1 //===--- PPDirectives.cpp - Directive Handling for Preprocessor -----------===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 /// 10 /// \file 11 /// \brief Implements # directive processing for the Preprocessor. 12 /// 13 //===----------------------------------------------------------------------===// 14 15 #include "clang/Lex/Preprocessor.h" 16 #include "clang/Basic/FileManager.h" 17 #include "clang/Basic/SourceManager.h" 18 #include "clang/Lex/CodeCompletionHandler.h" 19 #include "clang/Lex/HeaderSearch.h" 20 #include "clang/Lex/HeaderSearchOptions.h" 21 #include "clang/Lex/LexDiagnostic.h" 22 #include "clang/Lex/LiteralSupport.h" 23 #include "clang/Lex/MacroInfo.h" 24 #include "clang/Lex/ModuleLoader.h" 25 #include "clang/Lex/Pragma.h" 26 #include "llvm/ADT/APInt.h" 27 #include "llvm/Support/ErrorHandling.h" 28 #include "llvm/Support/SaveAndRestore.h" 29 using namespace clang; 30 31 //===----------------------------------------------------------------------===// 32 // Utility Methods for Preprocessor Directive Handling. 33 //===----------------------------------------------------------------------===// 34 35 MacroInfo *Preprocessor::AllocateMacroInfo() { 36 MacroInfoChain *MIChain; 37 38 if (MICache) { 39 MIChain = MICache; 40 MICache = MICache->Next; 41 } 42 else { 43 MIChain = BP.Allocate<MacroInfoChain>(); 44 } 45 46 MIChain->Next = MIChainHead; 47 MIChain->Prev = 0; 48 if (MIChainHead) 49 MIChainHead->Prev = MIChain; 50 MIChainHead = MIChain; 51 52 return &(MIChain->MI); 53 } 54 55 MacroInfo *Preprocessor::AllocateMacroInfo(SourceLocation L) { 56 MacroInfo *MI = AllocateMacroInfo(); 57 new (MI) MacroInfo(L); 58 return MI; 59 } 60 61 MacroInfo *Preprocessor::AllocateDeserializedMacroInfo(SourceLocation L, 62 unsigned SubModuleID) { 63 LLVM_STATIC_ASSERT(llvm::AlignOf<MacroInfo>::Alignment >= sizeof(SubModuleID), 64 "alignment for MacroInfo is less than the ID"); 65 DeserializedMacroInfoChain *MIChain = 66 BP.Allocate<DeserializedMacroInfoChain>(); 67 MIChain->Next = DeserialMIChainHead; 68 DeserialMIChainHead = MIChain; 69 70 MacroInfo *MI = &MIChain->MI; 71 new (MI) MacroInfo(L); 72 MI->FromASTFile = true; 73 MI->setOwningModuleID(SubModuleID); 74 return MI; 75 } 76 77 DefMacroDirective * 78 Preprocessor::AllocateDefMacroDirective(MacroInfo *MI, SourceLocation Loc, 79 bool isImported) { 80 DefMacroDirective *MD = BP.Allocate<DefMacroDirective>(); 81 new (MD) DefMacroDirective(MI, Loc, isImported); 82 return MD; 83 } 84 85 UndefMacroDirective * 86 Preprocessor::AllocateUndefMacroDirective(SourceLocation UndefLoc) { 87 UndefMacroDirective *MD = BP.Allocate<UndefMacroDirective>(); 88 new (MD) UndefMacroDirective(UndefLoc); 89 return MD; 90 } 91 92 VisibilityMacroDirective * 93 Preprocessor::AllocateVisibilityMacroDirective(SourceLocation Loc, 94 bool isPublic) { 95 VisibilityMacroDirective *MD = BP.Allocate<VisibilityMacroDirective>(); 96 new (MD) VisibilityMacroDirective(Loc, isPublic); 97 return MD; 98 } 99 100 /// \brief Release the specified MacroInfo to be reused for allocating 101 /// new MacroInfo objects. 102 void Preprocessor::ReleaseMacroInfo(MacroInfo *MI) { 103 MacroInfoChain *MIChain = (MacroInfoChain*) MI; 104 if (MacroInfoChain *Prev = MIChain->Prev) { 105 MacroInfoChain *Next = MIChain->Next; 106 Prev->Next = Next; 107 if (Next) 108 Next->Prev = Prev; 109 } 110 else { 111 assert(MIChainHead == MIChain); 112 MIChainHead = MIChain->Next; 113 MIChainHead->Prev = 0; 114 } 115 MIChain->Next = MICache; 116 MICache = MIChain; 117 118 MI->Destroy(); 119 } 120 121 /// \brief Read and discard all tokens remaining on the current line until 122 /// the tok::eod token is found. 123 void Preprocessor::DiscardUntilEndOfDirective() { 124 Token Tmp; 125 do { 126 LexUnexpandedToken(Tmp); 127 assert(Tmp.isNot(tok::eof) && "EOF seen while discarding directive tokens"); 128 } while (Tmp.isNot(tok::eod)); 129 } 130 131 /// \brief Lex and validate a macro name, which occurs after a 132 /// \#define or \#undef. 133 /// 134 /// This sets the token kind to eod and discards the rest 135 /// of the macro line if the macro name is invalid. \p isDefineUndef is 1 if 136 /// this is due to a a \#define, 2 if \#undef directive, 0 if it is something 137 /// else (e.g. \#ifdef). 138 void Preprocessor::ReadMacroName(Token &MacroNameTok, char isDefineUndef) { 139 // Read the token, don't allow macro expansion on it. 140 LexUnexpandedToken(MacroNameTok); 141 142 if (MacroNameTok.is(tok::code_completion)) { 143 if (CodeComplete) 144 CodeComplete->CodeCompleteMacroName(isDefineUndef == 1); 145 setCodeCompletionReached(); 146 LexUnexpandedToken(MacroNameTok); 147 } 148 149 // Missing macro name? 150 if (MacroNameTok.is(tok::eod)) { 151 Diag(MacroNameTok, diag::err_pp_missing_macro_name); 152 return; 153 } 154 155 IdentifierInfo *II = MacroNameTok.getIdentifierInfo(); 156 if (II == 0) { 157 bool Invalid = false; 158 std::string Spelling = getSpelling(MacroNameTok, &Invalid); 159 if (Invalid) 160 return; 161 162 const IdentifierInfo &Info = Identifiers.get(Spelling); 163 164 // Allow #defining |and| and friends in microsoft mode. 165 if (Info.isCPlusPlusOperatorKeyword() && getLangOpts().MicrosoftMode) { 166 MacroNameTok.setIdentifierInfo(getIdentifierInfo(Spelling)); 167 return; 168 } 169 170 if (Info.isCPlusPlusOperatorKeyword()) 171 // C++ 2.5p2: Alternative tokens behave the same as its primary token 172 // except for their spellings. 173 Diag(MacroNameTok, diag::err_pp_operator_used_as_macro_name) << Spelling; 174 else 175 Diag(MacroNameTok, diag::err_pp_macro_not_identifier); 176 // Fall through on error. 177 } else if (isDefineUndef && II->getPPKeywordID() == tok::pp_defined) { 178 // Error if defining "defined": C99 6.10.8/4, C++ [cpp.predefined]p4. 179 Diag(MacroNameTok, diag::err_defined_macro_name); 180 } else if (isDefineUndef == 2 && II->hasMacroDefinition() && 181 getMacroInfo(II)->isBuiltinMacro()) { 182 // Warn if undefining "__LINE__" and other builtins, per C99 6.10.8/4 183 // and C++ [cpp.predefined]p4], but allow it as an extension. 184 Diag(MacroNameTok, diag::ext_pp_undef_builtin_macro); 185 return; 186 } else { 187 // Okay, we got a good identifier node. Return it. 188 return; 189 } 190 191 // Invalid macro name, read and discard the rest of the line. Then set the 192 // token kind to tok::eod. 193 MacroNameTok.setKind(tok::eod); 194 return DiscardUntilEndOfDirective(); 195 } 196 197 /// \brief Ensure that the next token is a tok::eod token. 198 /// 199 /// If not, emit a diagnostic and consume up until the eod. If EnableMacros is 200 /// true, then we consider macros that expand to zero tokens as being ok. 201 void Preprocessor::CheckEndOfDirective(const char *DirType, bool EnableMacros) { 202 Token Tmp; 203 // Lex unexpanded tokens for most directives: macros might expand to zero 204 // tokens, causing us to miss diagnosing invalid lines. Some directives (like 205 // #line) allow empty macros. 206 if (EnableMacros) 207 Lex(Tmp); 208 else 209 LexUnexpandedToken(Tmp); 210 211 // There should be no tokens after the directive, but we allow them as an 212 // extension. 213 while (Tmp.is(tok::comment)) // Skip comments in -C mode. 214 LexUnexpandedToken(Tmp); 215 216 if (Tmp.isNot(tok::eod)) { 217 // Add a fixit in GNU/C99/C++ mode. Don't offer a fixit for strict-C89, 218 // or if this is a macro-style preprocessing directive, because it is more 219 // trouble than it is worth to insert /**/ and check that there is no /**/ 220 // in the range also. 221 FixItHint Hint; 222 if ((LangOpts.GNUMode || LangOpts.C99 || LangOpts.CPlusPlus) && 223 !CurTokenLexer) 224 Hint = FixItHint::CreateInsertion(Tmp.getLocation(),"//"); 225 Diag(Tmp, diag::ext_pp_extra_tokens_at_eol) << DirType << Hint; 226 DiscardUntilEndOfDirective(); 227 } 228 } 229 230 231 232 /// SkipExcludedConditionalBlock - We just read a \#if or related directive and 233 /// decided that the subsequent tokens are in the \#if'd out portion of the 234 /// file. Lex the rest of the file, until we see an \#endif. If 235 /// FoundNonSkipPortion is true, then we have already emitted code for part of 236 /// this \#if directive, so \#else/\#elif blocks should never be entered. 237 /// If ElseOk is true, then \#else directives are ok, if not, then we have 238 /// already seen one so a \#else directive is a duplicate. When this returns, 239 /// the caller can lex the first valid token. 240 void Preprocessor::SkipExcludedConditionalBlock(SourceLocation IfTokenLoc, 241 bool FoundNonSkipPortion, 242 bool FoundElse, 243 SourceLocation ElseLoc) { 244 ++NumSkipped; 245 assert(!CurTokenLexer && CurPPLexer && "Lexing a macro, not a file?"); 246 247 CurPPLexer->pushConditionalLevel(IfTokenLoc, /*isSkipping*/false, 248 FoundNonSkipPortion, FoundElse); 249 250 if (CurPTHLexer) { 251 PTHSkipExcludedConditionalBlock(); 252 return; 253 } 254 255 // Enter raw mode to disable identifier lookup (and thus macro expansion), 256 // disabling warnings, etc. 257 CurPPLexer->LexingRawMode = true; 258 Token Tok; 259 while (1) { 260 CurLexer->Lex(Tok); 261 262 if (Tok.is(tok::code_completion)) { 263 if (CodeComplete) 264 CodeComplete->CodeCompleteInConditionalExclusion(); 265 setCodeCompletionReached(); 266 continue; 267 } 268 269 // If this is the end of the buffer, we have an error. 270 if (Tok.is(tok::eof)) { 271 // Emit errors for each unterminated conditional on the stack, including 272 // the current one. 273 while (!CurPPLexer->ConditionalStack.empty()) { 274 if (CurLexer->getFileLoc() != CodeCompletionFileLoc) 275 Diag(CurPPLexer->ConditionalStack.back().IfLoc, 276 diag::err_pp_unterminated_conditional); 277 CurPPLexer->ConditionalStack.pop_back(); 278 } 279 280 // Just return and let the caller lex after this #include. 281 break; 282 } 283 284 // If this token is not a preprocessor directive, just skip it. 285 if (Tok.isNot(tok::hash) || !Tok.isAtStartOfLine()) 286 continue; 287 288 // We just parsed a # character at the start of a line, so we're in 289 // directive mode. Tell the lexer this so any newlines we see will be 290 // converted into an EOD token (this terminates the macro). 291 CurPPLexer->ParsingPreprocessorDirective = true; 292 if (CurLexer) CurLexer->SetKeepWhitespaceMode(false); 293 294 295 // Read the next token, the directive flavor. 296 LexUnexpandedToken(Tok); 297 298 // If this isn't an identifier directive (e.g. is "# 1\n" or "#\n", or 299 // something bogus), skip it. 300 if (Tok.isNot(tok::raw_identifier)) { 301 CurPPLexer->ParsingPreprocessorDirective = false; 302 // Restore comment saving mode. 303 if (CurLexer) CurLexer->resetExtendedTokenMode(); 304 continue; 305 } 306 307 // If the first letter isn't i or e, it isn't intesting to us. We know that 308 // this is safe in the face of spelling differences, because there is no way 309 // to spell an i/e in a strange way that is another letter. Skipping this 310 // allows us to avoid looking up the identifier info for #define/#undef and 311 // other common directives. 