xref: /freebsd/contrib/llvm-project/clang/lib/Tooling/Syntax/Tokens.cpp (revision a90b9d0159070121c221b966469c3e36d912bf82)
1 //===- Tokens.cpp - collect tokens from preprocessing ---------------------===//
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 #include "clang/Tooling/Syntax/Tokens.h"
9 
10 #include "clang/Basic/Diagnostic.h"
11 #include "clang/Basic/IdentifierTable.h"
12 #include "clang/Basic/LLVM.h"
13 #include "clang/Basic/LangOptions.h"
14 #include "clang/Basic/SourceLocation.h"
15 #include "clang/Basic/SourceManager.h"
16 #include "clang/Basic/TokenKinds.h"
17 #include "clang/Lex/PPCallbacks.h"
18 #include "clang/Lex/Preprocessor.h"
19 #include "clang/Lex/Token.h"
20 #include "llvm/ADT/ArrayRef.h"
21 #include "llvm/ADT/STLExtras.h"
22 #include "llvm/Support/Debug.h"
23 #include "llvm/Support/ErrorHandling.h"
24 #include "llvm/Support/FormatVariadic.h"
25 #include "llvm/Support/raw_ostream.h"
26 #include <algorithm>
27 #include <cassert>
28 #include <iterator>
29 #include <optional>
30 #include <string>
31 #include <utility>
32 #include <vector>
33 
34 using namespace clang;
35 using namespace clang::syntax;
36 
37 namespace {
38 // Finds the smallest consecutive subsuquence of Toks that covers R.
39 llvm::ArrayRef<syntax::Token>
40 getTokensCovering(llvm::ArrayRef<syntax::Token> Toks, SourceRange R,
41                   const SourceManager &SM) {
42   if (R.isInvalid())
43     return {};
44   const syntax::Token *Begin =
45       llvm::partition_point(Toks, [&](const syntax::Token &T) {
46         return SM.isBeforeInTranslationUnit(T.location(), R.getBegin());
47       });
48   const syntax::Token *End =
49       llvm::partition_point(Toks, [&](const syntax::Token &T) {
50         return !SM.isBeforeInTranslationUnit(R.getEnd(), T.location());
51       });
52   if (Begin > End)
53     return {};
54   return {Begin, End};
55 }
56 
57 // Finds the range within FID corresponding to expanded tokens [First, Last].
58 // Prev precedes First and Next follows Last, these must *not* be included.
59 // If no range satisfies the criteria, returns an invalid range.
60 //
61 // #define ID(x) x
62 // ID(ID(ID(a1) a2))
63 //          ~~       -> a1
64 //              ~~   -> a2
65 //       ~~~~~~~~~   -> a1 a2
66 SourceRange spelledForExpandedSlow(SourceLocation First, SourceLocation Last,
67                                    SourceLocation Prev, SourceLocation Next,
68                                    FileID TargetFile,
69                                    const SourceManager &SM) {
70   // There are two main parts to this algorithm:
71   //  - identifying which spelled range covers the expanded tokens
72   //  - validating that this range doesn't cover any extra tokens (First/Last)
73   //
74   // We do these in order. However as we transform the expanded range into the
75   // spelled one, we adjust First/Last so the validation remains simple.
76 
77   assert(SM.getSLocEntry(TargetFile).isFile());
78   // In most cases, to select First and Last we must return their expansion
79   // range, i.e. the whole of any macros they are included in.
80   //
81   // When First and Last are part of the *same macro arg* of a macro written
82   // in TargetFile, we that slice of the arg, i.e. their spelling range.
83   //
84   // Unwrap such macro calls. If the target file has A(B(C)), the
85   // SourceLocation stack of a token inside C shows us the expansion of A first,
86   // then B, then any macros inside C's body, then C itself.
87   // (This is the reverse of the order the PP applies the expansions in).
88   while (First.isMacroID() && Last.isMacroID()) {
89     auto DecFirst = SM.getDecomposedLoc(First);
90     auto DecLast = SM.getDecomposedLoc(Last);
91     auto &ExpFirst = SM.getSLocEntry(DecFirst.first).getExpansion();
92     auto &ExpLast = SM.getSLocEntry(DecLast.first).getExpansion();
93 
94     if (!ExpFirst.isMacroArgExpansion() || !ExpLast.isMacroArgExpansion())
95       break;
96     // Locations are in the same macro arg if they expand to the same place.
97     // (They may still have different FileIDs - an arg can have >1 chunks!)
98     if (ExpFirst.getExpansionLocStart() != ExpLast.getExpansionLocStart())
99       break;
100     // Careful, given:
101     //   #define HIDE ID(ID(a))
102     //   ID(ID(HIDE))
103     // The token `a` is wrapped in 4 arg-expansions, we only want to unwrap 2.
104     // We distinguish them by whether the macro expands into the target file.
105     // Fortunately, the target file ones will always appear first.
106     auto ExpFileID = SM.getFileID(ExpFirst.getExpansionLocStart());
107     if (ExpFileID == TargetFile)
108       break;
109     // Replace each endpoint with its spelling inside the macro arg.
110     // (This is getImmediateSpellingLoc without repeating lookups).
111     First = ExpFirst.getSpellingLoc().getLocWithOffset(DecFirst.second);
112     Last = ExpLast.getSpellingLoc().getLocWithOffset(DecLast.second);
113   }
114 
115   // In all remaining cases we need the full containing macros.
116   // If this overlaps Prev or Next, then no range is possible.
117   SourceRange Candidate =
118       SM.getExpansionRange(SourceRange(First, Last)).getAsRange();
119   auto DecFirst = SM.getDecomposedExpansionLoc(Candidate.getBegin());
120   auto DecLast = SM.getDecomposedExpansionLoc(Candidate.getEnd());
121   // Can end up in the wrong file due to bad input or token-pasting shenanigans.
