1 //===--- ASTMatchers.h - Structural query framework -------------*- 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 //  This file implements matchers to be used together with the MatchFinder to
11 //  match AST nodes.
12 //
13 //  Matchers are created by generator functions, which can be combined in
14 //  a functional in-language DSL to express queries over the C++ AST.
15 //
16 //  For example, to match a class with a certain name, one would call:
17 //    cxxRecordDecl(hasName("MyClass"))
18 //  which returns a matcher that can be used to find all AST nodes that declare
19 //  a class named 'MyClass'.
20 //
21 //  For more complicated match expressions we're often interested in accessing
22 //  multiple parts of the matched AST nodes once a match is found. In that case,
23 //  use the id(...) matcher around the match expressions that match the nodes
24 //  you want to access.
25 //
26 //  For example, when we're interested in child classes of a certain class, we
27 //  would write:
28 //    cxxRecordDecl(hasName("MyClass"), hasChild(id("child", recordDecl())))
29 //  When the match is found via the MatchFinder, a user provided callback will
30 //  be called with a BoundNodes instance that contains a mapping from the
31 //  strings that we provided for the id(...) calls to the nodes that were
32 //  matched.
33 //  In the given example, each time our matcher finds a match we get a callback
34 //  where "child" is bound to the RecordDecl node of the matching child
35 //  class declaration.
36 //
37 //  See ASTMatchersInternal.h for a more in-depth explanation of the
38 //  implementation details of the matcher framework.
39 //
40 //  See ASTMatchFinder.h for how to use the generated matchers to run over
41 //  an AST.
42 //
43 //===----------------------------------------------------------------------===//
44 
45 #ifndef LLVM_CLANG_ASTMATCHERS_ASTMATCHERS_H
46 #define LLVM_CLANG_ASTMATCHERS_ASTMATCHERS_H
47 
48 #include "clang/AST/ASTContext.h"
49 #include "clang/AST/DeclFriend.h"
50 #include "clang/AST/DeclObjC.h"
51 #include "clang/AST/DeclTemplate.h"
52 #include "clang/ASTMatchers/ASTMatchersInternal.h"
53 #include "clang/ASTMatchers/ASTMatchersMacros.h"
54 #include "llvm/ADT/Twine.h"
55 #include "llvm/Support/Regex.h"
56 #include <iterator>
57 
58 namespace clang {
59 namespace ast_matchers {
60 
61 /// \brief Maps string IDs to AST nodes matched by parts of a matcher.
62 ///
63 /// The bound nodes are generated by calling \c bind("id") on the node matchers
64 /// of the nodes we want to access later.
65 ///
66 /// The instances of BoundNodes are created by \c MatchFinder when the user's
67 /// callbacks are executed every time a match is found.
68 class BoundNodes {
69 public:
70   /// \brief Returns the AST node bound to \c ID.
71   ///
72   /// Returns NULL if there was no node bound to \c ID or if there is a node but
73   /// it cannot be converted to the specified type.
74   template <typename T>
getNodeAs(StringRef ID)75   const T *getNodeAs(StringRef ID) const {
76     return MyBoundNodes.getNodeAs<T>(ID);
77   }
78 
79   /// \brief Deprecated. Please use \c getNodeAs instead.
80   /// @{
81   template <typename T>
getDeclAs(StringRef ID)82   const T *getDeclAs(StringRef ID) const {
83     return getNodeAs<T>(ID);
84   }
85   template <typename T>
getStmtAs(StringRef ID)86   const T *getStmtAs(StringRef ID) const {
87     return getNodeAs<T>(ID);
88   }
89   /// @}
90 
91   /// \brief Type of mapping from binding identifiers to bound nodes. This type
92   /// is an associative container with a key type of \c std::string and a value
93   /// type of \c clang::ast_type_traits::DynTypedNode
94   typedef internal::BoundNodesMap::IDToNodeMap IDToNodeMap;
95 
96   /// \brief Retrieve mapping from binding identifiers to bound nodes.
getMap()97   const IDToNodeMap &getMap() const {
98     return MyBoundNodes.getMap();
99   }
100 
101 private:
102   /// \brief Create BoundNodes from a pre-filled map of bindings.
BoundNodes(internal::BoundNodesMap & MyBoundNodes)103   BoundNodes(internal::BoundNodesMap &MyBoundNodes)
104       : MyBoundNodes(MyBoundNodes) {}
105 
106   internal::BoundNodesMap MyBoundNodes;
107 
108   friend class internal::BoundNodesTreeBuilder;
109 };
110 
111 /// \brief If the provided matcher matches a node, binds the node to \c ID.
112 ///
113 /// FIXME: Do we want to support this now that we have bind()?
114 template <typename T>
id(StringRef ID,const internal::BindableMatcher<T> & InnerMatcher)115 internal::Matcher<T> id(StringRef ID,
116                         const internal::BindableMatcher<T> &InnerMatcher) {
117   return InnerMatcher.bind(ID);
118 }
119 
120 /// \brief Types of matchers for the top-level classes in the AST class
121 /// hierarchy.
122 /// @{
123 typedef internal::Matcher<Decl> DeclarationMatcher;
124 typedef internal::Matcher<Stmt> StatementMatcher;
125 typedef internal::Matcher<QualType> TypeMatcher;
126 typedef internal::Matcher<TypeLoc> TypeLocMatcher;
127 typedef internal::Matcher<NestedNameSpecifier> NestedNameSpecifierMatcher;
128 typedef internal::Matcher<NestedNameSpecifierLoc> NestedNameSpecifierLocMatcher;
129 /// @}
130 
131 /// \brief Matches any node.
132 ///
133 /// Useful when another matcher requires a child matcher, but there's no
134 /// additional constraint. This will often be used with an explicit conversion
135 /// to an \c internal::Matcher<> type such as \c TypeMatcher.
136 ///
137 /// Example: \c DeclarationMatcher(anything()) matches all declarations, e.g.,
138 /// \code
139 /// "int* p" and "void f()" in
140 ///   int* p;
141 ///   void f();
142 /// \endcode
143 ///
144 /// Usable as: Any Matcher
anything()145 inline internal::TrueMatcher anything() { return internal::TrueMatcher(); }
146 
147 /// \brief Matches the top declaration context.
148 ///
149 /// Given
150 /// \code
151 ///   int X;
152 ///   namespace NS {
153 ///   int Y;
154 ///   }  // namespace NS
155 /// \endcode
156 /// decl(hasDeclContext(translationUnitDecl()))
157 ///   matches "int X", but not "int Y".