312 const char *RawCharData = Tok.getRawIdentifierData(); 313 314 char FirstChar = RawCharData[0]; 315 if (FirstChar >= 'a' && FirstChar <= 'z' && 316 FirstChar != 'i' && FirstChar != 'e') { 317 CurPPLexer->ParsingPreprocessorDirective = false; 318 // Restore comment saving mode. 319 if (CurLexer) CurLexer->resetExtendedTokenMode(); 320 continue; 321 } 322 323 // Get the identifier name without trigraphs or embedded newlines. Note 324 // that we can't use Tok.getIdentifierInfo() because its lookup is disabled 325 // when skipping. 326 char DirectiveBuf[20]; 327 StringRef Directive; 328 if (!Tok.needsCleaning() && Tok.getLength() < 20) { 329 Directive = StringRef(RawCharData, Tok.getLength()); 330 } else { 331 std::string DirectiveStr = getSpelling(Tok); 332 unsigned IdLen = DirectiveStr.size(); 333 if (IdLen >= 20) { 334 CurPPLexer->ParsingPreprocessorDirective = false; 335 // Restore comment saving mode. 336 if (CurLexer) CurLexer->resetExtendedTokenMode(); 337 continue; 338 } 339 memcpy(DirectiveBuf, &DirectiveStr[0], IdLen); 340 Directive = StringRef(DirectiveBuf, IdLen); 341 } 342 343 if (Directive.startswith("if")) { 344 StringRef Sub = Directive.substr(2); 345 if (Sub.empty() || // "if" 346 Sub == "def" || // "ifdef" 347 Sub == "ndef") { // "ifndef" 348 // We know the entire #if/#ifdef/#ifndef block will be skipped, don't 349 // bother parsing the condition. 350 DiscardUntilEndOfDirective(); 351 CurPPLexer->pushConditionalLevel(Tok.getLocation(), /*wasskipping*/true, 352 /*foundnonskip*/false, 353 /*foundelse*/false); 354 } 355 } else if (Directive[0] == 'e') { 356 StringRef Sub = Directive.substr(1); 357 if (Sub == "ndif") { // "endif" 358 PPConditionalInfo CondInfo; 359 CondInfo.WasSkipping = true; // Silence bogus warning. 360 bool InCond = CurPPLexer->popConditionalLevel(CondInfo); 361 (void)InCond; // Silence warning in no-asserts mode. 362 assert(!InCond && "Can't be skipping if not in a conditional!"); 363 364 // If we popped the outermost skipping block, we're done skipping! 365 if (!CondInfo.WasSkipping) { 366 // Restore the value of LexingRawMode so that trailing comments 367 // are handled correctly, if we've reached the outermost block. 368 CurPPLexer->LexingRawMode = false; 369 CheckEndOfDirective("endif"); 370 CurPPLexer->LexingRawMode = true; 371 if (Callbacks) 372 Callbacks->Endif(Tok.getLocation(), CondInfo.IfLoc); 373 break; 374 } else { 375 DiscardUntilEndOfDirective(); 376 } 377 } else if (Sub == "lse") { // "else". 378 // #else directive in a skipping conditional. If not in some other 379 // skipping conditional, and if #else hasn't already been seen, enter it 380 // as a non-skipping conditional. 381 PPConditionalInfo &CondInfo = CurPPLexer->peekConditionalLevel(); 382 383 // If this is a #else with a #else before it, report the error. 384 if (CondInfo.FoundElse) Diag(Tok, diag::pp_err_else_after_else); 385 386 // Note that we've seen a #else in this conditional. 387 CondInfo.FoundElse = true; 388 389 // If the conditional is at the top level, and the #if block wasn't 390 // entered, enter the #else block now. 391 if (!CondInfo.WasSkipping && !CondInfo.FoundNonSkip) { 392 CondInfo.FoundNonSkip = true; 393 // Restore the value of LexingRawMode so that trailing comments 394 // are handled correctly. 395 CurPPLexer->LexingRawMode = false; 396 CheckEndOfDirective("else"); 397 CurPPLexer->LexingRawMode = true; 398 if (Callbacks) 399 Callbacks->Else(Tok.getLocation(), CondInfo.IfLoc); 400 break; 401 } else { 402 DiscardUntilEndOfDirective(); // C99 6.10p4. 403 } 404 } else if (Sub == "lif") { // "elif". 405 PPConditionalInfo &CondInfo = CurPPLexer->peekConditionalLevel(); 406 407 // If this is a #elif with a #else before it, report the error. 408 if (CondInfo.FoundElse) Diag(Tok, diag::pp_err_elif_after_else); 409 410 // If this is in a skipping block or if we're already handled this #if 411 // block, don't bother parsing the condition. 412 if (CondInfo.WasSkipping || CondInfo.FoundNonSkip) { 413 DiscardUntilEndOfDirective(); 414 } else { 415 const SourceLocation CondBegin = CurPPLexer->getSourceLocation(); 416 // Restore the value of LexingRawMode so that identifiers are 417 // looked up, etc, inside the #elif expression. 418 assert(CurPPLexer->LexingRawMode && "We have to be skipping here!"); 419 CurPPLexer->LexingRawMode = false; 420 IdentifierInfo *IfNDefMacro = 0; 421 const bool CondValue = EvaluateDirectiveExpression(IfNDefMacro); 422 CurPPLexer->LexingRawMode = true; 423 if (Callbacks) { 424 const SourceLocation CondEnd = CurPPLexer->getSourceLocation(); 425 Callbacks->Elif(Tok.getLocation(), 426 SourceRange(CondBegin, CondEnd), 427 CondValue, CondInfo.IfLoc); 428 } 429 // If this condition is true, enter it! 430 if (CondValue) { 431 CondInfo.FoundNonSkip = true; 432 break; 433 } 434 } 435 } 436 } 437 438 CurPPLexer->ParsingPreprocessorDirective = false; 439 // Restore comment saving mode. 440 if (CurLexer) CurLexer->resetExtendedTokenMode(); 441 } 442 443 // Finally, if we are out of the conditional (saw an #endif or ran off the end 444 // of the file, just stop skipping and return to lexing whatever came after 445 // the #if block. 446 CurPPLexer->LexingRawMode = false; 447 448 if (Callbacks) { 449 SourceLocation BeginLoc = ElseLoc.isValid() ? ElseLoc : IfTokenLoc; 450 Callbacks->SourceRangeSkipped(SourceRange(BeginLoc, Tok.getLocation())); 451 } 452 } 453 454 void Preprocessor::PTHSkipExcludedConditionalBlock() { 455 456 while (1) { 457 assert(CurPTHLexer); 458 assert(CurPTHLexer->LexingRawMode == false); 459 460 // Skip to the next '#else', '#elif', or #endif. 461 if (CurPTHLexer->SkipBlock()) { 462 // We have reached an #endif. Both the '#' and 'endif' tokens 463 // have been consumed by the PTHLexer. Just pop off the condition level. 464 PPConditionalInfo CondInfo; 465 bool InCond = CurPTHLexer->popConditionalLevel(CondInfo); 466 (void)InCond; // Silence warning in no-asserts mode. 467 assert(!InCond && "Can't be skipping if not in a conditional!"); 468 break; 469 } 470 471 // We have reached a '#else' or '#elif'. Lex the next token to get 472 // the directive flavor. 473 Token Tok; 474 LexUnexpandedToken(Tok); 475 476 // We can actually look up the IdentifierInfo here since we aren't in 477 // raw mode. 478 tok::PPKeywordKind K = Tok.getIdentifierInfo()->getPPKeywordID(); 479 480 if (K == tok::pp_else) { 481 // #else: Enter the else condition. We aren't in a nested condition 482 // since we skip those. We're always in the one matching the last 483 // blocked we skipped. 484 PPConditionalInfo &CondInfo = CurPTHLexer->peekConditionalLevel(); 485 // Note that we've seen a #else in this conditional. 486 CondInfo.FoundElse = true; 487 488 // If the #if block wasn't entered then enter the #else block now. 489 if (!CondInfo.FoundNonSkip) { 490 CondInfo.FoundNonSkip = true; 491 492 // Scan until the eod token. 493 CurPTHLexer->ParsingPreprocessorDirective = true; 494 DiscardUntilEndOfDirective(); 495 CurPTHLexer->ParsingPreprocessorDirective = false; 496 497 break; 498 } 499 500 // Otherwise skip this block. 501 continue; 502 } 503 504 assert(K == tok::pp_elif); 505 PPConditionalInfo &CondInfo = CurPTHLexer->peekConditionalLevel(); 506 507 // If this is a #elif with a #else before it, report the error. 508 if (CondInfo.FoundElse) 509 Diag(Tok, diag::pp_err_elif_after_else); 510 511 // If this is in a skipping block or if we're already handled this #if 512 // block, don't bother parsing the condition. We just skip this block. 513 if (CondInfo.FoundNonSkip) 514 continue; 515 516 // Evaluate the condition of the #elif. 517 IdentifierInfo *IfNDefMacro = 0; 518 CurPTHLexer->ParsingPreprocessorDirective = true; 519 bool ShouldEnter = EvaluateDirectiveExpression(IfNDefMacro); 520 CurPTHLexer->ParsingPreprocessorDirective = false; 521 522 // If this condition is true, enter it! 523 if (ShouldEnter) { 524 CondInfo.FoundNonSkip = true; 525 break; 526 } 527 528 // Otherwise, skip this block and go to the next one. 529 continue; 530 } 531 } 532 533 Module *Preprocessor::getModuleForLocation(SourceLocation FilenameLoc) { 534 ModuleMap &ModMap = HeaderInfo.getModuleMap(); 535 if (SourceMgr.isInMainFile(FilenameLoc)) { 536 if (Module *CurMod = getCurrentModule()) 537 return CurMod; // Compiling a module. 538 return HeaderInfo.getModuleMap().SourceModule; // Compiling a source. 539 } 540 // Try to determine the module of the include directive. 541 // FIXME: Look into directly passing the FileEntry from LookupFile instead. 542 FileID IDOfIncl = SourceMgr.getFileID(SourceMgr.getSpellingLoc(FilenameLoc)); 543 if (const FileEntry *EntryOfIncl = SourceMgr.getFileEntryForID(IDOfIncl)) { 544 // The include comes from a file. 545 return ModMap.findModuleForHeader(EntryOfIncl).getModule(); 546 } else { 547 // The include does not come from a file, 548 // so it is probably a module compilation. 549 return getCurrentModule(); 550 } 551 } 552 553 bool Preprocessor::violatesPrivateInclude( 554 Module *RequestingModule, 555 const FileEntry *IncFileEnt, 556 ModuleMap::ModuleHeaderRole Role, 557 Module *RequestedModule) { 558 #ifndef NDEBUG 559 // Check for consistency between the module header role 560 // as obtained from the lookup and as obtained from the module. 561 // This check is not cheap, so enable it only for debugging. 562 SmallVectorImpl<const FileEntry *> &PvtHdrs 563 = RequestedModule->PrivateHeaders; 564 SmallVectorImpl<const FileEntry *>::iterator Look 565 = std::find(PvtHdrs.begin(), PvtHdrs.end(), IncFileEnt); 566 bool IsPrivate = Look != PvtHdrs.end(); 567 assert((IsPrivate && Role == ModuleMap::PrivateHeader) 568 || (!IsPrivate && Role != ModuleMap::PrivateHeader)); 569 #endif 570 return Role == ModuleMap::PrivateHeader && 571 RequestedModule->getTopLevelModule() != RequestingModule; 572 } 573 574 bool Preprocessor::violatesUseDeclarations( 575 Module *RequestingModule, 576 Module *RequestedModule) { 577 ModuleMap &ModMap = HeaderInfo.getModuleMap(); 578 ModMap.resolveUses(RequestingModule, /*Complain=*/false); 579 const SmallVectorImpl<Module *> &AllowedUses = RequestingModule->DirectUses; 580 SmallVectorImpl<Module *>::const_iterator Declared = 581 std::find(AllowedUses.begin(), AllowedUses.end(), RequestedModule); 582 return Declared == AllowedUses.end(); 583 } 584 585 void Preprocessor::verifyModuleInclude(SourceLocation FilenameLoc, 586 StringRef Filename, 587 const FileEntry *IncFileEnt) { 588 Module *RequestingModule = getModuleForLocation(FilenameLoc); 589 if (RequestingModule) 590 HeaderInfo.getModuleMap().resolveUses(RequestingModule, /*Complain=*/false); 591 ModuleMap::KnownHeader RequestedModule = 592 HeaderInfo.getModuleMap().findModuleForHeader(IncFileEnt, 593 RequestingModule); 594 595 if (RequestingModule == RequestedModule.getModule()) 596 return; // No faults wihin a module, or between files both not in modules. 597 598 if (RequestingModule != HeaderInfo.getModuleMap().SourceModule) 599 return; // No errors for indirect modules. 600 // This may be a bit of a problem for modules with no source files. 