xref: /freebsd/contrib/llvm-project/clang/lib/Format/MacroCallReconstructor.cpp (revision 95eb4b873b6a8b527c5bd78d7191975dfca38998)
1 //===--- MacroCallReconstructor.cpp - Format C++ code -----------*- C++ -*-===//
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 /// This file contains the implementation of MacroCallReconstructor, which fits
12 /// an reconstructed macro call to a parsed set of UnwrappedLines.
13 ///
14 //===----------------------------------------------------------------------===//
15 
16 #include "Macros.h"
17 
18 #include "UnwrappedLineParser.h"
19 #include "clang/Basic/TokenKinds.h"
20 #include "llvm/ADT/DenseSet.h"
21 #include "llvm/Support/Debug.h"
22 #include <cassert>
23 
24 #define DEBUG_TYPE "format-reconstruct"
25 
26 namespace clang {
27 namespace format {
28 
29 // Call \p Call for each token in the unwrapped line given, passing
30 // the token, its parent and whether it is the first token in the line.
31 template <typename T>
32 void forEachToken(const UnwrappedLine &Line, const T &Call,
33                   FormatToken *Parent = nullptr) {
34   bool First = true;
35   for (const auto &N : Line.Tokens) {
36     Call(N.Tok, Parent, First);
37     First = false;
38     for (const auto &Child : N.Children)
39       forEachToken(Child, Call, N.Tok);
40   }
41 }
42 
43 MacroCallReconstructor::MacroCallReconstructor(
44     unsigned Level,
45     const llvm::DenseMap<FormatToken *, std::unique_ptr<UnwrappedLine>>
46         &ActiveExpansions)
47     : Level(Level), IdToReconstructed(ActiveExpansions) {
48   Result.Tokens.push_back(std::make_unique<LineNode>());
49   ActiveReconstructedLines.push_back(&Result);
50 }
51 
52 void MacroCallReconstructor::addLine(const UnwrappedLine &Line) {
53   assert(State != Finalized);
54   LLVM_DEBUG(llvm::dbgs() << "MCR: new line...\n");
55   forEachToken(Line, [&](FormatToken *Token, FormatToken *Parent, bool First) {
56     add(Token, Parent, First);
57   });
58   assert(InProgress || finished());
59 }
60 
61 UnwrappedLine MacroCallReconstructor::takeResult() && {
62   finalize();
63   assert(Result.Tokens.size() == 1 &&
64          Result.Tokens.front()->Children.size() == 1);
65   UnwrappedLine Final =
66       createUnwrappedLine(*Result.Tokens.front()->Children.front(), Level);
67   assert(!Final.Tokens.empty());
68   return Final;
69 }
70 
71 // Reconstruct the position of the next \p Token, given its parent \p
72 // ExpandedParent in the incoming unwrapped line. \p First specifies whether it
73 // is the first token in a given unwrapped line.
74 void MacroCallReconstructor::add(FormatToken *Token,
75                                  FormatToken *ExpandedParent, bool First) {
76   LLVM_DEBUG(
77       llvm::dbgs() << "MCR: Token: " << Token->TokenText << ", Parent: "
78                    << (ExpandedParent ? ExpandedParent->TokenText : "<null>")
79                    << ", First: " << First << "\n");
80   // In order to be able to find the correct parent in the reconstructed token
81   // stream, we need to continue the last open reconstruction until we find the
82   // given token if it is part of the reconstructed token stream.
83   //
84   // Note that hidden tokens can be part of the reconstructed stream in nested
85   // macro calls.
86   // For example, given
87   //   #define C(x, y) x y
88   //   #define B(x) {x}
89   // And the call:
90   //   C(a, B(b))
91   // The outer macro call will be C(a, {b}), and the hidden token '}' can be
92   // found in the reconstructed token stream of that expansion level.
93   // In the expanded token stream
94   //   a {b}
95   // 'b' is a child of '{'. We need to continue the open expansion of the ','
96   // in the call of 'C' in order to correctly set the ',' as the parent of '{',
97   // so we later set the spelled token 'b' as a child of the ','.