158 const internal::VariadicDynCastAllOfMatcher<Decl, TranslationUnitDecl>
159     translationUnitDecl;
160 
161 /// \brief Matches typedef declarations.
162 ///
163 /// Given
164 /// \code
165 ///   typedef int X;
166 /// \endcode
167 /// typedefDecl()
168 ///   matches "typedef int X"
169 const internal::VariadicDynCastAllOfMatcher<Decl, TypedefDecl> typedefDecl;
170 
171 /// \brief Matches AST nodes that were expanded within the main-file.
172 ///
173 /// Example matches X but not Y
174 ///   (matcher = cxxRecordDecl(isExpansionInMainFile())
175 /// \code
176 ///   #include <Y.h>
177 ///   class X {};
178 /// \endcode
179 /// Y.h:
180 /// \code
181 ///   class Y {};
182 /// \endcode
183 ///
184 /// Usable as: Matcher<Decl>, Matcher<Stmt>, Matcher<TypeLoc>
AST_POLYMORPHIC_MATCHER(isExpansionInMainFile,AST_POLYMORPHIC_SUPPORTED_TYPES (Decl,Stmt,TypeLoc))185 AST_POLYMORPHIC_MATCHER(isExpansionInMainFile,
186                         AST_POLYMORPHIC_SUPPORTED_TYPES(Decl, Stmt, TypeLoc)) {
187   auto &SourceManager = Finder->getASTContext().getSourceManager();
188   return SourceManager.isInMainFile(
189       SourceManager.getExpansionLoc(Node.getLocStart()));
190 }
191 
192 /// \brief Matches AST nodes that were expanded within system-header-files.
193 ///
194 /// Example matches Y but not X
195 ///     (matcher = cxxRecordDecl(isExpansionInSystemHeader())
196 /// \code
197 ///   #include <SystemHeader.h>
198 ///   class X {};
199 /// \endcode
200 /// SystemHeader.h:
201 /// \code
202 ///   class Y {};
203 /// \endcode
204 ///
205 /// Usable as: Matcher<Decl>, Matcher<Stmt>, Matcher<TypeLoc>
AST_POLYMORPHIC_MATCHER(isExpansionInSystemHeader,AST_POLYMORPHIC_SUPPORTED_TYPES (Decl,Stmt,TypeLoc))206 AST_POLYMORPHIC_MATCHER(isExpansionInSystemHeader,
207                         AST_POLYMORPHIC_SUPPORTED_TYPES(Decl, Stmt, TypeLoc)) {
208   auto &SourceManager = Finder->getASTContext().getSourceManager();
209   auto ExpansionLoc = SourceManager.getExpansionLoc(Node.getLocStart());
210   if (ExpansionLoc.isInvalid()) {
211     return false;
212   }
213   return SourceManager.isInSystemHeader(ExpansionLoc);
214 }
215 
216 /// \brief Matches AST nodes that were expanded within files whose name is
217 /// partially matching a given regex.
218 ///
219 /// Example matches Y but not X
220 ///     (matcher = cxxRecordDecl(isExpansionInFileMatching("AST.*"))
221 /// \code
222 ///   #include "ASTMatcher.h"
223 ///   class X {};
224 /// \endcode
225 /// ASTMatcher.h:
226 /// \code
227 ///   class Y {};
228 /// \endcode
229 ///
230 /// Usable as: Matcher<Decl>, Matcher<Stmt>, Matcher<TypeLoc>
AST_POLYMORPHIC_MATCHER_P(isExpansionInFileMatching,AST_POLYMORPHIC_SUPPORTED_TYPES (Decl,Stmt,TypeLoc),std::string,RegExp)231 AST_POLYMORPHIC_MATCHER_P(isExpansionInFileMatching,
232                           AST_POLYMORPHIC_SUPPORTED_TYPES(Decl, Stmt, TypeLoc),
233                           std::string, RegExp) {
234   auto &SourceManager = Finder->getASTContext().getSourceManager();
235   auto ExpansionLoc = SourceManager.getExpansionLoc(Node.getLocStart());
236   if (ExpansionLoc.isInvalid()) {
237     return false;
238   }
239   auto FileEntry =
240       SourceManager.getFileEntryForID(SourceManager.getFileID(ExpansionLoc));
241   if (!FileEntry) {
242     return false;
243   }
244 
245   auto Filename = FileEntry->getName();
246   llvm::Regex RE(RegExp);
247   return RE.match(Filename);
248 }
249 
250 /// \brief Matches declarations.
251 ///
252 /// Examples matches \c X, \c C, and the friend declaration inside \c C;
253 /// \code
254 ///   void X();
255 ///   class C {
256 ///     friend X;
257 ///   };
258 /// \endcode
259 const internal::VariadicAllOfMatcher<Decl> decl;
260 
261 /// \brief Matches a declaration of a linkage specification.
262 ///
263 /// Given
264 /// \code
265 ///   extern "C" {}
266 /// \endcode
267 /// linkageSpecDecl()
268 ///   matches "extern "C" {}"
269 const internal::VariadicDynCastAllOfMatcher<Decl, LinkageSpecDecl>
270     linkageSpecDecl;
271 
272 /// \brief Matches a declaration of anything that could have a name.
273 ///
274 /// Example matches \c X, \c S, the anonymous union type, \c i, and \c U;
275 /// \code
276 ///   typedef int X;
277 ///   struct S {
278 ///     union {
279 ///       int i;
280 ///     } U;
281 ///   };
282 /// \endcode
283 const internal::VariadicDynCastAllOfMatcher<Decl, NamedDecl> namedDecl;
284 
285 /// \brief Matches a declaration of a namespace.
286 ///
287 /// Given
288 /// \code
289 ///   namespace {}
290 ///   namespace test {}
291 /// \endcode
292 /// namespaceDecl()
293 ///   matches "namespace {}" and "namespace test {}"
294 const internal::VariadicDynCastAllOfMatcher<Decl, NamespaceDecl> namespaceDecl;
295 
296 /// \brief Matches a declaration of a namespace alias.
297 ///
298 /// Given
299 /// \code
300 ///   namespace test {}
301 ///   namespace alias = ::test;
302 /// \endcode
303 /// namespaceAliasDecl()
304 ///   matches "namespace alias" but not "namespace test"
305 const internal::VariadicDynCastAllOfMatcher<Decl, NamespaceAliasDecl>
306     namespaceAliasDecl;
307 
308 /// \brief Matches class, struct, and union declarations.