122   if (Candidate.isInvalid() || DecFirst.first != TargetFile ||
123       DecLast.first != TargetFile)
124     return SourceRange();
125   // Check bounds, which may still be inside macros.
126   if (Prev.isValid()) {
127     auto Dec = SM.getDecomposedLoc(SM.getExpansionRange(Prev).getBegin());
128     if (Dec.first != DecFirst.first || Dec.second >= DecFirst.second)
129       return SourceRange();
130   }
131   if (Next.isValid()) {
132     auto Dec = SM.getDecomposedLoc(SM.getExpansionRange(Next).getEnd());
133     if (Dec.first != DecLast.first || Dec.second <= DecLast.second)
134       return SourceRange();
135   }
136   // Now we know that Candidate is a file range that covers [First, Last]
137   // without encroaching on {Prev, Next}. Ship it!
138   return Candidate;
139 }
140 
141 } // namespace
142 
143 syntax::Token::Token(SourceLocation Location, unsigned Length,
144                      tok::TokenKind Kind)
145     : Location(Location), Length(Length), Kind(Kind) {
146   assert(Location.isValid());
147 }
148 
149 syntax::Token::Token(const clang::Token &T)
150     : Token(T.getLocation(), T.getLength(), T.getKind()) {
151   assert(!T.isAnnotation());
152 }
153 
154 llvm::StringRef syntax::Token::text(const SourceManager &SM) const {
155   bool Invalid = false;
156   const char *Start = SM.getCharacterData(location(), &Invalid);
157   assert(!Invalid);
158   return llvm::StringRef(Start, length());
159 }
160 
161 FileRange syntax::Token::range(const SourceManager &SM) const {
162   assert(location().isFileID() && "must be a spelled token");
163   FileID File;
164   unsigned StartOffset;
165   std::tie(File, StartOffset) = SM.getDecomposedLoc(location());
166   return FileRange(File, StartOffset, StartOffset + length());
167 }
168 
169 FileRange syntax::Token::range(const SourceManager &SM,
170                                const syntax::Token &First,
171                                const syntax::Token &Last) {
172   auto F = First.range(SM);
173   auto L = Last.range(SM);
174   assert(F.file() == L.file() && "tokens from different files");
175   assert((F == L || F.endOffset() <= L.beginOffset()) &&
176          "wrong order of tokens");
177   return FileRange(F.file(), F.beginOffset(), L.endOffset());
178 }
179 
180 llvm::raw_ostream &syntax::operator<<(llvm::raw_ostream &OS, const Token &T) {
181   return OS << T.str();
182 }
183 
184 FileRange::FileRange(FileID File, unsigned BeginOffset, unsigned EndOffset)
185     : File(File), Begin(BeginOffset), End(EndOffset) {
186   assert(File.isValid());
187   assert(BeginOffset <= EndOffset);
188 }
189 
190 FileRange::FileRange(const SourceManager &SM, SourceLocation BeginLoc,
191                      unsigned Length) {
192   assert(BeginLoc.isValid());
193   assert(BeginLoc.isFileID());
194 
195   std::tie(File, Begin) = SM.getDecomposedLoc(BeginLoc);
196   End = Begin + Length;
197 }
198 FileRange::FileRange(const SourceManager &SM, SourceLocation BeginLoc,
199                      SourceLocation EndLoc) {
200   assert(BeginLoc.isValid());
201   assert(BeginLoc.isFileID());
202   assert(EndLoc.isValid());
203   assert(EndLoc.isFileID());
204   assert(SM.getFileID(BeginLoc) == SM.getFileID(EndLoc));
205   assert(SM.getFileOffset(BeginLoc) <= SM.getFileOffset(EndLoc));
206 
207   std::tie(File, Begin) = SM.getDecomposedLoc(BeginLoc);
208   End = SM.getFileOffset(EndLoc);
209 }
210 
211 llvm::raw_ostream &syntax::operator<<(llvm::raw_ostream &OS,
212                                       const FileRange &R) {
213   return OS << llvm::formatv("FileRange(file = {0}, offsets = {1}-{2})",
214                              R.file().getHashValue(), R.beginOffset(),
215                              R.endOffset());
216 }
217 
218 llvm::StringRef FileRange::text(const SourceManager &SM) const {
219   bool Invalid = false;
220   StringRef Text = SM.getBufferData(File, &Invalid);
221   if (Invalid)
222     return "";
223   assert(Begin <= Text.size());
224   assert(End <= Text.size());
225   return Text.substr(Begin, length());
226 }
227 
228 void TokenBuffer::indexExpandedTokens() {
229   // No-op if the index is already created.
230   if (!ExpandedTokIndex.empty())
231     return;
232   ExpandedTokIndex.reserve(ExpandedTokens.size());
233   // Index ExpandedTokens for faster lookups by SourceLocation.
234   for (size_t I = 0, E = ExpandedTokens.size(); I != E; ++I) {
235     SourceLocation Loc = ExpandedTokens[I].location();
236     if (Loc.isValid())
237       ExpandedTokIndex[Loc] = I;
238   }
239 }
240 
241 llvm::ArrayRef<syntax::Token> TokenBuffer::expandedTokens(SourceRange R) const {
242   if (R.isInvalid())
243     return {};
244   if (!ExpandedTokIndex.empty()) {
245     // Quick lookup if `R` is a token range.
246     // This is a huge win since majority of the users use ranges provided by an
247     // AST. Ranges in AST are token ranges from expanded token stream.