98   if (!ActiveExpansions.empty() && Token->MacroCtx &&
99       (Token->MacroCtx->Role != MR_Hidden ||
100        ActiveExpansions.size() != Token->MacroCtx->ExpandedFrom.size())) {
101     if (/*PassedMacroComma = */ reconstructActiveCallUntil(Token))
102       First = true;
103   }
104 
105   prepareParent(ExpandedParent, First);
106 
107   if (Token->MacroCtx) {
108     // If this token was generated by a macro call, add the reconstructed
109     // equivalent of the token.
110     reconstruct(Token);
111   } else {
112     // Otherwise, we add it to the current line.
113     appendToken(Token);
114   }
115 }
116 
117 // Adjusts the stack of active reconstructed lines so we're ready to push
118 // tokens. The tokens to be pushed are children of ExpandedParent in the
119 // expanded code.
120 //
121 // This may entail:
122 // - creating a new line, if the parent is on the active line
123 // - popping active lines, if the parent is further up the stack
124 //
125 // Postcondition:
126 // ActiveReconstructedLines.back() is the line that has \p ExpandedParent or its
127 // reconstructed replacement token as a parent (when possible) - that is, the
128 // last token in \c ActiveReconstructedLines[ActiveReconstructedLines.size()-2]
129 // is the parent of ActiveReconstructedLines.back() in the reconstructed
130 // unwrapped line.
131 void MacroCallReconstructor::prepareParent(FormatToken *ExpandedParent,
132                                            bool NewLine) {
133   LLVM_DEBUG({
134     llvm::dbgs() << "ParentMap:\n";
135     debugParentMap();
136   });
137   // We want to find the parent in the new unwrapped line, where the expanded
138   // parent might have been replaced during reconstruction.
139   FormatToken *Parent = getParentInResult(ExpandedParent);
140   LLVM_DEBUG(llvm::dbgs() << "MCR: New parent: "
141                           << (Parent ? Parent->TokenText : "<null>") << "\n");
142 
143   FormatToken *OpenMacroParent = nullptr;
144   if (!MacroCallStructure.empty()) {
145     // Inside a macro expansion, it is possible to lose track of the correct
146     // parent - either because it is already popped, for example because it was
147     // in a different macro argument (e.g. M({, })), or when we work on invalid
148     // code.
149     // Thus, we use the innermost macro call's parent as the parent at which
150     // we stop; this allows us to stay within the macro expansion and keeps
151     // any problems confined to the extent of the macro call.
152     OpenMacroParent =
153         getParentInResult(MacroCallStructure.back().MacroCallLParen);
154     LLVM_DEBUG(llvm::dbgs()
155                << "MacroCallLParen: "
156                << MacroCallStructure.back().MacroCallLParen->TokenText
157                << ", OpenMacroParent: "
158                << (OpenMacroParent ? OpenMacroParent->TokenText : "<null>")
159                << "\n");
160   }
161   if (NewLine ||
162       (!ActiveReconstructedLines.back()->Tokens.empty() &&
163        Parent == ActiveReconstructedLines.back()->Tokens.back()->Tok)) {
164     // If we are at the first token in a new line, we want to also
165     // create a new line in the resulting reconstructed unwrapped line.
166     while (ActiveReconstructedLines.back()->Tokens.empty() ||
167            (Parent != ActiveReconstructedLines.back()->Tokens.back()->Tok &&
168             ActiveReconstructedLines.back()->Tokens.back()->Tok !=
169                 OpenMacroParent)) {
170       ActiveReconstructedLines.pop_back();
171       assert(!ActiveReconstructedLines.empty());
172     }
173     assert(!ActiveReconstructedLines.empty());
174     ActiveReconstructedLines.back()->Tokens.back()->Children.push_back(
175         std::make_unique<ReconstructedLine>());
176     ActiveReconstructedLines.push_back(
177         &*ActiveReconstructedLines.back()->Tokens.back()->Children.back());
178   } else if (parentLine().Tokens.back()->Tok != Parent) {
179     // If we're not the first token in a new line, pop lines until we find
180     // the child of \c Parent in the stack.
181     while (Parent != parentLine().Tokens.back()->Tok &&
182            parentLine().Tokens.back()->Tok &&
183            parentLine().Tokens.back()->Tok != OpenMacroParent) {
184       ActiveReconstructedLines.pop_back();
185       assert(!ActiveReconstructedLines.empty());
186     }
187   }
188   assert(!ActiveReconstructedLines.empty());
189 }
190 
191 // For a given \p Parent in the incoming expanded token stream, find the
192 // corresponding parent in the output.