309 ///
310 /// Example matches \c X, \c Z, \c U, and \c S
311 /// \code
312 ///   class X;
313 ///   template<class T> class Z {};
314 ///   struct S {};
315 ///   union U {};
316 /// \endcode
317 const internal::VariadicDynCastAllOfMatcher<
318   Decl,
319   RecordDecl> recordDecl;
320 
321 /// \brief Matches C++ class declarations.
322 ///
323 /// Example matches \c X, \c Z
324 /// \code
325 ///   class X;
326 ///   template<class T> class Z {};
327 /// \endcode
328 const internal::VariadicDynCastAllOfMatcher<
329   Decl,
330   CXXRecordDecl> cxxRecordDecl;
331 
332 /// \brief Matches C++ class template declarations.
333 ///
334 /// Example matches \c Z
335 /// \code
336 ///   template<class T> class Z {};
337 /// \endcode
338 const internal::VariadicDynCastAllOfMatcher<
339   Decl,
340   ClassTemplateDecl> classTemplateDecl;
341 
342 /// \brief Matches C++ class template specializations.
343 ///
344 /// Given
345 /// \code
346 ///   template<typename T> class A {};
347 ///   template<> class A<double> {};
348 ///   A<int> a;
349 /// \endcode
350 /// classTemplateSpecializationDecl()
351 ///   matches the specializations \c A<int> and \c A<double>
352 const internal::VariadicDynCastAllOfMatcher<
353   Decl,
354   ClassTemplateSpecializationDecl> classTemplateSpecializationDecl;
355 
356 /// \brief Matches declarator declarations (field, variable, function
357 /// and non-type template parameter declarations).
358 ///
359 /// Given
360 /// \code
361 ///   class X { int y; };
362 /// \endcode
363 /// declaratorDecl()
364 ///   matches \c int y.
365 const internal::VariadicDynCastAllOfMatcher<Decl, DeclaratorDecl>
366     declaratorDecl;
367 
368 /// \brief Matches parameter variable declarations.
369 ///
370 /// Given
371 /// \code
372 ///   void f(int x);
373 /// \endcode
374 /// parmVarDecl()
375 ///   matches \c int x.
376 const internal::VariadicDynCastAllOfMatcher<Decl, ParmVarDecl> parmVarDecl;
377 
378 /// \brief Matches C++ access specifier declarations.
379 ///
380 /// Given
381 /// \code
382 ///   class C {
383 ///   public:
384 ///     int a;
385 ///   };
386 /// \endcode
387 /// accessSpecDecl()
388 ///   matches 'public:'
389 const internal::VariadicDynCastAllOfMatcher<
390   Decl,
391   AccessSpecDecl> accessSpecDecl;
392 
393 /// \brief Matches constructor initializers.
394 ///
395 /// Examples matches \c i(42).
396 /// \code
397 ///   class C {
398 ///     C() : i(42) {}
399 ///     int i;
400 ///   };
401 /// \endcode
402 const internal::VariadicAllOfMatcher<CXXCtorInitializer> cxxCtorInitializer;
403 
404 /// \brief Matches template arguments.
405 ///
406 /// Given
407 /// \code
408 ///   template <typename T> struct C {};
409 ///   C<int> c;
410 /// \endcode
411 /// templateArgument()
412 ///   matches 'int' in C<int>.
413 const internal::VariadicAllOfMatcher<TemplateArgument> templateArgument;
414 
415 /// \brief Matches non-type template parameter declarations.
416 ///
417 /// Given
418 /// \code
419 ///   template <typename T, int N> struct C {};
420 /// \endcode
421 /// nonTypeTemplateParmDecl()
422 ///   matches 'N', but not 'T'.
423 const internal::VariadicDynCastAllOfMatcher<
424   Decl,
425   NonTypeTemplateParmDecl> nonTypeTemplateParmDecl;
426 
427 /// \brief Matches template type parameter declarations.
428 ///
429 /// Given
430 /// \code
431 ///   template <typename T, int N> struct C {};
432 /// \endcode
433 /// templateTypeParmDecl()
434 ///   matches 'T', but not 'N'.
435 const internal::VariadicDynCastAllOfMatcher<
436   Decl,
437   TemplateTypeParmDecl> templateTypeParmDecl;
438 
439 /// \brief Matches public C++ declarations.
440 ///
441 /// Given
442 /// \code
443 ///   class C {
444 ///   public:    int a;
445 ///   protected: int b;
446 ///   private:   int c;
447 ///   };
448 /// \endcode
449 /// fieldDecl(isPublic())
450 ///   matches 'int a;'
AST_MATCHER(Decl,isPublic)451 AST_MATCHER(Decl, isPublic) {
452   return Node.getAccess() == AS_public;
453 }
454 
455 /// \brief Matches protected C++ declarations.
456 ///
457 /// Given
458 /// \code
459 ///   class C {
460 ///   public:    int a;
461 ///   protected: int b;
462 ///   private:   int c;
463 ///   };
464 /// \endcode
465 /// fieldDecl(isProtected())
466 ///   matches 'int b;'
AST_MATCHER(Decl,isProtected)467 AST_MATCHER(Decl, isProtected) {
468   return Node.getAccess() == AS_protected;
469 }
470 
471 /// \brief Matches private C++ declarations.
472 ///
473 /// Given
474 /// \code
475 ///   class C {
476 ///   public:    int a;
477 ///   protected: int b;
478 ///   private:   int c;
479 ///   };
480 /// \endcode
481 /// fieldDecl(isPrivate())
482 ///   matches 'int c;'
AST_MATCHER(Decl,isPrivate)483 AST_MATCHER(Decl, isPrivate) {
484   return Node.getAccess() == AS_private;
485 }
486 
487 /// \brief Matches a declaration that has been implicitly added
488 /// by the compiler (eg. implicit default/copy constructors).
AST_MATCHER(Decl,isImplicit)489 AST_MATCHER(Decl, isImplicit) {
490   return Node.isImplicit();
491 }
492 
493 /// \brief Matches classTemplateSpecializations that have at least one
494 /// TemplateArgument matching the given InnerMatcher.