601 602 if (RequestedModule && violatesPrivateInclude(RequestingModule, IncFileEnt, 603 RequestedModule.getRole(), 604 RequestedModule.getModule())) 605 Diag(FilenameLoc, diag::error_use_of_private_header_outside_module) 606 << Filename; 607 608 // FIXME: Add support for FixIts in module map files and offer adding the 609 // required use declaration. 610 if (RequestingModule && getLangOpts().ModulesDeclUse && 611 violatesUseDeclarations(RequestingModule, RequestedModule.getModule())) 612 Diag(FilenameLoc, diag::error_undeclared_use_of_module) 613 << RequestingModule->getFullModuleName() << Filename; 614 } 615 616 const FileEntry *Preprocessor::LookupFile( 617 SourceLocation FilenameLoc, 618 StringRef Filename, 619 bool isAngled, 620 const DirectoryLookup *FromDir, 621 const DirectoryLookup *&CurDir, 622 SmallVectorImpl<char> *SearchPath, 623 SmallVectorImpl<char> *RelativePath, 624 ModuleMap::KnownHeader *SuggestedModule, 625 bool SkipCache) { 626 // If the header lookup mechanism may be relative to the current file, pass in 627 // info about where the current file is. 628 const FileEntry *CurFileEnt = 0; 629 if (!FromDir) { 630 FileID FID = getCurrentFileLexer()->getFileID(); 631 CurFileEnt = SourceMgr.getFileEntryForID(FID); 632 633 // If there is no file entry associated with this file, it must be the 634 // predefines buffer. Any other file is not lexed with a normal lexer, so 635 // it won't be scanned for preprocessor directives. If we have the 636 // predefines buffer, resolve #include references (which come from the 637 // -include command line argument) as if they came from the main file, this 638 // affects file lookup etc. 639 if (CurFileEnt == 0) { 640 FID = SourceMgr.getMainFileID(); 641 CurFileEnt = SourceMgr.getFileEntryForID(FID); 642 } 643 } 644 645 // Do a standard file entry lookup. 646 CurDir = CurDirLookup; 647 const FileEntry *FE = HeaderInfo.LookupFile( 648 Filename, isAngled, FromDir, CurDir, CurFileEnt, 649 SearchPath, RelativePath, SuggestedModule, SkipCache); 650 if (FE) { 651 if (SuggestedModule) 652 verifyModuleInclude(FilenameLoc, Filename, FE); 653 return FE; 654 } 655 656 // Otherwise, see if this is a subframework header. If so, this is relative 657 // to one of the headers on the #include stack. Walk the list of the current 658 // headers on the #include stack and pass them to HeaderInfo. 659 if (IsFileLexer()) { 660 if ((CurFileEnt = SourceMgr.getFileEntryForID(CurPPLexer->getFileID()))) 661 if ((FE = HeaderInfo.LookupSubframeworkHeader(Filename, CurFileEnt, 662 SearchPath, RelativePath, 663 SuggestedModule))) 664 return FE; 665 } 666 667 for (unsigned i = 0, e = IncludeMacroStack.size(); i != e; ++i) { 668 IncludeStackInfo &ISEntry = IncludeMacroStack[e-i-1]; 669 if (IsFileLexer(ISEntry)) { 670 if ((CurFileEnt = 671 SourceMgr.getFileEntryForID(ISEntry.ThePPLexer->getFileID()))) 672 if ((FE = HeaderInfo.LookupSubframeworkHeader( 673 Filename, CurFileEnt, SearchPath, RelativePath, 674 SuggestedModule))) 675 return FE; 676 } 677 } 678 679 // Otherwise, we really couldn't find the file. 680 return 0; 681 } 682 683 684 //===----------------------------------------------------------------------===// 685 // Preprocessor Directive Handling. 686 //===----------------------------------------------------------------------===// 687 688 class Preprocessor::ResetMacroExpansionHelper { 689 public: 690 ResetMacroExpansionHelper(Preprocessor *pp) 691 : PP(pp), save(pp->DisableMacroExpansion) { 692 if (pp->MacroExpansionInDirectivesOverride) 693 pp->DisableMacroExpansion = false; 694 } 695 ~ResetMacroExpansionHelper() { 696 PP->DisableMacroExpansion = save; 697 } 698 private: 699 Preprocessor *PP; 700 bool save; 701 }; 702 703 /// HandleDirective - This callback is invoked when the lexer sees a # token 704 /// at the start of a line. This consumes the directive, modifies the 705 /// lexer/preprocessor state, and advances the lexer(s) so that the next token 706 /// read is the correct one. 707 void Preprocessor::HandleDirective(Token &Result) { 708 // FIXME: Traditional: # with whitespace before it not recognized by K&R? 709 710 // We just parsed a # character at the start of a line, so we're in directive 711 // mode. Tell the lexer this so any newlines we see will be converted into an 712 // EOD token (which terminates the directive). 713 CurPPLexer->ParsingPreprocessorDirective = true; 714 if (CurLexer) CurLexer->SetKeepWhitespaceMode(false); 715 716 bool ImmediatelyAfterTopLevelIfndef = 717 CurPPLexer->MIOpt.getImmediatelyAfterTopLevelIfndef(); 718 CurPPLexer->MIOpt.resetImmediatelyAfterTopLevelIfndef(); 719 720 ++NumDirectives; 721 722 // We are about to read a token. For the multiple-include optimization FA to 723 // work, we have to remember if we had read any tokens *before* this 724 // pp-directive. 725 bool ReadAnyTokensBeforeDirective =CurPPLexer->MIOpt.getHasReadAnyTokensVal(); 726 727 // Save the '#' token in case we need to return it later. 728 Token SavedHash = Result; 729 730 // Read the next token, the directive flavor. This isn't expanded due to 731 // C99 6.10.3p8. 732 LexUnexpandedToken(Result); 733 734 // C99 6.10.3p11: Is this preprocessor directive in macro invocation? e.g.: 735 // #define A(x) #x 736 // A(abc 737 // #warning blah 738 // def) 739 // If so, the user is relying on undefined behavior, emit a diagnostic. Do 740 // not support this for #include-like directives, since that can result in 741 // terrible diagnostics, and does not work in GCC. 742 if (InMacroArgs) { 743 if (IdentifierInfo *II = Result.getIdentifierInfo()) { 744 switch (II->getPPKeywordID()) { 745 case tok::pp_include: 746 case tok::pp_import: 747 case tok::pp_include_next: 748 case tok::pp___include_macros: 749 Diag(Result, diag::err_embedded_include) << II->getName(); 750 DiscardUntilEndOfDirective(); 751 return; 752 default: 753 break; 754 } 755 } 756 Diag(Result, diag::ext_embedded_directive); 757 } 758 759 // Temporarily enable macro expansion if set so 760 // and reset to previous state when returning from this function. 761 ResetMacroExpansionHelper helper(this); 762 763 switch (Result.getKind()) { 764 case tok::eod: 765 return; // null directive. 766 case tok::code_completion: 767 if (CodeComplete) 768 CodeComplete->CodeCompleteDirective( 769 CurPPLexer->getConditionalStackDepth() > 0); 770 setCodeCompletionReached(); 771 return; 772 case tok::numeric_constant: // # 7 GNU line marker directive. 773 if (getLangOpts().AsmPreprocessor) 774 break; // # 4 is not a preprocessor directive in .S files. 775 return HandleDigitDirective(Result); 776 default: 777 IdentifierInfo *II = Result.getIdentifierInfo(); 778 if (II == 0) break; // Not an identifier. 779 780 // Ask what the preprocessor keyword ID is. 781 switch (II->getPPKeywordID()) { 782 default: break; 783 // C99 6.10.1 - Conditional Inclusion. 784 case tok::pp_if: 785 return HandleIfDirective(Result, ReadAnyTokensBeforeDirective); 786 case tok::pp_ifdef: 787 return HandleIfdefDirective(Result, false, true/*not valid for miopt*/); 788 case tok::pp_ifndef: 789 return HandleIfdefDirective(Result, true, ReadAnyTokensBeforeDirective); 790 case tok::pp_elif: 791 return HandleElifDirective(Result); 792 case tok::pp_else: 793 return HandleElseDirective(Result); 794 case tok::pp_endif: 795 return HandleEndifDirective(Result); 796 797 // C99 6.10.2 - Source File Inclusion. 798 case tok::pp_include: 799 // Handle #include. 800 return HandleIncludeDirective(SavedHash.getLocation(), Result); 801 case tok::pp___include_macros: 802 // Handle -imacros. 803 return HandleIncludeMacrosDirective(SavedHash.getLocation(), Result); 804 805 // C99 6.10.3 - Macro Replacement. 806 case tok::pp_define: 807 return HandleDefineDirective(Result, ImmediatelyAfterTopLevelIfndef); 808 case tok::pp_undef: 809 return HandleUndefDirective(Result); 810 811 // C99 6.10.4 - Line Control. 812 case tok::pp_line: 813 return HandleLineDirective(Result); 814 815 // C99 6.10.5 - Error Directive. 816 case tok::pp_error: 817 return HandleUserDiagnosticDirective(Result, false); 818 819 // C99 6.10.6 - Pragma Directive. 820 case tok::pp_pragma: 821 return HandlePragmaDirective(SavedHash.getLocation(), PIK_HashPragma); 822 823 // GNU Extensions. 824 case tok::pp_import: 825 return HandleImportDirective(SavedHash.getLocation(), Result); 826 case tok::pp_include_next: 827 return HandleIncludeNextDirective(SavedHash.getLocation(), Result); 828 829 case tok::pp_warning: 830 Diag(Result, diag::ext_pp_warning_directive); 831 return HandleUserDiagnosticDirective(Result, true); 832 case tok::pp_ident: 833 return HandleIdentSCCSDirective(Result); 834 case tok::pp_sccs: 835 return HandleIdentSCCSDirective(Result); 836 case tok::pp_assert: 837 //isExtension = true; // FIXME: implement #assert 838 break; 839 case tok::pp_unassert: 840 //isExtension = true; // FIXME: implement #unassert 841 break; 842 843 case tok::pp___public_macro: 844 if (getLangOpts().Modules) 845 return HandleMacroPublicDirective(Result); 846 break; 847 848 case tok::pp___private_macro: 849 if (getLangOpts().Modules) 850 return HandleMacroPrivateDirective(Result); 851 break; 852 } 853 break; 854 } 855 856 // If this is a .S file, treat unknown # directives as non-preprocessor 857 // directives. This is important because # may be a comment or introduce 858 // various pseudo-ops. Just return the # token and push back the following 859 // token to be lexed next time. 860 if (getLangOpts().AsmPreprocessor) { 861 Token *Toks = new Token[2]; 862 // Return the # and the token after it. 863 Toks[0] = SavedHash; 864 Toks[1] = Result; 865 866 // If the second token is a hashhash token, then we need to translate it to 867 // unknown so the token lexer doesn't try to perform token pasting. 868 if (Result.is(tok::hashhash)) 869 Toks[1].setKind(tok::unknown); 870 871 // Enter this token stream so that we re-lex the tokens. Make sure to 872 // enable macro expansion, in case the token after the # is an identifier 873 // that is expanded. 874 EnterTokenStream(Toks, 2, false, true); 875 return; 876 } 877 878 // If we reached here, the preprocessing token is not valid! 879 Diag(Result, diag::err_pp_invalid_directive); 880 881 // Read the rest of the PP line. 882 DiscardUntilEndOfDirective(); 883 884 // Okay, we're done parsing the directive. 