248     const auto B = ExpandedTokIndex.find(R.getBegin());
249     const auto E = ExpandedTokIndex.find(R.getEnd());
250     if (B != ExpandedTokIndex.end() && E != ExpandedTokIndex.end()) {
251       const Token *L = ExpandedTokens.data() + B->getSecond();
252       // Add 1 to End to make a half-open range.
253       const Token *R = ExpandedTokens.data() + E->getSecond() + 1;
254       if (L > R)
255         return {};
256       return {L, R};
257     }
258   }
259   // Slow case. Use `isBeforeInTranslationUnit` to binary search for the
260   // required range.
261   return getTokensCovering(expandedTokens(), R, *SourceMgr);
262 }
263 
264 CharSourceRange FileRange::toCharRange(const SourceManager &SM) const {
265   return CharSourceRange(
266       SourceRange(SM.getComposedLoc(File, Begin), SM.getComposedLoc(File, End)),
267       /*IsTokenRange=*/false);
268 }
269 
270 std::pair<const syntax::Token *, const TokenBuffer::Mapping *>
271 TokenBuffer::spelledForExpandedToken(const syntax::Token *Expanded) const {
272   assert(Expanded);
273   assert(ExpandedTokens.data() <= Expanded &&
274          Expanded < ExpandedTokens.data() + ExpandedTokens.size());
275 
276   auto FileIt = Files.find(
277       SourceMgr->getFileID(SourceMgr->getExpansionLoc(Expanded->location())));
278   assert(FileIt != Files.end() && "no file for an expanded token");
279 
280   const MarkedFile &File = FileIt->second;
281 
282   unsigned ExpandedIndex = Expanded - ExpandedTokens.data();
283   // Find the first mapping that produced tokens after \p Expanded.
284   auto It = llvm::partition_point(File.Mappings, [&](const Mapping &M) {
285     return M.BeginExpanded <= ExpandedIndex;
286   });
287   // Our token could only be produced by the previous mapping.
288   if (It == File.Mappings.begin()) {
289     // No previous mapping, no need to modify offsets.
290     return {&File.SpelledTokens[ExpandedIndex - File.BeginExpanded],
291             /*Mapping=*/nullptr};
292   }
293   --It; // 'It' now points to last mapping that started before our token.
294 
295   // Check if the token is part of the mapping.
296   if (ExpandedIndex < It->EndExpanded)
297     return {&File.SpelledTokens[It->BeginSpelled], /*Mapping=*/&*It};
298 
299   // Not part of the mapping, use the index from previous mapping to compute the
300   // corresponding spelled token.
301   return {
302       &File.SpelledTokens[It->EndSpelled + (ExpandedIndex - It->EndExpanded)],
303       /*Mapping=*/nullptr};
304 }
305 
306 const TokenBuffer::Mapping *
307 TokenBuffer::mappingStartingBeforeSpelled(const MarkedFile &F,
308                                           const syntax::Token *Spelled) {
309   assert(F.SpelledTokens.data() <= Spelled);
310   unsigned SpelledI = Spelled - F.SpelledTokens.data();
311   assert(SpelledI < F.SpelledTokens.size());
312 
313   auto It = llvm::partition_point(F.Mappings, [SpelledI](const Mapping &M) {
314     return M.BeginSpelled <= SpelledI;
315   });
316   if (It == F.Mappings.begin())
317     return nullptr;
318   --It;
319   return &*It;
320 }
321 
322 llvm::SmallVector<llvm::ArrayRef<syntax::Token>, 1>
323 TokenBuffer::expandedForSpelled(llvm::ArrayRef<syntax::Token> Spelled) const {
324   if (Spelled.empty())
325     return {};
326   const auto &File = fileForSpelled(Spelled);
327 
328   auto *FrontMapping = mappingStartingBeforeSpelled(File, &Spelled.front());
329   unsigned SpelledFrontI = &Spelled.front() - File.SpelledTokens.data();
330   assert(SpelledFrontI < File.SpelledTokens.size());
331   unsigned ExpandedBegin;
332   if (!FrontMapping) {
333     // No mapping that starts before the first token of Spelled, we don't have
334     // to modify offsets.
335     ExpandedBegin = File.BeginExpanded + SpelledFrontI;
336   } else if (SpelledFrontI < FrontMapping->EndSpelled) {
337     // This mapping applies to Spelled tokens.
338     if (SpelledFrontI != FrontMapping->BeginSpelled) {
339       // Spelled tokens don't cover the entire mapping, returning empty result.
340       return {}; // FIXME: support macro arguments.
341     }
342     // Spelled tokens start at the beginning of this mapping.
343     ExpandedBegin = FrontMapping->BeginExpanded;
344   } else {
345     // Spelled tokens start after the mapping ends (they start in the hole
346     // between 2 mappings, or between a mapping and end of the file).
347     ExpandedBegin =
348         FrontMapping->EndExpanded + (SpelledFrontI - FrontMapping->EndSpelled);
349   }
350 
351   auto *BackMapping = mappingStartingBeforeSpelled(File, &Spelled.back());
352   unsigned SpelledBackI = &Spelled.back() - File.SpelledTokens.data();
353   unsigned ExpandedEnd;
354   if (!BackMapping) {
355     // No mapping that starts before the last token of Spelled, we don't have to
356     // modify offsets.
357     ExpandedEnd = File.BeginExpanded + SpelledBackI + 1;
358   } else if (SpelledBackI < BackMapping->EndSpelled) {
359     // This mapping applies to Spelled tokens.
360     if (SpelledBackI + 1 != BackMapping->EndSpelled) {
361       // Spelled tokens don't cover the entire mapping, returning empty result.
362       return {}; // FIXME: support macro arguments.
363     }
364     ExpandedEnd = BackMapping->EndExpanded;
365   } else {
366     // Spelled tokens end after the mapping ends.
