xref: /freebsd/contrib/llvm-project/clang/lib/Lex/DependencyDirectivesScanner.cpp (revision a4e5e0106ac7145f56eb39a691e302cabb4635be)
1 //===- DependencyDirectivesScanner.cpp ------------------------------------===//
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 /// \file
10 /// This is the interface for scanning header and source files to get the
11 /// minimum necessary preprocessor directives for evaluating includes. It
12 /// reduces the source down to #define, #include, #import, @import, and any
13 /// conditional preprocessor logic that contains one of those.
14 ///
15 //===----------------------------------------------------------------------===//
16 
17 #include "clang/Lex/DependencyDirectivesScanner.h"
18 #include "clang/Basic/CharInfo.h"
19 #include "clang/Basic/Diagnostic.h"
20 #include "clang/Lex/LexDiagnostic.h"
21 #include "clang/Lex/Lexer.h"
22 #include "clang/Lex/Pragma.h"
23 #include "llvm/ADT/ScopeExit.h"
24 #include "llvm/ADT/SmallString.h"
25 #include "llvm/ADT/StringMap.h"
26 #include "llvm/ADT/StringSwitch.h"
27 #include <optional>
28 
29 using namespace clang;
30 using namespace clang::dependency_directives_scan;
31 using namespace llvm;
32 
33 namespace {
34 
35 struct DirectiveWithTokens {
36   DirectiveKind Kind;
37   unsigned NumTokens;
38 
39   DirectiveWithTokens(DirectiveKind Kind, unsigned NumTokens)
40       : Kind(Kind), NumTokens(NumTokens) {}
41 };
42 
43 /// Does an efficient "scan" of the sources to detect the presence of
44 /// preprocessor (or module import) directives and collects the raw lexed tokens
45 /// for those directives so that the \p Lexer can "replay" them when the file is
46 /// included.
47 ///
48 /// Note that the behavior of the raw lexer is affected by the language mode,
49 /// while at this point we want to do a scan and collect tokens once,
50 /// irrespective of the language mode that the file will get included in. To
51 /// compensate for that the \p Lexer, while "replaying", will adjust a token
52 /// where appropriate, when it could affect the preprocessor's state.
53 /// For example in a directive like
54 ///
55 /// \code
56 ///   #if __has_cpp_attribute(clang::fallthrough)
57 /// \endcode
58 ///
59 /// The preprocessor needs to see '::' as 'tok::coloncolon' instead of 2
60 /// 'tok::colon'. The \p Lexer will adjust if it sees consecutive 'tok::colon'
61 /// while in C++ mode.
62 struct Scanner {
63   Scanner(StringRef Input,
64           SmallVectorImpl<dependency_directives_scan::Token> &Tokens,
65           DiagnosticsEngine *Diags, SourceLocation InputSourceLoc)
66       : Input(Input), Tokens(Tokens), Diags(Diags),
67         InputSourceLoc(InputSourceLoc), LangOpts(getLangOptsForDepScanning()),
68         TheLexer(InputSourceLoc, LangOpts, Input.begin(), Input.begin(),
69                  Input.end()) {}
70 
71   static LangOptions getLangOptsForDepScanning() {
72     LangOptions LangOpts;
73     // Set the lexer to use 'tok::at' for '@', instead of 'tok::unknown'.
74     LangOpts.ObjC = true;
75     LangOpts.LineComment = true;
76     // FIXME: we do not enable C11 or C++11, so we are missing u/u8/U"" and
77     // R"()" literals.
78     return LangOpts;
79   }
80 
81   /// Lex the provided source and emit the directive tokens.
82   ///
83   /// \returns True on error.
84   bool scan(SmallVectorImpl<Directive> &Directives);
85 
86 private:
87   /// Lexes next token and advances \p First and the \p Lexer.
88   [[nodiscard]] dependency_directives_scan::Token &
89   lexToken(const char *&First, const char *const End);
90 
91   dependency_directives_scan::Token &lexIncludeFilename(const char *&First,
92                                                         const char *const End);
93 
94   void skipLine(const char *&First, const char *const End);
95   void skipDirective(StringRef Name, const char *&First, const char *const End);
96 
97   /// Returns the spelling of a string literal or identifier after performing
98   /// any processing needed to handle \c clang::Token::NeedsCleaning.
99   StringRef cleanStringIfNeeded(const dependency_directives_scan::Token &Tok);
100 
101   /// Lexes next token and if it is identifier returns its string, otherwise
102   /// it skips the current line and returns \p std::nullopt.
103   ///
104   /// In any case (whatever the token kind) \p First and the \p Lexer will
105   /// advance beyond the token.