885 } 886 887 /// GetLineValue - Convert a numeric token into an unsigned value, emitting 888 /// Diagnostic DiagID if it is invalid, and returning the value in Val. 889 static bool GetLineValue(Token &DigitTok, unsigned &Val, 890 unsigned DiagID, Preprocessor &PP, 891 bool IsGNULineDirective=false) { 892 if (DigitTok.isNot(tok::numeric_constant)) { 893 PP.Diag(DigitTok, DiagID); 894 895 if (DigitTok.isNot(tok::eod)) 896 PP.DiscardUntilEndOfDirective(); 897 return true; 898 } 899 900 SmallString<64> IntegerBuffer; 901 IntegerBuffer.resize(DigitTok.getLength()); 902 const char *DigitTokBegin = &IntegerBuffer[0]; 903 bool Invalid = false; 904 unsigned ActualLength = PP.getSpelling(DigitTok, DigitTokBegin, &Invalid); 905 if (Invalid) 906 return true; 907 908 // Verify that we have a simple digit-sequence, and compute the value. This 909 // is always a simple digit string computed in decimal, so we do this manually 910 // here. 911 Val = 0; 912 for (unsigned i = 0; i != ActualLength; ++i) { 913 // C++1y [lex.fcon]p1: 914 // Optional separating single quotes in a digit-sequence are ignored 915 if (DigitTokBegin[i] == '\'') 916 continue; 917 918 if (!isDigit(DigitTokBegin[i])) { 919 PP.Diag(PP.AdvanceToTokenCharacter(DigitTok.getLocation(), i), 920 diag::err_pp_line_digit_sequence) << IsGNULineDirective; 921 PP.DiscardUntilEndOfDirective(); 922 return true; 923 } 924 925 unsigned NextVal = Val*10+(DigitTokBegin[i]-'0'); 926 if (NextVal < Val) { // overflow. 927 PP.Diag(DigitTok, DiagID); 928 PP.DiscardUntilEndOfDirective(); 929 return true; 930 } 931 Val = NextVal; 932 } 933 934 if (DigitTokBegin[0] == '0' && Val) 935 PP.Diag(DigitTok.getLocation(), diag::warn_pp_line_decimal) 936 << IsGNULineDirective; 937 938 return false; 939 } 940 941 /// \brief Handle a \#line directive: C99 6.10.4. 942 /// 943 /// The two acceptable forms are: 944 /// \verbatim 945 /// # line digit-sequence 946 /// # line digit-sequence "s-char-sequence" 947 /// \endverbatim 948 void Preprocessor::HandleLineDirective(Token &Tok) { 949 // Read the line # and string argument. Per C99 6.10.4p5, these tokens are 950 // expanded. 951 Token DigitTok; 952 Lex(DigitTok); 953 954 // Validate the number and convert it to an unsigned. 955 unsigned LineNo; 956 if (GetLineValue(DigitTok, LineNo, diag::err_pp_line_requires_integer,*this)) 957 return; 958 959 if (LineNo == 0) 960 Diag(DigitTok, diag::ext_pp_line_zero); 961 962 // Enforce C99 6.10.4p3: "The digit sequence shall not specify ... a 963 // number greater than 2147483647". C90 requires that the line # be <= 32767. 964 unsigned LineLimit = 32768U; 965 if (LangOpts.C99 || LangOpts.CPlusPlus11) 966 LineLimit = 2147483648U; 967 if (LineNo >= LineLimit) 968 Diag(DigitTok, diag::ext_pp_line_too_big) << LineLimit; 969 else if (LangOpts.CPlusPlus11 && LineNo >= 32768U) 970 Diag(DigitTok, diag::warn_cxx98_compat_pp_line_too_big); 971 972 int FilenameID = -1; 973 Token StrTok; 974 Lex(StrTok); 975 976 // If the StrTok is "eod", then it wasn't present. Otherwise, it must be a 977 // string followed by eod. 978 if (StrTok.is(tok::eod)) 979 ; // ok 980 else if (StrTok.isNot(tok::string_literal)) { 981 Diag(StrTok, diag::err_pp_line_invalid_filename); 982 return DiscardUntilEndOfDirective(); 983 } else if (StrTok.hasUDSuffix()) { 984 Diag(StrTok, diag::err_invalid_string_udl); 985 return DiscardUntilEndOfDirective(); 986 } else { 987 // Parse and validate the string, converting it into a unique ID. 988 StringLiteralParser Literal(&StrTok, 1, *this); 989 assert(Literal.isAscii() && "Didn't allow wide strings in"); 990 if (Literal.hadError) 991 return DiscardUntilEndOfDirective(); 992 if (Literal.Pascal) { 993 Diag(StrTok, diag::err_pp_linemarker_invalid_filename); 994 return DiscardUntilEndOfDirective(); 995 } 996 FilenameID = SourceMgr.getLineTableFilenameID(Literal.GetString()); 997 998 // Verify that there is nothing after the string, other than EOD. Because 999 // of C99 6.10.4p5, macros that expand to empty tokens are ok. 1000 CheckEndOfDirective("line", true); 1001 } 1002 1003 SourceMgr.AddLineNote(DigitTok.getLocation(), LineNo, FilenameID); 1004 1005 if (Callbacks) 1006 Callbacks->FileChanged(CurPPLexer->getSourceLocation(), 1007 PPCallbacks::RenameFile, 1008 SrcMgr::C_User); 1009 } 1010 1011 /// ReadLineMarkerFlags - Parse and validate any flags at the end of a GNU line 1012 /// marker directive. 1013 static bool ReadLineMarkerFlags(bool &IsFileEntry, bool &IsFileExit, 1014 bool &IsSystemHeader, bool &IsExternCHeader, 1015 Preprocessor &PP) { 1016 unsigned FlagVal; 1017 Token FlagTok; 1018 PP.Lex(FlagTok); 1019 if (FlagTok.is(tok::eod)) return false; 1020 if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag, PP)) 1021 return true; 1022 1023 if (FlagVal == 1) { 1024 IsFileEntry = true; 1025 1026 PP.Lex(FlagTok); 1027 if (FlagTok.is(tok::eod)) return false; 1028 if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag,PP)) 1029 return true; 1030 } else if (FlagVal == 2) { 1031 IsFileExit = true; 1032 1033 SourceManager &SM = PP.getSourceManager(); 1034 // If we are leaving the current presumed file, check to make sure the 1035 // presumed include stack isn't empty! 1036 FileID CurFileID = 1037 SM.getDecomposedExpansionLoc(FlagTok.getLocation()).first; 1038 PresumedLoc PLoc = SM.getPresumedLoc(FlagTok.getLocation()); 1039 if (PLoc.isInvalid()) 1040 return true; 1041 1042 // If there is no include loc (main file) or if the include loc is in a 1043 // different physical file, then we aren't in a "1" line marker flag region. 1044 SourceLocation IncLoc = PLoc.getIncludeLoc(); 1045 if (IncLoc.isInvalid() || 1046 SM.getDecomposedExpansionLoc(IncLoc).first != CurFileID) { 1047 PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_pop); 1048 PP.DiscardUntilEndOfDirective(); 1049 return true; 1050 } 1051 1052 PP.Lex(FlagTok); 1053 if (FlagTok.is(tok::eod)) return false; 1054 if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag,PP)) 1055 return true; 1056 } 1057 1058 // We must have 3 if there are still flags. 1059 if (FlagVal != 3) { 1060 PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_flag); 1061 PP.DiscardUntilEndOfDirective(); 1062 return true; 1063 } 1064 1065 IsSystemHeader = true; 1066 1067 PP.Lex(FlagTok); 1068 if (FlagTok.is(tok::eod)) return false; 1069 if (GetLineValue(FlagTok, FlagVal, diag::err_pp_linemarker_invalid_flag, PP)) 1070 return true; 1071 1072 // We must have 4 if there is yet another flag. 1073 if (FlagVal != 4) { 1074 PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_flag); 1075 PP.DiscardUntilEndOfDirective(); 1076 return true; 1077 } 1078 1079 IsExternCHeader = true; 1080 1081 PP.Lex(FlagTok); 1082 if (FlagTok.is(tok::eod)) return false; 1083 1084 // There are no more valid flags here. 1085 PP.Diag(FlagTok, diag::err_pp_linemarker_invalid_flag); 1086 PP.DiscardUntilEndOfDirective(); 1087 return true; 1088 } 1089 1090 /// HandleDigitDirective - Handle a GNU line marker directive, whose syntax is 1091 /// one of the following forms: 1092 /// 1093 /// # 42 1094 /// # 42 "file" ('1' | '2')? 1095 /// # 42 "file" ('1' | '2')? '3' '4'? 1096 /// 1097 void Preprocessor::HandleDigitDirective(Token &DigitTok) { 1098 // Validate the number and convert it to an unsigned. GNU does not have a 1099 // line # limit other than it fit in 32-bits. 1100 unsigned LineNo; 1101 if (GetLineValue(DigitTok, LineNo, diag::err_pp_linemarker_requires_integer, 1102 *this, true)) 1103 return; 1104 1105 Token StrTok; 1106 Lex(StrTok); 1107 1108 bool IsFileEntry = false, IsFileExit = false; 1109 bool IsSystemHeader = false, IsExternCHeader = false; 1110 int FilenameID = -1; 1111 1112 // If the StrTok is "eod", then it wasn't present. Otherwise, it must be a 1113 // string followed by eod. 1114 if (StrTok.is(tok::eod)) 1115 ; // ok 1116 else if (StrTok.isNot(tok::string_literal)) { 1117 Diag(StrTok, diag::err_pp_linemarker_invalid_filename); 1118 return DiscardUntilEndOfDirective(); 1119 } else if (StrTok.hasUDSuffix()) { 1120 Diag(StrTok, diag::err_invalid_string_udl); 1121 return DiscardUntilEndOfDirective(); 1122 } else { 1123 // Parse and validate the string, converting it into a unique ID. 1124 StringLiteralParser Literal(&StrTok, 1, *this); 1125 assert(Literal.isAscii() && "Didn't allow wide strings in"); 1126 if (Literal.hadError) 1127 return DiscardUntilEndOfDirective(); 1128 if (Literal.Pascal) { 1129 Diag(StrTok, diag::err_pp_linemarker_invalid_filename); 1130 return DiscardUntilEndOfDirective(); 1131 } 1132 FilenameID = SourceMgr.getLineTableFilenameID(Literal.GetString()); 1133 1134 // If a filename was present, read any flags that are present. 1135 if (ReadLineMarkerFlags(IsFileEntry, IsFileExit, 1136 IsSystemHeader, IsExternCHeader, *this)) 1137 return; 1138 } 1139 1140 // Create a line note with this information. 1141 SourceMgr.AddLineNote(DigitTok.getLocation(), LineNo, FilenameID, 1142 IsFileEntry, IsFileExit, 1143 IsSystemHeader, IsExternCHeader); 1144 1145 // If the preprocessor has callbacks installed, notify them of the #line 1146 // change. This is used so that the line marker comes out in -E mode for 1147 // example. 1148 if (Callbacks) { 1149 PPCallbacks::FileChangeReason Reason = PPCallbacks::RenameFile; 1150 if (IsFileEntry) 1151 Reason = PPCallbacks::EnterFile; 1152 else if (IsFileExit) 1153 Reason = PPCallbacks::ExitFile; 1154 SrcMgr::CharacteristicKind FileKind = SrcMgr::C_User; 1155 if (IsExternCHeader) 1156 FileKind = SrcMgr::C_ExternCSystem; 1157 else if (IsSystemHeader) 1158 FileKind = SrcMgr::C_System; 1159 1160 Callbacks->FileChanged(CurPPLexer->getSourceLocation(), Reason, FileKind); 1161 } 1162 } 1163 1164 1165 /// HandleUserDiagnosticDirective - Handle a #warning or #error directive. 1166 /// 1167 void Preprocessor::HandleUserDiagnosticDirective(Token &Tok, 1168 bool isWarning) { 1169 // PTH doesn't emit #warning or #error directives. 1170 if (CurPTHLexer) 1171 return CurPTHLexer->DiscardToEndOfLine(); 1172 1173 // Read the rest of the line raw. We do this because we don't want macros 1174 // to be expanded and we don't require that the tokens be valid preprocessing 1175 // tokens. For example, this is allowed: "#warning ` 'foo". GCC does 1176 // collapse multiple consequtive white space between tokens, but this isn't 1177 // specified by the standard. 1178 SmallString<128> Message; 1179 CurLexer->ReadToEndOfLine(&Message); 1180 1181 // Find the first non-whitespace character, so that we can make the 1182 // diagnostic more succinct. 1183 StringRef Msg = Message.str().ltrim(" "); 1184 1185 if (isWarning) 1186 Diag(Tok, diag::pp_hash_warning) << Msg; 1187 else 1188 Diag(Tok, diag::err_pp_hash_error) << Msg; 1189 } 1190 1191 /// HandleIdentSCCSDirective - Handle a #ident/#sccs directive. 1192 /// 1193 void Preprocessor::HandleIdentSCCSDirective(Token &Tok) { 1194 // Yes, this directive is an extension. 1195 Diag(Tok, diag::ext_pp_ident_directive); 1196 1197 // Read the string argument. 1198 Token StrTok; 1199 Lex(StrTok); 1200 1201 // If the token kind isn't a string, it's a malformed directive. 1202 if (StrTok.isNot(tok::string_literal) && 1203 StrTok.isNot(tok::wide_string_literal)) { 1204 Diag(StrTok, diag::err_pp_malformed_ident); 1205 if (StrTok.isNot(tok::eod)) 1206 DiscardUntilEndOfDirective(); 1207 return; 1208 } 1209 1210 if (StrTok.hasUDSuffix()) { 1211 Diag(StrTok, diag::err_invalid_string_udl); 1212 return DiscardUntilEndOfDirective(); 1213 } 1214 1215 // Verify that there is nothing after the string, other than EOD. 1216 CheckEndOfDirective("ident"); 1217 1218 if (Callbacks) { 1219 bool Invalid = false; 1220 std::string Str = getSpelling(StrTok, &Invalid); 1221 if (!Invalid) 1222 Callbacks->Ident(Tok.getLocation(), Str); 1223 } 1224 } 1225 1226 /// \brief Handle a #public directive. 