193 FormatToken *MacroCallReconstructor::getParentInResult(FormatToken *Parent) {
194   FormatToken *Mapped = SpelledParentToReconstructedParent.lookup(Parent);
195   if (!Mapped)
196     return Parent;
197   for (; Mapped; Mapped = SpelledParentToReconstructedParent.lookup(Parent))
198     Parent = Mapped;
199   // If we use a different token than the parent in the expanded token stream
200   // as parent, mark it as a special parent, so the formatting code knows it
201   // needs to have its children formatted.
202   Parent->MacroParent = true;
203   return Parent;
204 }
205 
206 // Reconstruct a \p Token that was expanded from a macro call.
207 void MacroCallReconstructor::reconstruct(FormatToken *Token) {
208   assert(Token->MacroCtx);
209   // A single token can be the only result of a macro call:
210   // Given: #define ID(x, y) ;
211   // And the call: ID(<some>, <tokens>)
212   // ';' in the expanded stream will reconstruct all of ID(<some>, <tokens>).
213   if (Token->MacroCtx->StartOfExpansion) {
214     startReconstruction(Token);
215     // If the order of tokens in the expanded token stream is not the
216     // same as the order of tokens in the reconstructed stream, we need
217     // to reconstruct tokens that arrive later in the stream.
218     if (Token->MacroCtx->Role != MR_Hidden)
219       reconstructActiveCallUntil(Token);
220   }
221   assert(!ActiveExpansions.empty());
222   if (ActiveExpansions.back().SpelledI != ActiveExpansions.back().SpelledE) {
223     assert(ActiveExpansions.size() == Token->MacroCtx->ExpandedFrom.size());
224     if (Token->MacroCtx->Role != MR_Hidden) {
225       // The current token in the reconstructed token stream must be the token
226       // we're looking for - we either arrive here after startReconstruction,
227       // which initiates the stream to the first token, or after
228       // continueReconstructionUntil skipped until the expected token in the
229       // reconstructed stream at the start of add(...).
230       assert(ActiveExpansions.back().SpelledI->Tok == Token);
231       processNextReconstructed();
232     } else if (!currentLine()->Tokens.empty()) {
233       // Map all hidden tokens to the last visible token in the output.
234       // If the hidden token is a parent, we'll use the last visible
235       // token as the parent of the hidden token's children.
236       SpelledParentToReconstructedParent[Token] =
237           currentLine()->Tokens.back()->Tok;
238     } else {
239       for (auto I = ActiveReconstructedLines.rbegin(),
240                 E = ActiveReconstructedLines.rend();
241            I != E; ++I) {
242         if (!(*I)->Tokens.empty()) {
243           SpelledParentToReconstructedParent[Token] = (*I)->Tokens.back()->Tok;
244           break;
245         }
246       }
247     }
248   }
249   if (Token->MacroCtx->EndOfExpansion)
250     endReconstruction(Token);
251 }
252 
253 // Given a \p Token that starts an expansion, reconstruct the beginning of the
254 // macro call.
255 // For example, given: #define ID(x) x
256 // And the call: ID(int a)
257 // Reconstructs: ID(
258 void MacroCallReconstructor::startReconstruction(FormatToken *Token) {
259   assert(Token->MacroCtx);
260   assert(!Token->MacroCtx->ExpandedFrom.empty());
261   assert(ActiveExpansions.size() <= Token->MacroCtx->ExpandedFrom.size());
262 #ifndef NDEBUG
263   // Check that the token's reconstruction stack matches our current
264   // reconstruction stack.
265   for (size_t I = 0; I < ActiveExpansions.size(); ++I) {
266     assert(ActiveExpansions[I].ID ==
267            Token->MacroCtx
268                ->ExpandedFrom[Token->MacroCtx->ExpandedFrom.size() - 1 - I]);
269   }
270 #endif
271   // Start reconstruction for all calls for which this token is the first token
272   // generated by the call.
273   // Note that the token's expanded from stack is inside-to-outside, and the
274   // expansions for which this token is not the first are the outermost ones.
275   ArrayRef<FormatToken *> StartedMacros =
276       ArrayRef(Token->MacroCtx->ExpandedFrom)
277           .drop_back(ActiveExpansions.size());
278   assert(StartedMacros.size() == Token->MacroCtx->StartOfExpansion);
279   // We reconstruct macro calls outside-to-inside.