106   [[nodiscard]] std::optional<StringRef>
107   tryLexIdentifierOrSkipLine(const char *&First, const char *const End);
108 
109   /// Used when it is certain that next token is an identifier.
110   [[nodiscard]] StringRef lexIdentifier(const char *&First,
111                                         const char *const End);
112 
113   /// Lexes next token and returns true iff it is an identifier that matches \p
114   /// Id, otherwise it skips the current line and returns false.
115   ///
116   /// In any case (whatever the token kind) \p First and the \p Lexer will
117   /// advance beyond the token.
118   [[nodiscard]] bool isNextIdentifierOrSkipLine(StringRef Id,
119                                                 const char *&First,
120                                                 const char *const End);
121 
122   /// Lexes next token and returns true iff it matches the kind \p K.
123   /// Otherwise it skips the current line and returns false.
124   ///
125   /// In any case (whatever the token kind) \p First and the \p Lexer will
126   /// advance beyond the token.
127   [[nodiscard]] bool isNextTokenOrSkipLine(tok::TokenKind K, const char *&First,
128                                            const char *const End);
129 
130   /// Lexes next token and if it is string literal, returns its string.
131   /// Otherwise, it skips the current line and returns \p std::nullopt.
132   ///
133   /// In any case (whatever the token kind) \p First and the \p Lexer will
134   /// advance beyond the token.
135   [[nodiscard]] std::optional<StringRef>
136   tryLexStringLiteralOrSkipLine(const char *&First, const char *const End);
137 
138   [[nodiscard]] bool scanImpl(const char *First, const char *const End);
139   [[nodiscard]] bool lexPPLine(const char *&First, const char *const End);
140   [[nodiscard]] bool lexAt(const char *&First, const char *const End);
141   [[nodiscard]] bool lexModule(const char *&First, const char *const End);
142   [[nodiscard]] bool lexDefine(const char *HashLoc, const char *&First,
143                                const char *const End);
144   [[nodiscard]] bool lexPragma(const char *&First, const char *const End);
145   [[nodiscard]] bool lex_Pragma(const char *&First, const char *const End);
146   [[nodiscard]] bool lexEndif(const char *&First, const char *const End);
147   [[nodiscard]] bool lexDefault(DirectiveKind Kind, const char *&First,
148                                 const char *const End);
149   [[nodiscard]] bool lexModuleDirectiveBody(DirectiveKind Kind,
150                                             const char *&First,
151                                             const char *const End);
152   void lexPPDirectiveBody(const char *&First, const char *const End);
153 
154   DirectiveWithTokens &pushDirective(DirectiveKind Kind) {
155     Tokens.append(CurDirToks);
156     DirsWithToks.emplace_back(Kind, CurDirToks.size());
157     CurDirToks.clear();
158     return DirsWithToks.back();
159   }
160   void popDirective() {
161     Tokens.pop_back_n(DirsWithToks.pop_back_val().NumTokens);
162   }
163   DirectiveKind topDirective() const {
164     return DirsWithToks.empty() ? pp_none : DirsWithToks.back().Kind;
165   }
166 
167   unsigned getOffsetAt(const char *CurPtr) const {
168     return CurPtr - Input.data();
169   }
170 
171   /// Reports a diagnostic if the diagnostic engine is provided. Always returns
172   /// true at the end.
173   bool reportError(const char *CurPtr, unsigned Err);
174 
175   StringMap<char> SplitIds;
176   StringRef Input;
177   SmallVectorImpl<dependency_directives_scan::Token> &Tokens;
178   DiagnosticsEngine *Diags;
179   SourceLocation InputSourceLoc;
180 
181   const char *LastTokenPtr = nullptr;
182   /// Keeps track of the tokens for the currently lexed directive. Once a
183   /// directive is fully lexed and "committed" then the tokens get appended to
184   /// \p Tokens and \p CurDirToks is cleared for the next directive.
185   SmallVector<dependency_directives_scan::Token, 32> CurDirToks;
186   /// The directives that were lexed along with the number of tokens that each
187   /// directive contains. The tokens of all the directives are kept in \p Tokens
188   /// vector, in the same order as the directives order in \p DirsWithToks.