1227 void Preprocessor::HandleMacroPublicDirective(Token &Tok) { 1228 Token MacroNameTok; 1229 ReadMacroName(MacroNameTok, 2); 1230 1231 // Error reading macro name? If so, diagnostic already issued. 1232 if (MacroNameTok.is(tok::eod)) 1233 return; 1234 1235 // Check to see if this is the last token on the #__public_macro line. 1236 CheckEndOfDirective("__public_macro"); 1237 1238 IdentifierInfo *II = MacroNameTok.getIdentifierInfo(); 1239 // Okay, we finally have a valid identifier to undef. 1240 MacroDirective *MD = getMacroDirective(II); 1241 1242 // If the macro is not defined, this is an error. 1243 if (MD == 0) { 1244 Diag(MacroNameTok, diag::err_pp_visibility_non_macro) << II; 1245 return; 1246 } 1247 1248 // Note that this macro has now been exported. 1249 appendMacroDirective(II, AllocateVisibilityMacroDirective( 1250 MacroNameTok.getLocation(), /*IsPublic=*/true)); 1251 } 1252 1253 /// \brief Handle a #private directive. 1254 void Preprocessor::HandleMacroPrivateDirective(Token &Tok) { 1255 Token MacroNameTok; 1256 ReadMacroName(MacroNameTok, 2); 1257 1258 // Error reading macro name? If so, diagnostic already issued. 1259 if (MacroNameTok.is(tok::eod)) 1260 return; 1261 1262 // Check to see if this is the last token on the #__private_macro line. 1263 CheckEndOfDirective("__private_macro"); 1264 1265 IdentifierInfo *II = MacroNameTok.getIdentifierInfo(); 1266 // Okay, we finally have a valid identifier to undef. 1267 MacroDirective *MD = getMacroDirective(II); 1268 1269 // If the macro is not defined, this is an error. 1270 if (MD == 0) { 1271 Diag(MacroNameTok, diag::err_pp_visibility_non_macro) << II; 1272 return; 1273 } 1274 1275 // Note that this macro has now been marked private. 1276 appendMacroDirective(II, AllocateVisibilityMacroDirective( 1277 MacroNameTok.getLocation(), /*IsPublic=*/false)); 1278 } 1279 1280 //===----------------------------------------------------------------------===// 1281 // Preprocessor Include Directive Handling. 1282 //===----------------------------------------------------------------------===// 1283 1284 /// GetIncludeFilenameSpelling - Turn the specified lexer token into a fully 1285 /// checked and spelled filename, e.g. as an operand of \#include. This returns 1286 /// true if the input filename was in <>'s or false if it were in ""'s. The 1287 /// caller is expected to provide a buffer that is large enough to hold the 1288 /// spelling of the filename, but is also expected to handle the case when 1289 /// this method decides to use a different buffer. 1290 bool Preprocessor::GetIncludeFilenameSpelling(SourceLocation Loc, 1291 StringRef &Buffer) { 1292 // Get the text form of the filename. 1293 assert(!Buffer.empty() && "Can't have tokens with empty spellings!"); 1294 1295 // Make sure the filename is <x> or "x". 1296 bool isAngled; 1297 if (Buffer[0] == '<') { 1298 if (Buffer.back() != '>') { 1299 Diag(Loc, diag::err_pp_expects_filename); 1300 Buffer = StringRef(); 1301 return true; 1302 } 1303 isAngled = true; 1304 } else if (Buffer[0] == '"') { 1305 if (Buffer.back() != '"') { 1306 Diag(Loc, diag::err_pp_expects_filename); 1307 Buffer = StringRef(); 1308 return true; 1309 } 1310 isAngled = false; 1311 } else { 1312 Diag(Loc, diag::err_pp_expects_filename); 1313 Buffer = StringRef(); 1314 return true; 1315 } 1316 1317 // Diagnose #include "" as invalid. 1318 if (Buffer.size() <= 2) { 1319 Diag(Loc, diag::err_pp_empty_filename); 1320 Buffer = StringRef(); 1321 return true; 1322 } 1323 1324 // Skip the brackets. 1325 Buffer = Buffer.substr(1, Buffer.size()-2); 1326 return isAngled; 1327 } 1328 1329 // \brief Handle cases where the \#include name is expanded from a macro 1330 // as multiple tokens, which need to be glued together. 1331 // 1332 // This occurs for code like: 1333 // \code 1334 // \#define FOO <a/b.h> 1335 // \#include FOO 1336 // \endcode 1337 // because in this case, "<a/b.h>" is returned as 7 tokens, not one. 1338 // 1339 // This code concatenates and consumes tokens up to the '>' token. It returns 1340 // false if the > was found, otherwise it returns true if it finds and consumes 1341 // the EOD marker. 1342 bool Preprocessor::ConcatenateIncludeName(SmallString<128> &FilenameBuffer, 1343 SourceLocation &End) { 1344 Token CurTok; 1345 1346 Lex(CurTok); 1347 while (CurTok.isNot(tok::eod)) { 1348 End = CurTok.getLocation(); 1349 1350 // FIXME: Provide code completion for #includes. 1351 if (CurTok.is(tok::code_completion)) { 1352 setCodeCompletionReached(); 1353 Lex(CurTok); 1354 continue; 1355 } 1356 1357 // Append the spelling of this token to the buffer. If there was a space 1358 // before it, add it now. 1359 if (CurTok.hasLeadingSpace()) 1360 FilenameBuffer.push_back(' '); 1361 1362 // Get the spelling of the token, directly into FilenameBuffer if possible. 1363 unsigned PreAppendSize = FilenameBuffer.size(); 1364 FilenameBuffer.resize(PreAppendSize+CurTok.getLength()); 1365 1366 const char *BufPtr = &FilenameBuffer[PreAppendSize]; 1367 unsigned ActualLen = getSpelling(CurTok, BufPtr); 1368 1369 // If the token was spelled somewhere else, copy it into FilenameBuffer. 1370 if (BufPtr != &FilenameBuffer[PreAppendSize]) 1371 memcpy(&FilenameBuffer[PreAppendSize], BufPtr, ActualLen); 1372 1373 // Resize FilenameBuffer to the correct size. 1374 if (CurTok.getLength() != ActualLen) 1375 FilenameBuffer.resize(PreAppendSize+ActualLen); 1376 1377 // If we found the '>' marker, return success. 1378 if (CurTok.is(tok::greater)) 1379 return false; 1380 1381 Lex(CurTok); 1382 } 1383 1384 // If we hit the eod marker, emit an error and return true so that the caller 1385 // knows the EOD has been read. 1386 Diag(CurTok.getLocation(), diag::err_pp_expects_filename); 1387 return true; 1388 } 1389 1390 /// \brief Push a token onto the token stream containing an annotation. 1391 static void EnterAnnotationToken(Preprocessor &PP, 1392 SourceLocation Begin, SourceLocation End, 1393 tok::TokenKind Kind, void *AnnotationVal) { 1394 Token *Tok = new Token[1]; 1395 Tok[0].startToken(); 1396 Tok[0].setKind(Kind); 1397 Tok[0].setLocation(Begin); 1398 Tok[0].setAnnotationEndLoc(End); 1399 Tok[0].setAnnotationValue(AnnotationVal); 1400 PP.EnterTokenStream(Tok, 1, true, true); 1401 } 1402 1403 /// HandleIncludeDirective - The "\#include" tokens have just been read, read 1404 /// the file to be included from the lexer, then include it! This is a common 1405 /// routine with functionality shared between \#include, \#include_next and 1406 /// \#import. LookupFrom is set when this is a \#include_next directive, it 1407 /// specifies the file to start searching from. 1408 void Preprocessor::HandleIncludeDirective(SourceLocation HashLoc, 1409 Token &IncludeTok, 1410 const DirectoryLookup *LookupFrom, 1411 bool isImport) { 1412 1413 Token FilenameTok; 1414 CurPPLexer->LexIncludeFilename(FilenameTok); 1415 1416 // Reserve a buffer to get the spelling. 1417 SmallString<128> FilenameBuffer; 1418 StringRef Filename; 1419 SourceLocation End; 1420 SourceLocation CharEnd; // the end of this directive, in characters 1421 1422 switch (FilenameTok.getKind()) { 1423 case tok::eod: 1424 // If the token kind is EOD, the error has already been diagnosed. 1425 return; 1426 1427 case tok::angle_string_literal: 1428 case tok::string_literal: 1429 Filename = getSpelling(FilenameTok, FilenameBuffer); 1430 End = FilenameTok.getLocation(); 1431 CharEnd = End.getLocWithOffset(FilenameTok.getLength()); 1432 break; 1433 1434 case tok::less: 1435 // This could be a <foo/bar.h> file coming from a macro expansion. In this 1436 // case, glue the tokens together into FilenameBuffer and interpret those. 1437 FilenameBuffer.push_back('<'); 1438 if (ConcatenateIncludeName(FilenameBuffer, End)) 1439 return; // Found <eod> but no ">"? Diagnostic already emitted. 1440 Filename = FilenameBuffer.str(); 1441 CharEnd = End.getLocWithOffset(1); 1442 break; 1443 default: 1444 Diag(FilenameTok.getLocation(), diag::err_pp_expects_filename); 1445 DiscardUntilEndOfDirective(); 1446 return; 1447 } 1448 1449 CharSourceRange FilenameRange 1450 = CharSourceRange::getCharRange(FilenameTok.getLocation(), CharEnd); 1451 StringRef OriginalFilename = Filename; 1452 bool isAngled = 1453 GetIncludeFilenameSpelling(FilenameTok.getLocation(), Filename); 1454 // If GetIncludeFilenameSpelling set the start ptr to null, there was an 1455 // error. 1456 if (Filename.empty()) { 1457 DiscardUntilEndOfDirective(); 1458 return; 1459 } 1460 1461 // Verify that there is nothing after the filename, other than EOD. Note that 1462 // we allow macros that expand to nothing after the filename, because this 1463 // falls into the category of "#include pp-tokens new-line" specified in 1464 // C99 6.10.2p4. 1465 CheckEndOfDirective(IncludeTok.getIdentifierInfo()->getNameStart(), true); 1466 1467 // Check that we don't have infinite #include recursion. 1468 if (IncludeMacroStack.size() == MaxAllowedIncludeStackDepth-1) { 1469 Diag(FilenameTok, diag::err_pp_include_too_deep); 1470 return; 1471 } 1472 1473 // Complain about attempts to #include files in an audit pragma. 1474 if (PragmaARCCFCodeAuditedLoc.isValid()) { 1475 Diag(HashLoc, diag::err_pp_include_in_arc_cf_code_audited); 1476 Diag(PragmaARCCFCodeAuditedLoc, diag::note_pragma_entered_here); 1477 1478 // Immediately leave the pragma. 1479 PragmaARCCFCodeAuditedLoc = SourceLocation(); 1480 } 1481 1482 if (HeaderInfo.HasIncludeAliasMap()) { 1483 // Map the filename with the brackets still attached. If the name doesn't 1484 // map to anything, fall back on the filename we've already gotten the 1485 // spelling for. 1486 StringRef NewName = HeaderInfo.MapHeaderToIncludeAlias(OriginalFilename); 1487 if (!NewName.empty()) 1488 Filename = NewName; 1489 } 1490 1491 // Search include directories. 1492 const DirectoryLookup *CurDir; 1493 SmallString<1024> SearchPath; 1494 SmallString<1024> RelativePath; 1495 // We get the raw path only if we have 'Callbacks' to which we later pass 1496 // the path. 1497 ModuleMap::KnownHeader SuggestedModule; 1498 SourceLocation FilenameLoc = FilenameTok.getLocation(); 1499 const FileEntry *File = LookupFile( 1500 FilenameLoc, Filename, isAngled, LookupFrom, CurDir, 1501 Callbacks ? &SearchPath : NULL, Callbacks ? &RelativePath : NULL, 1502 HeaderInfo.getHeaderSearchOpts().ModuleMaps ? &SuggestedModule : 0); 1503 1504 if (Callbacks) { 1505 if (!File) { 1506 // Give the clients a chance to recover. 1507 SmallString<128> RecoveryPath; 1508 if (Callbacks->FileNotFound(Filename, RecoveryPath)) { 1509 if (const DirectoryEntry *DE = FileMgr.getDirectory(RecoveryPath)) { 1510 // Add the recovery path to the list of search paths. 1511 DirectoryLookup DL(DE, SrcMgr::C_User, false); 1512 HeaderInfo.AddSearchPath(DL, isAngled); 1513 1514 // Try the lookup again, skipping the cache. 