280   for (FormatToken *ID : llvm::reverse(StartedMacros)) {
281     // We found a macro call to be reconstructed; the next time our
282     // reconstruction stack is empty we know we finished an reconstruction.
283 #ifndef NDEBUG
284     State = InProgress;
285 #endif
286     // Put the reconstructed macro call's token into our reconstruction stack.
287     auto IU = IdToReconstructed.find(ID);
288     assert(IU != IdToReconstructed.end());
289     ActiveExpansions.push_back(
290         {ID, IU->second->Tokens.begin(), IU->second->Tokens.end()});
291     // Process the macro call's identifier.
292     processNextReconstructed();
293     if (ActiveExpansions.back().SpelledI == ActiveExpansions.back().SpelledE)
294       continue;
295     if (ActiveExpansions.back().SpelledI->Tok->is(tok::l_paren)) {
296       // Process the optional opening parenthesis.
297       processNextReconstructed();
298     }
299   }
300 }
301 
302 // Add all tokens in the reconstruction stream to the output until we find the
303 // given \p Token.
304 bool MacroCallReconstructor::reconstructActiveCallUntil(FormatToken *Token) {
305   assert(!ActiveExpansions.empty());
306   bool PassedMacroComma = false;
307   // FIXME: If Token was already expanded earlier, due to
308   // a change in order, we will not find it, but need to
309   // skip it.
310   while (ActiveExpansions.back().SpelledI != ActiveExpansions.back().SpelledE &&
311          ActiveExpansions.back().SpelledI->Tok != Token) {
312     PassedMacroComma = processNextReconstructed() || PassedMacroComma;
313   }
314   return PassedMacroComma;
315 }
316 
317 // End all reconstructions for which \p Token is the final token.
318 void MacroCallReconstructor::endReconstruction(FormatToken *Token) {
319   assert(Token->MacroCtx &&
320          (ActiveExpansions.size() >= Token->MacroCtx->EndOfExpansion));
321   for (size_t I = 0; I < Token->MacroCtx->EndOfExpansion; ++I) {
322     LLVM_DEBUG([&] {
323       // Check all remaining tokens but the final closing parenthesis and
324       // optional trailing comment were already reconstructed at an inner
325       // expansion level.
326       for (auto T = ActiveExpansions.back().SpelledI;
327            T != ActiveExpansions.back().SpelledE; ++T) {
328         FormatToken *Token = T->Tok;
329         bool ClosingParen = (std::next(T) == ActiveExpansions.back().SpelledE ||
330                              std::next(T)->Tok->isTrailingComment()) &&
331                             !Token->MacroCtx && Token->is(tok::r_paren);
332         bool TrailingComment = Token->isTrailingComment();
333         bool PreviousLevel =
334             Token->MacroCtx &&
335             (ActiveExpansions.size() < Token->MacroCtx->ExpandedFrom.size());
336         if (!ClosingParen && !TrailingComment && !PreviousLevel)
337           llvm::dbgs() << "At token: " << Token->TokenText << "\n";
338         // In addition to the following cases, we can also run into this
339         // when a macro call had more arguments than expected; in that case,
340         // the comma and the remaining tokens in the macro call will
341         // potentially end up in the line when we finish the expansion.
342         // FIXME: Add the information which arguments are unused, and assert
343         // one of the cases below plus reconstructed macro argument tokens.
344         // assert(ClosingParen || TrailingComment || PreviousLevel);
345       }
346     }());
347     // Handle the remaining open tokens:
348     // - expand the closing parenthesis, if it exists, including an optional
349     //   trailing comment
350     // - handle tokens that were already reconstructed at an inner expansion
351     //   level
352     // - handle tokens when a macro call had more than the expected number of
353     //   arguments, i.e. when #define M(x) is called as M(a, b, c) we'll end
354     //   up with the sequence ", b, c)" being open at the end of the
355     //   reconstruction; we want to gracefully handle that case
356     //
357     // FIXME: See the above debug-check for what we will need to do to be
358     // able to assert this.