189   SmallVector<DirectiveWithTokens, 64> DirsWithToks;
190   LangOptions LangOpts;
191   Lexer TheLexer;
192 };
193 
194 } // end anonymous namespace
195 
196 bool Scanner::reportError(const char *CurPtr, unsigned Err) {
197   if (!Diags)
198     return true;
199   assert(CurPtr >= Input.data() && "invalid buffer ptr");
200   Diags->Report(InputSourceLoc.getLocWithOffset(getOffsetAt(CurPtr)), Err);
201   return true;
202 }
203 
204 static void skipOverSpaces(const char *&First, const char *const End) {
205   while (First != End && isHorizontalWhitespace(*First))
206     ++First;
207 }
208 
209 [[nodiscard]] static bool isRawStringLiteral(const char *First,
210                                              const char *Current) {
211   assert(First <= Current);
212 
213   // Check if we can even back up.
214   if (*Current != '"' || First == Current)
215     return false;
216 
217   // Check for an "R".
218   --Current;
219   if (*Current != 'R')
220     return false;
221   if (First == Current || !isAsciiIdentifierContinue(*--Current))
222     return true;
223 
224   // Check for a prefix of "u", "U", or "L".
225   if (*Current == 'u' || *Current == 'U' || *Current == 'L')
226     return First == Current || !isAsciiIdentifierContinue(*--Current);
227 
228   // Check for a prefix of "u8".
229   if (*Current != '8' || First == Current || *Current-- != 'u')
230     return false;
231   return First == Current || !isAsciiIdentifierContinue(*--Current);
232 }
233 
234 static void skipRawString(const char *&First, const char *const End) {
235   assert(First[0] == '"');
236   assert(First[-1] == 'R');
237 
238   const char *Last = ++First;
239   while (Last != End && *Last != '(')
240     ++Last;
241   if (Last == End) {
242     First = Last; // Hit the end... just give up.
243     return;
244   }
245 
246   StringRef Terminator(First, Last - First);
247   for (;;) {
248     // Move First to just past the next ")".
249     First = Last;
250     while (First != End && *First != ')')
251       ++First;
252     if (First == End)
253       return;
254     ++First;
255 
256     // Look ahead for the terminator sequence.
257     Last = First;
258     while (Last != End && size_t(Last - First) < Terminator.size() &&
259            Terminator[Last - First] == *Last)
260       ++Last;
261 
262     // Check if we hit it (or the end of the file).
263     if (Last == End) {
264       First = Last;
265       return;
266     }
267     if (size_t(Last - First) < Terminator.size())
268       continue;
269     if (*Last != '"')
270       continue;
271     First = Last + 1;
272     return;
273   }
274 }
275 
276 // Returns the length of EOL, either 0 (no end-of-line), 1 (\n) or 2 (\r\n)
277 static unsigned isEOL(const char *First, const char *const End) {
278   if (First == End)
279     return 0;
280   if (End - First > 1 && isVerticalWhitespace(First[0]) &&
281       isVerticalWhitespace(First[1]) && First[0] != First[1])
282     return 2;
283   return !!isVerticalWhitespace(First[0]);
284 }
285 
286 static void skipString(const char *&First, const char *const End) {
287   assert(*First == '\'' || *First == '"' || *First == '<');
288   const char Terminator = *First == '<' ? '>' : *First;
289   for (++First; First != End && *First != Terminator; ++First) {
290     // String and character literals don't extend past the end of the line.
291     if (isVerticalWhitespace(*First))
292       return;
293     if (*First != '\\')
294       continue;
295     // Skip past backslash to the next character. This ensures that the
296     // character right after it is skipped as well, which matters if it's
297     // the terminator.
298     if (++First == End)
299       return;
300     if (!isWhitespace(*First))
301       continue;
302     // Whitespace after the backslash might indicate a line continuation.
303     const char *FirstAfterBackslashPastSpace = First;
304     skipOverSpaces(FirstAfterBackslashPastSpace, End);
305     if (unsigned NLSize = isEOL(FirstAfterBackslashPastSpace, End)) {
306       // Advance the character pointer to the next line for the next
307       // iteration.
308       First = FirstAfterBackslashPastSpace + NLSize - 1;
309     }
310   }
311   if (First != End)
312     ++First; // Finish off the string.
313 }
314 
315 // Returns the length of the skipped newline
316 static unsigned skipNewline(const char *&First, const char *End) {
317   if (First == End)
318     return 0;
319   assert(isVerticalWhitespace(*First));
320   unsigned Len = isEOL(First, End);
321   assert(Len && "expected newline");
322   First += Len;
323   return Len;
324 }
325 
326 static bool wasLineContinuation(const char *First, unsigned EOLLen) {
327   return *(First - (int)EOLLen - 1) == '\\';
328 }
329 
330 static void skipToNewlineRaw(const char *&First, const char *const End) {
331   for (;;) {
332     if (First == End)
333       return;
334 
335     unsigned Len = isEOL(First, End);
336     if (Len)
337       return;
338 
339     do {
340       if (++First == End)
341         return;
342       Len = isEOL(First, End);
343     } while (!Len);
344 
345     if (First[-1] != '\\')
346       return;
347 
348     First += Len;
349     // Keep skipping lines...