1515 File = LookupFile(FilenameLoc, Filename, isAngled, LookupFrom, CurDir, 1516 0, 0, HeaderInfo.getHeaderSearchOpts().ModuleMaps 1517 ? &SuggestedModule 1518 : 0, 1519 /*SkipCache*/ true); 1520 } 1521 } 1522 } 1523 1524 if (!SuggestedModule || !getLangOpts().Modules) { 1525 // Notify the callback object that we've seen an inclusion directive. 1526 Callbacks->InclusionDirective(HashLoc, IncludeTok, Filename, isAngled, 1527 FilenameRange, File, 1528 SearchPath, RelativePath, 1529 /*ImportedModule=*/0); 1530 } 1531 } 1532 1533 if (File == 0) { 1534 if (!SuppressIncludeNotFoundError) { 1535 // If the file could not be located and it was included via angle 1536 // brackets, we can attempt a lookup as though it were a quoted path to 1537 // provide the user with a possible fixit. 1538 if (isAngled) { 1539 File = LookupFile( 1540 FilenameLoc, Filename, false, LookupFrom, CurDir, 1541 Callbacks ? &SearchPath : 0, Callbacks ? &RelativePath : 0, 1542 HeaderInfo.getHeaderSearchOpts().ModuleMaps ? &SuggestedModule : 0); 1543 if (File) { 1544 SourceRange Range(FilenameTok.getLocation(), CharEnd); 1545 Diag(FilenameTok, diag::err_pp_file_not_found_not_fatal) << 1546 Filename << 1547 FixItHint::CreateReplacement(Range, "\"" + Filename.str() + "\""); 1548 } 1549 } 1550 // If the file is still not found, just go with the vanilla diagnostic 1551 if (!File) 1552 Diag(FilenameTok, diag::err_pp_file_not_found) << Filename; 1553 } 1554 if (!File) 1555 return; 1556 } 1557 1558 // If we are supposed to import a module rather than including the header, 1559 // do so now. 1560 if (SuggestedModule && getLangOpts().Modules) { 1561 // Compute the module access path corresponding to this module. 1562 // FIXME: Should we have a second loadModule() overload to avoid this 1563 // extra lookup step? 1564 SmallVector<std::pair<IdentifierInfo *, SourceLocation>, 2> Path; 1565 for (Module *Mod = SuggestedModule.getModule(); Mod; Mod = Mod->Parent) 1566 Path.push_back(std::make_pair(getIdentifierInfo(Mod->Name), 1567 FilenameTok.getLocation())); 1568 std::reverse(Path.begin(), Path.end()); 1569 1570 // Warn that we're replacing the include/import with a module import. 1571 SmallString<128> PathString; 1572 for (unsigned I = 0, N = Path.size(); I != N; ++I) { 1573 if (I) 1574 PathString += '.'; 1575 PathString += Path[I].first->getName(); 1576 } 1577 int IncludeKind = 0; 1578 1579 switch (IncludeTok.getIdentifierInfo()->getPPKeywordID()) { 1580 case tok::pp_include: 1581 IncludeKind = 0; 1582 break; 1583 1584 case tok::pp_import: 1585 IncludeKind = 1; 1586 break; 1587 1588 case tok::pp_include_next: 1589 IncludeKind = 2; 1590 break; 1591 1592 case tok::pp___include_macros: 1593 IncludeKind = 3; 1594 break; 1595 1596 default: 1597 llvm_unreachable("unknown include directive kind"); 1598 } 1599 1600 // Determine whether we are actually building the module that this 1601 // include directive maps to. 1602 bool BuildingImportedModule 1603 = Path[0].first->getName() == getLangOpts().CurrentModule; 1604 1605 if (!BuildingImportedModule && getLangOpts().ObjC2) { 1606 // If we're not building the imported module, warn that we're going 1607 // to automatically turn this inclusion directive into a module import. 1608 // We only do this in Objective-C, where we have a module-import syntax. 1609 CharSourceRange ReplaceRange(SourceRange(HashLoc, CharEnd), 1610 /*IsTokenRange=*/false); 1611 Diag(HashLoc, diag::warn_auto_module_import) 1612 << IncludeKind << PathString 1613 << FixItHint::CreateReplacement(ReplaceRange, 1614 "@import " + PathString.str().str() + ";"); 1615 } 1616 1617 // Load the module. Only make macros visible. We'll make the declarations 1618 // visible when the parser gets here. 1619 Module::NameVisibilityKind Visibility = Module::MacrosVisible; 1620 ModuleLoadResult Imported 1621 = TheModuleLoader.loadModule(IncludeTok.getLocation(), Path, Visibility, 1622 /*IsIncludeDirective=*/true); 1623 assert((Imported == 0 || Imported == SuggestedModule.getModule()) && 1624 "the imported module is different than the suggested one"); 1625 1626 if (!Imported && hadModuleLoaderFatalFailure()) { 1627 // With a fatal failure in the module loader, we abort parsing. 1628 Token &Result = IncludeTok; 1629 if (CurLexer) { 1630 Result.startToken(); 1631 CurLexer->FormTokenWithChars(Result, CurLexer->BufferEnd, tok::eof); 1632 CurLexer->cutOffLexing(); 1633 } else { 1634 assert(CurPTHLexer && "#include but no current lexer set!"); 1635 CurPTHLexer->getEOF(Result); 1636 } 1637 return; 1638 } 1639 1640 // If this header isn't part of the module we're building, we're done. 1641 if (!BuildingImportedModule && Imported) { 1642 if (Callbacks) { 1643 Callbacks->InclusionDirective(HashLoc, IncludeTok, Filename, isAngled, 1644 FilenameRange, File, 1645 SearchPath, RelativePath, Imported); 1646 } 1647 1648 if (IncludeKind != 3) { 1649 // Let the parser know that we hit a module import, and it should 1650 // make the module visible. 1651 // FIXME: Produce this as the current token directly, rather than 1652 // allocating a new token for it. 1653 EnterAnnotationToken(*this, HashLoc, End, tok::annot_module_include, 1654 Imported); 1655 } 1656 return; 1657 } 1658 1659 // If we failed to find a submodule that we expected to find, we can 1660 // continue. Otherwise, there's an error in the included file, so we 1661 // don't want to include it. 1662 if (!BuildingImportedModule && !Imported.isMissingExpected()) { 1663 return; 1664 } 1665 } 1666 1667 if (Callbacks && SuggestedModule) { 1668 // We didn't notify the callback object that we've seen an inclusion 1669 // directive before. Now that we are parsing the include normally and not 1670 // turning it to a module import, notify the callback object. 1671 Callbacks->InclusionDirective(HashLoc, IncludeTok, Filename, isAngled, 1672 FilenameRange, File, 1673 SearchPath, RelativePath, 1674 /*ImportedModule=*/0); 1675 } 1676 1677 // The #included file will be considered to be a system header if either it is 1678 // in a system include directory, or if the #includer is a system include 1679 // header. 1680 SrcMgr::CharacteristicKind FileCharacter = 1681 std::max(HeaderInfo.getFileDirFlavor(File), 1682 SourceMgr.getFileCharacteristic(FilenameTok.getLocation())); 1683 1684 // Ask HeaderInfo if we should enter this #include file. If not, #including 1685 // this file will have no effect. 1686 if (!HeaderInfo.ShouldEnterIncludeFile(File, isImport)) { 1687 if (Callbacks) 1688 Callbacks->FileSkipped(*File, FilenameTok, FileCharacter); 1689 return; 1690 } 1691 1692 // Look up the file, create a File ID for it. 1693 SourceLocation IncludePos = End; 1694 // If the filename string was the result of macro expansions, set the include 1695 // position on the file where it will be included and after the expansions. 1696 if (IncludePos.isMacroID()) 1697 IncludePos = SourceMgr.getExpansionRange(IncludePos).second; 1698 FileID FID = SourceMgr.createFileID(File, IncludePos, FileCharacter); 1699 assert(!FID.isInvalid() && "Expected valid file ID"); 1700 1701 // Determine if we're switching to building a new submodule, and which one. 1702 ModuleMap::KnownHeader BuildingModule; 1703 if (getLangOpts().Modules && !getLangOpts().CurrentModule.empty()) { 1704 Module *RequestingModule = getModuleForLocation(FilenameLoc); 1705 BuildingModule = 1706 HeaderInfo.getModuleMap().findModuleForHeader(File, RequestingModule); 1707 } 1708 1709 // If all is good, enter the new file! 1710 EnterSourceFile(FID, CurDir, FilenameTok.getLocation(), 1711 static_cast<bool>(BuildingModule)); 1712 1713 // If we're walking into another part of the same module, let the parser 1714 // know that any future declarations are within that other submodule. 1715 if (BuildingModule) 1716 EnterAnnotationToken(*this, HashLoc, End, tok::annot_module_begin, 1717 BuildingModule.getModule()); 1718 } 1719 1720 /// HandleIncludeNextDirective - Implements \#include_next. 1721 /// 1722 void Preprocessor::HandleIncludeNextDirective(SourceLocation HashLoc, 1723 Token &IncludeNextTok) { 1724 Diag(IncludeNextTok, diag::ext_pp_include_next_directive); 1725 1726 // #include_next is like #include, except that we start searching after 1727 // the current found directory. If we can't do this, issue a 1728 // diagnostic. 1729 const DirectoryLookup *Lookup = CurDirLookup; 1730 if (isInPrimaryFile()) { 1731 Lookup = 0; 1732 Diag(IncludeNextTok, diag::pp_include_next_in_primary); 1733 } else if (Lookup == 0) { 1734 Diag(IncludeNextTok, diag::pp_include_next_absolute_path); 1735 } else { 1736 // Start looking up in the next directory. 1737 ++Lookup; 1738 } 1739 1740 return HandleIncludeDirective(HashLoc, IncludeNextTok, Lookup); 1741 } 1742 1743 /// HandleMicrosoftImportDirective - Implements \#import for Microsoft Mode 1744 void Preprocessor::HandleMicrosoftImportDirective(Token &Tok) { 1745 // The Microsoft #import directive takes a type library and generates header 1746 // files from it, and includes those. This is beyond the scope of what clang 1747 // does, so we ignore it and error out. However, #import can optionally have 1748 // trailing attributes that span multiple lines. We're going to eat those 1749 // so we can continue processing from there. 1750 Diag(Tok, diag::err_pp_import_directive_ms ); 1751 1752 // Read tokens until we get to the end of the directive. Note that the 1753 // directive can be split over multiple lines using the backslash character. 1754 DiscardUntilEndOfDirective(); 1755 } 1756 1757 /// HandleImportDirective - Implements \#import. 1758 /// 1759 void Preprocessor::HandleImportDirective(SourceLocation HashLoc, 1760 Token &ImportTok) { 1761 if (!LangOpts.ObjC1) { // #import is standard for ObjC. 1762 if (LangOpts.MicrosoftMode) 1763 return HandleMicrosoftImportDirective(ImportTok); 1764 Diag(ImportTok, diag::ext_pp_import_directive); 1765 } 1766 return HandleIncludeDirective(HashLoc, ImportTok, 0, true); 1767 } 1768 1769 /// HandleIncludeMacrosDirective - The -imacros command line option turns into a 1770 /// pseudo directive in the predefines buffer. This handles it by sucking all 1771 /// tokens through the preprocessor and discarding them (only keeping the side 1772 /// effects on the preprocessor). 1773 void Preprocessor::HandleIncludeMacrosDirective(SourceLocation HashLoc, 1774 Token &IncludeMacrosTok) { 1775 // This directive should only occur in the predefines buffer. If not, emit an 1776 // error and reject it. 1777 SourceLocation Loc = IncludeMacrosTok.getLocation(); 1778 if (strcmp(SourceMgr.getBufferName(Loc), "<built-in>") != 0) { 1779 Diag(IncludeMacrosTok.getLocation(), 1780 diag::pp_include_macros_out_of_predefines); 1781 DiscardUntilEndOfDirective(); 1782 return; 1783 } 1784 1785 // Treat this as a normal #include for checking purposes. If this is 1786 // successful, it will push a new lexer onto the include stack. 1787 HandleIncludeDirective(HashLoc, IncludeMacrosTok, 0, false); 1788 1789 Token TmpTok; 1790 do { 1791 Lex(TmpTok); 1792 assert(TmpTok.isNot(tok::eof) && "Didn't find end of -imacros!"); 1793 } while (TmpTok.isNot(tok::hashhash)); 1794 } 1795 1796 //===----------------------------------------------------------------------===// 1797 // Preprocessor Macro Directive Handling. 