495 ///
496 /// Given
497 /// \code
498 ///   template<typename T> class A {};
499 ///   template<> class A<double> {};
500 ///   A<int> a;
501 /// \endcode
502 /// classTemplateSpecializationDecl(hasAnyTemplateArgument(
503 ///     refersToType(asString("int"))))
504 ///   matches the specialization \c A<int>
AST_POLYMORPHIC_MATCHER_P(hasAnyTemplateArgument,AST_POLYMORPHIC_SUPPORTED_TYPES (ClassTemplateSpecializationDecl,TemplateSpecializationType),internal::Matcher<TemplateArgument>,InnerMatcher)505 AST_POLYMORPHIC_MATCHER_P(
506     hasAnyTemplateArgument,
507     AST_POLYMORPHIC_SUPPORTED_TYPES(ClassTemplateSpecializationDecl,
508                                     TemplateSpecializationType),
509     internal::Matcher<TemplateArgument>, InnerMatcher) {
510   ArrayRef<TemplateArgument> List =
511       internal::getTemplateSpecializationArgs(Node);
512   return matchesFirstInRange(InnerMatcher, List.begin(), List.end(), Finder,
513                              Builder);
514 }
515 
516 /// \brief Matches expressions that match InnerMatcher after any implicit casts
517 /// are stripped off.
518 ///
519 /// Parentheses and explicit casts are not discarded.
520 /// Given
521 /// \code
522 ///   int arr[5];
523 ///   int a = 0;
524 ///   char b = 0;
525 ///   const int c = a;
526 ///   int *d = arr;
527 ///   long e = (long) 0l;
528 /// \endcode
529 /// The matchers
530 /// \code
531 ///    varDecl(hasInitializer(ignoringImpCasts(integerLiteral())))
532 ///    varDecl(hasInitializer(ignoringImpCasts(declRefExpr())))
533 /// \endcode
534 /// would match the declarations for a, b, c, and d, but not e.
535 /// While
536 /// \code
537 ///    varDecl(hasInitializer(integerLiteral()))
538 ///    varDecl(hasInitializer(declRefExpr()))
539 /// \endcode
540 /// only match the declarations for b, c, and d.
AST_MATCHER_P(Expr,ignoringImpCasts,internal::Matcher<Expr>,InnerMatcher)541 AST_MATCHER_P(Expr, ignoringImpCasts,
542               internal::Matcher<Expr>, InnerMatcher) {
543   return InnerMatcher.matches(*Node.IgnoreImpCasts(), Finder, Builder);
544 }
545 
546 /// \brief Matches expressions that match InnerMatcher after parentheses and
547 /// casts are stripped off.
548 ///
549 /// Implicit and non-C Style casts are also discarded.
550 /// Given
551 /// \code
552 ///   int a = 0;
553 ///   char b = (0);
554 ///   void* c = reinterpret_cast<char*>(0);
555 ///   char d = char(0);
556 /// \endcode
557 /// The matcher
558 ///    varDecl(hasInitializer(ignoringParenCasts(integerLiteral())))
559 /// would match the declarations for a, b, c, and d.
560 /// while
561 ///    varDecl(hasInitializer(integerLiteral()))
562 /// only match the declaration for a.
AST_MATCHER_P(Expr,ignoringParenCasts,internal::Matcher<Expr>,InnerMatcher)563 AST_MATCHER_P(Expr, ignoringParenCasts, internal::Matcher<Expr>, InnerMatcher) {
564   return InnerMatcher.matches(*Node.IgnoreParenCasts(), Finder, Builder);
565 }
566 
567 /// \brief Matches expressions that match InnerMatcher after implicit casts and
568 /// parentheses are stripped off.
569 ///
570 /// Explicit casts are not discarded.
571 /// Given
572 /// \code
573 ///   int arr[5];
574 ///   int a = 0;
575 ///   char b = (0);
576 ///   const int c = a;
577 ///   int *d = (arr);
578 ///   long e = ((long) 0l);
579 /// \endcode
580 /// The matchers
581 ///    varDecl(hasInitializer(ignoringParenImpCasts(integerLiteral())))
582 ///    varDecl(hasInitializer(ignoringParenImpCasts(declRefExpr())))
583 /// would match the declarations for a, b, c, and d, but not e.
584 /// while
585 ///    varDecl(hasInitializer(integerLiteral()))
586 ///    varDecl(hasInitializer(declRefExpr()))
587 /// would only match the declaration for a.
AST_MATCHER_P(Expr,ignoringParenImpCasts,internal::Matcher<Expr>,InnerMatcher)588 AST_MATCHER_P(Expr, ignoringParenImpCasts,
589               internal::Matcher<Expr>, InnerMatcher) {
590   return InnerMatcher.matches(*Node.IgnoreParenImpCasts(), Finder, Builder);
591 }
592 
593 /// \brief Matches classTemplateSpecializations where the n'th TemplateArgument
594 /// matches the given InnerMatcher.
595 ///
596 /// Given
597 /// \code
598 ///   template<typename T, typename U> class A {};
599 ///   A<bool, int> b;
600 ///   A<int, bool> c;
601 /// \endcode
602 /// classTemplateSpecializationDecl(hasTemplateArgument(
603 ///     1, refersToType(asString("int"))))
604 ///   matches the specialization \c A<bool, int>
AST_POLYMORPHIC_MATCHER_P2(hasTemplateArgument,AST_POLYMORPHIC_SUPPORTED_TYPES (ClassTemplateSpecializationDecl,TemplateSpecializationType),unsigned,N,internal::Matcher<TemplateArgument>,InnerMatcher)605 AST_POLYMORPHIC_MATCHER_P2(
606     hasTemplateArgument,
607     AST_POLYMORPHIC_SUPPORTED_TYPES(ClassTemplateSpecializationDecl,
608                                     TemplateSpecializationType),
609     unsigned, N, internal::Matcher<TemplateArgument>, InnerMatcher) {
610   ArrayRef<TemplateArgument> List =
611       internal::getTemplateSpecializationArgs(Node);
612   if (List.size() <= N)
613     return false;
614   return InnerMatcher.matches(List[N], Finder, Builder);
615 }
616 
617 /// \brief Matches if the number of template arguments equals \p N.
618 ///
619 /// Given
620 /// \code
621 ///   template<typename T> struct C {};
622 ///   C<int> c;
623 /// \endcode
624 /// classTemplateSpecializationDecl(templateArgumentCountIs(1))
625 ///   matches C<int>.
AST_POLYMORPHIC_MATCHER_P(templateArgumentCountIs,AST_POLYMORPHIC_SUPPORTED_TYPES (ClassTemplateSpecializationDecl,TemplateSpecializationType),unsigned,N)626 AST_POLYMORPHIC_MATCHER_P(
627     templateArgumentCountIs,
628     AST_POLYMORPHIC_SUPPORTED_TYPES(ClassTemplateSpecializationDecl,
629                                     TemplateSpecializationType),
630     unsigned, N) {
631   return internal::getTemplateSpecializationArgs(Node).size() == N;
632 }
633 
634 /// \brief Matches a TemplateArgument that refers to a certain type.