350   }
351 }
352 
353 static void skipLineComment(const char *&First, const char *const End) {
354   assert(First[0] == '/' && First[1] == '/');
355   First += 2;
356   skipToNewlineRaw(First, End);
357 }
358 
359 static void skipBlockComment(const char *&First, const char *const End) {
360   assert(First[0] == '/' && First[1] == '*');
361   if (End - First < 4) {
362     First = End;
363     return;
364   }
365   for (First += 3; First != End; ++First)
366     if (First[-1] == '*' && First[0] == '/') {
367       ++First;
368       return;
369     }
370 }
371 
372 /// \returns True if the current single quotation mark character is a C++ 14
373 /// digit separator.
374 static bool isQuoteCppDigitSeparator(const char *const Start,
375                                      const char *const Cur,
376                                      const char *const End) {
377   assert(*Cur == '\'' && "expected quotation character");
378   // skipLine called in places where we don't expect a valid number
379   // body before `start` on the same line, so always return false at the start.
380   if (Start == Cur)
381     return false;
382   // The previous character must be a valid PP number character.
383   // Make sure that the L, u, U, u8 prefixes don't get marked as a
384   // separator though.
385   char Prev = *(Cur - 1);
386   if (Prev == 'L' || Prev == 'U' || Prev == 'u')
387     return false;
388   if (Prev == '8' && (Cur - 1 != Start) && *(Cur - 2) == 'u')
389     return false;
390   if (!isPreprocessingNumberBody(Prev))
391     return false;
392   // The next character should be a valid identifier body character.
393   return (Cur + 1) < End && isAsciiIdentifierContinue(*(Cur + 1));
394 }
395 
396 void Scanner::skipLine(const char *&First, const char *const End) {
397   for (;;) {
398     assert(First <= End);
399     if (First == End)
400       return;
401 
402     if (isVerticalWhitespace(*First)) {
403       skipNewline(First, End);
404       return;
405     }
406     const char *Start = First;
407     while (First != End && !isVerticalWhitespace(*First)) {
408       // Iterate over strings correctly to avoid comments and newlines.
409       if (*First == '"' ||
410           (*First == '\'' && !isQuoteCppDigitSeparator(Start, First, End))) {
411         LastTokenPtr = First;
412         if (isRawStringLiteral(Start, First))
413           skipRawString(First, End);
414         else
415           skipString(First, End);
416         continue;
417       }
418 
419       // Iterate over comments correctly.
420       if (*First != '/' || End - First < 2) {
421         LastTokenPtr = First;
422         ++First;
423         continue;
424       }
425 
426       if (First[1] == '/') {
427         // "//...".
428         skipLineComment(First, End);
429         continue;
430       }
431 
432       if (First[1] != '*') {
433         LastTokenPtr = First;
434         ++First;
435         continue;
436       }
437 
438       // "/*...*/".
439       skipBlockComment(First, End);
440     }
441     if (First == End)
442       return;
443 
444     // Skip over the newline.
445     unsigned Len = skipNewline(First, End);
446     if (!wasLineContinuation(First, Len)) // Continue past line-continuations.
447       break;
448   }
449 }
450 
451 void Scanner::skipDirective(StringRef Name, const char *&First,
452                             const char *const End) {
453   if (llvm::StringSwitch<bool>(Name)
454           .Case("warning", true)
455           .Case("error", true)
456           .Default(false))
457     // Do not process quotes or comments.
458     skipToNewlineRaw(First, End);
459   else
460     skipLine(First, End);
461 }
462 
463 static void skipWhitespace(const char *&First, const char *const End) {
464   for (;;) {
465     assert(First <= End);
466     skipOverSpaces(First, End);
467 
468     if (End - First < 2)
469       return;
470 
471     if (First[0] == '\\' && isVerticalWhitespace(First[1])) {
472       skipNewline(++First, End);
473       continue;
474     }
475 
476     // Check for a non-comment character.
477     if (First[0] != '/')
478       return;
479 
480     // "// ...".
481     if (First[1] == '/') {
482       skipLineComment(First, End);
483       return;
484     }
485 
486     // Cannot be a comment.
487     if (First[1] != '*')
488       return;
489 
490     // "/*...*/".