1798 //===----------------------------------------------------------------------===// 1799 1800 /// ReadMacroDefinitionArgList - The ( starting an argument list of a macro 1801 /// definition has just been read. Lex the rest of the arguments and the 1802 /// closing ), updating MI with what we learn. Return true if an error occurs 1803 /// parsing the arg list. 1804 bool Preprocessor::ReadMacroDefinitionArgList(MacroInfo *MI, Token &Tok) { 1805 SmallVector<IdentifierInfo*, 32> Arguments; 1806 1807 while (1) { 1808 LexUnexpandedToken(Tok); 1809 switch (Tok.getKind()) { 1810 case tok::r_paren: 1811 // Found the end of the argument list. 1812 if (Arguments.empty()) // #define FOO() 1813 return false; 1814 // Otherwise we have #define FOO(A,) 1815 Diag(Tok, diag::err_pp_expected_ident_in_arg_list); 1816 return true; 1817 case tok::ellipsis: // #define X(... -> C99 varargs 1818 if (!LangOpts.C99) 1819 Diag(Tok, LangOpts.CPlusPlus11 ? 1820 diag::warn_cxx98_compat_variadic_macro : 1821 diag::ext_variadic_macro); 1822 1823 // OpenCL v1.2 s6.9.e: variadic macros are not supported. 1824 if (LangOpts.OpenCL) { 1825 Diag(Tok, diag::err_pp_opencl_variadic_macros); 1826 return true; 1827 } 1828 1829 // Lex the token after the identifier. 1830 LexUnexpandedToken(Tok); 1831 if (Tok.isNot(tok::r_paren)) { 1832 Diag(Tok, diag::err_pp_missing_rparen_in_macro_def); 1833 return true; 1834 } 1835 // Add the __VA_ARGS__ identifier as an argument. 1836 Arguments.push_back(Ident__VA_ARGS__); 1837 MI->setIsC99Varargs(); 1838 MI->setArgumentList(&Arguments[0], Arguments.size(), BP); 1839 return false; 1840 case tok::eod: // #define X( 1841 Diag(Tok, diag::err_pp_missing_rparen_in_macro_def); 1842 return true; 1843 default: 1844 // Handle keywords and identifiers here to accept things like 1845 // #define Foo(for) for. 1846 IdentifierInfo *II = Tok.getIdentifierInfo(); 1847 if (II == 0) { 1848 // #define X(1 1849 Diag(Tok, diag::err_pp_invalid_tok_in_arg_list); 1850 return true; 1851 } 1852 1853 // If this is already used as an argument, it is used multiple times (e.g. 1854 // #define X(A,A. 1855 if (std::find(Arguments.begin(), Arguments.end(), II) != 1856 Arguments.end()) { // C99 6.10.3p6 1857 Diag(Tok, diag::err_pp_duplicate_name_in_arg_list) << II; 1858 return true; 1859 } 1860 1861 // Add the argument to the macro info. 1862 Arguments.push_back(II); 1863 1864 // Lex the token after the identifier. 1865 LexUnexpandedToken(Tok); 1866 1867 switch (Tok.getKind()) { 1868 default: // #define X(A B 1869 Diag(Tok, diag::err_pp_expected_comma_in_arg_list); 1870 return true; 1871 case tok::r_paren: // #define X(A) 1872 MI->setArgumentList(&Arguments[0], Arguments.size(), BP); 1873 return false; 1874 case tok::comma: // #define X(A, 1875 break; 1876 case tok::ellipsis: // #define X(A... -> GCC extension 1877 // Diagnose extension. 1878 Diag(Tok, diag::ext_named_variadic_macro); 1879 1880 // Lex the token after the identifier. 1881 LexUnexpandedToken(Tok); 1882 if (Tok.isNot(tok::r_paren)) { 1883 Diag(Tok, diag::err_pp_missing_rparen_in_macro_def); 1884 return true; 1885 } 1886 1887 MI->setIsGNUVarargs(); 1888 MI->setArgumentList(&Arguments[0], Arguments.size(), BP); 1889 return false; 1890 } 1891 } 1892 } 1893 } 1894 1895 /// HandleDefineDirective - Implements \#define. This consumes the entire macro 1896 /// line then lets the caller lex the next real token. 1897 void Preprocessor::HandleDefineDirective(Token &DefineTok, 1898 bool ImmediatelyAfterHeaderGuard) { 1899 ++NumDefined; 1900 1901 Token MacroNameTok; 1902 ReadMacroName(MacroNameTok, 1); 1903 1904 // Error reading macro name? If so, diagnostic already issued. 1905 if (MacroNameTok.is(tok::eod)) 1906 return; 1907 1908 Token LastTok = MacroNameTok; 1909 1910 // If we are supposed to keep comments in #defines, reenable comment saving 1911 // mode. 1912 if (CurLexer) CurLexer->SetCommentRetentionState(KeepMacroComments); 1913 1914 // Create the new macro. 1915 MacroInfo *MI = AllocateMacroInfo(MacroNameTok.getLocation()); 1916 1917 Token Tok; 1918 LexUnexpandedToken(Tok); 1919 1920 // If this is a function-like macro definition, parse the argument list, 1921 // marking each of the identifiers as being used as macro arguments. Also, 1922 // check other constraints on the first token of the macro body. 1923 if (Tok.is(tok::eod)) { 1924 if (ImmediatelyAfterHeaderGuard) { 1925 // Save this macro information since it may part of a header guard. 1926 CurPPLexer->MIOpt.SetDefinedMacro(MacroNameTok.getIdentifierInfo(), 1927 MacroNameTok.getLocation()); 1928 } 1929 // If there is no body to this macro, we have no special handling here. 1930 } else if (Tok.hasLeadingSpace()) { 1931 // This is a normal token with leading space. Clear the leading space 1932 // marker on the first token to get proper expansion. 1933 Tok.clearFlag(Token::LeadingSpace); 1934 } else if (Tok.is(tok::l_paren)) { 1935 // This is a function-like macro definition. Read the argument list. 1936 MI->setIsFunctionLike(); 1937 if (ReadMacroDefinitionArgList(MI, LastTok)) { 1938 // Forget about MI. 1939 ReleaseMacroInfo(MI); 1940 // Throw away the rest of the line. 1941 if (CurPPLexer->ParsingPreprocessorDirective) 1942 DiscardUntilEndOfDirective(); 1943 return; 1944 } 1945 1946 // If this is a definition of a variadic C99 function-like macro, not using 1947 // the GNU named varargs extension, enabled __VA_ARGS__. 1948 1949 // "Poison" __VA_ARGS__, which can only appear in the expansion of a macro. 1950 // This gets unpoisoned where it is allowed. 1951 assert(Ident__VA_ARGS__->isPoisoned() && "__VA_ARGS__ should be poisoned!"); 1952 if (MI->isC99Varargs()) 1953 Ident__VA_ARGS__->setIsPoisoned(false); 1954 1955 // Read the first token after the arg list for down below. 1956 LexUnexpandedToken(Tok); 1957 } else if (LangOpts.C99 || LangOpts.CPlusPlus11) { 1958 // C99 requires whitespace between the macro definition and the body. Emit 1959 // a diagnostic for something like "#define X+". 1960 Diag(Tok, diag::ext_c99_whitespace_required_after_macro_name); 1961 } else { 1962 // C90 6.8 TC1 says: "In the definition of an object-like macro, if the 1963 // first character of a replacement list is not a character required by 1964 // subclause 5.2.1, then there shall be white-space separation between the 1965 // identifier and the replacement list.". 5.2.1 lists this set: 1966 // "A-Za-z0-9!"#%&'()*+,_./:;<=>?[\]^_{|}~" as well as whitespace, which 1967 // is irrelevant here. 1968 bool isInvalid = false; 1969 if (Tok.is(tok::at)) // @ is not in the list above. 1970 isInvalid = true; 1971 else if (Tok.is(tok::unknown)) { 1972 // If we have an unknown token, it is something strange like "`". Since 1973 // all of valid characters would have lexed into a single character 1974 // token of some sort, we know this is not a valid case. 1975 isInvalid = true; 1976 } 1977 if (isInvalid) 1978 Diag(Tok, diag::ext_missing_whitespace_after_macro_name); 1979 else 1980 Diag(Tok, diag::warn_missing_whitespace_after_macro_name); 1981 } 1982 1983 if (!Tok.is(tok::eod)) 1984 LastTok = Tok; 1985 1986 // Read the rest of the macro body. 1987 if (MI->isObjectLike()) { 1988 // Object-like macros are very simple, just read their body. 1989 while (Tok.isNot(tok::eod)) { 1990 LastTok = Tok; 1991 MI->AddTokenToBody(Tok); 1992 // Get the next token of the macro. 1993 LexUnexpandedToken(Tok); 1994 } 1995 1996 } else { 1997 // Otherwise, read the body of a function-like macro. While we are at it, 1998 // check C99 6.10.3.2p1: ensure that # operators are followed by macro 1999 // parameters in function-like macro expansions. 2000 while (Tok.isNot(tok::eod)) { 2001 LastTok = Tok; 2002 2003 if (Tok.isNot(tok::hash) && Tok.isNot(tok::hashhash)) { 2004 MI->AddTokenToBody(Tok); 2005 2006 // Get the next token of the macro. 2007 LexUnexpandedToken(Tok); 2008 continue; 2009 } 2010 2011 // If we're in -traditional mode, then we should ignore stringification 2012 // and token pasting. Mark the tokens as unknown so as not to confuse 2013 // things. 2014 if (getLangOpts().TraditionalCPP) { 2015 Tok.setKind(tok::unknown); 2016 MI->AddTokenToBody(Tok); 2017 2018 // Get the next token of the macro. 2019 LexUnexpandedToken(Tok); 2020 continue; 2021 } 2022 2023 if (Tok.is(tok::hashhash)) { 2024 2025 // If we see token pasting, check if it looks like the gcc comma 2026 // pasting extension. We'll use this information to suppress 2027 // diagnostics later on. 2028 2029 // Get the next token of the macro. 2030 LexUnexpandedToken(Tok); 2031 2032 if (Tok.is(tok::eod)) { 2033 MI->AddTokenToBody(LastTok); 2034 break; 2035 } 2036 2037 unsigned NumTokens = MI->getNumTokens(); 2038 if (NumTokens && Tok.getIdentifierInfo() == Ident__VA_ARGS__ && 2039 MI->getReplacementToken(NumTokens-1).is(tok::comma)) 2040 MI->setHasCommaPasting(); 2041 2042 // Things look ok, add the '##' token to the macro. 2043 MI->AddTokenToBody(LastTok); 2044 continue; 2045 } 2046 2047 // Get the next token of the macro. 2048 LexUnexpandedToken(Tok); 2049 2050 // Check for a valid macro arg identifier. 2051 if (Tok.getIdentifierInfo() == 0 || 2052 MI->getArgumentNum(Tok.getIdentifierInfo()) == -1) { 2053 2054 // If this is assembler-with-cpp mode, we accept random gibberish after 2055 // the '#' because '#' is often a comment character. However, change 2056 // the kind of the token to tok::unknown so that the preprocessor isn't 2057 // confused. 2058 if (getLangOpts().AsmPreprocessor && Tok.isNot(tok::eod)) { 2059 LastTok.setKind(tok::unknown); 2060 MI->AddTokenToBody(LastTok); 2061 continue; 2062 } else { 2063 Diag(Tok, diag::err_pp_stringize_not_parameter); 2064 ReleaseMacroInfo(MI); 2065 2066 // Disable __VA_ARGS__ again. 2067 Ident__VA_ARGS__->setIsPoisoned(true); 2068 return; 2069 } 2070 } 2071 2072 // Things look ok, add the '#' and param name tokens to the macro. 2073 MI->AddTokenToBody(LastTok); 2074 MI->AddTokenToBody(Tok); 2075 LastTok = Tok; 2076 2077 // Get the next token of the macro. 2078 LexUnexpandedToken(Tok); 2079 } 2080 } 2081 2082 2083 // Disable __VA_ARGS__ again. 2084 Ident__VA_ARGS__->setIsPoisoned(true); 2085 2086 // Check that there is no paste (##) operator at the beginning or end of the 2087 // replacement list. 2088 unsigned NumTokens = MI->getNumTokens(); 2089 if (NumTokens != 0) { 2090 if (MI->getReplacementToken(0).is(tok::hashhash)) { 2091 Diag(MI->getReplacementToken(0), diag::err_paste_at_start); 2092 ReleaseMacroInfo(MI); 2093 return; 2094 } 2095 if (MI->getReplacementToken(NumTokens-1).is(tok::hashhash)) { 2096 Diag(MI->getReplacementToken(NumTokens-1), diag::err_paste_at_end); 2097 ReleaseMacroInfo(MI); 2098 return; 2099 } 2100 } 2101 2102 MI->setDefinitionEndLoc(LastTok.getLocation()); 2103 2104 // Finally, if this identifier already had a macro defined for it, verify that 2105 // the macro bodies are identical, and issue diagnostics if they are not. 2106 if (const MacroInfo *OtherMI=getMacroInfo(MacroNameTok.getIdentifierInfo())) { 2107 // It is very common for system headers to have tons of macro redefinitions 2108 // and for warnings to be disabled in system headers. If this is the case, 2109 // then don't bother calling MacroInfo::isIdenticalTo. 