635 ///
636 /// Given
637 /// \code
638 ///   struct X {};
639 ///   template<typename T> struct A {};
640 ///   A<X> a;
641 /// \endcode
642 /// classTemplateSpecializationDecl(hasAnyTemplateArgument(
643 ///     refersToType(class(hasName("X")))))
644 ///   matches the specialization \c A<X>
AST_MATCHER_P(TemplateArgument,refersToType,internal::Matcher<QualType>,InnerMatcher)645 AST_MATCHER_P(TemplateArgument, refersToType,
646               internal::Matcher<QualType>, InnerMatcher) {
647   if (Node.getKind() != TemplateArgument::Type)
648     return false;
649   return InnerMatcher.matches(Node.getAsType(), Finder, Builder);
650 }
651 
652 /// \brief Matches a canonical TemplateArgument that refers to a certain
653 /// declaration.
654 ///
655 /// Given
656 /// \code
657 ///   template<typename T> struct A {};
658 ///   struct B { B* next; };
659 ///   A<&B::next> a;
660 /// \endcode
661 /// classTemplateSpecializationDecl(hasAnyTemplateArgument(
662 ///     refersToDeclaration(fieldDecl(hasName("next"))))
663 ///   matches the specialization \c A<&B::next> with \c fieldDecl(...) matching
664 ///     \c B::next
AST_MATCHER_P(TemplateArgument,refersToDeclaration,internal::Matcher<Decl>,InnerMatcher)665 AST_MATCHER_P(TemplateArgument, refersToDeclaration,
666               internal::Matcher<Decl>, InnerMatcher) {
667   if (Node.getKind() == TemplateArgument::Declaration)
668     return InnerMatcher.matches(*Node.getAsDecl(), Finder, Builder);
669   return false;
670 }
671 
672 /// \brief Matches a sugar TemplateArgument that refers to a certain expression.
673 ///
674 /// Given
675 /// \code
676 ///   template<typename T> struct A {};
677 ///   struct B { B* next; };
678 ///   A<&B::next> a;
679 /// \endcode
680 /// templateSpecializationType(hasAnyTemplateArgument(
681 ///   isExpr(hasDescendant(declRefExpr(to(fieldDecl(hasName("next"))))))))
682 ///   matches the specialization \c A<&B::next> with \c fieldDecl(...) matching
683 ///     \c B::next
AST_MATCHER_P(TemplateArgument,isExpr,internal::Matcher<Expr>,InnerMatcher)684 AST_MATCHER_P(TemplateArgument, isExpr, internal::Matcher<Expr>, InnerMatcher) {
685   if (Node.getKind() == TemplateArgument::Expression)
686     return InnerMatcher.matches(*Node.getAsExpr(), Finder, Builder);
687   return false;
688 }
689 
690 /// \brief Matches a TemplateArgument that is an integral value.
691 ///
692 /// Given
693 /// \code
694 ///   template<int T> struct A {};
695 ///   C<42> c;
696 /// \endcode
697 /// classTemplateSpecializationDecl(
698 ///   hasAnyTemplateArgument(isIntegral()))
699 ///   matches the implicit instantiation of C in C<42>
700 ///   with isIntegral() matching 42.
AST_MATCHER(TemplateArgument,isIntegral)701 AST_MATCHER(TemplateArgument, isIntegral) {
702   return Node.getKind() == TemplateArgument::Integral;
703 }
704 
705 /// \brief Matches a TemplateArgument that referes to an integral type.
706 ///
707 /// Given
708 /// \code
709 ///   template<int T> struct A {};
710 ///   C<42> c;
711 /// \endcode
712 /// classTemplateSpecializationDecl(
713 ///   hasAnyTemplateArgument(refersToIntegralType(asString("int"))))
714 ///   matches the implicit instantiation of C in C<42>.
AST_MATCHER_P(TemplateArgument,refersToIntegralType,internal::Matcher<QualType>,InnerMatcher)715 AST_MATCHER_P(TemplateArgument, refersToIntegralType,
716               internal::Matcher<QualType>, InnerMatcher) {
717   if (Node.getKind() != TemplateArgument::Integral)
718     return false;
719   return InnerMatcher.matches(Node.getIntegralType(), Finder, Builder);
720 }
721 
722 /// \brief Matches a TemplateArgument of integral type with a given value.
723 ///
724 /// Note that 'Value' is a string as the template argument's value is
725 /// an arbitrary precision integer. 'Value' must be euqal to the canonical
726 /// representation of that integral value in base 10.
727 ///
728 /// Given
729 /// \code
730 ///   template<int T> struct A {};
731 ///   C<42> c;
732 /// \endcode
733 /// classTemplateSpecializationDecl(
734 ///   hasAnyTemplateArgument(equalsIntegralValue("42")))
735 ///   matches the implicit instantiation of C in C<42>.
AST_MATCHER_P(TemplateArgument,equalsIntegralValue,std::string,Value)736 AST_MATCHER_P(TemplateArgument, equalsIntegralValue,
737               std::string, Value) {
738   if (Node.getKind() != TemplateArgument::Integral)
739     return false;
740   return Node.getAsIntegral().toString(10) == Value;
741 }
742 
743 /// \brief Matches any value declaration.
744 ///
745 /// Example matches A, B, C and F
746 /// \code
747 ///   enum X { A, B, C };
748 ///   void F();
749 /// \endcode
750 const internal::VariadicDynCastAllOfMatcher<Decl, ValueDecl> valueDecl;
751 
752 /// \brief Matches C++ constructor declarations.
753 ///
754 /// Example matches Foo::Foo() and Foo::Foo(int)
755 /// \code
756 ///   class Foo {
757 ///    public:
758 ///     Foo();
759 ///     Foo(int);
760 ///     int DoSomething();
761 ///   };
762 /// \endcode
763 const internal::VariadicDynCastAllOfMatcher<
764   Decl,
765   CXXConstructorDecl> cxxConstructorDecl;
766 
767 /// \brief Matches explicit C++ destructor declarations.