367     ExpandedEnd =
368         BackMapping->EndExpanded + (SpelledBackI - BackMapping->EndSpelled) + 1;
369   }
370 
371   assert(ExpandedBegin < ExpandedTokens.size());
372   assert(ExpandedEnd < ExpandedTokens.size());
373   // Avoid returning empty ranges.
374   if (ExpandedBegin == ExpandedEnd)
375     return {};
376   return {llvm::ArrayRef(ExpandedTokens.data() + ExpandedBegin,
377                          ExpandedTokens.data() + ExpandedEnd)};
378 }
379 
380 llvm::ArrayRef<syntax::Token> TokenBuffer::spelledTokens(FileID FID) const {
381   auto It = Files.find(FID);
382   assert(It != Files.end());
383   return It->second.SpelledTokens;
384 }
385 
386 const syntax::Token *TokenBuffer::spelledTokenAt(SourceLocation Loc) const {
387   assert(Loc.isFileID());
388   const auto *Tok = llvm::partition_point(
389       spelledTokens(SourceMgr->getFileID(Loc)),
390       [&](const syntax::Token &Tok) { return Tok.location() < Loc; });
391   if (!Tok || Tok->location() != Loc)
392     return nullptr;
393   return Tok;
394 }
395 
396 std::string TokenBuffer::Mapping::str() const {
397   return std::string(
398       llvm::formatv("spelled tokens: [{0},{1}), expanded tokens: [{2},{3})",
399                     BeginSpelled, EndSpelled, BeginExpanded, EndExpanded));
400 }
401 
402 std::optional<llvm::ArrayRef<syntax::Token>>
403 TokenBuffer::spelledForExpanded(llvm::ArrayRef<syntax::Token> Expanded) const {
404   // In cases of invalid code, AST nodes can have source ranges that include
405   // the `eof` token. As there's no spelling for this token, exclude it from
406   // the range.
407   if (!Expanded.empty() && Expanded.back().kind() == tok::eof) {
408     Expanded = Expanded.drop_back();
409   }
410   // Mapping an empty range is ambiguous in case of empty mappings at either end
411   // of the range, bail out in that case.
412   if (Expanded.empty())
413     return std::nullopt;
414   const syntax::Token *First = &Expanded.front();
415   const syntax::Token *Last = &Expanded.back();
416   auto [FirstSpelled, FirstMapping] = spelledForExpandedToken(First);
417   auto [LastSpelled, LastMapping] = spelledForExpandedToken(Last);
418 
419   FileID FID = SourceMgr->getFileID(FirstSpelled->location());
420   // FIXME: Handle multi-file changes by trying to map onto a common root.
421   if (FID != SourceMgr->getFileID(LastSpelled->location()))
422     return std::nullopt;
423 
424   const MarkedFile &File = Files.find(FID)->second;
425 
426   // If the range is within one macro argument, the result may be only part of a
427   // Mapping. We must use the general (SourceManager-based) algorithm.
428   if (FirstMapping && FirstMapping == LastMapping &&
429       SourceMgr->isMacroArgExpansion(First->location()) &&
430       SourceMgr->isMacroArgExpansion(Last->location())) {
431     // We use excluded Prev/Next token for bounds checking.
432     SourceLocation Prev = (First == &ExpandedTokens.front())
433                               ? SourceLocation()
434                               : (First - 1)->location();
435     SourceLocation Next = (Last == &ExpandedTokens.back())
436                               ? SourceLocation()
437                               : (Last + 1)->location();
438     SourceRange Range = spelledForExpandedSlow(
439         First->location(), Last->location(), Prev, Next, FID, *SourceMgr);
440     if (Range.isInvalid())
441       return std::nullopt;
442     return getTokensCovering(File.SpelledTokens, Range, *SourceMgr);
443   }
444 
445   // Otherwise, use the fast version based on Mappings.
446   // Do not allow changes that doesn't cover full expansion.
447   unsigned FirstExpanded = Expanded.begin() - ExpandedTokens.data();
448   unsigned LastExpanded = Expanded.end() - ExpandedTokens.data();
449   if (FirstMapping && FirstExpanded != FirstMapping->BeginExpanded)
450     return std::nullopt;
451   if (LastMapping && LastMapping->EndExpanded != LastExpanded)
452     return std::nullopt;
453   return llvm::ArrayRef(
454       FirstMapping ? File.SpelledTokens.data() + FirstMapping->BeginSpelled
455                    : FirstSpelled,
456       LastMapping ? File.SpelledTokens.data() + LastMapping->EndSpelled
457                   : LastSpelled + 1);
458 }
459 
460 TokenBuffer::Expansion TokenBuffer::makeExpansion(const MarkedFile &F,
461                                                   const Mapping &M) const {
462   Expansion E;
463   E.Spelled = llvm::ArrayRef(F.SpelledTokens.data() + M.BeginSpelled,
464                              F.SpelledTokens.data() + M.EndSpelled);
465   E.Expanded = llvm::ArrayRef(ExpandedTokens.data() + M.BeginExpanded,
466                               ExpandedTokens.data() + M.EndExpanded);
467   return E;
468 }
469 
470 const TokenBuffer::MarkedFile &
471 TokenBuffer::fileForSpelled(llvm::ArrayRef<syntax::Token> Spelled) const {
472   assert(!Spelled.empty());
473   assert(Spelled.front().location().isFileID() && "not a spelled token");
474   auto FileIt = Files.find(SourceMgr->getFileID(Spelled.front().location()));
475   assert(FileIt != Files.end() && "file not tracked by token buffer");
476   const auto &File = FileIt->second;
477   assert(File.SpelledTokens.data() <= Spelled.data() &&
478          Spelled.end() <=
479              (File.SpelledTokens.data() + File.SpelledTokens.size()) &&
480          "Tokens not in spelled range");
481 #ifndef NDEBUG
482   auto T1 = Spelled.back().location();
483   auto T2 = File.SpelledTokens.back().location();
484   assert(T1 == T2 || sourceManager().isBeforeInTranslationUnit(T1, T2));
485 #endif
486   return File;
487 }
488 
489 std::optional<TokenBuffer::Expansion>
490 TokenBuffer::expansionStartingAt(const syntax::Token *Spelled) const {
491   assert(Spelled);
492   const auto &File = fileForSpelled(*Spelled);
493 
494   unsigned SpelledIndex = Spelled - File.SpelledTokens.data();
495   auto M = llvm::partition_point(File.Mappings, [&](const Mapping &M) {
496     return M.BeginSpelled < SpelledIndex;
497   });
498   if (M == File.Mappings.end() || M->BeginSpelled != SpelledIndex)
499     return std::nullopt;
500   return makeExpansion(File, *M);
501 }
502 
503 std::vector<TokenBuffer::Expansion> TokenBuffer::expansionsOverlapping(
504     llvm::ArrayRef<syntax::Token> Spelled) const {
505   if (Spelled.empty())
506     return {};
507   const auto &File = fileForSpelled(Spelled);
508 
509   // Find the first overlapping range, and then copy until we stop overlapping.
