler> MSStrictGuardStackCheck; 200 std::unique_ptr<PragmaHandler> MSRuntimeChecks; 201 std::unique_ptr<PragmaHandler> MSIntrinsic; 202 std::unique_ptr<PragmaHandler> MSFunction; 203 std::unique_ptr<PragmaHandler> MSOptimize; 204 std::unique_ptr<PragmaHandler> MSFenvAccess; 205 std::unique_ptr<PragmaHandler> MSAllocText; 206 std::unique_ptr<PragmaHandler> CUDAForceHostDeviceHandler; 207 std::unique_ptr<PragmaHandler> OptimizeHandler; 208 std::unique_ptr<PragmaHandler> LoopHintHandler; 209 std::unique_ptr<PragmaHandler> UnrollHintHandler; 210 std::unique_ptr<PragmaHandler> NoUnrollHintHandler; 211 std::unique_ptr<PragmaHandler> UnrollAndJamHintHandler; 212 std::unique_ptr<PragmaHandler> NoUnrollAndJamHintHandler; 213 std::unique_ptr<PragmaHandler> FPHandler; 214 std::unique_ptr<PragmaHandler> STDCFenvAccessHandler; 215 std::unique_ptr<PragmaHandler> STDCFenvRoundHandler; 216 std::unique_ptr<PragmaHandler> STDCCXLIMITHandler; 217 std::unique_ptr<PragmaHandler> STDCUnknownHandler; 218 std::unique_ptr<PragmaHandler> AttributePragmaHandler; 219 std::unique_ptr<PragmaHandler> MaxTokensHerePragmaHandler; 220 std::unique_ptr<PragmaHandler> MaxTokensTotalPragmaHandler; 221 std::unique_ptr<PragmaHandler> RISCVPragmaHandler; 222 223 std::unique_ptr<CommentHandler> CommentSemaHandler; 224 225 /// Whether the '>' token acts as an operator or not. This will be 226 /// true except when we are parsing an expression within a C++ 227 /// template argument list, where the '>' closes the template 228 /// argument list. 229 bool GreaterThanIsOperator; 230 231 /// ColonIsSacred - When this is false, we aggressively try to recover from 232 /// code like "foo : bar" as if it were a typo for "foo :: bar". This is not 233 /// safe in case statements and a few other things. This is managed by the 234 /// ColonProtectionRAIIObject RAII object. 235 bool ColonIsSacred; 236 237 /// Parsing OpenMP directive mode. 238 bool OpenMPDirectiveParsing = false; 239 240 /// When true, we are directly inside an Objective-C message 241 /// send expression. 242 /// 243 /// This is managed by the \c InMessageExpressionRAIIObject class, and 244 /// should not be set directly. 245 bool InMessageExpression; 246 247 /// Gets set to true after calling ProduceSignatureHelp, it is for a 248 /// workaround to make sure ProduceSignatureHelp is only called at the deepest 249 /// function call. 250 bool CalledSignatureHelp = false; 251 252 Sema::OffsetOfKind OffsetOfState = Sema::OffsetOfKind::OOK_Outside; 253 254 /// The "depth" of the template parameters currently being parsed. 255 unsigned TemplateParameterDepth; 256 257 /// Current kind of OpenMP clause 258 OpenMPClauseKind OMPClauseKind = llvm::omp::OMPC_unknown; 259 260 /// RAII class that manages the template parameter depth. 261 class TemplateParameterDepthRAII { 262 unsigned &Depth; 263 unsigned AddedLevels; 264 public: 265 explicit TemplateParameterDepthRAII(unsigned &Depth) 266 : Depth(Depth), AddedLevels(0) {} 267 268 ~TemplateParameterDepthRAII() { 269 Depth -= AddedLevels; 270 } 271 272 void operator++() { 273 ++Depth; 274 ++AddedLevels; 275 } 276 void addDepth(unsigned D) { 277 Depth += D; 278 AddedLevels += D; 279 } 280 void setAddedDepth(unsigned D) { 281 Depth = Depth - AddedLevels + D; 282 AddedLevels = D; 283 } 284 285 unsigned getDepth() const { return Depth; } 286 unsigned getOriginalDepth() const { return Depth - AddedLevels; } 287 }; 288 289 /// Factory object for creating ParsedAttr objects. 290 AttributeFactory AttrFactory; 291 292 /// Gathers and cleans up TemplateIdAnnotations when parsing of a 293 /// top-level declaration is finished. 294 SmallVector<TemplateIdAnnotation *, 16> TemplateIds; 295 296 void MaybeDestroyTemplateIds() { 297 if (!TemplateIds.empty() && 298 (Tok.is(tok::eof) || !PP.mightHavePendingAnnotationTokens())) 299 DestroyTemplateIds(); 300 } 301 void DestroyTemplateIds(); 302 303 /// RAII object to destroy TemplateIdAnnotations where possible, from a 304 /// likely-good position during parsing. 305 struct DestroyTemplateIdAnnotationsRAIIObj { 306 Parser &Self; 307 308 DestroyTemplateIdAnnotationsRAIIObj(Parser &Self) : Self(Self) {} 309 ~DestroyTemplateIdAnnotationsRAIIObj() { Self.MaybeDestroyTemplateIds(); } 310 }; 311 312 /// Identifiers which have been declared within a tentative parse. 313 SmallVector<IdentifierInfo *, 8> TentativelyDeclaredIdentifiers; 314 315 /// Tracker for '<' tokens that might have been intended to be treated as an 316 /// angle bracket instead of a less-than comparison. 317 /// 318 /// This happens when the user intends to form a template-id, but typoes the 319 /// template-name or forgets a 'template' keyword for a dependent template 320 /// name. 321 /// 322 /// We track these locations from the point where we see a '<' with a 323 /// name-like expression on its left until we see a '>' or '>>' that might 324 /// match it. 325 struct AngleBracketTracker { 326 /// Flags used to rank candidate template names when there is more than one 327 /// '<' in a scope. 328 enum Priority : unsigned short { 329 /// A non-dependent name that is a potential typo for a template name. 330 PotentialTypo = 0x0, 331 /// A dependent name that might instantiate to a template-name. 332 DependentName = 0x2, 333 334 /// A space appears before the '<' token. 335 SpaceBeforeLess = 0x0, 336 /// No space before the '<' token 337 NoSpaceBeforeLess = 0x1, 338 339 LLVM_MARK_AS_BITMASK_ENUM(/*LargestValue*/ DependentName) 340 }; 341 342 struct Loc { 343 Expr *TemplateName; 344 SourceLocation LessLoc; 345 AngleBracketTracker::Priority Priority; 346 unsigned short ParenCount, BracketCount, BraceCount; 347 348 bool isActive(Parser &P) const { 349 return P.ParenCount == ParenCount && P.BracketCount == BracketCount && 350 P.BraceCount == BraceCount; 351 } 352 353 bool isActiveOrNested(Parser &P) const { 354 return isActive(P) || P.ParenCount > ParenCount || 355 P.BracketCount > BracketCount || P.BraceCount > BraceCount; 356 } 357 }; 358 359 SmallVector<Loc, 8> Locs; 360 361 /// Add an expression that might have been intended to be a template name. 362 /// In the case of ambiguity, we arbitrarily select the innermost such 363 /// expression, for example in 'foo < bar < baz', 'bar' is the current 364 /// candidate. No attempt is made to track that 'foo' is also a candidate 365 /// for the case where we see a second suspicious '>' token. 366 void add(Parser &P, Expr *TemplateName, SourceLocation LessLoc, 367 Priority Prio) { 368 if (!Locs.empty() && Locs.back().isActive(P)) { 369 if (Locs.back().Priority <= Prio) { 370 Locs.back().TemplateName = TemplateName; 371 Locs.back().LessLoc = LessLoc; 372 Locs.back().Priority = Prio; 373 } 374 } else { 375 Locs.push_back({TemplateName, LessLoc, Prio, 376 P.ParenCount, P.BracketCount, P.BraceCount}); 377 } 378 } 379 380 /// Mark the current potential missing template location as having been 381 /// handled (this happens if we pass a "corresponding" '>' or '>>' token 382 /// or leave a bracket scope). 383 void clear(Parser &P) { 384 while (!Locs.empty() && Locs.back().isActiveOrNested(P)) 385 Locs.pop_back(); 386 } 387 388 /// Get the current enclosing expression that might hve been intended to be 389 /// a template name. 390 Loc *getCurrent(Parser &P) { 391 if (!Locs.empty() && Locs.back().isActive(P)) 392 return &Locs.back(); 393 return nullptr; 394 } 395 }; 396 397 AngleBracketTracker AngleBrackets; 398 399 IdentifierInfo *getSEHExceptKeyword(); 400 401 /// True if we are within an Objective-C container while parsing C-like decls. 402 /// 403 /// This is necessary because Sema thinks we have left the container 404 /// to parse the C-like decls, meaning Actions.getObjCDeclContext() will 405 /// be NULL. 406 bool ParsingInObjCContainer; 407 408 /// Whether to skip parsing of function bodies. 409 /// 410 /// This option can be used, for example, to speed up searches for 411 /// declarations/definitions when indexing. 412 bool SkipFunctionBodies; 413 414 /// The location of the expression statement that is being parsed right now. 415 /// Used to determine if an expression that is being parsed is a statement or 416 /// just a regular sub-expression. 417 SourceLocation ExprStatementTokLoc; 418 419 /// Flags describing a context in which we're parsing a statement. 420 enum class ParsedStmtContext { 421 /// This context permits declarations in language modes where declarations 422 /// are not statements. 423 AllowDeclarationsInC = 0x1, 424 /// This context permits standalone OpenMP directives. 425 AllowStandaloneOpenMPDirectives = 0x2, 426 /// This context is at the top level of a GNU statement expression. 427 InStmtExpr = 0x4, 428 429 /// The context of a regular substatement. 430 SubStmt = 0, 431 /// The context of a compound-statement. 432 Compound = AllowDeclarationsInC | AllowStandaloneOpenMPDirectives, 433 434 LLVM_MARK_AS_BITMASK_ENUM(InStmtExpr) 435 }; 436 437 /// Act on an expression statement that might be the last statement in a 438 /// GNU statement expression. Checks whether we are actually at the end of 439 /// a statement expression and builds a suitable expression statement. 440 StmtResult handleExprStmt(ExprResult E, ParsedStmtContext StmtCtx); 441 442 public: 443 Parser(Preprocessor &PP, Sema &Actions, bool SkipFunctionBodies); 444 ~Parser() override; 445 446 const LangOptions &getLangOpts() const { return PP.getLangOpts(); } 447 const TargetInfo &getTargetInfo() const { return PP.getTargetInfo(); } 448 Preprocessor &getPreprocessor() const { return PP; } 449 Sema &getActions() const { return Actions; } 450 AttributeFactory &getAttrFactory() { return AttrFactory; } 451 452 const Token &getCurToken() const { return Tok; } 453 Scope *getCurScope() const { return Actions.getCurScope(); } 454 void incrementMSManglingNumber() const { 455 return Actions.incrementMSManglingNumber(); 456 } 457 458 ObjCContainerDecl *getObjCDeclContext() const { 459 return Actions.getObjCDeclContext(); 460 } 461 462 // Type forwarding. All of these are statically 'void*', but they may all be 463 // different actual classes based on the actions in place. 464 typedef OpaquePtr<DeclGroupRef> DeclGroupPtrTy; 465 typedef OpaquePtr<TemplateName> TemplateTy; 466 467 typedef SmallVector<TemplateParameterList *, 4> TemplateParameterLists; 468 469 typedef Sema::FullExprArg FullExprArg; 470 471 /// A SmallVector of statements. 472 typedef SmallVector<Stmt *, 32> StmtVector; 473 474 // Parsing methods. 475 476 /// Initialize - Warm up the parser. 477 /// 478 void Initialize(); 479 480 /// Parse the first top-level declaration in a translation unit. 481 bool ParseFirstTopLevelDecl(DeclGroupPtrTy &Result, 482 Sema::ModuleImportState &ImportState); 483 484 /// ParseTopLevelDecl - Parse one top-level declaration. Returns true if 485 /// the EOF was encountered. 486 bool ParseTopLevelDecl(DeclGroupPtrTy &Result, 487 Sema::ModuleImportState &ImportState); 488 bool ParseTopLevelDecl() { 489 DeclGroupPtrTy Result; 490 Sema::ModuleImportState IS = Sema::ModuleImportState::NotACXX20Module; 491 return ParseTopLevelDecl(Result, IS); 492 } 493 494 /// ConsumeToken - Consume the current 'peek token' and lex the next one. 495 /// This does not work with special tokens: string literals, code completion, 496 /// annotation tokens and balanced tokens must be handled using the specific 497 /// consume methods. 498 /// Returns the location of the consumed token. 499 SourceLocation ConsumeToken() { 500 assert(!isTokenSpecial() && 501 "Should consume special tokens with Consume*Token"); 502 PrevTokLocation = Tok.getLocation(); 503 PP.Lex(Tok); 504 return PrevTokLocation; 505 } 506 507 bool TryConsumeToken(tok::TokenKind Expected) { 508 if (Tok.isNot(Expected)) 509 return false; 510 assert(!isTokenSpecial() && 511 "Should consume special tokens with Consume*Token"); 512 PrevTokLocation = Tok.getLocation(); 513 PP.Lex(Tok); 514 return true; 515 } 516 517 bool TryConsumeToken(tok::TokenKind Expected, SourceLocation &Loc) { 518 if (!TryConsumeToken(Expected)) 519 return false; 520 Loc = PrevTokLocation; 521 return true; 522 } 523 524 /// ConsumeAnyToken - Dispatch to the right Consume* method based on the 525 /// current token type. This should only be used in cases where the type of 526 /// the token really isn't known, e.g. in error recovery. 527 SourceLocation ConsumeAnyToken(bool ConsumeCodeCompletionTok = false) { 528 if (isTokenParen()) 529 return ConsumeParen(); 530 if (isTokenBracket()) 531 return ConsumeBracket(); 532 if (isTokenBrace()) 533 return ConsumeBrace(); 534 if (isTokenStringLiteral()) 535 return ConsumeStringToken(); 536 if (Tok.is(tok::code_completion)) 537 return ConsumeCodeCompletionTok ? ConsumeCodeCompletionToken() 538 : handleUnexpectedCodeCompletionToken(); 539 if (Tok.isAnnotation()) 540 return ConsumeAnnotationToken(); 541 return ConsumeToken(); 542 } 543 544 545 SourceLocation getEndOfPreviousToken() { 546 return PP.getLocForEndOfToken(PrevTokLocation); 547 } 548 549 /// Retrieve the underscored keyword (_Nonnull, _Nullable) that corresponds 550 /// to the given nullability kind. 551 IdentifierInfo *getNullabilityKeyword(NullabilityKind nullability) { 552 return Actions.getNullabilityKeyword(nullability); 553 } 554 555 private: 556 //===--------------------------------------------------------------------===// 557 // Low-Level token peeking and consumption methods. 558 // 559 560 /// isTokenParen - Return true if the cur token is '(' or ')'. 561 bool isTokenParen() const { 562 return Tok.isOneOf(tok::l_paren, tok::r_paren); 563 } 564 /// isTokenBracket - Return true if the cur token is '[' or ']'. 565 bool isTokenBracket() const { 566 return Tok.isOneOf(tok::l_square, tok::r_square); 567 } 568 /// isTokenBrace - Return true if the cur token is '{' or '}'. 569 bool isTokenBrace() const { 570 return Tok.isOneOf(tok::l_brace, tok::r_brace); 571 } 572 /// isTokenStringLiteral - True if this token is a string-literal. 573 bool isTokenStringLiteral() const { 574 return tok::isStringLiteral(Tok.getKind()); 575 } 576 /// isTokenSpecial - True if this token requires special consumption methods. 577 bool isTokenSpecial() const { 578 return isTokenStringLiteral() || isTokenParen() || isTokenBracket() || 579 isTokenBrace() || Tok.is(tok::code_completion) || Tok.isAnnotation(); 580 } 581 582 /// Returns true if the current token is '=' or is a type of '='. 583 /// For typos, give a fixit to '=' 584 bool isTokenEqualOrEqualTypo(); 585 586 /// Return the current token to the token stream and make the given 587 /// token the current token. 588 void UnconsumeToken(Token &Consumed) { 589 Token Next = Tok; 590 PP.EnterToken(Consumed, /*IsReinject*/true); 591 PP.Lex(Tok); 592 PP.EnterToken(Next, /*IsReinject*/true); 593 } 594 595 SourceLocation ConsumeAnnotationToken() { 596 assert(Tok.isAnnotation() && "wrong consume method"); 597 SourceLocation Loc = Tok.getLocation(); 598 PrevTokLocation = Tok.getAnnotationEndLoc(); 599 PP.Lex(Tok); 600 return Loc; 601 } 602 603 /// ConsumeParen - This consume method keeps the paren count up-to-date. 604 /// 605 SourceLocation ConsumeParen() { 606 assert(isTokenParen() && "wrong consume method"); 607 if (Tok.getKind() == tok::l_paren) 608 ++ParenCount; 609 else if (ParenCount) { 610 AngleBrackets.clear(*this); 611 --ParenCount; // Don't let unbalanced )'s drive the count negative. 612 } 613 PrevTokLocation = Tok.getLocation(); 614 PP.Lex(Tok); 615 return PrevTokLocation; 616 } 617 618 /// ConsumeBracket - This consume method keeps the bracket count up-to-date. 619 /// 620 SourceLocation ConsumeBracket() { 621 assert(isTokenBracket() && "wrong consume method"); 622 if (Tok.getKind() == tok::l_square) 623 ++BracketCount; 624 else if (BracketCount) { 625 AngleBrackets.clear(*this); 626 --BracketCount; // Don't let unbalanced ]'s drive the count negative. 627 } 628 629 PrevTokLocation = Tok.getLocation(); 630 PP.Lex(Tok); 631 return PrevTokLocation; 632 } 633 634 /// ConsumeBrace - This consume method keeps the brace count up-to-date. 635 /// 636 SourceLocation ConsumeBrace() { 637 assert(isTokenBrace() && "wrong consume method"); 638 if (Tok.getKind() == tok::l_brace) 639 ++BraceCount; 640 else if (BraceCount) { 641 AngleBrackets.clear(*this); 642 --BraceCount; // Don't let unbalanced }'s drive the count negative. 643 } 644 645 PrevTokLocation = Tok.getLocation(); 646 PP.Lex(Tok); 647 return PrevTokLocation; 648 } 649 650 /// ConsumeStringToken - Consume the current 'peek token', lexing a new one 651 /// and returning the token kind. This method is specific to strings, as it 652 /// handles string literal concatenation, as per C99 5.1.1.2, translation 653 /// phase #6. 654 SourceLocation ConsumeStringToken() { 655 assert(isTokenStringLiteral() && 656 "Should only consume string literals with this method"); 657 PrevTokLocation = Tok.getLocation(); 658 PP.Lex(Tok); 659 return PrevTokLocation; 660 } 661 662 /// Consume the current code-completion token. 663 /// 664 /// This routine can be called to consume the code-completion token and 665 /// continue processing in special cases where \c cutOffParsing() isn't 666 /// desired, such as token caching or completion with lookahead. 