768 ///
769 /// Example matches Foo::~Foo()
770 /// \code
771 ///   class Foo {
772 ///    public:
773 ///     virtual ~Foo();
774 ///   };
775 /// \endcode
776 const internal::VariadicDynCastAllOfMatcher<
777   Decl,
778   CXXDestructorDecl> cxxDestructorDecl;
779 
780 /// \brief Matches enum declarations.
781 ///
782 /// Example matches X
783 /// \code
784 ///   enum X {
785 ///     A, B, C
786 ///   };
787 /// \endcode
788 const internal::VariadicDynCastAllOfMatcher<Decl, EnumDecl> enumDecl;
789 
790 /// \brief Matches enum constants.
791 ///
792 /// Example matches A, B, C
793 /// \code
794 ///   enum X {
795 ///     A, B, C
796 ///   };
797 /// \endcode
798 const internal::VariadicDynCastAllOfMatcher<
799   Decl,
800   EnumConstantDecl> enumConstantDecl;
801 
802 /// \brief Matches method declarations.
803 ///
804 /// Example matches y
805 /// \code
806 ///   class X { void y(); };
807 /// \endcode
808 const internal::VariadicDynCastAllOfMatcher<Decl, CXXMethodDecl> cxxMethodDecl;
809 
810 /// \brief Matches conversion operator declarations.
811 ///
812 /// Example matches the operator.
813 /// \code
814 ///   class X { operator int() const; };
815 /// \endcode
816 const internal::VariadicDynCastAllOfMatcher<Decl, CXXConversionDecl>
817     cxxConversionDecl;
818 
819 /// \brief Matches variable declarations.
820 ///
821 /// Note: this does not match declarations of member variables, which are
822 /// "field" declarations in Clang parlance.
823 ///
824 /// Example matches a
825 /// \code
826 ///   int a;
827 /// \endcode
828 const internal::VariadicDynCastAllOfMatcher<Decl, VarDecl> varDecl;
829 
830 /// \brief Matches field declarations.
831 ///
832 /// Given
833 /// \code
834 ///   class X { int m; };
835 /// \endcode
836 /// fieldDecl()
837 ///   matches 'm'.
838 const internal::VariadicDynCastAllOfMatcher<Decl, FieldDecl> fieldDecl;
839 
840 /// \brief Matches function declarations.
841 ///
842 /// Example matches f
843 /// \code
844 ///   void f();
845 /// \endcode
846 const internal::VariadicDynCastAllOfMatcher<Decl, FunctionDecl> functionDecl;
847 
848 /// \brief Matches C++ function template declarations.
849 ///
850 /// Example matches f
851 /// \code
852 ///   template<class T> void f(T t) {}
853 /// \endcode
854 const internal::VariadicDynCastAllOfMatcher<
855   Decl,
856   FunctionTemplateDecl> functionTemplateDecl;
857 
858 /// \brief Matches friend declarations.
859 ///
860 /// Given
861 /// \code
862 ///   class X { friend void foo(); };
863 /// \endcode
864 /// friendDecl()
865 ///   matches 'friend void foo()'.
866 const internal::VariadicDynCastAllOfMatcher<Decl, FriendDecl> friendDecl;
867 
868 /// \brief Matches statements.
869 ///
870 /// Given
871 /// \code
872 ///   { ++a; }
873 /// \endcode
874 /// stmt()
875 ///   matches both the compound statement '{ ++a; }' and '++a'.
876 const internal::VariadicAllOfMatcher<Stmt> stmt;
877 
878 /// \brief Matches declaration statements.
879 ///
880 /// Given
881 /// \code
882 ///   int a;
883 /// \endcode
884 /// declStmt()
885 ///   matches 'int a'.
886 const internal::VariadicDynCastAllOfMatcher<
887   Stmt,
888   DeclStmt> declStmt;
889 
890 /// \brief Matches member expressions.
891 ///
892 /// Given
893 /// \code
894 ///   class Y {
895 ///     void x() { this->x(); x(); Y y; y.x(); a; this->b; Y::b; }
896 ///     int a; static int b;
897 ///   };
898 /// \endcode
899 /// memberExpr()
900 ///   matches this->x, x, y.x, a, this->b
901 const internal::VariadicDynCastAllOfMatcher<Stmt, MemberExpr> memberExpr;
902 
903 /// \brief Matches call expressions.
904 ///
905 /// Example matches x.y() and y()
906 /// \code
907 ///   X x;
908 ///   x.y();
909 ///   y();
910 /// \endcode
911 const internal::VariadicDynCastAllOfMatcher<Stmt, CallExpr> callExpr;
912 
913 /// \brief Matches lambda expressions.
914 ///
915 /// Example matches [&](){return 5;}
916 /// \code
917 ///   [&](){return 5;}
918 /// \endcode
919 const internal::VariadicDynCastAllOfMatcher<Stmt, LambdaExpr> lambdaExpr;
920 
921 /// \brief Matches member call expressions.
922 ///
923 /// Example matches x.y()
924 /// \code
925 ///   X x;
926 ///   x.y();
927 /// \endcode
928 const internal::VariadicDynCastAllOfMatcher<
929   Stmt,
930   CXXMemberCallExpr> cxxMemberCallExpr;
931 
932 /// \brief Matches ObjectiveC Message invocation expressions.
933 ///
934 /// The innermost message send invokes the "alloc" class method on the
935 /// NSString class, while the outermost message send invokes the
936 /// "initWithString" instance method on the object returned from
937 /// NSString's "alloc". This matcher should match both message sends.
938 /// \code
939 ///   [[NSString alloc] initWithString:@"Hello"]
940 /// \endcode
941 const internal::VariadicDynCastAllOfMatcher<
942   Stmt,
943   ObjCMessageExpr> objcMessageExpr;
944 
945 /// \brief Matches Objective-C interface declarations.
946 ///
947 /// Example matches Foo
948 /// \code
949 ///   @interface Foo
950 ///   @end
951 /// \endcode
952 const internal::VariadicDynCastAllOfMatcher<
953   Decl,
954   ObjCInterfaceDecl> objcInterfaceDecl;
955 
956 /// \brief Matches expressions that introduce cleanups to be run at the end
957 /// of the sub-expression's evaluation.
958 ///
959 /// Example matches std::string()
960 /// \code
961 ///   const std::string str = std::string();
962 /// \endcode
963 const internal::VariadicDynCastAllOfMatcher<
964   Stmt,
965   ExprWithCleanups> exprWithCleanups;
966 
967 /// \brief Matches init list expressions.