491     skipBlockComment(First, End);
492   }
493 }
494 
495 bool Scanner::lexModuleDirectiveBody(DirectiveKind Kind, const char *&First,
496                                      const char *const End) {
497   const char *DirectiveLoc = Input.data() + CurDirToks.front().Offset;
498   for (;;) {
499     const dependency_directives_scan::Token &Tok = lexToken(First, End);
500     if (Tok.is(tok::eof))
501       return reportError(
502           DirectiveLoc,
503           diag::err_dep_source_scanner_missing_semi_after_at_import);
504     if (Tok.is(tok::semi))
505       break;
506   }
507   pushDirective(Kind);
508   skipWhitespace(First, End);
509   if (First == End)
510     return false;
511   if (!isVerticalWhitespace(*First))
512     return reportError(
513         DirectiveLoc, diag::err_dep_source_scanner_unexpected_tokens_at_import);
514   skipNewline(First, End);
515   return false;
516 }
517 
518 dependency_directives_scan::Token &Scanner::lexToken(const char *&First,
519                                                      const char *const End) {
520   clang::Token Tok;
521   TheLexer.LexFromRawLexer(Tok);
522   First = Input.data() + TheLexer.getCurrentBufferOffset();
523   assert(First <= End);
524 
525   unsigned Offset = TheLexer.getCurrentBufferOffset() - Tok.getLength();
526   CurDirToks.emplace_back(Offset, Tok.getLength(), Tok.getKind(),
527                           Tok.getFlags());
528   return CurDirToks.back();
529 }
530 
531 dependency_directives_scan::Token &
532 Scanner::lexIncludeFilename(const char *&First, const char *const End) {
533   clang::Token Tok;
534   TheLexer.LexIncludeFilename(Tok);
535   First = Input.data() + TheLexer.getCurrentBufferOffset();
536   assert(First <= End);
537 
538   unsigned Offset = TheLexer.getCurrentBufferOffset() - Tok.getLength();
539   CurDirToks.emplace_back(Offset, Tok.getLength(), Tok.getKind(),
540                           Tok.getFlags());
541   return CurDirToks.back();
542 }
543 
544 void Scanner::lexPPDirectiveBody(const char *&First, const char *const End) {
545   while (true) {
546     const dependency_directives_scan::Token &Tok = lexToken(First, End);
547     if (Tok.is(tok::eod))
548       break;
549   }
550 }
551 
552 StringRef
553 Scanner::cleanStringIfNeeded(const dependency_directives_scan::Token &Tok) {
554   bool NeedsCleaning = Tok.Flags & clang::Token::NeedsCleaning;
555   if (LLVM_LIKELY(!NeedsCleaning))
556     return Input.slice(Tok.Offset, Tok.getEnd());
557 
558   SmallString<64> Spelling;
559   Spelling.resize(Tok.Length);
560 
561   // FIXME: C++11 raw string literals need special handling (see getSpellingSlow
562   // in the Lexer). Currently we cannot see them due to our LangOpts.
563 
564   unsigned SpellingLength = 0;
565   const char *BufPtr = Input.begin() + Tok.Offset;
566   const char *AfterIdent = Input.begin() + Tok.getEnd();
567   while (BufPtr < AfterIdent) {
568     unsigned Size;
569     Spelling[SpellingLength++] =
570         Lexer::getCharAndSizeNoWarn(BufPtr, Size, LangOpts);
571     BufPtr += Size;
572   }
573 
574   return SplitIds.try_emplace(StringRef(Spelling.begin(), SpellingLength), 0)
575       .first->first();
576 }
577 
578 std::optional<StringRef>
579 Scanner::tryLexIdentifierOrSkipLine(const char *&First, const char *const End) {
580   const dependency_directives_scan::Token &Tok = lexToken(First, End);
581   if (Tok.isNot(tok::raw_identifier)) {
582     if (!Tok.is(tok::eod))
583       skipLine(First, End);
584     return std::nullopt;
585   }
586 
587   return cleanStringIfNeeded(Tok);
588 }
589 
590 StringRef Scanner::lexIdentifier(const char *&First, const char *const End) {
591   std::optional<StringRef> Id = tryLexIdentifierOrSkipLine(First, End);
592   assert(Id && "expected identifier token");
593   return *Id;
594 }
595 
596 bool Scanner::isNextIdentifierOrSkipLine(StringRef Id, const char *&First,
597                                          const char *const End) {
598   if (std::optional<StringRef> FoundId =
599           tryLexIdentifierOrSkipLine(First, End)) {
600     if (*FoundId == Id)
601       return true;
602     skipLine(First, End);
603   }
604   return false;
605 }
606 
607 bool Scanner::isNextTokenOrSkipLine(tok::TokenKind K, const char *&First,
608                                     const char *const End) {
609   const dependency_directives_scan::Token &Tok = lexToken(First, End);
610   if (Tok.is(K))
611     return true;
612   skipLine(First, End);
613   return false;
614 }
615 
616 std::optional<StringRef>
617 Scanner::tryLexStringLiteralOrSkipLine(const char *&First,
618                                        const char *const End) {
619   const dependency_directives_scan::Token &Tok = lexToken(First, End);
620   if (!tok::isStringLiteral(Tok.Kind)) {
621     if (!Tok.is(tok::eod))
622       skipLine(First, End);
623     return std::nullopt;
624   }
625 
626   return cleanStringIfNeeded(Tok);
627 }
628 
629 bool Scanner::lexAt(const char *&First, const char *const End) {
630   // Handle "@import".