510   unsigned SpelledBeginIndex = Spelled.begin() - File.SpelledTokens.data();
511   unsigned SpelledEndIndex = Spelled.end() - File.SpelledTokens.data();
512   auto M = llvm::partition_point(File.Mappings, [&](const Mapping &M) {
513     return M.EndSpelled <= SpelledBeginIndex;
514   });
515   std::vector<TokenBuffer::Expansion> Expansions;
516   for (; M != File.Mappings.end() && M->BeginSpelled < SpelledEndIndex; ++M)
517     Expansions.push_back(makeExpansion(File, *M));
518   return Expansions;
519 }
520 
521 llvm::ArrayRef<syntax::Token>
522 syntax::spelledTokensTouching(SourceLocation Loc,
523                               llvm::ArrayRef<syntax::Token> Tokens) {
524   assert(Loc.isFileID());
525 
526   auto *Right = llvm::partition_point(
527       Tokens, [&](const syntax::Token &Tok) { return Tok.location() < Loc; });
528   bool AcceptRight = Right != Tokens.end() && Right->location() <= Loc;
529   bool AcceptLeft =
530       Right != Tokens.begin() && (Right - 1)->endLocation() >= Loc;
531   return llvm::ArrayRef(Right - (AcceptLeft ? 1 : 0),
532                         Right + (AcceptRight ? 1 : 0));
533 }
534 
535 llvm::ArrayRef<syntax::Token>
536 syntax::spelledTokensTouching(SourceLocation Loc,
537                               const syntax::TokenBuffer &Tokens) {
538   return spelledTokensTouching(
539       Loc, Tokens.spelledTokens(Tokens.sourceManager().getFileID(Loc)));
540 }
541 
542 const syntax::Token *
543 syntax::spelledIdentifierTouching(SourceLocation Loc,
544                                   llvm::ArrayRef<syntax::Token> Tokens) {
545   for (const syntax::Token &Tok : spelledTokensTouching(Loc, Tokens)) {
546     if (Tok.kind() == tok::identifier)
547       return &Tok;
548   }
549   return nullptr;
550 }
551 
552 const syntax::Token *
553 syntax::spelledIdentifierTouching(SourceLocation Loc,
554                                   const syntax::TokenBuffer &Tokens) {
555   return spelledIdentifierTouching(
556       Loc, Tokens.spelledTokens(Tokens.sourceManager().getFileID(Loc)));
557 }
558 
559 std::vector<const syntax::Token *>
560 TokenBuffer::macroExpansions(FileID FID) const {
561   auto FileIt = Files.find(FID);
562   assert(FileIt != Files.end() && "file not tracked by token buffer");
563   auto &File = FileIt->second;
564   std::vector<const syntax::Token *> Expansions;
565   auto &Spelled = File.SpelledTokens;
566   for (auto Mapping : File.Mappings) {
567     const syntax::Token *Token = &Spelled[Mapping.BeginSpelled];
568     if (Token->kind() == tok::TokenKind::identifier)
569       Expansions.push_back(Token);
570   }
571   return Expansions;
572 }
573 
574 std::vector<syntax::Token> syntax::tokenize(const FileRange &FR,
575                                             const SourceManager &SM,
576                                             const LangOptions &LO) {
577   std::vector<syntax::Token> Tokens;
578   IdentifierTable Identifiers(LO);
579   auto AddToken = [&](clang::Token T) {
580     // Fill the proper token kind for keywords, etc.
581     if (T.getKind() == tok::raw_identifier && !T.needsCleaning() &&
582         !T.hasUCN()) { // FIXME: support needsCleaning and hasUCN cases.
583       clang::IdentifierInfo &II = Identifiers.get(T.getRawIdentifier());
584       T.setIdentifierInfo(&II);
585       T.setKind(II.getTokenID());
586     }
587     Tokens.push_back(syntax::Token(T));
588   };
589 
590   auto SrcBuffer = SM.getBufferData(FR.file());
591   Lexer L(SM.getLocForStartOfFile(FR.file()), LO, SrcBuffer.data(),
592           SrcBuffer.data() + FR.beginOffset(),
593           // We can't make BufEnd point to FR.endOffset, as Lexer requires a
594           // null terminated buffer.