667 SourceLocation ConsumeCodeCompletionToken() { 668 assert(Tok.is(tok::code_completion)); 669 PrevTokLocation = Tok.getLocation(); 670 PP.Lex(Tok); 671 return PrevTokLocation; 672 } 673 674 ///\ brief When we are consuming a code-completion token without having 675 /// matched specific position in the grammar, provide code-completion results 676 /// based on context. 677 /// 678 /// \returns the source location of the code-completion token. 679 SourceLocation handleUnexpectedCodeCompletionToken(); 680 681 /// Abruptly cut off parsing; mainly used when we have reached the 682 /// code-completion point. 683 void cutOffParsing() { 684 if (PP.isCodeCompletionEnabled()) 685 PP.setCodeCompletionReached(); 686 // Cut off parsing by acting as if we reached the end-of-file. 687 Tok.setKind(tok::eof); 688 } 689 690 /// Determine if we're at the end of the file or at a transition 691 /// between modules. 692 bool isEofOrEom() { 693 tok::TokenKind Kind = Tok.getKind(); 694 return Kind == tok::eof || Kind == tok::annot_module_begin || 695 Kind == tok::annot_module_end || Kind == tok::annot_module_include; 696 } 697 698 /// Checks if the \p Level is valid for use in a fold expression. 699 bool isFoldOperator(prec::Level Level) const; 700 701 /// Checks if the \p Kind is a valid operator for fold expressions. 702 bool isFoldOperator(tok::TokenKind Kind) const; 703 704 /// Initialize all pragma handlers. 705 void initializePragmaHandlers(); 706 707 /// Destroy and reset all pragma handlers. 708 void resetPragmaHandlers(); 709 710 /// Handle the annotation token produced for #pragma unused(...) 711 void HandlePragmaUnused(); 712 713 /// Handle the annotation token produced for 714 /// #pragma GCC visibility... 715 void HandlePragmaVisibility(); 716 717 /// Handle the annotation token produced for 718 /// #pragma pack... 719 void HandlePragmaPack(); 720 721 /// Handle the annotation token produced for 722 /// #pragma ms_struct... 723 void HandlePragmaMSStruct(); 724 725 void HandlePragmaMSPointersToMembers(); 726 727 void HandlePragmaMSVtorDisp(); 728 729 void HandlePragmaMSPragma(); 730 bool HandlePragmaMSSection(StringRef PragmaName, 731 SourceLocation PragmaLocation); 732 bool HandlePragmaMSSegment(StringRef PragmaName, 733 SourceLocation PragmaLocation); 734 bool HandlePragmaMSInitSeg(StringRef PragmaName, 735 SourceLocation PragmaLocation); 736 bool HandlePragmaMSStrictGuardStackCheck(StringRef PragmaName, 737 SourceLocation PragmaLocation); 738 bool HandlePragmaMSFunction(StringRef PragmaName, 739 SourceLocation PragmaLocation); 740 bool HandlePragmaMSAllocText(StringRef PragmaName, 741 SourceLocation PragmaLocation); 742 bool HandlePragmaMSOptimize(StringRef PragmaName, 743 SourceLocation PragmaLocation); 744 745 /// Handle the annotation token produced for 746 /// #pragma align... 747 void HandlePragmaAlign(); 748 749 /// Handle the annotation token produced for 750 /// #pragma clang __debug dump... 751 void HandlePragmaDump(); 752 753 /// Handle the annotation token produced for 754 /// #pragma weak id... 755 void HandlePragmaWeak(); 756 757 /// Handle the annotation token produced for 758 /// #pragma weak id = id... 759 void HandlePragmaWeakAlias(); 760 761 /// Handle the annotation token produced for 762 /// #pragma redefine_extname... 763 void HandlePragmaRedefineExtname(); 764 765 /// Handle the annotation token produced for 766 /// #pragma STDC FP_CONTRACT... 767 void HandlePragmaFPContract(); 768 769 /// Handle the annotation token produced for 770 /// #pragma STDC FENV_ACCESS... 771 void HandlePragmaFEnvAccess(); 772 773 /// Handle the annotation token produced for 774 /// #pragma STDC FENV_ROUND... 775 void HandlePragmaFEnvRound(); 776 777 /// Handle the annotation token produced for 778 /// #pragma float_control 779 void HandlePragmaFloatControl(); 780 781 /// \brief Handle the annotation token produced for 782 /// #pragma clang fp ... 783 void HandlePragmaFP(); 784 785 /// Handle the annotation token produced for 786 /// #pragma OPENCL EXTENSION... 787 void HandlePragmaOpenCLExtension(); 788 789 /// Handle the annotation token produced for 790 /// #pragma clang __debug captured 791 StmtResult HandlePragmaCaptured(); 792 793 /// Handle the annotation token produced for 794 /// #pragma clang loop and #pragma unroll. 795 bool HandlePragmaLoopHint(LoopHint &Hint); 796 797 bool ParsePragmaAttributeSubjectMatchRuleSet( 798 attr::ParsedSubjectMatchRuleSet &SubjectMatchRules, 799 SourceLocation &AnyLoc, SourceLocation &LastMatchRuleEndLoc); 800 801 void HandlePragmaAttribute(); 802 803 /// GetLookAheadToken - This peeks ahead N tokens and returns that token 804 /// without consuming any tokens. LookAhead(0) returns 'Tok', LookAhead(1) 805 /// returns the token after Tok, etc. 806 /// 807 /// Note that this differs from the Preprocessor's LookAhead method, because 808 /// the Parser always has one token lexed that the preprocessor doesn't. 809 /// 810 const Token &GetLookAheadToken(unsigned N) { 811 if (N == 0 || Tok.is(tok::eof)) return Tok; 812 return PP.LookAhead(N-1); 813 } 814 815 public: 816 /// NextToken - This peeks ahead one token and returns it without 817 /// consuming it. 818 const Token &NextToken() { 819 return PP.LookAhead(0); 820 } 821 822 /// getTypeAnnotation - Read a parsed type out of an annotation token. 823 static TypeResult getTypeAnnotation(const Token &Tok) { 824 if (!Tok.getAnnotationValue()) 825 return TypeError(); 826 return ParsedType::getFromOpaquePtr(Tok.getAnnotationValue()); 827 } 828 829 private: 830 static void setTypeAnnotation(Token &Tok, TypeResult T) { 831 assert((T.isInvalid() || T.get()) && 832 "produced a valid-but-null type annotation?"); 833 Tok.setAnnotationValue(T.isInvalid() ? nullptr : T.get().getAsOpaquePtr()); 834 } 835 836 static NamedDecl *getNonTypeAnnotation(const Token &Tok) { 837 return static_cast<NamedDecl*>(Tok.getAnnotationValue()); 838 } 839 840 static void setNonTypeAnnotation(Token &Tok, NamedDecl *ND) { 841 Tok.setAnnotationValue(ND); 842 } 843 844 static IdentifierInfo *getIdentifierAnnotation(const Token &Tok) { 845 return static_cast<IdentifierInfo*>(Tok.getAnnotationValue()); 846 } 847 848 static void setIdentifierAnnotation(Token &Tok, IdentifierInfo *ND) { 849 Tok.setAnnotationValue(ND); 850 } 851 852 /// Read an already-translated primary expression out of an annotation 853 /// token. 854 static ExprResult getExprAnnotation(const Token &Tok) { 855 return ExprResult::getFromOpaquePointer(Tok.getAnnotationValue()); 856 } 857 858 /// Set the primary expression corresponding to the given annotation 859 /// token. 860 static void setExprAnnotation(Token &Tok, ExprResult ER) { 861 Tok.setAnnotationValue(ER.getAsOpaquePointer()); 862 } 863 864 public: 865 // If NeedType is true, then TryAnnotateTypeOrScopeToken will try harder to 866 // find a type name by attempting typo correction. 867 bool 868 TryAnnotateTypeOrScopeToken(ImplicitTypenameContext AllowImplicitTypename = 869 ImplicitTypenameContext::No); 870 bool TryAnnotateTypeOrScopeTokenAfterScopeSpec( 871 CXXScopeSpec &SS, bool IsNewScope, 872 ImplicitTypenameContext AllowImplicitTypename); 873 bool TryAnnotateCXXScopeToken(bool EnteringContext = false); 874 875 bool MightBeCXXScopeToken() { 876 return getLangOpts().CPlusPlus && 877 (Tok.is(tok::identifier) || Tok.is(tok::coloncolon) || 878 (Tok.is(tok::annot_template_id) && 879 NextToken().is(tok::coloncolon)) || 880 Tok.is(tok::kw_decltype) || Tok.is(tok::kw___super)); 881 } 882 bool TryAnnotateOptionalCXXScopeToken(bool EnteringContext = false) { 883 return MightBeCXXScopeToken() && TryAnnotateCXXScopeToken(EnteringContext); 884 } 885 886 private: 887 enum AnnotatedNameKind { 888 /// Annotation has failed and emitted an error. 889 ANK_Error, 890 /// The identifier is a tentatively-declared name. 891 ANK_TentativeDecl, 892 /// The identifier is a template name. FIXME: Add an annotation for that. 893 ANK_TemplateName, 894 /// The identifier can't be resolved. 895 ANK_Unresolved, 896 /// Annotation was successful. 897 ANK_Success 898 }; 899 900 AnnotatedNameKind 901 TryAnnotateName(CorrectionCandidateCallback *CCC = nullptr, 902 ImplicitTypenameContext AllowImplicitTypename = 903 ImplicitTypenameContext::No); 904 905 /// Push a tok::annot_cxxscope token onto the token stream. 906 void AnnotateScopeToken(CXXScopeSpec &SS, bool IsNewAnnotation); 907 908 /// TryAltiVecToken - Check for context-sensitive AltiVec identifier tokens, 909 /// replacing them with the non-context-sensitive keywords. This returns 910 /// true if the token was replaced. 911 bool TryAltiVecToken(DeclSpec &DS, SourceLocation Loc, 912 const char *&PrevSpec, unsigned &DiagID, 913 bool &isInvalid) { 914 if (!getLangOpts().AltiVec && !getLangOpts().ZVector) 915 return false; 916 917 if (Tok.getIdentifierInfo() != Ident_vector && 918 Tok.getIdentifierInfo() != Ident_bool && 919 Tok.getIdentifierInfo() != Ident_Bool && 920 (!getLangOpts().AltiVec || Tok.getIdentifierInfo() != Ident_pixel)) 921 return false; 922 923 return TryAltiVecTokenOutOfLine(DS, Loc, PrevSpec, DiagID, isInvalid); 924 } 925 926 /// TryAltiVecVectorToken - Check for context-sensitive AltiVec vector 927 /// identifier token, replacing it with the non-context-sensitive __vector. 928 /// This returns true if the token was replaced. 929 bool TryAltiVecVectorToken() { 930 if ((!getLangOpts().AltiVec && !getLangOpts().ZVector) || 931 Tok.getIdentifierInfo() != Ident_vector) return false; 932 return TryAltiVecVectorTokenOutOfLine(); 933 } 934 935 bool TryAltiVecVectorTokenOutOfLine(); 936 bool TryAltiVecTokenOutOfLine(DeclSpec &DS, SourceLocation Loc, 937 const char *&PrevSpec, unsigned &DiagID, 938 bool &isInvalid); 939 940 /// Returns true if the current token is the identifier 'instancetype'. 941 /// 942 /// Should only be used in Objective-C language modes. 943 bool isObjCInstancetype() { 944 assert(getLangOpts().ObjC); 945 if (Tok.isAnnotation()) 946 return false; 947 if (!Ident_instancetype) 948 Ident_instancetype = PP.getIdentifierInfo("instancetype"); 949 return Tok.getIdentifierInfo() == Ident_instancetype; 950 } 951 952 /// TryKeywordIdentFallback - For compatibility with system headers using 953 /// keywords as identifiers, attempt to convert the current token to an 954 /// identifier and optionally disable the keyword for the remainder of the 955 /// translation unit. This returns false if the token was not replaced, 956 /// otherwise emits a diagnostic and returns true. 957 bool TryKeywordIdentFallback(bool DisableKeyword); 958 959 /// Get the TemplateIdAnnotation from the token. 960 TemplateIdAnnotation *takeTemplateIdAnnotation(const Token &tok); 961 962 /// TentativeParsingAction - An object that is used as a kind of "tentative 963 /// parsing transaction". It gets instantiated to mark the token position and 964 /// after the token consumption is done, Commit() or Revert() is called to 965 /// either "commit the consumed tokens" or revert to the previously marked 966 /// token position. Example: 967 /// 968 /// TentativeParsingAction TPA(*this); 969 /// ConsumeToken(); 970 /// .... 971 /// TPA.Revert(); 972 /// 973 class TentativeParsingAction { 974 Parser &P; 975 PreferredTypeBuilder PrevPreferredType; 976 Token PrevTok; 977 size_t PrevTentativelyDeclaredIdentifierCount; 978 unsigned short PrevParenCount, PrevBracketCount, PrevBraceCount; 979 bool isActive; 980 981 public: 982 explicit TentativeParsingAction(Parser &p) 983 : P(p), PrevPreferredType(P.PreferredType) { 984 PrevTok = P.Tok; 985 PrevTentativelyDeclaredIdentifierCount = 986 P.TentativelyDeclaredIdentifiers.size(); 987 PrevParenCount = P.ParenCount; 988 PrevBracketCount = P.BracketCount; 989 PrevBraceCount = P.BraceCount; 990 P.PP.EnableBacktrackAtThisPos(); 991 isActive = true; 992 } 993 void Commit() { 994 assert(isActive && "Parsing action was finished!"); 995 P.TentativelyDeclaredIdentifiers.resize( 996 PrevTentativelyDeclaredIdentifierCount); 997 P.PP.CommitBacktrackedTokens(); 998 isActive = false; 999 } 1000 void Revert() { 1001 assert(isActive && "Parsing action was finished!"); 1002 P.PP.Backtrack(); 1003 P.PreferredType = PrevPreferredType; 1004 P.Tok = PrevTok; 1005 P.TentativelyDeclaredIdentifiers.resize( 1006 PrevTentativelyDeclaredIdentifierCount); 1007 P.ParenCount = PrevParenCount; 1008 P.BracketCount = PrevBracketCount; 1009 P.BraceCount = PrevBraceCount; 1010 isActive = false; 1011 } 1012 ~TentativeParsingAction() { 1013 assert(!isActive && "Forgot to call Commit or Revert!"); 1014 } 1015 }; 1016 /// A TentativeParsingAction that automatically reverts in its destructor. 1017 /// Useful for disambiguation parses that will always be reverted. 1018 class RevertingTentativeParsingAction 1019 : private Parser::TentativeParsingAction { 1020 public: 1021 RevertingTentativeParsingAction(Parser &P) 1022 : Parser::TentativeParsingAction(P) {} 1023 ~RevertingTentativeParsingAction() { Revert(); } 1024 }; 1025 1026 class UnannotatedTentativeParsingAction; 1027 1028 /// ObjCDeclContextSwitch - An object used to switch context from 1029 /// an objective-c decl context to its enclosing decl context and 1030 /// back. 1031 class ObjCDeclContextSwitch { 1032 Parser &P; 1033 ObjCContainerDecl *DC; 1034 SaveAndRestore<bool> WithinObjCContainer; 1035 public: 1036 explicit ObjCDeclContextSwitch(Parser &p) 1037 : P(p), DC(p.getObjCDeclContext()), 1038 WithinObjCContainer(P.ParsingInObjCContainer, DC != nullptr) { 1039 if (DC) 1040 P.Actions.ActOnObjCTemporaryExitContainerContext(DC); 1041 } 1042 ~ObjCDeclContextSwitch() { 1043 if (DC) 1044 P.Actions.ActOnObjCReenterContainerContext(DC); 1045 } 1046 }; 1047 1048 /// ExpectAndConsume - The parser expects that 'ExpectedTok' is next in the 1049 /// input. If so, it is consumed and false is returned. 1050 /// 1051 /// If a trivial punctuator misspelling is encountered, a FixIt error 1052 /// diagnostic is issued and false is returned after recovery. 1053 /// 1054 /// If the input is malformed, this emits the specified diagnostic and true is 1055 /// returned. 1056 bool ExpectAndConsume(tok::TokenKind ExpectedTok, 1057 unsigned Diag = diag::err_expected, 1058 StringRef DiagMsg = ""); 1059 1060 /// The parser expects a semicolon and, if present, will consume it. 1061 /// 1062 /// If the next token is not a semicolon, this emits the specified diagnostic, 1063 /// or, if there's just some closing-delimiter noise (e.g., ')' or ']') prior 1064 /// to the semicolon, consumes that extra token. 1065 bool ExpectAndConsumeSemi(unsigned DiagID , StringRef TokenUsed = ""); 1066 1067 /// The kind of extra semi diagnostic to emit. 1068 enum ExtraSemiKind { 1069 OutsideFunction = 0, 1070 InsideStruct = 1, 1071 InstanceVariableList = 2, 1072 AfterMemberFunctionDefinition = 3 1073 }; 1074 1075 /// Consume any extra semi-colons until the end of the line. 1076 void ConsumeExtraSemi(ExtraSemiKind Kind, DeclSpec::TST T = TST_unspecified); 1077 1078 /// Return false if the next token is an identifier. An 'expected identifier' 1079 /// error is emitted otherwise. 1080 /// 1081 /// The parser tries to recover from the error by checking if the next token 1082 /// is a C++ keyword when parsing Objective-C++. Return false if the recovery 1083 /// was successful. 1084 bool expectIdentifier(); 1085 1086 /// Kinds of compound pseudo-tokens formed by a sequence of two real tokens. 1087 enum class CompoundToken { 1088 /// A '(' '{' beginning a statement-expression. 1089 StmtExprBegin, 1090 /// A '}' ')' ending a statement-expression. 1091 StmtExprEnd, 1092 /// A '[' '[' beginning a C++11 or C2x attribute. 1093 AttrBegin, 1094 /// A ']' ']' ending a C++11 or C2x attribute. 1095 AttrEnd, 1096 /// A '::' '*' forming a C++ pointer-to-member declaration. 1097 MemberPtr, 1098 }; 1099 1100 /// Check that a compound operator was written in a "sensible" way, and warn 1101 /// if not. 1102 void checkCompoundToken(SourceLocation FirstTokLoc, 1103 tok::TokenKind FirstTokKind, CompoundToken Op); 1104 1105 public: 1106 //===--------------------------------------------------------------------===// 1107 // Scope manipulation 1108 1109 /// ParseScope - Introduces a new scope for parsing. The kind of 1110 /// scope is determined by ScopeFlags. Objects of this type should 1111 /// be created on the stack to coincide with the position where the 1112 /// parser enters the new scope, and this object's constructor will 1113 /// create that new scope. Similarly, once the object is destroyed 1114 /// the parser will exit the scope. 1115 class ParseScope { 1116 Parser *Self; 1117 ParseScope(const ParseScope &) = delete; 1118 void operator=(const ParseScope &) = delete; 1119 1120 public: 1121 // ParseScope - Construct a new object to manage a scope in the 1122 // parser Self where the new Scope is created with the flags 1123 // ScopeFlags, but only when we aren't about to enter a compound statement. 