631 
632   // Lex '@'.
633   const dependency_directives_scan::Token &AtTok = lexToken(First, End);
634   assert(AtTok.is(tok::at));
635   (void)AtTok;
636 
637   if (!isNextIdentifierOrSkipLine("import", First, End))
638     return false;
639   return lexModuleDirectiveBody(decl_at_import, First, End);
640 }
641 
642 bool Scanner::lexModule(const char *&First, const char *const End) {
643   StringRef Id = lexIdentifier(First, End);
644   bool Export = false;
645   if (Id == "export") {
646     Export = true;
647     std::optional<StringRef> NextId = tryLexIdentifierOrSkipLine(First, End);
648     if (!NextId)
649       return false;
650     Id = *NextId;
651   }
652 
653   if (Id != "module" && Id != "import") {
654     skipLine(First, End);
655     return false;
656   }
657 
658   skipWhitespace(First, End);
659 
660   // Ignore this as a module directive if the next character can't be part of
661   // an import.
662 
663   switch (*First) {
664   case ':':
665   case '<':
666   case '"':
667     break;
668   default:
669     if (!isAsciiIdentifierContinue(*First)) {
670       skipLine(First, End);
671       return false;
672     }
673   }
674 
675   TheLexer.seek(getOffsetAt(First), /*IsAtStartOfLine*/ false);
676 
677   DirectiveKind Kind;
678   if (Id == "module")
679     Kind = Export ? cxx_export_module_decl : cxx_module_decl;
680   else
681     Kind = Export ? cxx_export_import_decl : cxx_import_decl;
682 
683   return lexModuleDirectiveBody(Kind, First, End);
684 }
685 
686 bool Scanner::lex_Pragma(const char *&First, const char *const End) {
687   if (!isNextTokenOrSkipLine(tok::l_paren, First, End))
688     return false;
689 
690   std::optional<StringRef> Str = tryLexStringLiteralOrSkipLine(First, End);
691 
692   if (!Str || !isNextTokenOrSkipLine(tok::r_paren, First, End))
693     return false;
694 
695   SmallString<64> Buffer(*Str);
696   prepare_PragmaString(Buffer);
697 
698   // Use a new scanner instance since the tokens will be inside the allocated
699   // string. We should already have captured all the relevant tokens in the
700   // current scanner.
701   SmallVector<dependency_directives_scan::Token> DiscardTokens;
702   const char *Begin = Buffer.c_str();
703   Scanner PragmaScanner{StringRef(Begin, Buffer.size()), DiscardTokens, Diags,
704                         InputSourceLoc};
705 
706   PragmaScanner.TheLexer.setParsingPreprocessorDirective(true);
707   if (PragmaScanner.lexPragma(Begin, Buffer.end()))
708     return true;
709 
710   DirectiveKind K = PragmaScanner.topDirective();
711   if (K == pp_none) {
712     skipLine(First, End);
713     return false;
714   }
715 
716   assert(Begin == Buffer.end());
717   pushDirective(K);
718   return false;
719 }
720 
721 bool Scanner::lexPragma(const char *&First, const char *const End) {
722   std::optional<StringRef> FoundId = tryLexIdentifierOrSkipLine(First, End);
723   if (!FoundId)
724     return false;
725 
726   StringRef Id = *FoundId;
727   auto Kind = llvm::StringSwitch<DirectiveKind>(Id)
728                   .Case("once", pp_pragma_once)
729                   .Case("push_macro", pp_pragma_push_macro)
730                   .Case("pop_macro", pp_pragma_pop_macro)
731                   .Case("include_alias", pp_pragma_include_alias)
732                   .Default(pp_none);
733   if (Kind != pp_none) {
734     lexPPDirectiveBody(First, End);
735     pushDirective(Kind);
736     return false;
737   }
738 
739   if (Id != "clang") {
740     skipLine(First, End);
741     return false;
742   }
743 
744   FoundId = tryLexIdentifierOrSkipLine(First, End);
745   if (!FoundId)
746     return false;
747   Id = *FoundId;
748 
749   // #pragma clang system_header
750   if (Id == "system_header") {
751     lexPPDirectiveBody(First, End);
752     pushDirective(pp_pragma_system_header);
753     return false;
754   }
755 
756   if (Id != "module") {
757     skipLine(First, End);
758     return false;
759   }
760 
761   // #pragma clang module.