968 ///
969 /// Given
970 /// \code
971 ///   int a[] = { 1, 2 };
972 ///   struct B { int x, y; };
973 ///   B b = { 5, 6 };
974 /// \endcode
975 /// initListExpr()
976 ///   matches "{ 1, 2 }" and "{ 5, 6 }"
977 const internal::VariadicDynCastAllOfMatcher<Stmt, InitListExpr> initListExpr;
978 
979 /// \brief Matches substitutions of non-type template parameters.
980 ///
981 /// Given
982 /// \code
983 ///   template <int N>
984 ///   struct A { static const int n = N; };
985 ///   struct B : public A<42> {};
986 /// \endcode
987 /// substNonTypeTemplateParmExpr()
988 ///   matches "N" in the right-hand side of "static const int n = N;"
989 const internal::VariadicDynCastAllOfMatcher<
990   Stmt,
991   SubstNonTypeTemplateParmExpr> substNonTypeTemplateParmExpr;
992 
993 /// \brief Matches using declarations.
994 ///
995 /// Given
996 /// \code
997 ///   namespace X { int x; }
998 ///   using X::x;
999 /// \endcode
1000 /// usingDecl()
1001 ///   matches \code using X::x \endcode
1002 const internal::VariadicDynCastAllOfMatcher<Decl, UsingDecl> usingDecl;
1003 
1004 /// \brief Matches using namespace declarations.
1005 ///
1006 /// Given
1007 /// \code
1008 ///   namespace X { int x; }
1009 ///   using namespace X;
1010 /// \endcode
1011 /// usingDirectiveDecl()
1012 ///   matches \code using namespace X \endcode
1013 const internal::VariadicDynCastAllOfMatcher<
1014   Decl,
1015   UsingDirectiveDecl> usingDirectiveDecl;
1016 
1017 /// \brief Matches unresolved using value declarations.
1018 ///
1019 /// Given
1020 /// \code
1021 ///   template<typename X>
1022 ///   class C : private X {
1023 ///     using X::x;
1024 ///   };
1025 /// \endcode
1026 /// unresolvedUsingValueDecl()
1027 ///   matches \code using X::x \endcode
1028 const internal::VariadicDynCastAllOfMatcher<
1029   Decl,
1030   UnresolvedUsingValueDecl> unresolvedUsingValueDecl;
1031 
1032 /// \brief Matches unresolved using value declarations that involve the
1033 /// typename.
1034 ///
1035 /// Given
1036 /// \code
1037 ///   template <typename T>
1038 ///   struct Base { typedef T Foo; };
1039 ///
1040 ///   template<typename T>
1041 ///   struct S : private Base<T> {
1042 ///     using typename Base<T>::Foo;
1043 ///   };
1044 /// \endcode
1045 /// unresolvedUsingTypenameDecl()
1046 ///   matches \code using Base<T>::Foo \endcode
1047 const internal::VariadicDynCastAllOfMatcher<
1048   Decl,
1049   UnresolvedUsingTypenameDecl> unresolvedUsingTypenameDecl;
1050 
1051 /// \brief Matches constructor call expressions (including implicit ones).
1052 ///
1053 /// Example matches string(ptr, n) and ptr within arguments of f
1054 ///     (matcher = cxxConstructExpr())
1055 /// \code
1056 ///   void f(const string &a, const string &b);
1057 ///   char *ptr;
1058 ///   int n;
1059 ///   f(string(ptr, n), ptr);
1060 /// \endcode
1061 const internal::VariadicDynCastAllOfMatcher<
1062   Stmt,
1063   CXXConstructExpr> cxxConstructExpr;
1064 
1065 /// \brief Matches unresolved constructor call expressions.
1066 ///
1067 /// Example matches T(t) in return statement of f
1068 ///     (matcher = cxxUnresolvedConstructExpr())
1069 /// \code
1070 ///   template <typename T>
1071 ///   void f(const T& t) { return T(t); }
1072 /// \endcode
1073 const internal::VariadicDynCastAllOfMatcher<
1074   Stmt,
1075   CXXUnresolvedConstructExpr> cxxUnresolvedConstructExpr;
1076 
1077 /// \brief Matches implicit and explicit this expressions.
1078 ///
1079 /// Example matches the implicit this expression in "return i".
1080 ///     (matcher = cxxThisExpr())
1081 /// \code
1082 /// struct foo {
1083 ///   int i;
1084 ///   int f() { return i; }
1085 /// };
1086 /// \endcode
1087 const internal::VariadicDynCastAllOfMatcher<Stmt, CXXThisExpr> cxxThisExpr;
1088 
1089 /// \brief Matches nodes where temporaries are created.
1090 ///
1091 /// Example matches FunctionTakesString(GetStringByValue())
1092 ///     (matcher = cxxBindTemporaryExpr())
1093 /// \code
1094 ///   FunctionTakesString(GetStringByValue());
1095 ///   FunctionTakesStringByPointer(GetStringPointer());
1096 /// \endcode
1097 const internal::VariadicDynCastAllOfMatcher<
1098   Stmt,
1099   CXXBindTemporaryExpr> cxxBindTemporaryExpr;
1100 
1101 /// \brief Matches nodes where temporaries are materialized.
1102 ///
1103 /// Example: Given
1104 /// \code
1105 ///   struct T {void func()};
1106 ///   T f();
1107 ///   void g(T);
1108 /// \endcode
1109 /// materializeTemporaryExpr() matches 'f()' in these statements
1110 /// \code
1111 ///   T u(f());
1112 ///   g(f());
1113 /// \endcode
1114 /// but does not match
1115 /// \code
1116 ///   f();
1117 ///   f().func();
1118 /// \endcode
1119 const internal::VariadicDynCastAllOfMatcher<
1120   Stmt,
1121   MaterializeTemporaryExpr> materializeTemporaryExpr;
1122 
1123 /// \brief Matches new expressions.
1124 ///
1125 /// Given
1126 /// \code
1127 ///   new X;
1128 /// \endcode
1129 /// cxxNewExpr()
1130 ///   matches 'new X'.
1131 const internal::VariadicDynCastAllOfMatcher<Stmt, CXXNewExpr> cxxNewExpr;
1132 
1133 /// \brief Matches delete expressions.
1134 ///
1135 /// Given
1136 /// \code
1137 ///   delete X;
1138 /// \endcode
1139 /// cxxDeleteExpr()
1140 ///   matches 'delete X'.
1141 const internal::VariadicDynCastAllOfMatcher<Stmt, CXXDeleteExpr> cxxDeleteExpr;
1142 
1143 /// \brief Matches array subscript expressions.