1124 ParseScope(Parser *Self, unsigned ScopeFlags, bool EnteredScope = true, 1125 bool BeforeCompoundStmt = false) 1126 : Self(Self) { 1127 if (EnteredScope && !BeforeCompoundStmt) 1128 Self->EnterScope(ScopeFlags); 1129 else { 1130 if (BeforeCompoundStmt) 1131 Self->incrementMSManglingNumber(); 1132 1133 this->Self = nullptr; 1134 } 1135 } 1136 1137 // Exit - Exit the scope associated with this object now, rather 1138 // than waiting until the object is destroyed. 1139 void Exit() { 1140 if (Self) { 1141 Self->ExitScope(); 1142 Self = nullptr; 1143 } 1144 } 1145 1146 ~ParseScope() { 1147 Exit(); 1148 } 1149 }; 1150 1151 /// Introduces zero or more scopes for parsing. The scopes will all be exited 1152 /// when the object is destroyed. 1153 class MultiParseScope { 1154 Parser &Self; 1155 unsigned NumScopes = 0; 1156 1157 MultiParseScope(const MultiParseScope&) = delete; 1158 1159 public: 1160 MultiParseScope(Parser &Self) : Self(Self) {} 1161 void Enter(unsigned ScopeFlags) { 1162 Self.EnterScope(ScopeFlags); 1163 ++NumScopes; 1164 } 1165 void Exit() { 1166 while (NumScopes) { 1167 Self.ExitScope(); 1168 --NumScopes; 1169 } 1170 } 1171 ~MultiParseScope() { 1172 Exit(); 1173 } 1174 }; 1175 1176 /// EnterScope - Start a new scope. 1177 void EnterScope(unsigned ScopeFlags); 1178 1179 /// ExitScope - Pop a scope off the scope stack. 1180 void ExitScope(); 1181 1182 /// Re-enter the template scopes for a declaration that might be a template. 1183 unsigned ReenterTemplateScopes(MultiParseScope &S, Decl *D); 1184 1185 private: 1186 /// RAII object used to modify the scope flags for the current scope. 1187 class ParseScopeFlags { 1188 Scope *CurScope; 1189 unsigned OldFlags; 1190 ParseScopeFlags(const ParseScopeFlags &) = delete; 1191 void operator=(const ParseScopeFlags &) = delete; 1192 1193 public: 1194 ParseScopeFlags(Parser *Self, unsigned ScopeFlags, bool ManageFlags = true); 1195 ~ParseScopeFlags(); 1196 }; 1197 1198 //===--------------------------------------------------------------------===// 1199 // Diagnostic Emission and Error recovery. 1200 1201 public: 1202 DiagnosticBuilder Diag(SourceLocation Loc, unsigned DiagID); 1203 DiagnosticBuilder Diag(const Token &Tok, unsigned DiagID); 1204 DiagnosticBuilder Diag(unsigned DiagID) { 1205 return Diag(Tok, DiagID); 1206 } 1207 1208 private: 1209 void SuggestParentheses(SourceLocation Loc, unsigned DK, 1210 SourceRange ParenRange); 1211 void CheckNestedObjCContexts(SourceLocation AtLoc); 1212 1213 public: 1214 1215 /// Control flags for SkipUntil functions. 1216 enum SkipUntilFlags { 1217 StopAtSemi = 1 << 0, ///< Stop skipping at semicolon 1218 /// Stop skipping at specified token, but don't skip the token itself 1219 StopBeforeMatch = 1 << 1, 1220 StopAtCodeCompletion = 1 << 2 ///< Stop at code completion 1221 }; 1222 1223 friend constexpr SkipUntilFlags operator|(SkipUntilFlags L, 1224 SkipUntilFlags R) { 1225 return static_cast<SkipUntilFlags>(static_cast<unsigned>(L) | 1226 static_cast<unsigned>(R)); 1227 } 1228 1229 /// SkipUntil - Read tokens until we get to the specified token, then consume 1230 /// it (unless StopBeforeMatch is specified). Because we cannot guarantee 1231 /// that the token will ever occur, this skips to the next token, or to some 1232 /// likely good stopping point. If Flags has StopAtSemi flag, skipping will 1233 /// stop at a ';' character. Balances (), [], and {} delimiter tokens while 1234 /// skipping. 1235 /// 1236 /// If SkipUntil finds the specified token, it returns true, otherwise it 1237 /// returns false. 1238 bool SkipUntil(tok::TokenKind T, 1239 SkipUntilFlags Flags = static_cast<SkipUntilFlags>(0)) { 1240 return SkipUntil(llvm::ArrayRef(T), Flags); 1241 } 1242 bool SkipUntil(tok::TokenKind T1, tok::TokenKind T2, 1243 SkipUntilFlags Flags = static_cast<SkipUntilFlags>(0)) { 1244 tok::TokenKind TokArray[] = {T1, T2}; 1245 return SkipUntil(TokArray, Flags); 1246 } 1247 bool SkipUntil(tok::TokenKind T1, tok::TokenKind T2, tok::TokenKind T3, 1248 SkipUntilFlags Flags = static_cast<SkipUntilFlags>(0)) { 1249 tok::TokenKind TokArray[] = {T1, T2, T3}; 1250 return SkipUntil(TokArray, Flags); 1251 } 1252 bool SkipUntil(ArrayRef<tok::TokenKind> Toks, 1253 SkipUntilFlags Flags = static_cast<SkipUntilFlags>(0)); 1254 1255 /// SkipMalformedDecl - Read tokens until we get to some likely good stopping 1256 /// point for skipping past a simple-declaration. 1257 void SkipMalformedDecl(); 1258 1259 /// The location of the first statement inside an else that might 1260 /// have a missleading indentation. If there is no 1261 /// MisleadingIndentationChecker on an else active, this location is invalid. 1262 SourceLocation MisleadingIndentationElseLoc; 1263 1264 private: 1265 //===--------------------------------------------------------------------===// 1266 // Lexing and parsing of C++ inline methods. 1267 1268 struct ParsingClass; 1269 1270 /// [class.mem]p1: "... the class is regarded as complete within 1271 /// - function bodies 1272 /// - default arguments 1273 /// - exception-specifications (TODO: C++0x) 1274 /// - and brace-or-equal-initializers for non-static data members 1275 /// (including such things in nested classes)." 1276 /// LateParsedDeclarations build the tree of those elements so they can 1277 /// be parsed after parsing the top-level class. 1278 class LateParsedDeclaration { 1279 public: 1280 virtual ~LateParsedDeclaration(); 1281 1282 virtual void ParseLexedMethodDeclarations(); 1283 virtual void ParseLexedMemberInitializers(); 1284 virtual void ParseLexedMethodDefs(); 1285 virtual void ParseLexedAttributes(); 1286 virtual void ParseLexedPragmas(); 1287 }; 1288 1289 /// Inner node of the LateParsedDeclaration tree that parses 1290 /// all its members recursively. 1291 class LateParsedClass : public LateParsedDeclaration { 1292 public: 1293 LateParsedClass(Parser *P, ParsingClass *C); 1294 ~LateParsedClass() override; 1295 1296 void ParseLexedMethodDeclarations() override; 1297 void ParseLexedMemberInitializers() override; 1298 void ParseLexedMethodDefs() override; 1299 void ParseLexedAttributes() override; 1300 void ParseLexedPragmas() override; 1301 1302 private: 1303 Parser *Self; 1304 ParsingClass *Class; 1305 }; 1306 1307 /// Contains the lexed tokens of an attribute with arguments that 1308 /// may reference member variables and so need to be parsed at the 1309 /// end of the class declaration after parsing all other member 1310 /// member declarations. 1311 /// FIXME: Perhaps we should change the name of LateParsedDeclaration to 1312 /// LateParsedTokens. 1313 struct LateParsedAttribute : public LateParsedDeclaration { 1314 Parser *Self; 1315 CachedTokens Toks; 1316 IdentifierInfo &AttrName; 1317 IdentifierInfo *MacroII = nullptr; 1318 SourceLocation AttrNameLoc; 1319 SmallVector<Decl*, 2> Decls; 1320 1321 explicit LateParsedAttribute(Parser *P, IdentifierInfo &Name, 1322 SourceLocation Loc) 1323 : Self(P), AttrName(Name), AttrNameLoc(Loc) {} 1324 1325 void ParseLexedAttributes() override; 1326 1327 void addDecl(Decl *D) { Decls.push_back(D); } 1328 }; 1329 1330 /// Contains the lexed tokens of a pragma with arguments that 1331 /// may reference member variables and so need to be parsed at the 1332 /// end of the class declaration after parsing all other member 1333 /// member declarations. 1334 class LateParsedPragma : public LateParsedDeclaration { 1335 Parser *Self = nullptr; 1336 AccessSpecifier AS = AS_none; 1337 CachedTokens Toks; 1338 1339 public: 1340 explicit LateParsedPragma(Parser *P, AccessSpecifier AS) 1341 : Self(P), AS(AS) {} 1342 1343 void takeToks(CachedTokens &Cached) { Toks.swap(Cached); } 1344 const CachedTokens &toks() const { return Toks; } 1345 AccessSpecifier getAccessSpecifier() const { return AS; } 1346 1347 void ParseLexedPragmas() override; 1348 }; 1349 1350 // A list of late-parsed attributes. Used by ParseGNUAttributes. 1351 class LateParsedAttrList: public SmallVector<LateParsedAttribute *, 2> { 1352 public: 1353 LateParsedAttrList(bool PSoon = false) : ParseSoon(PSoon) { } 1354 1355 bool parseSoon() { return ParseSoon; } 1356 1357 private: 1358 bool ParseSoon; // Are we planning to parse these shortly after creation? 1359 }; 1360 1361 /// Contains the lexed tokens of a member function definition 1362 /// which needs to be parsed at the end of the class declaration 1363 /// after parsing all other member declarations. 1364 struct LexedMethod : public LateParsedDeclaration { 1365 Parser *Self; 1366 Decl *D; 1367 CachedTokens Toks; 1368 1369 explicit LexedMethod(Parser *P, Decl *MD) : Self(P), D(MD) {} 1370 1371 void ParseLexedMethodDefs() override; 1372 }; 1373 1374 /// LateParsedDefaultArgument - Keeps track of a parameter that may 1375 /// have a default argument that cannot be parsed yet because it 1376 /// occurs within a member function declaration inside the class 1377 /// (C++ [class.mem]p2). 1378 struct LateParsedDefaultArgument { 1379 explicit LateParsedDefaultArgument(Decl *P, 1380 std::unique_ptr<CachedTokens> Toks = nullptr) 1381 : Param(P), Toks(std::move(Toks)) { } 1382 1383 /// Param - The parameter declaration for this parameter. 1384 Decl *Param; 1385 1386 /// Toks - The sequence of tokens that comprises the default 1387 /// argument expression, not including the '=' or the terminating 1388 /// ')' or ','. This will be NULL for parameters that have no 1389 /// default argument. 1390 std::unique_ptr<CachedTokens> Toks; 1391 }; 1392 1393 /// LateParsedMethodDeclaration - A method declaration inside a class that 1394 /// contains at least one entity whose parsing needs to be delayed 1395 /// until the class itself is completely-defined, such as a default 1396 /// argument (C++ [class.mem]p2). 1397 struct LateParsedMethodDeclaration : public LateParsedDeclaration { 1398 explicit LateParsedMethodDeclaration(Parser *P, Decl *M) 1399 : Self(P), Method(M), ExceptionSpecTokens(nullptr) {} 1400 1401 void ParseLexedMethodDeclarations() override; 1402 1403 Parser *Self; 1404 1405 /// Method - The method declaration. 1406 Decl *Method; 1407 1408 /// DefaultArgs - Contains the parameters of the function and 1409 /// their default arguments. At least one of the parameters will 1410 /// have a default argument, but all of the parameters of the 1411 /// method will be stored so that they can be reintroduced into 1412 /// scope at the appropriate times. 1413 SmallVector<LateParsedDefaultArgument, 8> DefaultArgs; 1414 1415 /// The set of tokens that make up an exception-specification that 1416 /// has not yet been parsed. 1417 CachedTokens *ExceptionSpecTokens; 1418 }; 1419 1420 /// LateParsedMemberInitializer - An initializer for a non-static class data 1421 /// member whose parsing must to be delayed until the class is completely 1422 /// defined (C++11 [class.mem]p2). 1423 struct LateParsedMemberInitializer : public LateParsedDeclaration { 1424 LateParsedMemberInitializer(Parser *P, Decl *FD) 1425 : Self(P), Field(FD) { } 1426 1427 void ParseLexedMemberInitializers() override; 1428 1429 Parser *Self; 1430 1431 /// Field - The field declaration. 1432 Decl *Field; 1433 1434 /// CachedTokens - The sequence of tokens that comprises the initializer, 1435 /// including any leading '='. 1436 CachedTokens Toks; 1437 }; 1438 1439 /// LateParsedDeclarationsContainer - During parsing of a top (non-nested) 1440 /// C++ class, its method declarations that contain parts that won't be 1441 /// parsed until after the definition is completed (C++ [class.mem]p2), 1442 /// the method declarations and possibly attached inline definitions 1443 /// will be stored here with the tokens that will be parsed to create those 1444 /// entities. 1445 typedef SmallVector<LateParsedDeclaration*,2> LateParsedDeclarationsContainer; 1446 1447 /// Representation of a class that has been parsed, including 1448 /// any member function declarations or definitions that need to be 1449 /// parsed after the corresponding top-level class is complete. 1450 struct ParsingClass { 1451 ParsingClass(Decl *TagOrTemplate, bool TopLevelClass, bool IsInterface) 1452 : TopLevelClass(TopLevelClass), IsInterface(IsInterface), 1453 TagOrTemplate(TagOrTemplate) {} 1454 1455 /// Whether this is a "top-level" class, meaning that it is 1456 /// not nested within another class. 1457 bool TopLevelClass : 1; 1458 1459 /// Whether this class is an __interface. 1460 bool IsInterface : 1; 1461 1462 /// The class or class template whose definition we are parsing. 1463 Decl *TagOrTemplate; 1464 1465 /// LateParsedDeclarations - Method declarations, inline definitions and 1466 /// nested classes that contain pieces whose parsing will be delayed until 1467 /// the top-level class is fully defined. 1468 LateParsedDeclarationsContainer LateParsedDeclarations; 1469 }; 1470 1471 /// The stack of classes that is currently being 1472 /// parsed. Nested and local classes will be pushed onto this stack 1473 /// when they are parsed, and removed afterward. 1474 std::stack<ParsingClass *> ClassStack; 1475 1476 ParsingClass &getCurrentClass() { 1477 assert(!ClassStack.empty() && "No lexed method stacks!"); 1478 return *ClassStack.top(); 1479 } 1480 1481 /// RAII object used to manage the parsing of a class definition. 1482 class ParsingClassDefinition { 1483 Parser &P; 1484 bool Popped; 1485 Sema::ParsingClassState State; 1486 1487 public: 1488 ParsingClassDefinition(Parser &P, Decl *TagOrTemplate, bool TopLevelClass, 1489 bool IsInterface) 1490 : P(P), Popped(false), 1491 State(P.PushParsingClass(TagOrTemplate, TopLevelClass, IsInterface)) { 1492 } 1493 1494 /// Pop this class of the stack. 1495 void Pop() { 1496 assert(!Popped && "Nested class has already been popped"); 1497 Popped = true; 1498 P.PopParsingClass(State); 1499 } 1500 1501 ~ParsingClassDefinition() { 1502 if (!Popped) 1503 P.PopParsingClass(State); 1504 } 1505 }; 1506 1507 /// Contains information about any template-specific 1508 /// information that has been parsed prior to parsing declaration 1509 /// specifiers. 1510 struct ParsedTemplateInfo { 1511 ParsedTemplateInfo() : Kind(NonTemplate), TemplateParams(nullptr) {} 1512 1513 ParsedTemplateInfo(TemplateParameterLists *TemplateParams, 1514 bool isSpecialization, 1515 bool lastParameterListWasEmpty = false) 1516 : Kind(isSpecialization? ExplicitSpecialization : Template), 1517 TemplateParams(TemplateParams), 1518 LastParameterListWasEmpty(lastParameterListWasEmpty) { } 1519 1520 explicit ParsedTemplateInfo(SourceLocation ExternLoc, 1521 SourceLocation TemplateLoc) 1522 : Kind(ExplicitInstantiation), TemplateParams(nullptr), 1523 ExternLoc(ExternLoc), TemplateLoc(TemplateLoc), 1524 LastParameterListWasEmpty(false){ } 1525 1526 /// The kind of template we are parsing. 1527 enum { 1528 /// We are not parsing a template at all. 1529 NonTemplate = 0, 1530 /// We are parsing a template declaration. 1531 Template, 1532 /// We are parsing an explicit specialization. 1533 ExplicitSpecialization, 1534 /// We are parsing an explicit instantiation. 1535 ExplicitInstantiation 1536 } Kind; 1537 1538 /// The template parameter lists, for template declarations 1539 /// and explicit specializations. 1540 TemplateParameterLists *TemplateParams; 1541 1542 /// The location of the 'extern' keyword, if any, for an explicit 1543 /// instantiation 1544 SourceLocation ExternLoc; 1545 1546 /// The location of the 'template' keyword, for an explicit 1547 /// instantiation. 1548 SourceLocation TemplateLoc; 1549 1550 /// Whether the last template parameter list was empty. 1551 bool LastParameterListWasEmpty; 1552 1553 SourceRange getSourceRange() const LLVM_READONLY; 1554 }; 1555 1556 // In ParseCXXInlineMethods.cpp. 1557 struct ReenterTemplateScopeRAII; 1558 struct ReenterClassScopeRAII; 1559 1560 void LexTemplateFunctionForLateParsing(CachedTokens &Toks); 1561 void ParseLateTemplatedFuncDef(LateParsedTemplate &LPT); 1562 1563 static void LateTemplateParserCallback(void *P, LateParsedTemplate &LPT); 1564 1565 Sema::ParsingClassState 1566 PushParsingClass(Decl *TagOrTemplate, bool TopLevelClass, bool IsInterface); 1567 void DeallocateParsedClasses(ParsingClass *Class); 1568 void PopParsingClass(Sema::ParsingClassState); 1569 1570 enum CachedInitKind { 1571 CIK_DefaultArgument, 1572 CIK_DefaultInitializer 1573 }; 1574 1575 NamedDecl *ParseCXXInlineMethodDef(AccessSpecifier AS, 1576 const ParsedAttributesView &AccessAttrs, 1577 ParsingDeclarator &D, 1578 const ParsedTemplateInfo &TemplateInfo, 1579 const VirtSpecifiers &VS, 1580 SourceLocation PureSpecLoc); 1581 void ParseCXXNonStaticMemberInitializer(Decl *VarD); 1582 void ParseLexedAttributes(ParsingClass &Class); 1583 void ParseLexedAttributeList(LateParsedAttrList &LAs, Decl *D, 1584 bool EnterScope, bool OnDefinition); 1585 void ParseLexedAttribute(LateParsedAttribute &LA, 1586 bool EnterScope, bool OnDefinition); 1587 void ParseLexedMethodDeclarations(ParsingClass &Class); 1588 void ParseLexedMethodDeclaration(LateParsedMethodDeclaration &LM); 1589 void ParseLexedMethodDefs(ParsingClass &Class); 1590 void ParseLexedMethodDef(LexedMethod &LM); 1591 void ParseLexedMemberInitializers(ParsingClass &Class); 1592 void ParseLexedMemberInitializer(LateParsedMemberInitializer &MI); 1593 void ParseLexedObjCMethodDefs(LexedMethod &LM, bool parseMethod); 1594 void ParseLexedPragmas(ParsingClass &Class); 1595 void ParseLexedPragma(LateParsedPragma &LP); 1596 bool ConsumeAndStoreFunctionPrologue(CachedTokens &Toks); 1597 bool ConsumeAndStoreInitializer(CachedTokens &Toks, CachedInitKind CIK); 1598 bool ConsumeAndStoreConditional(CachedTokens &Toks); 1599 bool ConsumeAndStoreUntil(tok::TokenKind T1, 1600 CachedTokens &Toks, 1601 bool StopAtSemi = true, 1602 bool ConsumeFinalToken = true) { 1603 return ConsumeAndStoreUntil(T1, T1, Toks, StopAtSemi, ConsumeFinalToken); 1604 } 1605 bool ConsumeAndStoreUntil(tok::TokenKind T1, tok::TokenKind T2, 1606 CachedTokens &Toks, 1607 bool StopAtSemi = true, 1608 bool ConsumeFinalToken = true); 1609 1610 //===--------------------------------------------------------------------===// 1611 // C99 6.9: External Definitions. 