595           SrcBuffer.data() + SrcBuffer.size());
596 
597   clang::Token T;
598   while (!L.LexFromRawLexer(T) && L.getCurrentBufferOffset() < FR.endOffset())
599     AddToken(T);
600   // LexFromRawLexer returns true when it parses the last token of the file, add
601   // it iff it starts within the range we are interested in.
602   if (SM.getFileOffset(T.getLocation()) < FR.endOffset())
603     AddToken(T);
604   return Tokens;
605 }
606 
607 std::vector<syntax::Token> syntax::tokenize(FileID FID, const SourceManager &SM,
608                                             const LangOptions &LO) {
609   return tokenize(syntax::FileRange(FID, 0, SM.getFileIDSize(FID)), SM, LO);
610 }
611 
612 /// Records information reqired to construct mappings for the token buffer that
613 /// we are collecting.
614 class TokenCollector::CollectPPExpansions : public PPCallbacks {
615 public:
616   CollectPPExpansions(TokenCollector &C) : Collector(&C) {}
617 
618   /// Disabled instance will stop reporting anything to TokenCollector.
619   /// This ensures that uses of the preprocessor after TokenCollector::consume()
620   /// is called do not access the (possibly invalid) collector instance.
621   void disable() { Collector = nullptr; }
622 
623   void MacroExpands(const clang::Token &MacroNameTok, const MacroDefinition &MD,
624                     SourceRange Range, const MacroArgs *Args) override {
625     if (!Collector)
626       return;
627     const auto &SM = Collector->PP.getSourceManager();
628     // Only record top-level expansions that directly produce expanded tokens.
629     // This excludes those where:
630     //   - the macro use is inside a macro body,
631     //   - the macro appears in an argument to another macro.
632     // However macro expansion isn't really a tree, it's token rewrite rules,
633     // so there are other cases, e.g.
634     //   #define B(X) X
635     //   #define A 1 + B
636     //   A(2)
637     // Both A and B produce expanded tokens, though the macro name 'B' comes
638     // from an expansion. The best we can do is merge the mappings for both.
639 
640     // The *last* token of any top-level macro expansion must be in a file.
641     // (In the example above, see the closing paren of the expansion of B).
642     if (!Range.getEnd().isFileID())
643       return;
644     // If there's a current expansion that encloses this one, this one can't be
645     // top-level.
646     if (LastExpansionEnd.isValid() &&
647         !SM.isBeforeInTranslationUnit(LastExpansionEnd, Range.getEnd()))
648       return;
649 
650     // If the macro invocation (B) starts in a macro (A) but ends in a file,
651     // we'll create a merged mapping for A + B by overwriting the endpoint for
652     // A's startpoint.
653     if (!Range.getBegin().isFileID()) {
654       Range.setBegin(SM.getExpansionLoc(Range.getBegin()));
655       assert(Collector->Expansions.count(Range.getBegin()) &&
656              "Overlapping macros should have same expansion location");
657     }
658 
659     Collector->Expansions[Range.getBegin()] = Range.getEnd();
660     LastExpansionEnd = Range.getEnd();
661   }
662   // FIXME: handle directives like #pragma, #include, etc.
663 private:
664   TokenCollector *Collector;
665   /// Used to detect recursive macro expansions.
666   SourceLocation LastExpansionEnd;
667 };
668 
669 /// Fills in the TokenBuffer by tracing the run of a preprocessor. The
670 /// implementation tracks the tokens, macro expansions and directives coming
671 /// from the preprocessor and:
672 /// - for each token, figures out if it is a part of an expanded token stream,
673 ///   spelled token stream or both. Stores the tokens appropriately.
674 /// - records mappings from the spelled to expanded token ranges, e.g. for macro
675 ///   expansions.
676 /// FIXME: also properly record:
677 ///          - #include directives,
678 ///          - #pragma, #line and other PP directives,
679 ///          - skipped pp regions,
680 ///          - ...
681 
682 TokenCollector::TokenCollector(Preprocessor &PP) : PP(PP) {
683   // Collect the expanded token stream during preprocessing.
684   PP.setTokenWatcher([this](const clang::Token &T) {
685     if (T.isAnnotation())
686       return;
687     DEBUG_WITH_TYPE("collect-tokens", llvm::dbgs()
688                                           << "Token: "
689                                           << syntax::Token(T).dumpForTests(
690                                                  this->PP.getSourceManager())
691                                           << "\n"
692 
693     );
694     Expanded.push_back(syntax::Token(T));
695   });
696   // And locations of macro calls, to properly recover boundaries of those in
697   // case of empty expansions.
698   auto CB = std::make_unique<CollectPPExpansions>(*this);
699   this->Collector = CB.get();
700   PP.addPPCallbacks(std::move(CB));
701 }
702 
703 /// Builds mappings and spelled tokens in the TokenBuffer based on the expanded
704 /// token stream.
705 class TokenCollector::Builder {
706 public:
707   Builder(std::vector<syntax::Token> Expanded, PPExpansions CollectedExpansions,
708           const SourceManager &SM, const LangOptions &LangOpts)
709       : Result(SM), CollectedExpansions(std::move(CollectedExpansions)), SM(SM),
710         LangOpts(LangOpts) {
711     Result.ExpandedTokens = std::move(Expanded);
712   }
713 
714   TokenBuffer build() && {
715     assert(!Result.ExpandedTokens.empty());
716     assert(Result.ExpandedTokens.back().kind() == tok::eof);
717 
718     // Tokenize every file that contributed tokens to the expanded stream.
719     buildSpelledTokens();
720 
721     // The expanded token stream consists of runs of tokens that came from
722     // the same source (a macro expansion, part of a file etc).
723     // Between these runs are the logical positions of spelled tokens that
724     // didn't expand to anything.
725     while (NextExpanded < Result.ExpandedTokens.size() - 1 /* eof */) {
726       // Create empty mappings for spelled tokens that expanded to nothing here.