359     for (auto T = ActiveExpansions.back().SpelledI;
360          T != ActiveExpansions.back().SpelledE; ++T) {
361       processNextReconstructed();
362     }
363     ActiveExpansions.pop_back();
364   }
365 }
366 
367 void MacroCallReconstructor::debugParentMap() const {
368   llvm::DenseSet<FormatToken *> Values;
369   for (const auto &P : SpelledParentToReconstructedParent)
370     Values.insert(P.second);
371 
372   for (const auto &P : SpelledParentToReconstructedParent) {
373     if (Values.contains(P.first))
374       continue;
375     llvm::dbgs() << (P.first ? P.first->TokenText : "<null>");
376     for (auto I = SpelledParentToReconstructedParent.find(P.first),
377               E = SpelledParentToReconstructedParent.end();
378          I != E; I = SpelledParentToReconstructedParent.find(I->second)) {
379       llvm::dbgs() << " -> " << (I->second ? I->second->TokenText : "<null>");
380     }
381     llvm::dbgs() << "\n";
382   }
383 }
384 
385 // If visible, add the next token of the reconstructed token sequence to the
386 // output. Returns whether reconstruction passed a comma that is part of a
387 // macro call.
388 bool MacroCallReconstructor::processNextReconstructed() {
389   FormatToken *Token = ActiveExpansions.back().SpelledI->Tok;
390   ++ActiveExpansions.back().SpelledI;
391   if (Token->MacroCtx) {
392     // Skip tokens that are not part of the macro call.
393     if (Token->MacroCtx->Role == MR_Hidden)
394       return false;
395     // Skip tokens we already expanded during an inner reconstruction.
396     // For example, given: #define ID(x) {x}
397     // And the call: ID(ID(f))
398     // We get two reconstructions:
399     // ID(f) -> {f}
400     // ID({f}) -> {{f}}
401     // We reconstruct f during the first reconstruction, and skip it during the
402     // second reconstruction.
403     if (ActiveExpansions.size() < Token->MacroCtx->ExpandedFrom.size())
404       return false;
405   }
406   // Tokens that do not have a macro context are tokens in that are part of the
407   // macro call that have not taken part in expansion.
408   if (!Token->MacroCtx) {
409     // Put the parentheses and commas of a macro call into the same line;
410     // if the arguments produce new unwrapped lines, they will become children
411     // of the corresponding opening parenthesis or comma tokens in the
412     // reconstructed call.
413     if (Token->is(tok::l_paren)) {
414       MacroCallStructure.push_back(MacroCallState(
415           currentLine(), parentLine().Tokens.back()->Tok, Token));
416       // All tokens that are children of the previous line's last token in the
417       // reconstructed token stream will now be children of the l_paren token.
418       // For example, for the line containing the macro calls:
419       //   auto x = ID({ID(2)});
420       // We will build up a map <null> -> ( -> ( with the first and second
421       // l_paren of the macro call respectively. New lines that come in with a
422       // <null> parent will then become children of the l_paren token of the
423       // currently innermost macro call.
424       SpelledParentToReconstructedParent[MacroCallStructure.back()
425                                              .ParentLastToken] = Token;
426       appendToken(Token);
427       prepareParent(Token, /*NewLine=*/true);
428       Token->MacroParent = true;
429       return false;
430     }
431     if (!MacroCallStructure.empty()) {
432       if (Token->is(tok::comma)) {
433         // Make new lines inside the next argument children of the comma token.
434         SpelledParentToReconstructedParent
435             [MacroCallStructure.back().Line->Tokens.back()->Tok] = Token;
436         Token->MacroParent = true;
437         appendToken(Token, MacroCallStructure.back().Line);
438         prepareParent(Token, /*NewLine=*/true);
439         return true;
440       }
441       if (Token->is(tok::r_paren)) {
442         appendToken(Token, MacroCallStructure.back().Line);
443         SpelledParentToReconstructedParent.erase(
444             MacroCallStructure.back().ParentLastToken);
445         MacroCallStructure.pop_back();
446         return false;
447       }
448     }
449   }
450   // Note that any tokens that are tagged with MR_None have been passed as
451   // arguments to the macro that have not been expanded, for example:
452   // Given: #define ID(X) x
453   // When calling: ID(a, b)
454   // 'b' will be part of the reconstructed token stream, but tagged MR_None.
455   // Given that erroring out in this case would be disruptive, we continue
456   // pushing the (unformatted) token.
457   // FIXME: This can lead to unfortunate formatting decisions - give the user
458   // a hint that their macro definition is broken.