1612 DeclGroupPtrTy ParseExternalDeclaration(ParsedAttributes &DeclAttrs, 1613 ParsedAttributes &DeclSpecAttrs, 1614 ParsingDeclSpec *DS = nullptr); 1615 bool isDeclarationAfterDeclarator(); 1616 bool isStartOfFunctionDefinition(const ParsingDeclarator &Declarator); 1617 DeclGroupPtrTy ParseDeclarationOrFunctionDefinition( 1618 ParsedAttributes &DeclAttrs, ParsedAttributes &DeclSpecAttrs, 1619 ParsingDeclSpec *DS = nullptr, AccessSpecifier AS = AS_none); 1620 DeclGroupPtrTy ParseDeclOrFunctionDefInternal(ParsedAttributes &Attrs, 1621 ParsedAttributes &DeclSpecAttrs, 1622 ParsingDeclSpec &DS, 1623 AccessSpecifier AS); 1624 1625 void SkipFunctionBody(); 1626 Decl *ParseFunctionDefinition(ParsingDeclarator &D, 1627 const ParsedTemplateInfo &TemplateInfo = ParsedTemplateInfo(), 1628 LateParsedAttrList *LateParsedAttrs = nullptr); 1629 void ParseKNRParamDeclarations(Declarator &D); 1630 // EndLoc is filled with the location of the last token of the simple-asm. 1631 ExprResult ParseSimpleAsm(bool ForAsmLabel, SourceLocation *EndLoc); 1632 ExprResult ParseAsmStringLiteral(bool ForAsmLabel); 1633 1634 // Objective-C External Declarations 1635 void MaybeSkipAttributes(tok::ObjCKeywordKind Kind); 1636 DeclGroupPtrTy ParseObjCAtDirectives(ParsedAttributes &DeclAttrs, 1637 ParsedAttributes &DeclSpecAttrs); 1638 DeclGroupPtrTy ParseObjCAtClassDeclaration(SourceLocation atLoc); 1639 Decl *ParseObjCAtInterfaceDeclaration(SourceLocation AtLoc, 1640 ParsedAttributes &prefixAttrs); 1641 class ObjCTypeParamListScope; 1642 ObjCTypeParamList *parseObjCTypeParamList(); 1643 ObjCTypeParamList *parseObjCTypeParamListOrProtocolRefs( 1644 ObjCTypeParamListScope &Scope, SourceLocation &lAngleLoc, 1645 SmallVectorImpl<IdentifierLocPair> &protocolIdents, 1646 SourceLocation &rAngleLoc, bool mayBeProtocolList = true); 1647 1648 void HelperActionsForIvarDeclarations(ObjCContainerDecl *interfaceDecl, 1649 SourceLocation atLoc, 1650 BalancedDelimiterTracker &T, 1651 SmallVectorImpl<Decl *> &AllIvarDecls, 1652 bool RBraceMissing); 1653 void ParseObjCClassInstanceVariables(ObjCContainerDecl *interfaceDecl, 1654 tok::ObjCKeywordKind visibility, 1655 SourceLocation atLoc); 1656 bool ParseObjCProtocolReferences(SmallVectorImpl<Decl *> &P, 1657 SmallVectorImpl<SourceLocation> &PLocs, 1658 bool WarnOnDeclarations, 1659 bool ForObjCContainer, 1660 SourceLocation &LAngleLoc, 1661 SourceLocation &EndProtoLoc, 1662 bool consumeLastToken); 1663 1664 /// Parse the first angle-bracket-delimited clause for an 1665 /// Objective-C object or object pointer type, which may be either 1666 /// type arguments or protocol qualifiers. 1667 void parseObjCTypeArgsOrProtocolQualifiers( 1668 ParsedType baseType, 1669 SourceLocation &typeArgsLAngleLoc, 1670 SmallVectorImpl<ParsedType> &typeArgs, 1671 SourceLocation &typeArgsRAngleLoc, 1672 SourceLocation &protocolLAngleLoc, 1673 SmallVectorImpl<Decl *> &protocols, 1674 SmallVectorImpl<SourceLocation> &protocolLocs, 1675 SourceLocation &protocolRAngleLoc, 1676 bool consumeLastToken, 1677 bool warnOnIncompleteProtocols); 1678 1679 /// Parse either Objective-C type arguments or protocol qualifiers; if the 1680 /// former, also parse protocol qualifiers afterward. 1681 void parseObjCTypeArgsAndProtocolQualifiers( 1682 ParsedType baseType, 1683 SourceLocation &typeArgsLAngleLoc, 1684 SmallVectorImpl<ParsedType> &typeArgs, 1685 SourceLocation &typeArgsRAngleLoc, 1686 SourceLocation &protocolLAngleLoc, 1687 SmallVectorImpl<Decl *> &protocols, 1688 SmallVectorImpl<SourceLocation> &protocolLocs, 1689 SourceLocation &protocolRAngleLoc, 1690 bool consumeLastToken); 1691 1692 /// Parse a protocol qualifier type such as '<NSCopying>', which is 1693 /// an anachronistic way of writing 'id<NSCopying>'. 1694 TypeResult parseObjCProtocolQualifierType(SourceLocation &rAngleLoc); 1695 1696 /// Parse Objective-C type arguments and protocol qualifiers, extending the 1697 /// current type with the parsed result. 1698 TypeResult parseObjCTypeArgsAndProtocolQualifiers(SourceLocation loc, 1699 ParsedType type, 1700 bool consumeLastToken, 1701 SourceLocation &endLoc); 1702 1703 void ParseObjCInterfaceDeclList(tok::ObjCKeywordKind contextKey, 1704 Decl *CDecl); 1705 DeclGroupPtrTy ParseObjCAtProtocolDeclaration(SourceLocation atLoc, 1706 ParsedAttributes &prefixAttrs); 1707 1708 struct ObjCImplParsingDataRAII { 1709 Parser &P; 1710 Decl *Dcl; 1711 bool HasCFunction; 1712 typedef SmallVector<LexedMethod*, 8> LateParsedObjCMethodContainer; 1713 LateParsedObjCMethodContainer LateParsedObjCMethods; 1714 1715 ObjCImplParsingDataRAII(Parser &parser, Decl *D) 1716 : P(parser), Dcl(D), HasCFunction(false) { 1717 P.CurParsedObjCImpl = this; 1718 Finished = false; 1719 } 1720 ~ObjCImplParsingDataRAII(); 1721 1722 void finish(SourceRange AtEnd); 1723 bool isFinished() const { return Finished; } 1724 1725 private: 1726 bool Finished; 1727 }; 1728 ObjCImplParsingDataRAII *CurParsedObjCImpl; 1729 void StashAwayMethodOrFunctionBodyTokens(Decl *MDecl); 1730 1731 DeclGroupPtrTy ParseObjCAtImplementationDeclaration(SourceLocation AtLoc, 1732 ParsedAttributes &Attrs); 1733 DeclGroupPtrTy ParseObjCAtEndDeclaration(SourceRange atEnd); 1734 Decl *ParseObjCAtAliasDeclaration(SourceLocation atLoc); 1735 Decl *ParseObjCPropertySynthesize(SourceLocation atLoc); 1736 Decl *ParseObjCPropertyDynamic(SourceLocation atLoc); 1737 1738 IdentifierInfo *ParseObjCSelectorPiece(SourceLocation &MethodLocation); 1739 // Definitions for Objective-c context sensitive keywords recognition. 1740 enum ObjCTypeQual { 1741 objc_in=0, objc_out, objc_inout, objc_oneway, objc_bycopy, objc_byref, 1742 objc_nonnull, objc_nullable, objc_null_unspecified, 1743 objc_NumQuals 1744 }; 1745 IdentifierInfo *ObjCTypeQuals[objc_NumQuals]; 1746 1747 bool isTokIdentifier_in() const; 1748 1749 ParsedType ParseObjCTypeName(ObjCDeclSpec &DS, DeclaratorContext Ctx, 1750 ParsedAttributes *ParamAttrs); 1751 Decl *ParseObjCMethodPrototype( 1752 tok::ObjCKeywordKind MethodImplKind = tok::objc_not_keyword, 1753 bool MethodDefinition = true); 1754 Decl *ParseObjCMethodDecl(SourceLocation mLoc, tok::TokenKind mType, 1755 tok::ObjCKeywordKind MethodImplKind = tok::objc_not_keyword, 1756 bool MethodDefinition=true); 1757 void ParseObjCPropertyAttribute(ObjCDeclSpec &DS); 1758 1759 Decl *ParseObjCMethodDefinition(); 1760 1761 public: 1762 //===--------------------------------------------------------------------===// 1763 // C99 6.5: Expressions. 1764 1765 /// TypeCastState - State whether an expression is or may be a type cast. 1766 enum TypeCastState { 1767 NotTypeCast = 0, 1768 MaybeTypeCast, 1769 IsTypeCast 1770 }; 1771 1772 ExprResult ParseExpression(TypeCastState isTypeCast = NotTypeCast); 1773 ExprResult ParseConstantExpressionInExprEvalContext( 1774 TypeCastState isTypeCast = NotTypeCast); 1775 ExprResult ParseConstantExpression(); 1776 ExprResult ParseCaseExpression(SourceLocation CaseLoc); 1777 ExprResult ParseConstraintExpression(); 1778 ExprResult 1779 ParseConstraintLogicalAndExpression(bool IsTrailingRequiresClause); 1780 ExprResult ParseConstraintLogicalOrExpression(bool IsTrailingRequiresClause); 1781 // Expr that doesn't include commas. 1782 ExprResult ParseAssignmentExpression(TypeCastState isTypeCast = NotTypeCast); 1783 1784 ExprResult ParseMSAsmIdentifier(llvm::SmallVectorImpl<Token> &LineToks, 1785 unsigned &NumLineToksConsumed, 1786 bool IsUnevaluated); 1787 1788 ExprResult ParseStringLiteralExpression(bool AllowUserDefinedLiteral = false); 1789 1790 private: 1791 ExprResult ParseExpressionWithLeadingAt(SourceLocation AtLoc); 1792 1793 ExprResult ParseExpressionWithLeadingExtension(SourceLocation ExtLoc); 1794 1795 ExprResult ParseRHSOfBinaryExpression(ExprResult LHS, 1796 prec::Level MinPrec); 1797 /// Control what ParseCastExpression will parse. 1798 enum CastParseKind { 1799 AnyCastExpr = 0, 1800 UnaryExprOnly, 1801 PrimaryExprOnly 1802 }; 1803 ExprResult ParseCastExpression(CastParseKind ParseKind, 1804 bool isAddressOfOperand, 1805 bool &NotCastExpr, 1806 TypeCastState isTypeCast, 1807 bool isVectorLiteral = false, 1808 bool *NotPrimaryExpression = nullptr); 1809 ExprResult ParseCastExpression(CastParseKind ParseKind, 1810 bool isAddressOfOperand = false, 1811 TypeCastState isTypeCast = NotTypeCast, 1812 bool isVectorLiteral = false, 1813 bool *NotPrimaryExpression = nullptr); 1814 1815 /// Returns true if the next token cannot start an expression. 1816 bool isNotExpressionStart(); 1817 1818 /// Returns true if the next token would start a postfix-expression 1819 /// suffix. 1820 bool isPostfixExpressionSuffixStart() { 1821 tok::TokenKind K = Tok.getKind(); 1822 return (K == tok::l_square || K == tok::l_paren || 1823 K == tok::period || K == tok::arrow || 1824 K == tok::plusplus || K == tok::minusminus); 1825 } 1826 1827 bool diagnoseUnknownTemplateId(ExprResult TemplateName, SourceLocation Less); 1828 void checkPotentialAngleBracket(ExprResult &PotentialTemplateName); 1829 bool checkPotentialAngleBracketDelimiter(const AngleBracketTracker::Loc &, 1830 const Token &OpToken); 1831 bool checkPotentialAngleBracketDelimiter(const Token &OpToken) { 1832 if (auto *Info = AngleBrackets.getCurrent(*this)) 1833 return checkPotentialAngleBracketDelimiter(*Info, OpToken); 1834 return false; 1835 } 1836 1837 ExprResult ParsePostfixExpressionSuffix(ExprResult LHS); 1838 ExprResult ParseUnaryExprOrTypeTraitExpression(); 1839 ExprResult ParseBuiltinPrimaryExpression(); 1840 ExprResult ParseSYCLUniqueStableNameExpression(); 1841 1842 ExprResult ParseExprAfterUnaryExprOrTypeTrait(const Token &OpTok, 1843 bool &isCastExpr, 1844 ParsedType &CastTy, 1845 SourceRange &CastRange); 1846 1847 /// ParseExpressionList - Used for C/C++ (argument-)expression-list. 1848 bool ParseExpressionList(SmallVectorImpl<Expr *> &Exprs, 1849 llvm::function_ref<void()> ExpressionStarts = 1850 llvm::function_ref<void()>(), 1851 bool FailImmediatelyOnInvalidExpr = false, 1852 bool EarlyTypoCorrection = false); 1853 1854 /// ParseSimpleExpressionList - A simple comma-separated list of expressions, 1855 /// used for misc language extensions. 1856 bool ParseSimpleExpressionList(SmallVectorImpl<Expr *> &Exprs); 1857 1858 /// ParenParseOption - Control what ParseParenExpression will parse. 1859 enum ParenParseOption { 1860 SimpleExpr, // Only parse '(' expression ')' 1861 FoldExpr, // Also allow fold-expression <anything> 1862 CompoundStmt, // Also allow '(' compound-statement ')' 1863 CompoundLiteral, // Also allow '(' type-name ')' '{' ... '}' 1864 CastExpr // Also allow '(' type-name ')' <anything> 1865 }; 1866 ExprResult ParseParenExpression(ParenParseOption &ExprType, 1867 bool stopIfCastExpr, 1868 bool isTypeCast, 1869 ParsedType &CastTy, 1870 SourceLocation &RParenLoc); 1871 1872 ExprResult ParseCXXAmbiguousParenExpression( 1873 ParenParseOption &ExprType, ParsedType &CastTy, 1874 BalancedDelimiterTracker &Tracker, ColonProtectionRAIIObject &ColonProt); 1875 ExprResult ParseCompoundLiteralExpression(ParsedType Ty, 1876 SourceLocation LParenLoc, 1877 SourceLocation RParenLoc); 1878 1879 ExprResult ParseGenericSelectionExpression(); 1880 1881 ExprResult ParseObjCBoolLiteral(); 1882 1883 ExprResult ParseFoldExpression(ExprResult LHS, BalancedDelimiterTracker &T); 1884 1885 //===--------------------------------------------------------------------===// 1886 // C++ Expressions 1887 ExprResult tryParseCXXIdExpression(CXXScopeSpec &SS, bool isAddressOfOperand, 1888 Token &Replacement); 1889 ExprResult ParseCXXIdExpression(bool isAddressOfOperand = false); 1890 1891 bool areTokensAdjacent(const Token &A, const Token &B); 1892 1893 void CheckForTemplateAndDigraph(Token &Next, ParsedType ObjectTypePtr, 1894 bool EnteringContext, IdentifierInfo &II, 1895 CXXScopeSpec &SS); 1896 1897 bool ParseOptionalCXXScopeSpecifier(CXXScopeSpec &SS, 1898 ParsedType ObjectType, 1899 bool ObjectHasErrors, 1900 bool EnteringContext, 1901 bool *MayBePseudoDestructor = nullptr, 1902 bool IsTypename = false, 1903 IdentifierInfo **LastII = nullptr, 1904 bool OnlyNamespace = false, 1905 bool InUsingDeclaration = false); 1906 1907 //===--------------------------------------------------------------------===// 1908 // C++11 5.1.2: Lambda expressions 1909 1910 /// Result of tentatively parsing a lambda-introducer. 1911 enum class LambdaIntroducerTentativeParse { 1912 /// This appears to be a lambda-introducer, which has been fully parsed. 1913 Success, 1914 /// This is a lambda-introducer, but has not been fully parsed, and this 1915 /// function needs to be called again to parse it. 1916 Incomplete, 1917 /// This is definitely an Objective-C message send expression, rather than 1918 /// a lambda-introducer, attribute-specifier, or array designator. 1919 MessageSend, 1920 /// This is not a lambda-introducer. 1921 Invalid, 1922 }; 1923 1924 // [...] () -> type {...} 1925 ExprResult ParseLambdaExpression(); 1926 ExprResult TryParseLambdaExpression(); 1927 bool 1928 ParseLambdaIntroducer(LambdaIntroducer &Intro, 1929 LambdaIntroducerTentativeParse *Tentative = nullptr); 1930 ExprResult ParseLambdaExpressionAfterIntroducer(LambdaIntroducer &Intro); 1931 1932 //===--------------------------------------------------------------------===// 1933 // C++ 5.2p1: C++ Casts 1934 ExprResult ParseCXXCasts(); 1935 1936 /// Parse a __builtin_bit_cast(T, E), used to implement C++2a std::bit_cast. 1937 ExprResult ParseBuiltinBitCast(); 1938 1939 //===--------------------------------------------------------------------===// 1940 // C++ 5.2p1: C++ Type Identification 1941 ExprResult ParseCXXTypeid(); 1942 1943 //===--------------------------------------------------------------------===// 1944 // C++ : Microsoft __uuidof Expression 1945 ExprResult ParseCXXUuidof(); 1946 1947 //===--------------------------------------------------------------------===// 1948 // C++ 5.2.4: C++ Pseudo-Destructor Expressions 1949 ExprResult ParseCXXPseudoDestructor(Expr *Base, SourceLocation OpLoc, 1950 tok::TokenKind OpKind, 1951 CXXScopeSpec &SS, 1952 ParsedType ObjectType); 1953 1954 //===--------------------------------------------------------------------===// 1955 // C++ 9.3.2: C++ 'this' pointer 1956 ExprResult ParseCXXThis(); 1957 1958 //===--------------------------------------------------------------------===// 1959 // C++ 15: C++ Throw Expression 1960 ExprResult ParseThrowExpression(); 1961 1962 ExceptionSpecificationType tryParseExceptionSpecification( 1963 bool Delayed, 1964 SourceRange &SpecificationRange, 1965 SmallVectorImpl<ParsedType> &DynamicExceptions, 1966 SmallVectorImpl<SourceRange> &DynamicExceptionRanges, 1967 ExprResult &NoexceptExpr, 1968 CachedTokens *&ExceptionSpecTokens); 1969 1970 // EndLoc is filled with the location of the last token of the specification. 1971 ExceptionSpecificationType ParseDynamicExceptionSpecification( 1972 SourceRange &SpecificationRange, 1973 SmallVectorImpl<ParsedType> &Exceptions, 1974 SmallVectorImpl<SourceRange> &Ranges); 1975 1976 //===--------------------------------------------------------------------===// 1977 // C++0x 8: Function declaration trailing-return-type 1978 TypeResult ParseTrailingReturnType(SourceRange &Range, 1979 bool MayBeFollowedByDirectInit); 1980 1981 //===--------------------------------------------------------------------===// 1982 // C++ 2.13.5: C++ Boolean Literals 1983 ExprResult ParseCXXBoolLiteral(); 1984 1985 //===--------------------------------------------------------------------===// 1986 // C++ 5.2.3: Explicit type conversion (functional notation) 1987 ExprResult ParseCXXTypeConstructExpression(const DeclSpec &DS); 1988 1989 /// ParseCXXSimpleTypeSpecifier - [C++ 7.1.5.2] Simple type specifiers. 1990 /// This should only be called when the current token is known to be part of 1991 /// simple-type-specifier. 1992 void ParseCXXSimpleTypeSpecifier(DeclSpec &DS); 1993 1994 bool ParseCXXTypeSpecifierSeq( 1995 DeclSpec &DS, DeclaratorContext Context = DeclaratorContext::TypeName); 1996 1997 //===--------------------------------------------------------------------===// 1998 // C++ 5.3.4 and 5.3.5: C++ new and delete 1999 bool ParseExpressionListOrTypeId(SmallVectorImpl<Expr*> &Exprs, 2000 Declarator &D); 2001 void ParseDirectNewDeclarator(Declarator &D); 2002 ExprResult ParseCXXNewExpression(bool UseGlobal, SourceLocation Start); 2003 ExprResult ParseCXXDeleteExpression(bool UseGlobal, 2004 SourceLocation Start); 2005 2006 //===--------------------------------------------------------------------===// 2007 // C++ if/switch/while/for condition expression. 