727       // May advance NextSpelled, but NextExpanded is unchanged.
728       discard();
729       // Create mapping for a contiguous run of expanded tokens.
730       // Advances NextExpanded past the run, and NextSpelled accordingly.
731       unsigned OldPosition = NextExpanded;
732       advance();
733       if (NextExpanded == OldPosition)
734         diagnoseAdvanceFailure();
735     }
736     // If any tokens remain in any of the files, they didn't expand to anything.
737     // Create empty mappings up until the end of the file.
738     for (const auto &File : Result.Files)
739       discard(File.first);
740 
741 #ifndef NDEBUG
742     for (auto &pair : Result.Files) {
743       auto &mappings = pair.second.Mappings;
744       assert(llvm::is_sorted(mappings, [](const TokenBuffer::Mapping &M1,
745                                           const TokenBuffer::Mapping &M2) {
746         return M1.BeginSpelled < M2.BeginSpelled &&
747                M1.EndSpelled < M2.EndSpelled &&
748                M1.BeginExpanded < M2.BeginExpanded &&
749                M1.EndExpanded < M2.EndExpanded;
750       }));
751     }
752 #endif
753 
754     return std::move(Result);
755   }
756 
757 private:
758   // Consume a sequence of spelled tokens that didn't expand to anything.
759   // In the simplest case, skips spelled tokens until finding one that produced
760   // the NextExpanded token, and creates an empty mapping for them.
761   // If Drain is provided, skips remaining tokens from that file instead.
762   void discard(std::optional<FileID> Drain = std::nullopt) {
763     SourceLocation Target =
764         Drain ? SM.getLocForEndOfFile(*Drain)
765               : SM.getExpansionLoc(
766                     Result.ExpandedTokens[NextExpanded].location());
767     FileID File = SM.getFileID(Target);
768     const auto &SpelledTokens = Result.Files[File].SpelledTokens;
769     auto &NextSpelled = this->NextSpelled[File];
770 
771     TokenBuffer::Mapping Mapping;
772     Mapping.BeginSpelled = NextSpelled;
773     // When dropping trailing tokens from a file, the empty mapping should
774     // be positioned within the file's expanded-token range (at the end).
775     Mapping.BeginExpanded = Mapping.EndExpanded =
776         Drain ? Result.Files[*Drain].EndExpanded : NextExpanded;
777     // We may want to split into several adjacent empty mappings.
778     // FlushMapping() emits the current mapping and starts a new one.
779     auto FlushMapping = [&, this] {
780       Mapping.EndSpelled = NextSpelled;
781       if (Mapping.BeginSpelled != Mapping.EndSpelled)
782         Result.Files[File].Mappings.push_back(Mapping);
783       Mapping.BeginSpelled = NextSpelled;
784     };
785 
786     while (NextSpelled < SpelledTokens.size() &&
787            SpelledTokens[NextSpelled].location() < Target) {
788       // If we know mapping bounds at [NextSpelled, KnownEnd] (macro expansion)
789       // then we want to partition our (empty) mapping.
790       //   [Start, NextSpelled) [NextSpelled, KnownEnd] (KnownEnd, Target)
791       SourceLocation KnownEnd =
792           CollectedExpansions.lookup(SpelledTokens[NextSpelled].location());
793       if (KnownEnd.isValid()) {
794         FlushMapping(); // Emits [Start, NextSpelled)
795         while (NextSpelled < SpelledTokens.size() &&
796                SpelledTokens[NextSpelled].location() <= KnownEnd)
797           ++NextSpelled;
798         FlushMapping(); // Emits [NextSpelled, KnownEnd]
799         // Now the loop continues and will emit (KnownEnd, Target).
800       } else {
801         ++NextSpelled;
802       }
803     }
804     FlushMapping();
805   }
806 
807   // Consumes the NextExpanded token and others that are part of the same run.
808   // Increases NextExpanded and NextSpelled by at least one, and adds a mapping
809   // (unless this is a run of file tokens, which we represent with no mapping).
810   void advance() {
811     const syntax::Token &Tok = Result.ExpandedTokens[NextExpanded];
812     SourceLocation Expansion = SM.getExpansionLoc(Tok.location());
813     FileID File = SM.getFileID(Expansion);
814     const auto &SpelledTokens = Result.Files[File].SpelledTokens;
815     auto &NextSpelled = this->NextSpelled[File];
816 
817     if (Tok.location().isFileID()) {
818       // A run of file tokens continues while the expanded/spelled tokens match.
819       while (NextSpelled < SpelledTokens.size() &&
820              NextExpanded < Result.ExpandedTokens.size() &&
821              SpelledTokens[NextSpelled].location() ==
822                  Result.ExpandedTokens[NextExpanded].location()) {
823         ++NextSpelled;
824         ++NextExpanded;
825       }
826       // We need no mapping for file tokens copied to the expanded stream.
827     } else {
828       // We found a new macro expansion. We should have its spelling bounds.
829       auto End = CollectedExpansions.lookup(Expansion);
830       assert(End.isValid() && "Macro expansion wasn't captured?");
831 
832       // Mapping starts here...
833       TokenBuffer::Mapping Mapping;
834       Mapping.BeginExpanded = NextExpanded;
835       Mapping.BeginSpelled = NextSpelled;
836       // ... consumes spelled tokens within bounds we captured ...
837       while (NextSpelled < SpelledTokens.size() &&
838              SpelledTokens[NextSpelled].location() <= End)
839         ++NextSpelled;
840       // ... consumes expanded tokens rooted at the same expansion ...
841       while (NextExpanded < Result.ExpandedTokens.size() &&
842              SM.getExpansionLoc(
843                  Result.ExpandedTokens[NextExpanded].location()) == Expansion)
844         ++NextExpanded;
845       // ... and ends here.