762   if (!isNextIdentifierOrSkipLine("import", First, End))
763     return false;
764 
765   // #pragma clang module import.
766   lexPPDirectiveBody(First, End);
767   pushDirective(pp_pragma_import);
768   return false;
769 }
770 
771 bool Scanner::lexEndif(const char *&First, const char *const End) {
772   // Strip out "#else" if it's empty.
773   if (topDirective() == pp_else)
774     popDirective();
775 
776   // If "#ifdef" is empty, strip it and skip the "#endif".
777   //
778   // FIXME: Once/if Clang starts disallowing __has_include in macro expansions,
779   // we can skip empty `#if` and `#elif` blocks as well after scanning for a
780   // literal __has_include in the condition.  Even without that rule we could
781   // drop the tokens if we scan for identifiers in the condition and find none.
782   if (topDirective() == pp_ifdef || topDirective() == pp_ifndef) {
783     popDirective();
784     skipLine(First, End);
785     return false;
786   }
787 
788   return lexDefault(pp_endif, First, End);
789 }
790 
791 bool Scanner::lexDefault(DirectiveKind Kind, const char *&First,
792                          const char *const End) {
793   lexPPDirectiveBody(First, End);
794   pushDirective(Kind);
795   return false;
796 }
797 
798 static bool isStartOfRelevantLine(char First) {
799   switch (First) {
800   case '#':
801   case '@':
802   case 'i':
803   case 'e':
804   case 'm':
805   case '_':
806     return true;
807   }
808   return false;
809 }
810 
811 bool Scanner::lexPPLine(const char *&First, const char *const End) {
812   assert(First != End);
813 
814   skipWhitespace(First, End);
815   assert(First <= End);
816   if (First == End)
817     return false;
818 
819   if (!isStartOfRelevantLine(*First)) {
820     skipLine(First, End);
821     assert(First <= End);
822     return false;
823   }
824 
825   LastTokenPtr = First;
826 
827   TheLexer.seek(getOffsetAt(First), /*IsAtStartOfLine*/ true);
828 
829   auto ScEx1 = make_scope_exit([&]() {
830     /// Clear Scanner's CurDirToks before returning, in case we didn't push a
831     /// new directive.
832     CurDirToks.clear();
833   });
834 
835   // Handle "@import".
836   if (*First == '@')
837     return lexAt(First, End);
838 
839   if (*First == 'i' || *First == 'e' || *First == 'm')
840     return lexModule(First, End);
841 
842   if (*First == '_') {
843     if (isNextIdentifierOrSkipLine("_Pragma", First, End))
844       return lex_Pragma(First, End);
845     return false;
846   }
847 
848   // Handle preprocessing directives.
849 
850   TheLexer.setParsingPreprocessorDirective(true);
851   auto ScEx2 = make_scope_exit(
852       [&]() { TheLexer.setParsingPreprocessorDirective(false); });
853 
854   // Lex '#'.
855   const dependency_directives_scan::Token &HashTok = lexToken(First, End);
856   if (HashTok.is(tok::hashhash)) {
857     // A \p tok::hashhash at this location is passed by the preprocessor to the
858     // parser to interpret, like any other token. So for dependency scanning
859     // skip it like a normal token not affecting the preprocessor.