2008 struct ForRangeInfo; 2009 Sema::ConditionResult ParseCXXCondition(StmtResult *InitStmt, 2010 SourceLocation Loc, 2011 Sema::ConditionKind CK, 2012 bool MissingOK, 2013 ForRangeInfo *FRI = nullptr, 2014 bool EnterForConditionScope = false); 2015 DeclGroupPtrTy ParseAliasDeclarationInInitStatement(DeclaratorContext Context, 2016 ParsedAttributes &Attrs); 2017 2018 //===--------------------------------------------------------------------===// 2019 // C++ Coroutines 2020 2021 ExprResult ParseCoyieldExpression(); 2022 2023 //===--------------------------------------------------------------------===// 2024 // C++ Concepts 2025 2026 ExprResult ParseRequiresExpression(); 2027 void ParseTrailingRequiresClause(Declarator &D); 2028 2029 //===--------------------------------------------------------------------===// 2030 // C99 6.7.8: Initialization. 2031 2032 /// ParseInitializer 2033 /// initializer: [C99 6.7.8] 2034 /// assignment-expression 2035 /// '{' ... 2036 ExprResult ParseInitializer() { 2037 if (Tok.isNot(tok::l_brace)) 2038 return ParseAssignmentExpression(); 2039 return ParseBraceInitializer(); 2040 } 2041 bool MayBeDesignationStart(); 2042 ExprResult ParseBraceInitializer(); 2043 struct DesignatorCompletionInfo { 2044 SmallVectorImpl<Expr *> &InitExprs; 2045 QualType PreferredBaseType; 2046 }; 2047 ExprResult ParseInitializerWithPotentialDesignator(DesignatorCompletionInfo); 2048 2049 //===--------------------------------------------------------------------===// 2050 // clang Expressions 2051 2052 ExprResult ParseBlockLiteralExpression(); // ^{...} 2053 2054 //===--------------------------------------------------------------------===// 2055 // Objective-C Expressions 2056 ExprResult ParseObjCAtExpression(SourceLocation AtLocation); 2057 ExprResult ParseObjCStringLiteral(SourceLocation AtLoc); 2058 ExprResult ParseObjCCharacterLiteral(SourceLocation AtLoc); 2059 ExprResult ParseObjCNumericLiteral(SourceLocation AtLoc); 2060 ExprResult ParseObjCBooleanLiteral(SourceLocation AtLoc, bool ArgValue); 2061 ExprResult ParseObjCArrayLiteral(SourceLocation AtLoc); 2062 ExprResult ParseObjCDictionaryLiteral(SourceLocation AtLoc); 2063 ExprResult ParseObjCBoxedExpr(SourceLocation AtLoc); 2064 ExprResult ParseObjCEncodeExpression(SourceLocation AtLoc); 2065 ExprResult ParseObjCSelectorExpression(SourceLocation AtLoc); 2066 ExprResult ParseObjCProtocolExpression(SourceLocation AtLoc); 2067 bool isSimpleObjCMessageExpression(); 2068 ExprResult ParseObjCMessageExpression(); 2069 ExprResult ParseObjCMessageExpressionBody(SourceLocation LBracloc, 2070 SourceLocation SuperLoc, 2071 ParsedType ReceiverType, 2072 Expr *ReceiverExpr); 2073 ExprResult ParseAssignmentExprWithObjCMessageExprStart( 2074 SourceLocation LBracloc, SourceLocation SuperLoc, 2075 ParsedType ReceiverType, Expr *ReceiverExpr); 2076 bool ParseObjCXXMessageReceiver(bool &IsExpr, void *&TypeOrExpr); 2077 2078 //===--------------------------------------------------------------------===// 2079 // C99 6.8: Statements and Blocks. 2080 2081 /// A SmallVector of expressions. 2082 typedef SmallVector<Expr*, 12> ExprVector; 2083 2084 StmtResult 2085 ParseStatement(SourceLocation *TrailingElseLoc = nullptr, 2086 ParsedStmtContext StmtCtx = ParsedStmtContext::SubStmt); 2087 StmtResult ParseStatementOrDeclaration( 2088 StmtVector &Stmts, ParsedStmtContext StmtCtx, 2089 SourceLocation *TrailingElseLoc = nullptr); 2090 StmtResult ParseStatementOrDeclarationAfterAttributes( 2091 StmtVector &Stmts, ParsedStmtContext StmtCtx, 2092 SourceLocation *TrailingElseLoc, ParsedAttributes &DeclAttrs, 2093 ParsedAttributes &DeclSpecAttrs); 2094 StmtResult ParseExprStatement(ParsedStmtContext StmtCtx); 2095 StmtResult ParseLabeledStatement(ParsedAttributes &Attrs, 2096 ParsedStmtContext StmtCtx); 2097 StmtResult ParseCaseStatement(ParsedStmtContext StmtCtx, 2098 bool MissingCase = false, 2099 ExprResult Expr = ExprResult()); 2100 StmtResult ParseDefaultStatement(ParsedStmtContext StmtCtx); 2101 StmtResult ParseCompoundStatement(bool isStmtExpr = false); 2102 StmtResult ParseCompoundStatement(bool isStmtExpr, 2103 unsigned ScopeFlags); 2104 void ParseCompoundStatementLeadingPragmas(); 2105 void DiagnoseLabelAtEndOfCompoundStatement(); 2106 bool ConsumeNullStmt(StmtVector &Stmts); 2107 StmtResult ParseCompoundStatementBody(bool isStmtExpr = false); 2108 bool ParseParenExprOrCondition(StmtResult *InitStmt, 2109 Sema::ConditionResult &CondResult, 2110 SourceLocation Loc, Sema::ConditionKind CK, 2111 SourceLocation &LParenLoc, 2112 SourceLocation &RParenLoc); 2113 StmtResult ParseIfStatement(SourceLocation *TrailingElseLoc); 2114 StmtResult ParseSwitchStatement(SourceLocation *TrailingElseLoc); 2115 StmtResult ParseWhileStatement(SourceLocation *TrailingElseLoc); 2116 StmtResult ParseDoStatement(); 2117 StmtResult ParseForStatement(SourceLocation *TrailingElseLoc); 2118 StmtResult ParseGotoStatement(); 2119 StmtResult ParseContinueStatement(); 2120 StmtResult ParseBreakStatement(); 2121 StmtResult ParseReturnStatement(); 2122 StmtResult ParseAsmStatement(bool &msAsm); 2123 StmtResult ParseMicrosoftAsmStatement(SourceLocation AsmLoc); 2124 StmtResult ParsePragmaLoopHint(StmtVector &Stmts, ParsedStmtContext StmtCtx, 2125 SourceLocation *TrailingElseLoc, 2126 ParsedAttributes &Attrs); 2127 2128 /// Describes the behavior that should be taken for an __if_exists 2129 /// block. 2130 enum IfExistsBehavior { 2131 /// Parse the block; this code is always used. 2132 IEB_Parse, 2133 /// Skip the block entirely; this code is never used. 2134 IEB_Skip, 2135 /// Parse the block as a dependent block, which may be used in 2136 /// some template instantiations but not others. 2137 IEB_Dependent 2138 }; 2139 2140 /// Describes the condition of a Microsoft __if_exists or 2141 /// __if_not_exists block. 2142 struct IfExistsCondition { 2143 /// The location of the initial keyword. 2144 SourceLocation KeywordLoc; 2145 /// Whether this is an __if_exists block (rather than an 2146 /// __if_not_exists block). 2147 bool IsIfExists; 2148 2149 /// Nested-name-specifier preceding the name. 2150 CXXScopeSpec SS; 2151 2152 /// The name we're looking for. 2153 UnqualifiedId Name; 2154 2155 /// The behavior of this __if_exists or __if_not_exists block 2156 /// should. 2157 IfExistsBehavior Behavior; 2158 }; 2159 2160 bool ParseMicrosoftIfExistsCondition(IfExistsCondition& Result); 2161 void ParseMicrosoftIfExistsStatement(StmtVector &Stmts); 2162 void ParseMicrosoftIfExistsExternalDeclaration(); 2163 void ParseMicrosoftIfExistsClassDeclaration(DeclSpec::TST TagType, 2164 ParsedAttributes &AccessAttrs, 2165 AccessSpecifier &CurAS); 2166 bool ParseMicrosoftIfExistsBraceInitializer(ExprVector &InitExprs, 2167 bool &InitExprsOk); 2168 bool ParseAsmOperandsOpt(SmallVectorImpl<IdentifierInfo *> &Names, 2169 SmallVectorImpl<Expr *> &Constraints, 2170 SmallVectorImpl<Expr *> &Exprs); 2171 2172 //===--------------------------------------------------------------------===// 2173 // C++ 6: Statements and Blocks 2174 2175 StmtResult ParseCXXTryBlock(); 2176 StmtResult ParseCXXTryBlockCommon(SourceLocation TryLoc, bool FnTry = false); 2177 StmtResult ParseCXXCatchBlock(bool FnCatch = false); 2178 2179 //===--------------------------------------------------------------------===// 2180 // MS: SEH Statements and Blocks 2181 2182 StmtResult ParseSEHTryBlock(); 2183 StmtResult ParseSEHExceptBlock(SourceLocation Loc); 2184 StmtResult ParseSEHFinallyBlock(SourceLocation Loc); 2185 StmtResult ParseSEHLeaveStatement(); 2186 2187 //===--------------------------------------------------------------------===// 2188 // Objective-C Statements 2189 2190 StmtResult ParseObjCAtStatement(SourceLocation atLoc, 2191 ParsedStmtContext StmtCtx); 2192 StmtResult ParseObjCTryStmt(SourceLocation atLoc); 2193 StmtResult ParseObjCThrowStmt(SourceLocation atLoc); 2194 StmtResult ParseObjCSynchronizedStmt(SourceLocation atLoc); 2195 StmtResult ParseObjCAutoreleasePoolStmt(SourceLocation atLoc); 2196 2197 2198 //===--------------------------------------------------------------------===// 2199 // C99 6.7: Declarations. 2200 2201 /// A context for parsing declaration specifiers. TODO: flesh this 2202 /// out, there are other significant restrictions on specifiers than 2203 /// would be best implemented in the parser. 2204 enum class DeclSpecContext { 2205 DSC_normal, // normal context 2206 DSC_class, // class context, enables 'friend' 2207 DSC_type_specifier, // C++ type-specifier-seq or C specifier-qualifier-list 2208 DSC_trailing, // C++11 trailing-type-specifier in a trailing return type 2209 DSC_alias_declaration, // C++11 type-specifier-seq in an alias-declaration 2210 DSC_conv_operator, // C++ type-specifier-seq in an conversion operator 2211 DSC_top_level, // top-level/namespace declaration context 2212 DSC_template_param, // template parameter context 2213 DSC_template_arg, // template argument context 2214 DSC_template_type_arg, // template type argument context 2215 DSC_objc_method_result, // ObjC method result context, enables 2216 // 'instancetype' 2217 DSC_condition, // condition declaration context 2218 DSC_association // A _Generic selection expression's type association 2219 }; 2220 2221 /// Is this a context in which we are parsing just a type-specifier (or 2222 /// trailing-type-specifier)? 2223 static bool isTypeSpecifier(DeclSpecContext DSC) { 2224 switch (DSC) { 2225 case DeclSpecContext::DSC_normal: 2226 case DeclSpecContext::DSC_template_param: 2227 case DeclSpecContext::DSC_template_arg: 2228 case DeclSpecContext::DSC_class: 2229 case DeclSpecContext::DSC_top_level: 2230 case DeclSpecContext::DSC_objc_method_result: 2231 case DeclSpecContext::DSC_condition: 2232 return false; 2233 2234 case DeclSpecContext::DSC_template_type_arg: 2235 case DeclSpecContext::DSC_type_specifier: 2236 case DeclSpecContext::DSC_conv_operator: 2237 case DeclSpecContext::DSC_trailing: 2238 case DeclSpecContext::DSC_alias_declaration: 2239 case DeclSpecContext::DSC_association: 2240 return true; 2241 } 2242 llvm_unreachable("Missing DeclSpecContext case"); 2243 } 2244 2245 /// Whether a defining-type-specifier is permitted in a given context. 2246 enum class AllowDefiningTypeSpec { 2247 /// The grammar doesn't allow a defining-type-specifier here, and we must 2248 /// not parse one (eg, because a '{' could mean something else). 2249 No, 2250 /// The grammar doesn't allow a defining-type-specifier here, but we permit 2251 /// one for error recovery purposes. Sema will reject. 2252 NoButErrorRecovery, 2253 /// The grammar allows a defining-type-specifier here, even though it's 2254 /// always invalid. Sema will reject. 2255 YesButInvalid, 2256 /// The grammar allows a defining-type-specifier here, and one can be valid. 2257 Yes 2258 }; 2259 2260 /// Is this a context in which we are parsing defining-type-specifiers (and 2261 /// so permit class and enum definitions in addition to non-defining class and 2262 /// enum elaborated-type-specifiers)? 2263 static AllowDefiningTypeSpec 2264 isDefiningTypeSpecifierContext(DeclSpecContext DSC, bool IsCPlusPlus) { 2265 switch (DSC) { 2266 case DeclSpecContext::DSC_normal: 2267 case DeclSpecContext::DSC_class: 2268 case DeclSpecContext::DSC_top_level: 2269 case DeclSpecContext::DSC_alias_declaration: 2270 case DeclSpecContext::DSC_objc_method_result: 2271 return AllowDefiningTypeSpec::Yes; 2272 2273 case DeclSpecContext::DSC_condition: 2274 case DeclSpecContext::DSC_template_param: 2275 return AllowDefiningTypeSpec::YesButInvalid; 2276 2277 case DeclSpecContext::DSC_template_type_arg: 2278 case DeclSpecContext::DSC_type_specifier: 2279 return AllowDefiningTypeSpec::NoButErrorRecovery; 2280 2281 case DeclSpecContext::DSC_association: 2282 return IsCPlusPlus ? AllowDefiningTypeSpec::NoButErrorRecovery 2283 : AllowDefiningTypeSpec::Yes; 2284 2285 case DeclSpecContext::DSC_trailing: 2286 case DeclSpecContext::DSC_conv_operator: 2287 case DeclSpecContext::DSC_template_arg: 2288 return AllowDefiningTypeSpec::No; 2289 } 2290 llvm_unreachable("Missing DeclSpecContext case"); 2291 } 2292 2293 /// Is this a context in which an opaque-enum-declaration can appear? 2294 static bool isOpaqueEnumDeclarationContext(DeclSpecContext DSC) { 2295 switch (DSC) { 2296 case DeclSpecContext::DSC_normal: 2297 case DeclSpecContext::DSC_class: 2298 case DeclSpecContext::DSC_top_level: 2299 return true; 2300 2301 case DeclSpecContext::DSC_alias_declaration: 2302 case DeclSpecContext::DSC_objc_method_result: 2303 case DeclSpecContext::DSC_condition: 2304 case DeclSpecContext::DSC_template_param: 2305 case DeclSpecContext::DSC_template_type_arg: 2306 case DeclSpecContext::DSC_type_specifier: 2307 case DeclSpecContext::DSC_trailing: 2308 case DeclSpecContext::DSC_association: 2309 case DeclSpecContext::DSC_conv_operator: 2310 case DeclSpecContext::DSC_template_arg: 2311 2312 return false; 2313 } 2314 llvm_unreachable("Missing DeclSpecContext case"); 2315 } 2316 2317 /// Is this a context in which we can perform class template argument 2318 /// deduction? 2319 static bool isClassTemplateDeductionContext(DeclSpecContext DSC) { 2320 switch (DSC) { 2321 case DeclSpecContext::DSC_normal: 2322 case DeclSpecContext::DSC_template_param: 2323 case DeclSpecContext::DSC_template_arg: 2324 case DeclSpecContext::DSC_class: 2325 case DeclSpecContext::DSC_top_level: 2326 case DeclSpecContext::DSC_condition: 2327 case DeclSpecContext::DSC_type_specifier: 2328 case DeclSpecContext::DSC_association: 2329 case DeclSpecContext::DSC_conv_operator: 2330 return true; 2331 2332 case DeclSpecContext::DSC_objc_method_result: 2333 case DeclSpecContext::DSC_template_type_arg: 2334 case DeclSpecContext::DSC_trailing: 2335 case DeclSpecContext::DSC_alias_declaration: 2336 return false; 2337 } 2338 llvm_unreachable("Missing DeclSpecContext case"); 2339 } 2340 2341 // Is this a context in which an implicit 'typename' is allowed? 2342 static ImplicitTypenameContext 2343 getImplicitTypenameContext(DeclSpecContext DSC) { 2344 switch (DSC) { 2345 case DeclSpecContext::DSC_class: 2346 case DeclSpecContext::DSC_top_level: 2347 case DeclSpecContext::DSC_type_specifier: 2348 case DeclSpecContext::DSC_template_type_arg: 2349 case DeclSpecContext::DSC_trailing: 2350 case DeclSpecContext::DSC_alias_declaration: 2351 case DeclSpecContext::DSC_template_param: 2352 return ImplicitTypenameContext::Yes; 2353 2354 case DeclSpecContext::DSC_normal: 2355 case DeclSpecContext::DSC_objc_method_result: 2356 case DeclSpecContext::DSC_condition: 2357 case DeclSpecContext::DSC_template_arg: 2358 case DeclSpecContext::DSC_conv_operator: 2359 case DeclSpecContext::DSC_association: 2360 return ImplicitTypenameContext::No; 2361 } 2362 llvm_unreachable("Missing DeclSpecContext case"); 2363 } 2364 2365 /// Information on a C++0x for-range-initializer found while parsing a 2366 /// declaration which turns out to be a for-range-declaration. 2367 struct ForRangeInit { 2368 SourceLocation ColonLoc; 2369 ExprResult RangeExpr; 2370 2371 bool ParsedForRangeDecl() { return !ColonLoc.isInvalid(); } 2372 }; 2373 struct ForRangeInfo : ForRangeInit { 2374 StmtResult LoopVar; 2375 }; 2376 2377 DeclGroupPtrTy ParseDeclaration(DeclaratorContext Context, 2378 SourceLocation &DeclEnd, 2379 ParsedAttributes &DeclAttrs, 2380 ParsedAttributes &DeclSpecAttrs, 2381 SourceLocation *DeclSpecStart = nullptr); 2382 DeclGroupPtrTy 2383 ParseSimpleDeclaration(DeclaratorContext Context, SourceLocation &DeclEnd, 2384 ParsedAttributes &DeclAttrs, 2385 ParsedAttributes &DeclSpecAttrs, bool RequireSemi, 2386 ForRangeInit *FRI = nullptr, 2387 SourceLocation *DeclSpecStart = nullptr); 2388 bool MightBeDeclarator(DeclaratorContext Context); 2389 DeclGroupPtrTy ParseDeclGroup(ParsingDeclSpec &DS, DeclaratorContext Context, 2390 ParsedAttributes &Attrs, 2391 SourceLocation *DeclEnd = nullptr, 2392 ForRangeInit *FRI = nullptr); 2393 Decl *ParseDeclarationAfterDeclarator(Declarator &D, 2394 const ParsedTemplateInfo &TemplateInfo = ParsedTemplateInfo()); 2395 bool ParseAsmAttributesAfterDeclarator(Declarator &D); 2396 Decl *ParseDeclarationAfterDeclaratorAndAttributes( 2397 Declarator &D, 2398 const ParsedTemplateInfo &TemplateInfo = ParsedTemplateInfo(), 2399 ForRangeInit *FRI = nullptr); 2400 Decl *ParseFunctionStatementBody(Decl *Decl, ParseScope &BodyScope); 2401 Decl *ParseFunctionTryBlock(Decl *Decl, ParseScope &BodyScope); 2402 2403 /// When in code-completion, skip parsing of the function/method body 2404 /// unless the body contains the code-completion point. 2405 /// 2406 /// \returns true if the function body was skipped. 