846       Mapping.EndExpanded = NextExpanded;
847       Mapping.EndSpelled = NextSpelled;
848       Result.Files[File].Mappings.push_back(Mapping);
849     }
850   }
851 
852   // advance() is supposed to consume at least one token - if not, we crash.
853   void diagnoseAdvanceFailure() {
854 #ifndef NDEBUG
855     // Show the failed-to-map token in context.
856     for (unsigned I = (NextExpanded < 10) ? 0 : NextExpanded - 10;
857          I < NextExpanded + 5 && I < Result.ExpandedTokens.size(); ++I) {
858       const char *L =
859           (I == NextExpanded) ? "!! " : (I < NextExpanded) ? "ok " : "   ";
860       llvm::errs() << L << Result.ExpandedTokens[I].dumpForTests(SM) << "\n";
861     }
862 #endif
863     llvm_unreachable("Couldn't map expanded token to spelled tokens!");
864   }
865 
866   /// Initializes TokenBuffer::Files and fills spelled tokens and expanded
867   /// ranges for each of the files.
868   void buildSpelledTokens() {
869     for (unsigned I = 0; I < Result.ExpandedTokens.size(); ++I) {
870       const auto &Tok = Result.ExpandedTokens[I];
871       auto FID = SM.getFileID(SM.getExpansionLoc(Tok.location()));
872       auto It = Result.Files.try_emplace(FID);
873       TokenBuffer::MarkedFile &File = It.first->second;
874 
875       // The eof token should not be considered part of the main-file's range.
876       File.EndExpanded = Tok.kind() == tok::eof ? I : I + 1;
877 
878       if (!It.second)
879         continue; // we have seen this file before.
880       // This is the first time we see this file.
881       File.BeginExpanded = I;
882       File.SpelledTokens = tokenize(FID, SM, LangOpts);
883     }
884   }
885 
886   TokenBuffer Result;
887   unsigned NextExpanded = 0;                    // cursor in ExpandedTokens
888   llvm::DenseMap<FileID, unsigned> NextSpelled; // cursor in SpelledTokens
889   PPExpansions CollectedExpansions;
890   const SourceManager &SM;
891   const LangOptions &LangOpts;
892 };
893 
894 TokenBuffer TokenCollector::consume() && {
895   PP.setTokenWatcher(nullptr);
896   Collector->disable();
897   return Builder(std::move(Expanded), std::move(Expansions),
898                  PP.getSourceManager(), PP.getLangOpts())
899       .build();
900 }
901 
902 std::string syntax::Token::str() const {
903   return std::string(llvm::formatv("Token({0}, length = {1})",
904                                    tok::getTokenName(kind()), length()));
905 }
906 
907 std::string syntax::Token::dumpForTests(const SourceManager &SM) const {
908   return std::string(llvm::formatv("Token(`{0}`, {1}, length = {2})", text(SM),
909                                    tok::getTokenName(kind()), length()));
910 }
911 
912 std::string TokenBuffer::dumpForTests() const {
913   auto PrintToken = [this](const syntax::Token &T) -> std::string {
914     if (T.kind() == tok::eof)
915       return "<eof>";
916     return std::string(T.text(*SourceMgr));
917   };
918 
919   auto DumpTokens = [this, &PrintToken](llvm::raw_ostream &OS,
920                                         llvm::ArrayRef<syntax::Token> Tokens) {
921     if (Tokens.empty()) {
922       OS << "<empty>";
923       return;
924     }
925     OS << Tokens[0].text(*SourceMgr);
926     for (unsigned I = 1; I < Tokens.size(); ++I) {
927       if (Tokens[I].kind() == tok::eof)
928         continue;
929       OS << " " << PrintToken(Tokens[I]);
930     }
931   };
932 
933   std::string Dump;
934   llvm::raw_string_ostream OS(Dump);
935 
936   OS << "expanded tokens:\n"
937      << "  ";
938   // (!) we do not show '<eof>'.
939   DumpTokens(OS, llvm::ArrayRef(ExpandedTokens).drop_back());
940   OS << "\n";
941 
942   std::vector<FileID> Keys;
943   for (const auto &F : Files)
944     Keys.push_back(F.first);
945   llvm::sort(Keys);
946 
947   for (FileID ID : Keys) {
948     const MarkedFile &File = Files.find(ID)->second;
949     auto Entry = SourceMgr->getFileEntryRefForID(ID);
950     if (!Entry)
951       continue; // Skip builtin files.
952     std::string Path = llvm::sys::path::convert_to_slash(Entry->getName());
953     OS << llvm::formatv("file '{0}'\n", Path) << "  spelled tokens:\n"
954        << "    ";
955     DumpTokens(OS, File.SpelledTokens);
956     OS << "\n";
957 
958     if (File.Mappings.empty()) {
959       OS << "  no mappings.\n";
960       continue;
961     }
962     OS << "  mappings:\n";
963     for (auto &M : File.Mappings) {
964       OS << llvm::formatv(
965           "    ['{0}'_{1}, '{2}'_{3}) => ['{4}'_{5}, '{6}'_{7})\n",
966           PrintToken(File.SpelledTokens[M.BeginSpelled]), M.BeginSpelled,
967           M.EndSpelled == File.SpelledTokens.size()
968               ? "<eof>"
969               : PrintToken(File.SpelledTokens[M.EndSpelled]),
970           M.EndSpelled, PrintToken(ExpandedTokens[M.BeginExpanded]),
971           M.BeginExpanded, PrintToken(ExpandedTokens[M.EndExpanded]),
972           M.EndExpanded);
973     }
974   }
975   return Dump;
976 }
977