459   appendToken(Token);
460   return false;
461 }
462 
463 void MacroCallReconstructor::finalize() {
464 #ifndef NDEBUG
465   assert(State != Finalized && finished());
466   State = Finalized;
467 #endif
468 
469   // We created corresponding unwrapped lines for each incoming line as children
470   // the the toplevel null token.
471   assert(Result.Tokens.size() == 1 && !Result.Tokens.front()->Children.empty());
472   LLVM_DEBUG({
473     llvm::dbgs() << "Finalizing reconstructed lines:\n";
474     debug(Result, 0);
475   });
476 
477   // The first line becomes the top level line in the resulting unwrapped line.
478   LineNode &Top = *Result.Tokens.front();
479   auto *I = Top.Children.begin();
480   // Every subsequent line will become a child of the last token in the previous
481   // line, which is the token prior to the first token in the line.
482   LineNode *Last = (*I)->Tokens.back().get();
483   ++I;
484   for (auto *E = Top.Children.end(); I != E; ++I) {
485     assert(Last->Children.empty());
486     Last->Children.push_back(std::move(*I));
487 
488     // Mark the previous line's last token as generated by a macro expansion
489     // so the formatting algorithm can take that into account.
490     Last->Tok->MacroParent = true;
491 
492     Last = Last->Children.back()->Tokens.back().get();
493   }
494   Top.Children.resize(1);
495 }
496 
497 void MacroCallReconstructor::appendToken(FormatToken *Token,
498                                          ReconstructedLine *L) {
499   L = L ? L : currentLine();
500   LLVM_DEBUG(llvm::dbgs() << "-> " << Token->TokenText << "\n");
501   L->Tokens.push_back(std::make_unique<LineNode>(Token));
502 }
503 
504 UnwrappedLine
505 MacroCallReconstructor::createUnwrappedLine(const ReconstructedLine &Line,
506                                             int Level) {
507   UnwrappedLine Result;
508   Result.Level = Level;
509   for (const auto &N : Line.Tokens) {
510     Result.Tokens.push_back(N->Tok);
511     UnwrappedLineNode &Current = Result.Tokens.back();
512     for (const auto &Child : N->Children) {
513       if (Child->Tokens.empty())
514         continue;
515       Current.Children.push_back(createUnwrappedLine(*Child, Level + 1));
516     }
517     if (Current.Children.size() == 1 &&
518         Current.Tok->isOneOf(tok::l_paren, tok::comma)) {
519       Result.Tokens.splice(Result.Tokens.end(),
520                            Current.Children.front().Tokens);
521       Current.Children.clear();
522     }
523   }
524   return Result;
525 }
526 
527 void MacroCallReconstructor::debug(const ReconstructedLine &Line, int Level) {
528   for (int i = 0; i < Level; ++i)
529     llvm::dbgs() << " ";
530   for (const auto &N : Line.Tokens) {
531     if (!N)
532       continue;
533     if (N->Tok)
534       llvm::dbgs() << N->Tok->TokenText << " ";
535     for (const auto &Child : N->Children) {
536       llvm::dbgs() << "\n";
537       debug(*Child, Level + 1);
538       for (int i = 0; i < Level; ++i)
539         llvm::dbgs() << " ";
540     }
541   }
542   llvm::dbgs() << "\n";
543 }
544 
545 MacroCallReconstructor::ReconstructedLine &
546 MacroCallReconstructor::parentLine() {
547   return **std::prev(std::prev(ActiveReconstructedLines.end()));
548 }
549 
550 MacroCallReconstructor::ReconstructedLine *
551 MacroCallReconstructor::currentLine() {
552   return ActiveReconstructedLines.back();
553 }
554 
555 MacroCallReconstructor::MacroCallState::MacroCallState(
556     MacroCallReconstructor::ReconstructedLine *Line,
557     FormatToken *ParentLastToken, FormatToken *MacroCallLParen)
558     : Line(Line), ParentLastToken(ParentLastToken),
559       MacroCallLParen(MacroCallLParen) {
560   LLVM_DEBUG(
561       llvm::dbgs() << "ParentLastToken: "
562                    << (ParentLastToken ? ParentLastToken->TokenText : "<null>")
563                    << "\n");
564 
565   assert(MacroCallLParen->is(tok::l_paren));
566 }
567 
568 } // namespace format
569 } // namespace clang
570