2407 bool trySkippingFunctionBody(); 2408 2409 bool ParseImplicitInt(DeclSpec &DS, CXXScopeSpec *SS, 2410 const ParsedTemplateInfo &TemplateInfo, 2411 AccessSpecifier AS, DeclSpecContext DSC, 2412 ParsedAttributes &Attrs); 2413 DeclSpecContext 2414 getDeclSpecContextFromDeclaratorContext(DeclaratorContext Context); 2415 void ParseDeclarationSpecifiers( 2416 DeclSpec &DS, 2417 const ParsedTemplateInfo &TemplateInfo = ParsedTemplateInfo(), 2418 AccessSpecifier AS = AS_none, 2419 DeclSpecContext DSC = DeclSpecContext::DSC_normal, 2420 LateParsedAttrList *LateAttrs = nullptr) { 2421 return ParseDeclarationSpecifiers(DS, TemplateInfo, AS, DSC, LateAttrs, 2422 getImplicitTypenameContext(DSC)); 2423 } 2424 void ParseDeclarationSpecifiers( 2425 DeclSpec &DS, const ParsedTemplateInfo &TemplateInfo, AccessSpecifier AS, 2426 DeclSpecContext DSC, LateParsedAttrList *LateAttrs, 2427 ImplicitTypenameContext AllowImplicitTypename); 2428 2429 bool DiagnoseMissingSemiAfterTagDefinition( 2430 DeclSpec &DS, AccessSpecifier AS, DeclSpecContext DSContext, 2431 LateParsedAttrList *LateAttrs = nullptr); 2432 2433 void ParseSpecifierQualifierList( 2434 DeclSpec &DS, AccessSpecifier AS = AS_none, 2435 DeclSpecContext DSC = DeclSpecContext::DSC_normal) { 2436 ParseSpecifierQualifierList(DS, getImplicitTypenameContext(DSC), AS, DSC); 2437 } 2438 2439 void ParseSpecifierQualifierList( 2440 DeclSpec &DS, ImplicitTypenameContext AllowImplicitTypename, 2441 AccessSpecifier AS = AS_none, 2442 DeclSpecContext DSC = DeclSpecContext::DSC_normal); 2443 2444 void ParseObjCTypeQualifierList(ObjCDeclSpec &DS, 2445 DeclaratorContext Context); 2446 2447 void ParseEnumSpecifier(SourceLocation TagLoc, DeclSpec &DS, 2448 const ParsedTemplateInfo &TemplateInfo, 2449 AccessSpecifier AS, DeclSpecContext DSC); 2450 void ParseEnumBody(SourceLocation StartLoc, Decl *TagDecl); 2451 void ParseStructUnionBody(SourceLocation StartLoc, DeclSpec::TST TagType, 2452 RecordDecl *TagDecl); 2453 2454 void ParseStructDeclaration( 2455 ParsingDeclSpec &DS, 2456 llvm::function_ref<void(ParsingFieldDeclarator &)> FieldsCallback); 2457 2458 DeclGroupPtrTy ParseTopLevelStmtDecl(); 2459 2460 bool isDeclarationSpecifier(ImplicitTypenameContext AllowImplicitTypename, 2461 bool DisambiguatingWithExpression = false); 2462 bool isTypeSpecifierQualifier(); 2463 2464 /// isKnownToBeTypeSpecifier - Return true if we know that the specified token 2465 /// is definitely a type-specifier. Return false if it isn't part of a type 2466 /// specifier or if we're not sure. 2467 bool isKnownToBeTypeSpecifier(const Token &Tok) const; 2468 2469 /// Return true if we know that we are definitely looking at a 2470 /// decl-specifier, and isn't part of an expression such as a function-style 2471 /// cast. Return false if it's no a decl-specifier, or we're not sure. 2472 bool isKnownToBeDeclarationSpecifier() { 2473 if (getLangOpts().CPlusPlus) 2474 return isCXXDeclarationSpecifier(ImplicitTypenameContext::No) == 2475 TPResult::True; 2476 return isDeclarationSpecifier(ImplicitTypenameContext::No, true); 2477 } 2478 2479 /// isDeclarationStatement - Disambiguates between a declaration or an 2480 /// expression statement, when parsing function bodies. 2481 /// 2482 /// \param DisambiguatingWithExpression - True to indicate that the purpose of 2483 /// this check is to disambiguate between an expression and a declaration. 2484 /// Returns true for declaration, false for expression. 2485 bool isDeclarationStatement(bool DisambiguatingWithExpression = false) { 2486 if (getLangOpts().CPlusPlus) 2487 return isCXXDeclarationStatement(DisambiguatingWithExpression); 2488 return isDeclarationSpecifier(ImplicitTypenameContext::No, true); 2489 } 2490 2491 /// isForInitDeclaration - Disambiguates between a declaration or an 2492 /// expression in the context of the C 'clause-1' or the C++ 2493 // 'for-init-statement' part of a 'for' statement. 2494 /// Returns true for declaration, false for expression. 2495 bool isForInitDeclaration() { 2496 if (getLangOpts().OpenMP) 2497 Actions.startOpenMPLoop(); 2498 if (getLangOpts().CPlusPlus) 2499 return Tok.is(tok::kw_using) || 2500 isCXXSimpleDeclaration(/*AllowForRangeDecl=*/true); 2501 return isDeclarationSpecifier(ImplicitTypenameContext::No, true); 2502 } 2503 2504 /// Determine whether this is a C++1z for-range-identifier. 2505 bool isForRangeIdentifier(); 2506 2507 /// Determine whether we are currently at the start of an Objective-C 2508 /// class message that appears to be missing the open bracket '['. 2509 bool isStartOfObjCClassMessageMissingOpenBracket(); 2510 2511 /// Starting with a scope specifier, identifier, or 2512 /// template-id that refers to the current class, determine whether 2513 /// this is a constructor declarator. 2514 bool isConstructorDeclarator( 2515 bool Unqualified, bool DeductionGuide = false, 2516 DeclSpec::FriendSpecified IsFriend = DeclSpec::FriendSpecified::No); 2517 2518 /// Specifies the context in which type-id/expression 2519 /// disambiguation will occur. 2520 enum TentativeCXXTypeIdContext { 2521 TypeIdInParens, 2522 TypeIdUnambiguous, 2523 TypeIdAsTemplateArgument 2524 }; 2525 2526 2527 /// isTypeIdInParens - Assumes that a '(' was parsed and now we want to know 2528 /// whether the parens contain an expression or a type-id. 2529 /// Returns true for a type-id and false for an expression. 2530 bool isTypeIdInParens(bool &isAmbiguous) { 2531 if (getLangOpts().CPlusPlus) 2532 return isCXXTypeId(TypeIdInParens, isAmbiguous); 2533 isAmbiguous = false; 2534 return isTypeSpecifierQualifier(); 2535 } 2536 bool isTypeIdInParens() { 2537 bool isAmbiguous; 2538 return isTypeIdInParens(isAmbiguous); 2539 } 2540 2541 /// Checks if the current tokens form type-id or expression. 2542 /// It is similar to isTypeIdInParens but does not suppose that type-id 2543 /// is in parenthesis. 2544 bool isTypeIdUnambiguously() { 2545 bool IsAmbiguous; 2546 if (getLangOpts().CPlusPlus) 2547 return isCXXTypeId(TypeIdUnambiguous, IsAmbiguous); 2548 return isTypeSpecifierQualifier(); 2549 } 2550 2551 /// isCXXDeclarationStatement - C++-specialized function that disambiguates 2552 /// between a declaration or an expression statement, when parsing function 2553 /// bodies. Returns true for declaration, false for expression. 2554 bool isCXXDeclarationStatement(bool DisambiguatingWithExpression = false); 2555 2556 /// isCXXSimpleDeclaration - C++-specialized function that disambiguates 2557 /// between a simple-declaration or an expression-statement. 2558 /// If during the disambiguation process a parsing error is encountered, 2559 /// the function returns true to let the declaration parsing code handle it. 2560 /// Returns false if the statement is disambiguated as expression. 2561 bool isCXXSimpleDeclaration(bool AllowForRangeDecl); 2562 2563 /// isCXXFunctionDeclarator - Disambiguates between a function declarator or 2564 /// a constructor-style initializer, when parsing declaration statements. 2565 /// Returns true for function declarator and false for constructor-style 2566 /// initializer. Sets 'IsAmbiguous' to true to indicate that this declaration 2567 /// might be a constructor-style initializer. 2568 /// If during the disambiguation process a parsing error is encountered, 2569 /// the function returns true to let the declaration parsing code handle it. 2570 bool isCXXFunctionDeclarator(bool *IsAmbiguous = nullptr, 2571 ImplicitTypenameContext AllowImplicitTypename = 2572 ImplicitTypenameContext::No); 2573 2574 struct ConditionDeclarationOrInitStatementState; 2575 enum class ConditionOrInitStatement { 2576 Expression, ///< Disambiguated as an expression (either kind). 2577 ConditionDecl, ///< Disambiguated as the declaration form of condition. 2578 InitStmtDecl, ///< Disambiguated as a simple-declaration init-statement. 2579 ForRangeDecl, ///< Disambiguated as a for-range declaration. 2580 Error ///< Can't be any of the above! 2581 }; 2582 /// Disambiguates between the different kinds of things that can happen 2583 /// after 'if (' or 'switch ('. This could be one of two different kinds of 2584 /// declaration (depending on whether there is a ';' later) or an expression. 2585 ConditionOrInitStatement 2586 isCXXConditionDeclarationOrInitStatement(bool CanBeInitStmt, 2587 bool CanBeForRangeDecl); 2588 2589 bool isCXXTypeId(TentativeCXXTypeIdContext Context, bool &isAmbiguous); 2590 bool isCXXTypeId(TentativeCXXTypeIdContext Context) { 2591 bool isAmbiguous; 2592 return isCXXTypeId(Context, isAmbiguous); 2593 } 2594 2595 /// TPResult - Used as the result value for functions whose purpose is to 2596 /// disambiguate C++ constructs by "tentatively parsing" them. 2597 enum class TPResult { 2598 True, False, Ambiguous, Error 2599 }; 2600 2601 /// Determine whether we could have an enum-base. 2602 /// 2603 /// \p AllowSemi If \c true, then allow a ';' after the enum-base; otherwise 2604 /// only consider this to be an enum-base if the next token is a '{'. 2605 /// 2606 /// \return \c false if this cannot possibly be an enum base; \c true 2607 /// otherwise. 2608 bool isEnumBase(bool AllowSemi); 2609 2610 /// isCXXDeclarationSpecifier - Returns TPResult::True if it is a 2611 /// declaration specifier, TPResult::False if it is not, 2612 /// TPResult::Ambiguous if it could be either a decl-specifier or a 2613 /// function-style cast, and TPResult::Error if a parsing error was 2614 /// encountered. If it could be a braced C++11 function-style cast, returns 2615 /// BracedCastResult. 2616 /// Doesn't consume tokens. 2617 TPResult 2618 isCXXDeclarationSpecifier(ImplicitTypenameContext AllowImplicitTypename, 2619 TPResult BracedCastResult = TPResult::False, 2620 bool *InvalidAsDeclSpec = nullptr); 2621 2622 /// Given that isCXXDeclarationSpecifier returns \c TPResult::True or 2623 /// \c TPResult::Ambiguous, determine whether the decl-specifier would be 2624 /// a type-specifier other than a cv-qualifier. 2625 bool isCXXDeclarationSpecifierAType(); 2626 2627 /// Determine whether the current token sequence might be 2628 /// '<' template-argument-list '>' 2629 /// rather than a less-than expression. 2630 TPResult isTemplateArgumentList(unsigned TokensToSkip); 2631 2632 /// Determine whether an '(' after an 'explicit' keyword is part of a C++20 2633 /// 'explicit(bool)' declaration, in earlier language modes where that is an 2634 /// extension. 2635 TPResult isExplicitBool(); 2636 2637 /// Determine whether an identifier has been tentatively declared as a 2638 /// non-type. Such tentative declarations should not be found to name a type 2639 /// during a tentative parse, but also should not be annotated as a non-type. 2640 bool isTentativelyDeclared(IdentifierInfo *II); 2641 2642 // "Tentative parsing" functions, used for disambiguation. If a parsing error 2643 // is encountered they will return TPResult::Error. 2644 // Returning TPResult::True/False indicates that the ambiguity was 2645 // resolved and tentative parsing may stop. TPResult::Ambiguous indicates 2646 // that more tentative parsing is necessary for disambiguation. 2647 // They all consume tokens, so backtracking should be used after calling them. 2648 2649 TPResult TryParseSimpleDeclaration(bool AllowForRangeDecl); 2650 TPResult TryParseTypeofSpecifier(); 2651 TPResult TryParseProtocolQualifiers(); 2652 TPResult TryParsePtrOperatorSeq(); 2653 TPResult TryParseOperatorId(); 2654 TPResult TryParseInitDeclaratorList(); 2655 TPResult TryParseDeclarator(bool mayBeAbstract, bool mayHaveIdentifier = true, 2656 bool mayHaveDirectInit = false); 2657 TPResult TryParseParameterDeclarationClause( 2658 bool *InvalidAsDeclaration = nullptr, bool VersusTemplateArg = false, 2659 ImplicitTypenameContext AllowImplicitTypename = 2660 ImplicitTypenameContext::No); 2661 TPResult TryParseFunctionDeclarator(); 2662 TPResult TryParseBracketDeclarator(); 2663 TPResult TryConsumeDeclarationSpecifier(); 2664 2665 /// Try to skip a possibly empty sequence of 'attribute-specifier's without 2666 /// full validation of the syntactic structure of attributes. 2667 bool TrySkipAttributes(); 2668 2669 /// Diagnoses use of _ExtInt as being deprecated, and diagnoses use of 2670 /// _BitInt as an extension when appropriate. 2671 void DiagnoseBitIntUse(const Token &Tok); 2672 2673 public: 2674 TypeResult 2675 ParseTypeName(SourceRange *Range = nullptr, 2676 DeclaratorContext Context = DeclaratorContext::TypeName, 2677 AccessSpecifier AS = AS_none, Decl **OwnedType = nullptr, 2678 ParsedAttributes *Attrs = nullptr); 2679 2680 private: 2681 void ParseBlockId(SourceLocation CaretLoc); 2682 2683 /// Are [[]] attributes enabled? 2684 bool standardAttributesAllowed() const { 2685 const LangOptions &LO = getLangOpts(); 2686 return LO.DoubleSquareBracketAttributes; 2687 } 2688 2689 // Check for the start of an attribute-specifier-seq in a context where an 2690 // attribute is not allowed. 2691 bool CheckProhibitedCXX11Attribute() { 2692 assert(Tok.is(tok::l_square)); 2693 if (!standardAttributesAllowed() || NextToken().isNot(tok::l_square)) 2694 return false; 2695 return DiagnoseProhibitedCXX11Attribute(); 2696 } 2697 2698 bool DiagnoseProhibitedCXX11Attribute(); 2699 void CheckMisplacedCXX11Attribute(ParsedAttributes &Attrs, 2700 SourceLocation CorrectLocation) { 2701 if (!standardAttributesAllowed()) 2702 return; 2703 if ((Tok.isNot(tok::l_square) || NextToken().isNot(tok::l_square)) && 2704 Tok.isNot(tok::kw_alignas)) 2705 return; 2706 DiagnoseMisplacedCXX11Attribute(Attrs, CorrectLocation); 2707 } 2708 void DiagnoseMisplacedCXX11Attribute(ParsedAttributes &Attrs, 2709 SourceLocation CorrectLocation); 2710 2711 void stripTypeAttributesOffDeclSpec(ParsedAttributes &Attrs, DeclSpec &DS, 2712 Sema::TagUseKind TUK); 2713 2714 // FixItLoc = possible correct location for the attributes 2715 void ProhibitAttributes(ParsedAttributes &Attrs, 2716 SourceLocation FixItLoc = SourceLocation()) { 2717 if (Attrs.Range.isInvalid()) 2718 return; 2719 DiagnoseProhibitedAttributes(Attrs.Range, FixItLoc); 2720 Attrs.clear(); 2721 } 2722 2723 void ProhibitAttributes(ParsedAttributesView &Attrs, 2724 SourceLocation FixItLoc = SourceLocation()) { 2725 if (Attrs.Range.isInvalid()) 2726 return; 2727 DiagnoseProhibitedAttributes(Attrs.Range, FixItLoc); 2728 Attrs.clearListOnly(); 2729 } 2730 void DiagnoseProhibitedAttributes(const SourceRange &Range, 2731 SourceLocation FixItLoc); 2732 2733 // Forbid C++11 and C2x attributes that appear on certain syntactic locations 2734 // which standard permits but we don't supported yet, for example, attributes 2735 // appertain to decl specifiers. 2736 // For the most cases we don't want to warn on unknown type attributes, but 2737 // left them to later diagnoses. However, for a few cases like module 2738 // declarations and module import declarations, we should do it. 2739 void ProhibitCXX11Attributes(ParsedAttributes &Attrs, unsigned DiagID, 2740 bool DiagnoseEmptyAttrs = false, 2741 bool WarnOnUnknownAttrs = false); 2742 2743 /// Skip C++11 and C2x attributes and return the end location of the 2744 /// last one. 2745 /// \returns SourceLocation() if there are no attributes. 2746 SourceLocation SkipCXX11Attributes(); 2747 2748 /// Diagnose and skip C++11 and C2x attributes that appear in syntactic 2749 /// locations where attributes are not allowed. 2750 void DiagnoseAndSkipCXX11Attributes(); 2751 2752 /// Emit warnings for C++11 and C2x attributes that are in a position that 2753 /// clang accepts as an extension. 2754 void DiagnoseCXX11AttributeExtension(ParsedAttributes &Attrs); 2755 2756 /// Parses syntax-generic attribute arguments for attributes which are 2757 /// known to the implementation, and adds them to the given ParsedAttributes 2758 /// list with the given attribute syntax. Returns the number of arguments 2759 /// parsed for the attribute. 2760 unsigned 2761 ParseAttributeArgsCommon(IdentifierInfo *AttrName, SourceLocation AttrNameLoc, 2762 ParsedAttributes &Attrs, SourceLocation *EndLoc, 2763 IdentifierInfo *ScopeName, SourceLocation ScopeLoc, 2764 ParsedAttr::Syntax Syntax); 2765 2766 enum ParseAttrKindMask { 2767 PAKM_GNU = 1 << 0, 2768 PAKM_Declspec = 1 << 1, 2769 PAKM_CXX11 = 1 << 2, 2770 }; 2771 2772 /// \brief Parse attributes based on what syntaxes are desired, allowing for 2773 /// the order to vary. e.g. with PAKM_GNU | PAKM_Declspec: 2774 /// __attribute__((...)) __declspec(...) __attribute__((...))) 2775 /// Note that Microsoft attributes (spelled with single square brackets) are 2776 /// not supported by this because of parsing ambiguities with other 2777 /// constructs. 2778 /// 2779 /// There are some attribute parse orderings that should not be allowed in 2780 /// arbitrary order. e.g., 2781 /// 2782 /// [[]] __attribute__(()) int i; // OK 2783 /// __attribute__(()) [[]] int i; // Not OK 2784 /// 2785 /// Such situations should use the specific attribute parsing functionality. 