860     skipLine(First, End);
861     assert(First <= End);
862     return false;
863   }
864   assert(HashTok.is(tok::hash));
865   (void)HashTok;
866 
867   std::optional<StringRef> FoundId = tryLexIdentifierOrSkipLine(First, End);
868   if (!FoundId)
869     return false;
870 
871   StringRef Id = *FoundId;
872 
873   if (Id == "pragma")
874     return lexPragma(First, End);
875 
876   auto Kind = llvm::StringSwitch<DirectiveKind>(Id)
877                   .Case("include", pp_include)
878                   .Case("__include_macros", pp___include_macros)
879                   .Case("define", pp_define)
880                   .Case("undef", pp_undef)
881                   .Case("import", pp_import)
882                   .Case("include_next", pp_include_next)
883                   .Case("if", pp_if)
884                   .Case("ifdef", pp_ifdef)
885                   .Case("ifndef", pp_ifndef)
886                   .Case("elif", pp_elif)
887                   .Case("elifdef", pp_elifdef)
888                   .Case("elifndef", pp_elifndef)
889                   .Case("else", pp_else)
890                   .Case("endif", pp_endif)
891                   .Default(pp_none);
892   if (Kind == pp_none) {
893     skipDirective(Id, First, End);
894     return false;
895   }
896 
897   if (Kind == pp_endif)
898     return lexEndif(First, End);
899 
900   switch (Kind) {
901   case pp_include:
902   case pp___include_macros:
903   case pp_include_next:
904   case pp_import:
905     lexIncludeFilename(First, End);
906     break;
907   default:
908     break;
909   }
910 
911   // Everything else.
912   return lexDefault(Kind, First, End);
913 }
914 
915 static void skipUTF8ByteOrderMark(const char *&First, const char *const End) {
916   if ((End - First) >= 3 && First[0] == '\xef' && First[1] == '\xbb' &&
917       First[2] == '\xbf')
918     First += 3;
919 }
920 
921 bool Scanner::scanImpl(const char *First, const char *const End) {
922   skipUTF8ByteOrderMark(First, End);
923   while (First != End)
924     if (lexPPLine(First, End))
925       return true;
926   return false;
927 }
928 
929 bool Scanner::scan(SmallVectorImpl<Directive> &Directives) {
930   bool Error = scanImpl(Input.begin(), Input.end());
931 
932   if (!Error) {
933     // Add an EOF on success.
934     if (LastTokenPtr &&
935         (Tokens.empty() || LastTokenPtr > Input.begin() + Tokens.back().Offset))
936       pushDirective(tokens_present_before_eof);
937     pushDirective(pp_eof);
938   }
939 
940   ArrayRef<dependency_directives_scan::Token> RemainingTokens = Tokens;
941   for (const DirectiveWithTokens &DirWithToks : DirsWithToks) {
942     assert(RemainingTokens.size() >= DirWithToks.NumTokens);
943     Directives.emplace_back(DirWithToks.Kind,
944                             RemainingTokens.take_front(DirWithToks.NumTokens));
945     RemainingTokens = RemainingTokens.drop_front(DirWithToks.NumTokens);
946   }
947   assert(RemainingTokens.empty());
948 
949   return Error;
950 }
951 
952 bool clang::scanSourceForDependencyDirectives(
953     StringRef Input, SmallVectorImpl<dependency_directives_scan::Token> &Tokens,
954     SmallVectorImpl<Directive> &Directives, DiagnosticsEngine *Diags,
955     SourceLocation InputSourceLoc) {
956   return Scanner(Input, Tokens, Diags, InputSourceLoc).scan(Directives);
957 }
958 
959 void clang::printDependencyDirectivesAsSource(
960     StringRef Source,
961     ArrayRef<dependency_directives_scan::Directive> Directives,
962     llvm::raw_ostream &OS) {
963   // Add a space separator where it is convenient for testing purposes.
964   auto needsSpaceSeparator =
965       [](tok::TokenKind Prev,
966          const dependency_directives_scan::Token &Tok) -> bool {
967     if (Prev == Tok.Kind)
968       return !Tok.isOneOf(tok::l_paren, tok::r_paren, tok::l_square,
969                           tok::r_square);
970     if (Prev == tok::raw_identifier &&
971         Tok.isOneOf(tok::hash, tok::numeric_constant, tok::string_literal,
972                     tok::char_constant, tok::header_name))
973       return true;
974     if (Prev == tok::r_paren &&
975         Tok.isOneOf(tok::raw_identifier, tok::hash, tok::string_literal,
976                     tok::char_constant, tok::unknown))
977       return true;
978     if (Prev == tok::comma &&
979         Tok.isOneOf(tok::l_paren, tok::string_literal, tok::less))
980       return true;
981     return false;
982   };
983 
984   for (const dependency_directives_scan::Directive &Directive : Directives) {
985     if (Directive.Kind == tokens_present_before_eof)
986       OS << "<TokBeforeEOF>";
987     std::optional<tok::TokenKind> PrevTokenKind;
988     for (const dependency_directives_scan::Token &Tok : Directive.Tokens) {
989       if (PrevTokenKind && needsSpaceSeparator(*PrevTokenKind, Tok))
990         OS << ' ';
991       PrevTokenKind = Tok.Kind;
992       OS << Source.slice(Tok.Offset, Tok.getEnd());
993     }
994   }
995 }
996