2110 if (!getDiagnostics().getSuppressSystemWarnings() || 2111 !SourceMgr.isInSystemHeader(DefineTok.getLocation())) { 2112 if (!OtherMI->isUsed() && OtherMI->isWarnIfUnused()) 2113 Diag(OtherMI->getDefinitionLoc(), diag::pp_macro_not_used); 2114 2115 // Warn if defining "__LINE__" and other builtins, per C99 6.10.8/4 and 2116 // C++ [cpp.predefined]p4, but allow it as an extension. 2117 if (OtherMI->isBuiltinMacro()) 2118 Diag(MacroNameTok, diag::ext_pp_redef_builtin_macro); 2119 // Macros must be identical. This means all tokens and whitespace 2120 // separation must be the same. C99 6.10.3p2. 2121 else if (!OtherMI->isAllowRedefinitionsWithoutWarning() && 2122 !MI->isIdenticalTo(*OtherMI, *this, /*Syntactic=*/LangOpts.MicrosoftExt)) { 2123 Diag(MI->getDefinitionLoc(), diag::ext_pp_macro_redef) 2124 << MacroNameTok.getIdentifierInfo(); 2125 Diag(OtherMI->getDefinitionLoc(), diag::note_previous_definition); 2126 } 2127 } 2128 if (OtherMI->isWarnIfUnused()) 2129 WarnUnusedMacroLocs.erase(OtherMI->getDefinitionLoc()); 2130 } 2131 2132 DefMacroDirective *MD = 2133 appendDefMacroDirective(MacroNameTok.getIdentifierInfo(), MI); 2134 2135 assert(!MI->isUsed()); 2136 // If we need warning for not using the macro, add its location in the 2137 // warn-because-unused-macro set. If it gets used it will be removed from set. 2138 if (getSourceManager().isInMainFile(MI->getDefinitionLoc()) && 2139 Diags->getDiagnosticLevel(diag::pp_macro_not_used, 2140 MI->getDefinitionLoc()) != DiagnosticsEngine::Ignored) { 2141 MI->setIsWarnIfUnused(true); 2142 WarnUnusedMacroLocs.insert(MI->getDefinitionLoc()); 2143 } 2144 2145 // If the callbacks want to know, tell them about the macro definition. 2146 if (Callbacks) 2147 Callbacks->MacroDefined(MacroNameTok, MD); 2148 } 2149 2150 /// HandleUndefDirective - Implements \#undef. 2151 /// 2152 void Preprocessor::HandleUndefDirective(Token &UndefTok) { 2153 ++NumUndefined; 2154 2155 Token MacroNameTok; 2156 ReadMacroName(MacroNameTok, 2); 2157 2158 // Error reading macro name? If so, diagnostic already issued. 2159 if (MacroNameTok.is(tok::eod)) 2160 return; 2161 2162 // Check to see if this is the last token on the #undef line. 2163 CheckEndOfDirective("undef"); 2164 2165 // Okay, we finally have a valid identifier to undef. 2166 MacroDirective *MD = getMacroDirective(MacroNameTok.getIdentifierInfo()); 2167 const MacroInfo *MI = MD ? MD->getMacroInfo() : 0; 2168 2169 // If the callbacks want to know, tell them about the macro #undef. 2170 // Note: no matter if the macro was defined or not. 2171 if (Callbacks) 2172 Callbacks->MacroUndefined(MacroNameTok, MD); 2173 2174 // If the macro is not defined, this is a noop undef, just return. 2175 if (MI == 0) return; 2176 2177 if (!MI->isUsed() && MI->isWarnIfUnused()) 2178 Diag(MI->getDefinitionLoc(), diag::pp_macro_not_used); 2179 2180 if (MI->isWarnIfUnused()) 2181 WarnUnusedMacroLocs.erase(MI->getDefinitionLoc()); 2182 2183 appendMacroDirective(MacroNameTok.getIdentifierInfo(), 2184 AllocateUndefMacroDirective(MacroNameTok.getLocation())); 2185 } 2186 2187 2188 //===----------------------------------------------------------------------===// 2189 // Preprocessor Conditional Directive Handling. 2190 //===----------------------------------------------------------------------===// 2191 2192 /// HandleIfdefDirective - Implements the \#ifdef/\#ifndef directive. isIfndef 2193 /// is true when this is a \#ifndef directive. ReadAnyTokensBeforeDirective is 2194 /// true if any tokens have been returned or pp-directives activated before this 2195 /// \#ifndef has been lexed. 2196 /// 2197 void Preprocessor::HandleIfdefDirective(Token &Result, bool isIfndef, 2198 bool ReadAnyTokensBeforeDirective) { 2199 ++NumIf; 2200 Token DirectiveTok = Result; 2201 2202 Token MacroNameTok; 2203 ReadMacroName(MacroNameTok); 2204 2205 // Error reading macro name? If so, diagnostic already issued. 2206 if (MacroNameTok.is(tok::eod)) { 2207 // Skip code until we get to #endif. This helps with recovery by not 2208 // emitting an error when the #endif is reached. 2209 SkipExcludedConditionalBlock(DirectiveTok.getLocation(), 2210 /*Foundnonskip*/false, /*FoundElse*/false); 2211 return; 2212 } 2213 2214 // Check to see if this is the last token on the #if[n]def line. 2215 CheckEndOfDirective(isIfndef ? "ifndef" : "ifdef"); 2216 2217 IdentifierInfo *MII = MacroNameTok.getIdentifierInfo(); 2218 MacroDirective *MD = getMacroDirective(MII); 2219 MacroInfo *MI = MD ? MD->getMacroInfo() : 0; 2220 2221 if (CurPPLexer->getConditionalStackDepth() == 0) { 2222 // If the start of a top-level #ifdef and if the macro is not defined, 2223 // inform MIOpt that this might be the start of a proper include guard. 2224 // Otherwise it is some other form of unknown conditional which we can't 2225 // handle. 2226 if (!ReadAnyTokensBeforeDirective && MI == 0) { 2227 assert(isIfndef && "#ifdef shouldn't reach here"); 2228 CurPPLexer->MIOpt.EnterTopLevelIfndef(MII, MacroNameTok.getLocation()); 2229 } else 2230 CurPPLexer->MIOpt.EnterTopLevelConditional(); 2231 } 2232 2233 // If there is a macro, process it. 2234 if (MI) // Mark it used. 2235 markMacroAsUsed(MI); 2236 2237 if (Callbacks) { 2238 if (isIfndef) 2239 Callbacks->Ifndef(DirectiveTok.getLocation(), MacroNameTok, MD); 2240 else 2241 Callbacks->Ifdef(DirectiveTok.getLocation(), MacroNameTok, MD); 2242 } 2243 2244 // Should we include the stuff contained by this directive? 2245 if (!MI == isIfndef) { 2246 // Yes, remember that we are inside a conditional, then lex the next token. 2247 CurPPLexer->pushConditionalLevel(DirectiveTok.getLocation(), 2248 /*wasskip*/false, /*foundnonskip*/true, 2249 /*foundelse*/false); 2250 } else { 2251 // No, skip the contents of this block. 2252 SkipExcludedConditionalBlock(DirectiveTok.getLocation(), 2253 /*Foundnonskip*/false, 2254 /*FoundElse*/false); 2255 } 2256 } 2257 2258 /// HandleIfDirective - Implements the \#if directive. 2259 /// 2260 void Preprocessor::HandleIfDirective(Token &IfToken, 2261 bool ReadAnyTokensBeforeDirective) { 2262 ++NumIf; 2263 2264 // Parse and evaluate the conditional expression. 2265 IdentifierInfo *IfNDefMacro = 0; 2266 const SourceLocation ConditionalBegin = CurPPLexer->getSourceLocation(); 2267 const bool ConditionalTrue = EvaluateDirectiveExpression(IfNDefMacro); 2268 const SourceLocation ConditionalEnd = CurPPLexer->getSourceLocation(); 2269 2270 // If this condition is equivalent to #ifndef X, and if this is the first 2271 // directive seen, handle it for the multiple-include optimization. 2272 if (CurPPLexer->getConditionalStackDepth() == 0) { 2273 if (!ReadAnyTokensBeforeDirective && IfNDefMacro && ConditionalTrue) 2274 // FIXME: Pass in the location of the macro name, not the 'if' token. 2275 CurPPLexer->MIOpt.EnterTopLevelIfndef(IfNDefMacro, IfToken.getLocation()); 2276 else 2277 CurPPLexer->MIOpt.EnterTopLevelConditional(); 2278 } 2279 2280 if (Callbacks) 2281 Callbacks->If(IfToken.getLocation(), 2282 SourceRange(ConditionalBegin, ConditionalEnd), 2283 ConditionalTrue); 2284 2285 // Should we include the stuff contained by this directive? 2286 if (ConditionalTrue) { 2287 // Yes, remember that we are inside a conditional, then lex the next token. 2288 CurPPLexer->pushConditionalLevel(IfToken.getLocation(), /*wasskip*/false, 2289 /*foundnonskip*/true, /*foundelse*/false); 2290 } else { 2291 // No, skip the contents of this block. 2292 SkipExcludedConditionalBlock(IfToken.getLocation(), /*Foundnonskip*/false, 2293 /*FoundElse*/false); 2294 } 2295 } 2296 2297 /// HandleEndifDirective - Implements the \#endif directive. 2298 /// 2299 void Preprocessor::HandleEndifDirective(Token &EndifToken) { 2300 ++NumEndif; 2301 2302 // Check that this is the whole directive. 2303 CheckEndOfDirective("endif"); 2304 2305 PPConditionalInfo CondInfo; 2306 if (CurPPLexer->popConditionalLevel(CondInfo)) { 2307 // No conditionals on the stack: this is an #endif without an #if. 2308 Diag(EndifToken, diag::err_pp_endif_without_if); 2309 return; 2310 } 2311 2312 // If this the end of a top-level #endif, inform MIOpt. 2313 if (CurPPLexer->getConditionalStackDepth() == 0) 2314 CurPPLexer->MIOpt.ExitTopLevelConditional(); 2315 2316 assert(!CondInfo.WasSkipping && !CurPPLexer->LexingRawMode && 2317 "This code should only be reachable in the non-skipping case!"); 2318 2319 if (Callbacks) 2320 Callbacks->Endif(EndifToken.getLocation(), CondInfo.IfLoc); 2321 } 2322 2323 /// HandleElseDirective - Implements the \#else directive. 2324 /// 2325 void Preprocessor::HandleElseDirective(Token &Result) { 2326 ++NumElse; 2327 2328 // #else directive in a non-skipping conditional... start skipping. 2329 CheckEndOfDirective("else"); 2330 2331 PPConditionalInfo CI; 2332 if (CurPPLexer->popConditionalLevel(CI)) { 2333 Diag(Result, diag::pp_err_else_without_if); 2334 return; 2335 } 2336 2337 // If this is a top-level #else, inform the MIOpt. 2338 if (CurPPLexer->getConditionalStackDepth() == 0) 2339 CurPPLexer->MIOpt.EnterTopLevelConditional(); 2340 2341 // If this is a #else with a #else before it, report the error. 2342 if (CI.FoundElse) Diag(Result, diag::pp_err_else_after_else); 2343 2344 if (Callbacks) 2345 Callbacks->Else(Result.getLocation(), CI.IfLoc); 2346 2347 // Finally, skip the rest of the contents of this block. 2348 SkipExcludedConditionalBlock(CI.IfLoc, /*Foundnonskip*/true, 2349 /*FoundElse*/true, Result.getLocation()); 2350 } 2351 2352 /// HandleElifDirective - Implements the \#elif directive. 2353 /// 2354 void Preprocessor::HandleElifDirective(Token &ElifToken) { 2355 ++NumElse; 2356 2357 // #elif directive in a non-skipping conditional... start skipping. 2358 // We don't care what the condition is, because we will always skip it (since 2359 // the block immediately before it was included). 2360 const SourceLocation ConditionalBegin = CurPPLexer->getSourceLocation(); 2361 DiscardUntilEndOfDirective(); 2362 const SourceLocation ConditionalEnd = CurPPLexer->getSourceLocation(); 2363 2364 PPConditionalInfo CI; 2365 if (CurPPLexer->popConditionalLevel(CI)) { 2366 Diag(ElifToken, diag::pp_err_elif_without_if); 2367 return; 2368 } 2369 2370 // If this is a top-level #elif, inform the MIOpt. 2371 if (CurPPLexer->getConditionalStackDepth() == 0) 2372 CurPPLexer->MIOpt.EnterTopLevelConditional(); 2373 2374 // If this is a #elif with a #else before it, report the error. 2375 if (CI.FoundElse) Diag(ElifToken, diag::pp_err_elif_after_else); 2376 2377 if (Callbacks) 2378 Callbacks->Elif(ElifToken.getLocation(), 2379 SourceRange(ConditionalBegin, ConditionalEnd), 2380 true, CI.IfLoc); 2381 2382 // Finally, skip the rest of the contents of this block. 2383 SkipExcludedConditionalBlock(CI.IfLoc, /*Foundnonskip*/true, 2384 /*FoundElse*/CI.FoundElse, 2385 ElifToken.getLocation()); 2386 } 2387