2786 void ParseAttributes(unsigned WhichAttrKinds, ParsedAttributes &Attrs, 2787 LateParsedAttrList *LateAttrs = nullptr); 2788 /// \brief Possibly parse attributes based on what syntaxes are desired, 2789 /// allowing for the order to vary. 2790 bool MaybeParseAttributes(unsigned WhichAttrKinds, ParsedAttributes &Attrs, 2791 LateParsedAttrList *LateAttrs = nullptr) { 2792 if (Tok.isOneOf(tok::kw___attribute, tok::kw___declspec) || 2793 (standardAttributesAllowed() && isCXX11AttributeSpecifier())) { 2794 ParseAttributes(WhichAttrKinds, Attrs, LateAttrs); 2795 return true; 2796 } 2797 return false; 2798 } 2799 2800 void MaybeParseGNUAttributes(Declarator &D, 2801 LateParsedAttrList *LateAttrs = nullptr) { 2802 if (Tok.is(tok::kw___attribute)) { 2803 ParsedAttributes Attrs(AttrFactory); 2804 ParseGNUAttributes(Attrs, LateAttrs, &D); 2805 D.takeAttributes(Attrs); 2806 } 2807 } 2808 2809 bool MaybeParseGNUAttributes(ParsedAttributes &Attrs, 2810 LateParsedAttrList *LateAttrs = nullptr) { 2811 if (Tok.is(tok::kw___attribute)) { 2812 ParseGNUAttributes(Attrs, LateAttrs); 2813 return true; 2814 } 2815 return false; 2816 } 2817 2818 void ParseGNUAttributes(ParsedAttributes &Attrs, 2819 LateParsedAttrList *LateAttrs = nullptr, 2820 Declarator *D = nullptr); 2821 void ParseGNUAttributeArgs(IdentifierInfo *AttrName, 2822 SourceLocation AttrNameLoc, 2823 ParsedAttributes &Attrs, SourceLocation *EndLoc, 2824 IdentifierInfo *ScopeName, SourceLocation ScopeLoc, 2825 ParsedAttr::Syntax Syntax, Declarator *D); 2826 IdentifierLoc *ParseIdentifierLoc(); 2827 2828 unsigned 2829 ParseClangAttributeArgs(IdentifierInfo *AttrName, SourceLocation AttrNameLoc, 2830 ParsedAttributes &Attrs, SourceLocation *EndLoc, 2831 IdentifierInfo *ScopeName, SourceLocation ScopeLoc, 2832 ParsedAttr::Syntax Syntax); 2833 2834 void ReplayOpenMPAttributeTokens(CachedTokens &OpenMPTokens) { 2835 // If parsing the attributes found an OpenMP directive, emit those tokens 2836 // to the parse stream now. 2837 if (!OpenMPTokens.empty()) { 2838 PP.EnterToken(Tok, /*IsReinject*/ true); 2839 PP.EnterTokenStream(OpenMPTokens, /*DisableMacroExpansion*/ true, 2840 /*IsReinject*/ true); 2841 ConsumeAnyToken(/*ConsumeCodeCompletionTok*/ true); 2842 } 2843 } 2844 void MaybeParseCXX11Attributes(Declarator &D) { 2845 if (standardAttributesAllowed() && isCXX11AttributeSpecifier()) { 2846 ParsedAttributes Attrs(AttrFactory); 2847 ParseCXX11Attributes(Attrs); 2848 D.takeAttributes(Attrs); 2849 } 2850 } 2851 2852 bool MaybeParseCXX11Attributes(ParsedAttributes &Attrs, 2853 bool OuterMightBeMessageSend = false) { 2854 if (standardAttributesAllowed() && 2855 isCXX11AttributeSpecifier(false, OuterMightBeMessageSend)) { 2856 ParseCXX11Attributes(Attrs); 2857 return true; 2858 } 2859 return false; 2860 } 2861 2862 void ParseOpenMPAttributeArgs(IdentifierInfo *AttrName, 2863 CachedTokens &OpenMPTokens); 2864 2865 void ParseCXX11AttributeSpecifierInternal(ParsedAttributes &Attrs, 2866 CachedTokens &OpenMPTokens, 2867 SourceLocation *EndLoc = nullptr); 2868 void ParseCXX11AttributeSpecifier(ParsedAttributes &Attrs, 2869 SourceLocation *EndLoc = nullptr) { 2870 CachedTokens OpenMPTokens; 2871 ParseCXX11AttributeSpecifierInternal(Attrs, OpenMPTokens, EndLoc); 2872 ReplayOpenMPAttributeTokens(OpenMPTokens); 2873 } 2874 void ParseCXX11Attributes(ParsedAttributes &attrs); 2875 /// Parses a C++11 (or C2x)-style attribute argument list. Returns true 2876 /// if this results in adding an attribute to the ParsedAttributes list. 2877 bool ParseCXX11AttributeArgs(IdentifierInfo *AttrName, 2878 SourceLocation AttrNameLoc, 2879 ParsedAttributes &Attrs, SourceLocation *EndLoc, 2880 IdentifierInfo *ScopeName, 2881 SourceLocation ScopeLoc, 2882 CachedTokens &OpenMPTokens); 2883 2884 IdentifierInfo *TryParseCXX11AttributeIdentifier( 2885 SourceLocation &Loc, 2886 Sema::AttributeCompletion Completion = Sema::AttributeCompletion::None, 2887 const IdentifierInfo *EnclosingScope = nullptr); 2888 2889 void MaybeParseHLSLSemantics(Declarator &D, 2890 SourceLocation *EndLoc = nullptr) { 2891 assert(getLangOpts().HLSL && "MaybeParseHLSLSemantics is for HLSL only"); 2892 if (Tok.is(tok::colon)) { 2893 ParsedAttributes Attrs(AttrFactory); 2894 ParseHLSLSemantics(Attrs, EndLoc); 2895 D.takeAttributes(Attrs); 2896 } 2897 } 2898 2899 void MaybeParseHLSLSemantics(ParsedAttributes &Attrs, 2900 SourceLocation *EndLoc = nullptr) { 2901 assert(getLangOpts().HLSL && "MaybeParseHLSLSemantics is for HLSL only"); 2902 if (getLangOpts().HLSL && Tok.is(tok::colon)) 2903 ParseHLSLSemantics(Attrs, EndLoc); 2904 } 2905 2906 void ParseHLSLSemantics(ParsedAttributes &Attrs, 2907 SourceLocation *EndLoc = nullptr); 2908 Decl *ParseHLSLBuffer(SourceLocation &DeclEnd); 2909 2910 void MaybeParseMicrosoftAttributes(ParsedAttributes &Attrs) { 2911 if ((getLangOpts().MicrosoftExt || getLangOpts().HLSL) && 2912 Tok.is(tok::l_square)) { 2913 ParsedAttributes AttrsWithRange(AttrFactory); 2914 ParseMicrosoftAttributes(AttrsWithRange); 2915 Attrs.takeAllFrom(AttrsWithRange); 2916 } 2917 } 2918 void ParseMicrosoftUuidAttributeArgs(ParsedAttributes &Attrs); 2919 void ParseMicrosoftAttributes(ParsedAttributes &Attrs); 2920 bool MaybeParseMicrosoftDeclSpecs(ParsedAttributes &Attrs) { 2921 if (getLangOpts().DeclSpecKeyword && Tok.is(tok::kw___declspec)) { 2922 ParseMicrosoftDeclSpecs(Attrs); 2923 return true; 2924 } 2925 return false; 2926 } 2927 void ParseMicrosoftDeclSpecs(ParsedAttributes &Attrs); 2928 bool ParseMicrosoftDeclSpecArgs(IdentifierInfo *AttrName, 2929 SourceLocation AttrNameLoc, 2930 ParsedAttributes &Attrs); 2931 void ParseMicrosoftTypeAttributes(ParsedAttributes &attrs); 2932 void DiagnoseAndSkipExtendedMicrosoftTypeAttributes(); 2933 SourceLocation SkipExtendedMicrosoftTypeAttributes(); 2934 void ParseMicrosoftInheritanceClassAttributes(ParsedAttributes &attrs); 2935 void ParseBorlandTypeAttributes(ParsedAttributes &attrs); 2936 void ParseOpenCLKernelAttributes(ParsedAttributes &attrs); 2937 void ParseOpenCLQualifiers(ParsedAttributes &Attrs); 2938 void ParseNullabilityTypeSpecifiers(ParsedAttributes &attrs); 2939 void ParseCUDAFunctionAttributes(ParsedAttributes &attrs); 2940 bool isHLSLQualifier(const Token &Tok) const; 2941 void ParseHLSLQualifiers(ParsedAttributes &Attrs); 2942 2943 VersionTuple ParseVersionTuple(SourceRange &Range); 2944 void ParseAvailabilityAttribute(IdentifierInfo &Availability, 2945 SourceLocation AvailabilityLoc, 2946 ParsedAttributes &attrs, 2947 SourceLocation *endLoc, 2948 IdentifierInfo *ScopeName, 2949 SourceLocation ScopeLoc, 2950 ParsedAttr::Syntax Syntax); 2951 2952 std::optional<AvailabilitySpec> ParseAvailabilitySpec(); 2953 ExprResult ParseAvailabilityCheckExpr(SourceLocation StartLoc); 2954 2955 void ParseExternalSourceSymbolAttribute(IdentifierInfo &ExternalSourceSymbol, 2956 SourceLocation Loc, 2957 ParsedAttributes &Attrs, 2958 SourceLocation *EndLoc, 2959 IdentifierInfo *ScopeName, 2960 SourceLocation ScopeLoc, 2961 ParsedAttr::Syntax Syntax); 2962 2963 void ParseObjCBridgeRelatedAttribute(IdentifierInfo &ObjCBridgeRelated, 2964 SourceLocation ObjCBridgeRelatedLoc, 2965 ParsedAttributes &Attrs, 2966 SourceLocation *EndLoc, 2967 IdentifierInfo *ScopeName, 2968 SourceLocation ScopeLoc, 2969 ParsedAttr::Syntax Syntax); 2970 2971 void ParseSwiftNewTypeAttribute(IdentifierInfo &AttrName, 2972 SourceLocation AttrNameLoc, 2973 ParsedAttributes &Attrs, 2974 SourceLocation *EndLoc, 2975 IdentifierInfo *ScopeName, 2976 SourceLocation ScopeLoc, 2977 ParsedAttr::Syntax Syntax); 2978 2979 void ParseTypeTagForDatatypeAttribute(IdentifierInfo &AttrName, 2980 SourceLocation AttrNameLoc, 2981 ParsedAttributes &Attrs, 2982 SourceLocation *EndLoc, 2983 IdentifierInfo *ScopeName, 2984 SourceLocation ScopeLoc, 2985 ParsedAttr::Syntax Syntax); 2986 2987 void ParseAttributeWithTypeArg(IdentifierInfo &AttrName, 2988 SourceLocation AttrNameLoc, 2989 ParsedAttributes &Attrs, 2990 IdentifierInfo *ScopeName, 2991 SourceLocation ScopeLoc, 2992 ParsedAttr::Syntax Syntax); 2993 2994 void ParseTypeofSpecifier(DeclSpec &DS); 2995 SourceLocation ParseDecltypeSpecifier(DeclSpec &DS); 2996 void AnnotateExistingDecltypeSpecifier(const DeclSpec &DS, 2997 SourceLocation StartLoc, 2998 SourceLocation EndLoc); 2999 void ParseAtomicSpecifier(DeclSpec &DS); 3000 3001 ExprResult ParseAlignArgument(SourceLocation Start, 3002 SourceLocation &EllipsisLoc); 3003 void ParseAlignmentSpecifier(ParsedAttributes &Attrs, 3004 SourceLocation *endLoc = nullptr); 3005 ExprResult ParseExtIntegerArgument(); 3006 3007 VirtSpecifiers::Specifier isCXX11VirtSpecifier(const Token &Tok) const; 3008 VirtSpecifiers::Specifier isCXX11VirtSpecifier() const { 3009 return isCXX11VirtSpecifier(Tok); 3010 } 3011 void ParseOptionalCXX11VirtSpecifierSeq(VirtSpecifiers &VS, bool IsInterface, 3012 SourceLocation FriendLoc); 3013 3014 bool isCXX11FinalKeyword() const; 3015 bool isClassCompatibleKeyword() const; 3016 3017 /// DeclaratorScopeObj - RAII object used in Parser::ParseDirectDeclarator to 3018 /// enter a new C++ declarator scope and exit it when the function is 3019 /// finished. 3020 class DeclaratorScopeObj { 3021 Parser &P; 3022 CXXScopeSpec &SS; 3023 bool EnteredScope; 3024 bool CreatedScope; 3025 public: 3026 DeclaratorScopeObj(Parser &p, CXXScopeSpec &ss) 3027 : P(p), SS(ss), EnteredScope(false), CreatedScope(false) {} 3028 3029 void EnterDeclaratorScope() { 3030 assert(!EnteredScope && "Already entered the scope!"); 3031 assert(SS.isSet() && "C++ scope was not set!"); 3032 3033 CreatedScope = true; 3034 P.EnterScope(0); // Not a decl scope. 3035 3036 if (!P.Actions.ActOnCXXEnterDeclaratorScope(P.getCurScope(), SS)) 3037 EnteredScope = true; 3038 } 3039 3040 ~DeclaratorScopeObj() { 3041 if (EnteredScope) { 3042 assert(SS.isSet() && "C++ scope was cleared ?"); 3043 P.Actions.ActOnCXXExitDeclaratorScope(P.getCurScope(), SS); 3044 } 3045 if (CreatedScope) 3046 P.ExitScope(); 3047 } 3048 }; 3049 3050 /// ParseDeclarator - Parse and verify a newly-initialized declarator. 3051 void ParseDeclarator(Declarator &D); 3052 /// A function that parses a variant of direct-declarator. 3053 typedef void (Parser::*DirectDeclParseFunction)(Declarator&); 3054 void ParseDeclaratorInternal(Declarator &D, 3055 DirectDeclParseFunction DirectDeclParser); 3056 3057 enum AttrRequirements { 3058 AR_NoAttributesParsed = 0, ///< No attributes are diagnosed. 3059 AR_GNUAttributesParsedAndRejected = 1 << 0, ///< Diagnose GNU attributes. 3060 AR_GNUAttributesParsed = 1 << 1, 3061 AR_CXX11AttributesParsed = 1 << 2, 3062 AR_DeclspecAttributesParsed = 1 << 3, 3063 AR_AllAttributesParsed = AR_GNUAttributesParsed | 3064 AR_CXX11AttributesParsed | 3065 AR_DeclspecAttributesParsed, 3066 AR_VendorAttributesParsed = AR_GNUAttributesParsed | 3067 AR_DeclspecAttributesParsed 3068 }; 3069 3070 void ParseTypeQualifierListOpt( 3071 DeclSpec &DS, unsigned AttrReqs = AR_AllAttributesParsed, 3072 bool AtomicAllowed = true, bool IdentifierRequired = false, 3073 std::optional<llvm::function_ref<void()>> CodeCompletionHandler = 3074 std::nullopt); 3075 void ParseDirectDeclarator(Declarator &D); 3076 void ParseDecompositionDeclarator(Declarator &D); 3077 void ParseParenDeclarator(Declarator &D); 3078 void ParseFunctionDeclarator(Declarator &D, ParsedAttributes &FirstArgAttrs, 3079 BalancedDelimiterTracker &Tracker, 3080 bool IsAmbiguous, bool RequiresArg = false); 3081 void InitCXXThisScopeForDeclaratorIfRelevant( 3082 const Declarator &D, const DeclSpec &DS, 3083 std::optional<Sema::CXXThisScopeRAII> &ThisScope); 3084 bool ParseRefQualifier(bool &RefQualifierIsLValueRef, 3085 SourceLocation &RefQualifierLoc); 3086 bool isFunctionDeclaratorIdentifierList(); 3087 void ParseFunctionDeclaratorIdentifierList( 3088 Declarator &D, 3089 SmallVectorImpl<DeclaratorChunk::ParamInfo> &ParamInfo); 3090 void ParseParameterDeclarationClause( 3091 Declarator &D, ParsedAttributes &attrs, 3092 SmallVectorImpl<DeclaratorChunk::ParamInfo> &ParamInfo, 3093 SourceLocation &EllipsisLoc) { 3094 return ParseParameterDeclarationClause( 3095 D.getContext(), attrs, ParamInfo, EllipsisLoc, 3096 D.getCXXScopeSpec().isSet() && 3097 D.isFunctionDeclaratorAFunctionDeclaration()); 3098 } 3099 void ParseParameterDeclarationClause( 3100 DeclaratorContext DeclaratorContext, ParsedAttributes &attrs, 3101 SmallVectorImpl<DeclaratorChunk::ParamInfo> &ParamInfo, 3102 SourceLocation &EllipsisLoc, bool IsACXXFunctionDeclaration = false); 3103 3104 void ParseBracketDeclarator(Declarator &D); 3105 void ParseMisplacedBracketDeclarator(Declarator &D); 3106 bool MaybeParseTypeTransformTypeSpecifier(DeclSpec &DS); 3107 DeclSpec::TST TypeTransformTokToDeclSpec(); 3108 3109 //===--------------------------------------------------------------------===// 3110 // C++ 7: Declarations [dcl.dcl] 3111 3112 /// The kind of attribute specifier we have found. 3113 enum CXX11AttributeKind { 3114 /// This is not an attribute specifier. 3115 CAK_NotAttributeSpecifier, 3116 /// This should be treated as an attribute-specifier. 3117 CAK_AttributeSpecifier, 3118 /// The next tokens are '[[', but this is not an attribute-specifier. This 3119 /// is ill-formed by C++11 [dcl.attr.grammar]p6. 3120 CAK_InvalidAttributeSpecifier 3121 }; 3122 CXX11AttributeKind 3123 isCXX11AttributeSpecifier(bool Disambiguate = false, 3124 bool OuterMightBeMessageSend = false); 3125 3126 void DiagnoseUnexpectedNamespace(NamedDecl *Context); 3127 3128 DeclGroupPtrTy ParseNamespace(DeclaratorContext Context, 3129 SourceLocation &DeclEnd, 3130 SourceLocation InlineLoc = SourceLocation()); 3131 3132 struct InnerNamespaceInfo { 3133 SourceLocation NamespaceLoc; 3134 SourceLocation InlineLoc; 3135 SourceLocation IdentLoc; 3136 IdentifierInfo *Ident; 3137 }; 3138 using InnerNamespaceInfoList = llvm::SmallVector<InnerNamespaceInfo, 4>; 3139 3140 void ParseInnerNamespace(const InnerNamespaceInfoList &InnerNSs, 3141 unsigned int index, SourceLocation &InlineLoc, 3142 ParsedAttributes &attrs, 3143 BalancedDelimiterTracker &Tracker); 3144 Decl *ParseLinkage(ParsingDeclSpec &DS, DeclaratorContext Context); 3145 Decl *ParseExportDeclaration(); 3146 DeclGroupPtrTy ParseUsingDirectiveOrDeclaration( 3147 DeclaratorContext Context, const ParsedTemplateInfo &TemplateInfo, 3148 SourceLocation &DeclEnd, ParsedAttributes &Attrs); 3149 Decl *ParseUsingDirective(DeclaratorContext Context, 3150 SourceLocation UsingLoc, 3151 SourceLocation &DeclEnd, 3152 ParsedAttributes &attrs); 3153 3154 struct UsingDeclarator { 3155 SourceLocation TypenameLoc; 3156 CXXScopeSpec SS; 3157 UnqualifiedId Name; 3158 SourceLocation EllipsisLoc; 3159 3160 void clear() { 3161 TypenameLoc = EllipsisLoc = SourceLocation(); 3162 SS.clear(); 3163 Name.clear(); 3164 } 3165 }; 3166 3167 bool ParseUsingDeclarator(DeclaratorContext Context, UsingDeclarator &D); 3168 DeclGroupPtrTy ParseUsingDeclaration(DeclaratorContext Context, 3169 const ParsedTemplateInfo &TemplateInfo, 3170 SourceLocation UsingLoc, 3171 SourceLocation &DeclEnd, 3172 ParsedAttributes &Attrs, 3173 AccessSpecifier AS = AS_none); 3174 Decl *ParseAliasDeclarationAfterDeclarator( 3175 const ParsedTemplateInfo &TemplateInfo, SourceLocation UsingLoc, 3176 UsingDeclarator &D, SourceLocation &DeclEnd, AccessSpecifier AS, 3177 ParsedAttributes &Attrs, Decl **OwnedType = nullptr); 3178 3179 Decl *ParseStaticAssertDeclaration(SourceLocation &DeclEnd); 3180 Decl *ParseNamespaceAlias(SourceLocation NamespaceLoc, 3181 SourceLocation AliasLoc, IdentifierInfo *Alias, 3182 SourceLocation &DeclEnd); 3183 3184 //===--------------------------------------------------------------------===// 3185 // C++ 9: classes [class] and C structs/unions. 3186 bool isValidAfterTypeSpecifier(bool CouldBeBitfield); 3187 void ParseClassSpecifier(tok::TokenKind TagTokKind, SourceLocation TagLoc, 3188 DeclSpec &DS, const ParsedTemplateInfo &TemplateInfo, 3189 AccessSpecifier AS, bool EnteringContext, 3190 DeclSpecContext DSC, ParsedAttributes &Attributes); 3191 void SkipCXXMemberSpecification(SourceLocation StartLoc, 3192 SourceLocation AttrFixitLoc, 3193 unsigned TagType, 3194 Decl *TagDecl); 3195 void ParseCXXMemberSpecification(SourceLocation StartLoc, 3196 SourceLocation AttrFixitLoc, 3197 ParsedAttributes &Attrs, unsigned TagType, 3198 Decl *TagDecl); 3199 ExprResult ParseCXXMemberInitializer(Decl *D, bool IsFunction, 3200 SourceLocation &EqualLoc); 3201 bool 3202 ParseCXXMemberDeclaratorBeforeInitializer(Declarator &DeclaratorInfo, 3203 VirtSpecifiers &VS, 3204 ExprResult &BitfieldSize, 3205 LateParsedAttrList &LateAttrs); 3206 void MaybeParseAndDiagnoseDeclSpecAfterCXX11VirtSpecifierSeq(Declarator &D, 3207 VirtSpecifiers &VS); 3208 DeclGroupPtrTy ParseCXXClassMemberDeclaration( 3209 AccessSpecifier AS, ParsedAttributes &Attr, 3210 const ParsedTemplateInfo &TemplateInfo = ParsedTemplateInfo(), 3211 ParsingDeclRAIIObject *DiagsFromTParams = nullptr); 3212 DeclGroupPtrTy 3213 ParseCXXClassMemberDeclarationWithPragmas(AccessSpecifier &AS, 3214 ParsedAttributes &AccessAttrs, 3215 DeclSpec::TST TagType, Decl *Tag); 3216 void ParseConstructorInitializer(Decl *ConstructorDecl); 3217 MemInitResult ParseMemInitializer(Decl *ConstructorDecl); 3218 void HandleMemberFunctionDeclDelays(Declarator& DeclaratorInfo, 3219 Decl *ThisDecl); 3220 3221 //===--------------------------------------------------------------------===// 3222 // C++ 10: Derived classes [class.derived] 3223 TypeResult ParseBaseTypeSpecifier(SourceLocation &BaseLoc, 3224 SourceLocation &EndLocation); 3225 void ParseBaseClause(Decl *ClassDecl); 3226 BaseResult ParseBaseSpecifier(Decl *ClassDecl); 3227 AccessSpecifier getAccessSpecifierIfPresent() const; 3228 3229 bool ParseUnqualifiedIdTemplateId(CXXScopeSpec &SS, 3230 ParsedType ObjectType, 3231 bool ObjectHadErrors, 3232 SourceLocation TemplateKWLoc, 3233 IdentifierInfo *Name, 3234 SourceLocation NameLoc, 3235 bool EnteringContext, 3236 UnqualifiedId &Id, 3237 bool AssumeTemplateId); 3238 bool ParseUnqualifiedIdOperator(CXXScopeSpec &SS, bool EnteringContext, 3239 ParsedType ObjectType, 3240 UnqualifiedId &Result); 3241 3242 //===--------------------------------------------------------------------===// 3243 // OpenMP: Directives and clauses. 3244 /// Parse clauses for '#pragma omp declare simd'. 3245 DeclGroupPtrTy ParseOMPDeclareSimdClauses(DeclGroupPtrTy Ptr, 3246 CachedTokens &Toks, 3247 SourceLocation Loc); 3248 3249 /// Parse a property kind into \p TIProperty for the selector set \p Set and 3250 /// selector \p Selector. 3251 void parseOMPTraitPropertyKind(OMPTraitProperty &TIProperty, 3252 llvm::omp::TraitSet Set, 3253 llvm::omp::TraitSelector Selector, 3254 llvm::StringMap<SourceLocation> &Seen); 3255 3256 /// Parse a selector kind into \p TISelector for the selector set \p Set. 3257 void parseOMPTraitSelectorKind(OMPTraitSelector &TISelector, 3258 llvm::omp::TraitSet Set, 3259 llvm::StringMap<SourceLocation> &Seen); 3260 3261 /// Parse a selector set kind into \p TISet. 3262 void parseOMPTraitSetKind(OMPTraitSet &TISet, 3263 llvm::StringMap<SourceLocation> &Seen); 3264 3265 /// Parses an OpenMP context property. 3266 void parseOMPContextProperty(OMPTraitSelector &TISelector, 3267 llvm::omp::TraitSet Set, 3268 llvm::StringMap<SourceLocation> &Seen); 3269 3270 /// Parses an OpenMP context selector. 3271 void parseOMPContextSelector(OMPTraitSelector &TISelector, 3272 llvm::omp::TraitSet Set, 3273 llvm::StringMap<SourceLocation> &SeenSelectors); 3274 3275 /// Parses an OpenMP context selector set. 3276 void parseOMPContextSelectorSet(OMPTraitSet &TISet, 3277 llvm::StringMap<SourceLocation> &SeenSets); 3278 3279 /// Parses OpenMP context selectors. 3280 bool parseOMPContextSelectors(SourceLocation Loc, OMPTraitInfo &TI); 3281 3282 /// Parse an 'append_args' clause for '#pragma omp declare variant'. 3283 bool parseOpenMPAppendArgs(SmallVectorImpl<OMPInteropInfo> &InteropInfos); 3284 3285 /// Parse a `match` clause for an '#pragma omp declare variant'. Return true 3286 /// if there was an error. 3287 bool parseOMPDeclareVariantMatchClause(SourceLocation Loc, OMPTraitInfo &TI, 3288 OMPTraitInfo *ParentTI); 3289 3290 /// Parse clauses for '#pragma omp declare variant'. 3291 void ParseOMPDeclareVariantClauses(DeclGroupPtrTy Ptr, CachedTokens &Toks, 3292 SourceLocation Loc); 3293 3294 /// Parse 'omp [begin] assume[s]' directive. 3295 void ParseOpenMPAssumesDirective(OpenMPDirectiveKind DKind, 3296 SourceLocation Loc); 3297 3298 /// Parse 'omp end assumes' directive. 3299 void ParseOpenMPEndAssumesDirective(SourceLocation Loc); 3300 3301 /// Parses clauses for directive. 3302 /// 3303 /// \param DKind Kind of current directive. 3304 /// \param clauses for current directive. 3305 /// \param start location for clauses of current directive 3306 void ParseOpenMPClauses(OpenMPDirectiveKind DKind, 3307 SmallVectorImpl<clang::OMPClause *> &Clauses, 3308 SourceLocation Loc); 3309 3310 /// Parse clauses for '#pragma omp [begin] declare target'. 3311 void ParseOMPDeclareTargetClauses(Sema::DeclareTargetContextInfo &DTCI); 3312 3313 /// Parse '#pragma omp end declare target'. 3314 void ParseOMPEndDeclareTargetDirective(OpenMPDirectiveKind BeginDKind, 3315 OpenMPDirectiveKind EndDKind, 3316 SourceLocation Loc); 3317 3318 /// Skip tokens until a `annot_pragma_openmp_end` was found. Emit a warning if 3319 /// it is not the current token. 3320 void skipUntilPragmaOpenMPEnd(OpenMPDirectiveKind DKind); 3321 3322 /// Check the \p FoundKind against the \p ExpectedKind, if not issue an error 3323 /// that the "end" matching the "begin" directive of kind \p BeginKind was not 3324 /// found. Finally, if the expected kind was found or if \p SkipUntilOpenMPEnd 3325 /// is set, skip ahead using the helper `skipUntilPragmaOpenMPEnd`. 3326 void parseOMPEndDirective(OpenMPDirectiveKind BeginKind, 3327 OpenMPDirectiveKind ExpectedKind, 3328 OpenMPDirectiveKind FoundKind, 3329 SourceLocation MatchingLoc, 3330 SourceLocation FoundLoc, 3331 bool SkipUntilOpenMPEnd); 3332 3333 /// Parses declarative OpenMP directives. 3334 DeclGroupPtrTy ParseOpenMPDeclarativeDirectiveWithExtDecl( 3335 AccessSpecifier &AS, ParsedAttributes &Attrs, bool Delayed = false, 3336 DeclSpec::TST TagType = DeclSpec::TST_unspecified, 3337 Decl *TagDecl = nullptr); 3338 /// Parse 'omp declare reduction' construct. 3339 DeclGroupPtrTy ParseOpenMPDeclareReductionDirective(AccessSpecifier AS); 3340 /// Parses initializer for provided omp_priv declaration inside the reduction 3341 /// initializer. 3342 void ParseOpenMPReductionInitializerForDecl(VarDecl *OmpPrivParm); 3343 3344 /// Parses 'omp declare mapper' directive. 3345 DeclGroupPtrTy ParseOpenMPDeclareMapperDirective(AccessSpecifier AS); 3346 /// Parses variable declaration in 'omp declare mapper' directive. 3347 TypeResult parseOpenMPDeclareMapperVarDecl(SourceRange &Range, 3348 DeclarationName &Name, 3349 AccessSpecifier AS = AS_none); 3350 3351 /// Tries to parse cast part of OpenMP array shaping operation: 3352 /// '[' expression ']' { '[' expression ']' } ')'. 3353 bool tryParseOpenMPArrayShapingCastPart(); 3354 3355 /// Parses simple list of variables. 3356 /// 3357 /// \param Kind Kind of the directive. 3358 /// \param Callback Callback function to be called for the list elements. 3359 /// \param AllowScopeSpecifier true, if the variables can have fully 3360 /// qualified names. 3361 /// 3362 bool ParseOpenMPSimpleVarList( 3363 OpenMPDirectiveKind Kind, 3364 const llvm::function_ref<void(CXXScopeSpec &, DeclarationNameInfo)> & 3365 Callback, 3366 bool AllowScopeSpecifier); 3367 /// Parses declarative or executable directive. 3368 /// 3369 /// \param StmtCtx The context in which we're parsing the directive. 3370 /// \param ReadDirectiveWithinMetadirective true if directive is within a 3371 /// metadirective and therefore ends on the closing paren. 3372 StmtResult ParseOpenMPDeclarativeOrExecutableDirective( 3373 ParsedStmtContext StmtCtx, bool ReadDirectiveWithinMetadirective = false); 3374 /// Parses clause of kind \a CKind for directive of a kind \a Kind. 3375 /// 3376 /// \param DKind Kind of current directive. 3377 /// \param CKind Kind of current clause. 3378 /// \param FirstClause true, if this is the first clause of a kind \a CKind 3379 /// in current directive. 3380 /// 3381 OMPClause *ParseOpenMPClause(OpenMPDirectiveKind DKind, 3382 OpenMPClauseKind CKind, bool FirstClause); 3383 /// Parses clause with a single expression of a kind \a Kind. 3384 /// 3385 /// \param Kind Kind of current clause. 3386 /// \param ParseOnly true to skip the clause's semantic actions and return 3387 /// nullptr. 3388 /// 3389 OMPClause *ParseOpenMPSingleExprClause(OpenMPClauseKind Kind, 3390 bool ParseOnly); 3391 /// Parses simple clause of a kind \a Kind. 3392 /// 3393 /// \param Kind Kind of current clause. 3394 /// \param ParseOnly true to skip the clause's semantic actions and return 3395 /// nullptr. 3396 /// 3397 OMPClause *ParseOpenMPSimpleClause(OpenMPClauseKind Kind, bool ParseOnly); 3398 /// Parses indirect clause 3399 /// \param ParseOnly true to skip the clause's semantic actions and return 3400 // false; 3401 bool ParseOpenMPIndirectClause(Sema::DeclareTargetContextInfo &DTCI, 3402 bool ParseOnly); 3403 /// Parses clause with a single expression and an additional argument 3404 /// of a kind \a Kind. 3405 /// 3406 /// \param DKind Directive kind. 3407 /// \param Kind Kind of current clause. 3408 /// \param ParseOnly true to skip the clause's semantic actions and return 3409 /// nullptr. 3410 /// 3411 OMPClause *ParseOpenMPSingleExprWithArgClause(OpenMPDirectiveKind DKind, 3412 OpenMPClauseKind Kind, 3413 bool ParseOnly); 3414 3415 /// Parses the 'sizes' clause of a '#pragma omp tile' directive. 3416 OMPClause *ParseOpenMPSizesClause(); 3417 3418 /// Parses clause without any additional arguments. 3419 /// 3420 /// \param Kind Kind of current clause. 3421 /// \param ParseOnly true to skip the clause's semantic actions and return 3422 /// nullptr. 3423 /// 3424 OMPClause *ParseOpenMPClause(OpenMPClauseKind Kind, bool ParseOnly = false); 3425 /// Parses clause with the list of variables of a kind \a Kind. 3426 /// 3427 /// \param Kind Kind of current clause. 3428 /// \param ParseOnly true to skip the clause's semantic actions and return 3429 /// nullptr. 3430 /// 3431 OMPClause *ParseOpenMPVarListClause(OpenMPDirectiveKind DKind, 3432 OpenMPClauseKind Kind, bool ParseOnly); 3433 3434 /// Parses and creates OpenMP 5.0 iterators expression: 3435 /// <iterators> = 'iterator' '(' { [ <iterator-type> ] identifier = 3436 /// <range-specification> }+ ')' 3437 ExprResult ParseOpenMPIteratorsExpr(); 3438 3439 /// Parses allocators and traits in the context of the uses_allocator clause. 3440 /// Expected format: 3441 /// '(' { <allocator> [ '(' <allocator_traits> ')' ] }+ ')' 3442 OMPClause *ParseOpenMPUsesAllocatorClause(OpenMPDirectiveKind DKind); 3443 3444 /// Parses the 'interop' parts of the 'append_args' and 'init' clauses. 3445 bool ParseOMPInteropInfo(OMPInteropInfo &InteropInfo, OpenMPClauseKind Kind); 3446 3447 /// Parses clause with an interop variable of kind \a Kind. 3448 /// 3449 /// \param Kind Kind of current clause. 3450 /// \param ParseOnly true to skip the clause's semantic actions and return 3451 /// nullptr. 3452 // 3453 OMPClause *ParseOpenMPInteropClause(OpenMPClauseKind Kind, bool ParseOnly); 3454 3455 public: 3456 /// Parses simple expression in parens for single-expression clauses of OpenMP 3457 /// constructs. 3458 /// \param RLoc Returned location of right paren. 3459 ExprResult ParseOpenMPParensExpr(StringRef ClauseName, SourceLocation &RLoc, 3460 bool IsAddressOfOperand = false); 3461 3462 /// Parses a reserved locator like 'omp_all_memory'. 3463 bool ParseOpenMPReservedLocator(OpenMPClauseKind Kind, 3464 Sema::OpenMPVarListDataTy &Data, 3465 const LangOptions &LangOpts); 3466 /// Parses clauses with list. 3467 bool ParseOpenMPVarList(OpenMPDirectiveKind DKind, OpenMPClauseKind Kind, 3468 SmallVectorImpl<Expr *> &Vars, 3469 Sema::OpenMPVarListDataTy &Data); 3470 bool ParseUnqualifiedId(CXXScopeSpec &SS, ParsedType ObjectType, 3471 bool ObjectHadErrors, bool EnteringContext, 3472 bool AllowDestructorName, bool AllowConstructorName, 3473 bool AllowDeductionGuide, 3474 SourceLocation *TemplateKWLoc, UnqualifiedId &Result); 3475 3476 /// Parses the mapper modifier in map, to, and from clauses. 3477 bool parseMapperModifier(Sema::OpenMPVarListDataTy &Data); 3478 /// Parses map-type-modifiers in map clause. 3479 /// map([ [map-type-modifier[,] [map-type-modifier[,] ...] map-type : ] list) 3480 /// where, map-type-modifier ::= always | close | mapper(mapper-identifier) 3481 bool parseMapTypeModifiers(Sema::OpenMPVarListDataTy &Data); 3482 3483 private: 3484 //===--------------------------------------------------------------------===// 3485 // C++ 14: Templates [temp] 3486 3487 // C++ 14.1: Template Parameters [temp.param] 3488 Decl *ParseDeclarationStartingWithTemplate(DeclaratorContext Context, 3489 SourceLocation &DeclEnd, 3490 ParsedAttributes &AccessAttrs, 3491 AccessSpecifier AS = AS_none); 3492 Decl *ParseTemplateDeclarationOrSpecialization(DeclaratorContext Context, 3493 SourceLocation &DeclEnd, 3494 ParsedAttributes &AccessAttrs, 3495 AccessSpecifier AS); 3496 Decl *ParseSingleDeclarationAfterTemplate( 3497 DeclaratorContext Context, const ParsedTemplateInfo &TemplateInfo, 3498 ParsingDeclRAIIObject &DiagsFromParams, SourceLocation &DeclEnd, 3499 ParsedAttributes &AccessAttrs, AccessSpecifier AS = AS_none); 3500 bool ParseTemplateParameters(MultiParseScope &TemplateScopes, unsigned Depth, 3501 SmallVectorImpl<NamedDecl *> &TemplateParams, 3502 SourceLocation &LAngleLoc, 3503 SourceLocation &RAngleLoc); 3504 bool ParseTemplateParameterList(unsigned Depth, 3505 SmallVectorImpl<NamedDecl*> &TemplateParams); 3506 TPResult isStartOfTemplateTypeParameter(); 3507 NamedDecl *ParseTemplateParameter(unsigned Depth, unsigned Position); 3508 NamedDecl *ParseTypeParameter(unsigned Depth, unsigned Position); 3509 NamedDecl *ParseTemplateTemplateParameter(unsigned Depth, unsigned Position); 3510 NamedDecl *ParseNonTypeTemplateParameter(unsigned Depth, unsigned Position); 3511 bool isTypeConstraintAnnotation(); 3512 bool TryAnnotateTypeConstraint(); 3513 void DiagnoseMisplacedEllipsis(SourceLocation EllipsisLoc, 3514 SourceLocation CorrectLoc, 3515 bool AlreadyHasEllipsis, 3516 bool IdentifierHasName); 3517 void DiagnoseMisplacedEllipsisInDeclarator(SourceLocation EllipsisLoc, 3518 Declarator &D); 3519 // C++ 14.3: Template arguments [temp.arg] 3520 typedef SmallVector<ParsedTemplateArgument, 16> TemplateArgList; 3521 3522 bool ParseGreaterThanInTemplateList(SourceLocation LAngleLoc, 3523 SourceLocation &RAngleLoc, 3524 bool ConsumeLastToken, 3525 bool ObjCGenericList); 3526 bool ParseTemplateIdAfterTemplateName(bool ConsumeLastToken, 3527 SourceLocation &LAngleLoc, 3528 TemplateArgList &TemplateArgs, 3529 SourceLocation &RAngleLoc, 3530 TemplateTy NameHint = nullptr); 3531 3532 bool AnnotateTemplateIdToken(TemplateTy Template, TemplateNameKind TNK, 3533 CXXScopeSpec &SS, 3534 SourceLocation TemplateKWLoc, 3535 UnqualifiedId &TemplateName, 3536 bool AllowTypeAnnotation = true, 3537 bool TypeConstraint = false); 3538 void 3539 AnnotateTemplateIdTokenAsType(CXXScopeSpec &SS, 3540 ImplicitTypenameContext AllowImplicitTypename, 3541 bool IsClassName = false); 3542 bool ParseTemplateArgumentList(TemplateArgList &TemplateArgs, 3543 TemplateTy Template, SourceLocation OpenLoc); 3544 ParsedTemplateArgument ParseTemplateTemplateArgument(); 3545 ParsedTemplateArgument ParseTemplateArgument(); 3546 Decl *ParseExplicitInstantiation(DeclaratorContext Context, 3547 SourceLocation ExternLoc, 3548 SourceLocation TemplateLoc, 3549 SourceLocation &DeclEnd, 3550 ParsedAttributes &AccessAttrs, 3551 AccessSpecifier AS = AS_none); 3552 // C++2a: Template, concept definition [temp] 3553 Decl * 3554 ParseConceptDefinition(const ParsedTemplateInfo &TemplateInfo, 3555 SourceLocation &DeclEnd); 3556 3557 //===--------------------------------------------------------------------===// 3558 // Modules 3559 DeclGroupPtrTy ParseModuleDecl(Sema::ModuleImportState &ImportState); 3560 Decl *ParseModuleImport(SourceLocation AtLoc, 3561 Sema::ModuleImportState &ImportState); 3562 bool parseMisplacedModuleImport(); 3563 bool tryParseMisplacedModuleImport() { 3564 tok::TokenKind Kind = Tok.getKind(); 3565 if (Kind == tok::annot_module_begin || Kind == tok::annot_module_end || 3566 Kind == tok::annot_module_include) 3567 return parseMisplacedModuleImport(); 3568 return false; 3569 } 3570 3571 bool ParseModuleName( 3572 SourceLocation UseLoc, 3573 SmallVectorImpl<std::pair<IdentifierInfo *, SourceLocation>> &Path, 3574 bool IsImport); 3575 3576 //===--------------------------------------------------------------------===// 3577 // C++11/G++: Type Traits [Type-Traits.html in the GCC manual] 3578 ExprResult ParseTypeTrait(); 3579 3580 //===--------------------------------------------------------------------===// 3581 // Embarcadero: Arary and Expression Traits 3582 ExprResult ParseArrayTypeTrait(); 3583 ExprResult ParseExpressionTrait(); 3584 3585 //===--------------------------------------------------------------------===// 3586 // Preprocessor code-completion pass-through 3587 void CodeCompleteDirective(bool InConditional) override; 3588 void CodeCompleteInConditionalExclusion() override; 3589 void CodeCompleteMacroName(bool IsDefinition) override; 3590 void CodeCompletePreprocessorExpression() override; 3591 void CodeCompleteMacroArgument(IdentifierInfo *Macro, MacroInfo *MacroInfo, 3592 unsigned ArgumentIndex) override; 3593 void CodeCompleteIncludedFile(llvm::StringRef Dir, bool IsAngled) override; 3594 void CodeCompleteNaturalLanguage() override; 3595 3596 class GNUAsmQualifiers { 3597 unsigned Qualifiers = AQ_unspecified; 3598 3599 public: 3600 enum AQ { 3601 AQ_unspecified = 0, 3602 AQ_volatile = 1, 3603 AQ_inline = 2, 3604 AQ_goto = 4, 3605 }; 3606 static const char *getQualifierName(AQ Qualifier); 3607 bool setAsmQualifier(AQ Qualifier); 3608 inline bool isVolatile() const { return Qualifiers & AQ_volatile; }; 3609 inline bool isInline() const { return Qualifiers & AQ_inline; }; 3610 inline bool isGoto() const { return Qualifiers & AQ_goto; } 3611 }; 3612 bool isGCCAsmStatement(const Token &TokAfterAsm) const; 3613 bool isGNUAsmQualifier(const Token &TokAfterAsm) const; 3614 GNUAsmQualifiers::AQ getGNUAsmQualifier(const Token &Tok) const; 3615 bool parseGNUAsmQualifierListOpt(GNUAsmQualifiers &AQ); 3616 }; 3617 3618 } // end namespace clang 3619 3620 #endif 3621