1144 ///
1145 /// Given
1146 /// \code
1147 ///   int i = a[1];
1148 /// \endcode
1149 /// arraySubscriptExpr()
1150 ///   matches "a[1]"
1151 const internal::VariadicDynCastAllOfMatcher<
1152   Stmt,
1153   ArraySubscriptExpr> arraySubscriptExpr;
1154 
1155 /// \brief Matches the value of a default argument at the call site.
1156 ///
1157 /// Example matches the CXXDefaultArgExpr placeholder inserted for the
1158 ///     default value of the second parameter in the call expression f(42)
1159 ///     (matcher = cxxDefaultArgExpr())
1160 /// \code
1161 ///   void f(int x, int y = 0);
1162 ///   f(42);
1163 /// \endcode
1164 const internal::VariadicDynCastAllOfMatcher<
1165   Stmt,
1166   CXXDefaultArgExpr> cxxDefaultArgExpr;
1167 
1168 /// \brief Matches overloaded operator calls.
1169 ///
1170 /// Note that if an operator isn't overloaded, it won't match. Instead, use
1171 /// binaryOperator matcher.
1172 /// Currently it does not match operators such as new delete.
1173 /// FIXME: figure out why these do not match?
1174 ///
1175 /// Example matches both operator<<((o << b), c) and operator<<(o, b)
1176 ///     (matcher = cxxOperatorCallExpr())
1177 /// \code
1178 ///   ostream &operator<< (ostream &out, int i) { };
1179 ///   ostream &o; int b = 1, c = 1;
1180 ///   o << b << c;
1181 /// \endcode
1182 const internal::VariadicDynCastAllOfMatcher<
1183   Stmt,
1184   CXXOperatorCallExpr> cxxOperatorCallExpr;
1185 
1186 /// \brief Matches expressions.
1187 ///
1188 /// Example matches x()
1189 /// \code
1190 ///   void f() { x(); }
1191 /// \endcode
1192 const internal::VariadicDynCastAllOfMatcher<Stmt, Expr> expr;
1193 
1194 /// \brief Matches expressions that refer to declarations.
1195 ///
1196 /// Example matches x in if (x)
1197 /// \code
1198 ///   bool x;
1199 ///   if (x) {}
1200 /// \endcode
1201 const internal::VariadicDynCastAllOfMatcher<Stmt, DeclRefExpr> declRefExpr;
1202 
1203 /// \brief Matches if statements.
1204 ///
1205 /// Example matches 'if (x) {}'
1206 /// \code
1207 ///   if (x) {}
1208 /// \endcode
1209 const internal::VariadicDynCastAllOfMatcher<Stmt, IfStmt> ifStmt;
1210 
1211 /// \brief Matches for statements.
1212 ///
1213 /// Example matches 'for (;;) {}'
1214 /// \code
1215 ///   for (;;) {}
1216 ///   int i[] =  {1, 2, 3}; for (auto a : i);
1217 /// \endcode
1218 const internal::VariadicDynCastAllOfMatcher<Stmt, ForStmt> forStmt;
1219 
1220 /// \brief Matches the increment statement of a for loop.
1221 ///
1222 /// Example:
1223 ///     forStmt(hasIncrement(unaryOperator(hasOperatorName("++"))))
1224 /// matches '++x' in
1225 /// \code
1226 ///     for (x; x < N; ++x) { }
1227 /// \endcode
AST_MATCHER_P(ForStmt,hasIncrement,internal::Matcher<Stmt>,InnerMatcher)1228 AST_MATCHER_P(ForStmt, hasIncrement, internal::Matcher<Stmt>,
1229               InnerMatcher) {
1230   const Stmt *const Increment = Node.getInc();
1231   return (Increment != nullptr &&
1232           InnerMatcher.matches(*Increment, Finder, Builder));
1233 }
1234 
1235 /// \brief Matches the initialization statement of a for loop.
1236 ///
1237 /// Example:
1238 ///     forStmt(hasLoopInit(declStmt()))
1239 /// matches 'int x = 0' in
1240 /// \code
1241 ///     for (int x = 0; x < N; ++x) { }
1242 /// \endcode
AST_MATCHER_P(ForStmt,hasLoopInit,internal::Matcher<Stmt>,InnerMatcher)1243 AST_MATCHER_P(ForStmt, hasLoopInit, internal::Matcher<Stmt>,
1244               InnerMatcher) {
1245   const Stmt *const Init = Node.getInit();
1246   return (Init != nullptr && InnerMatcher.matches(*Init, Finder, Builder));
1247 }
1248 
1249 /// \brief Matches range-based for statements.
1250 ///
1251 /// cxxForRangeStmt() matches 'for (auto a : i)'
1252 /// \code
1253 ///   int i[] =  {1, 2, 3}; for (auto a : i);
1254 ///   for(int j = 0; j < 5; ++j);
1255 /// \endcode
1256 const internal::VariadicDynCastAllOfMatcher<
1257   Stmt,
1258   CXXForRangeStmt> cxxForRangeStmt;
1259 
1260 /// \brief Matches the initialization statement of a for loop.
1261 ///
1262 /// Example:
1263 ///     forStmt(hasLoopVariable(anything()))
1264 /// matches 'int x' in
1265 /// \code
1266 ///     for (int x : a) { }
1267 /// \endcode
AST_MATCHER_P(CXXForRangeStmt,hasLoopVariable,internal::Matcher<VarDecl>,InnerMatcher)1268 AST_MATCHER_P(CXXForRangeStmt, hasLoopVariable, internal::Matcher<VarDecl>,
1269               InnerMatcher) {
1270   const VarDecl *const Var = Node.getLoopVariable();
1271   return (Var != nullptr && InnerMatcher.matches(*Var, Finder, Builder));
1272 }
1273 
1274 /// \brief Matches the range initialization statement of a for loop.
1275 ///
1276 /// Example:
1277 ///     forStmt(hasRangeInit(anything()))
1278 /// matches 'a' in
1279 /// \code
1280 ///     for (int x : a) { }
1281 /// \endcode
AST_MATCHER_P(CXXForRangeStmt,hasRangeInit,internal::Matcher<Expr>,InnerMatcher)1282 AST_MATCHER_P(CXXForRangeStmt, hasRangeInit, internal::Matcher<Expr>,
1283               InnerMatcher) {
1284   const Expr *const Init = Node.getRangeInit();
1285   return (Init != nullptr && InnerMatcher.matches(*Init, Finder, Builder));
1286 }
1287 
1288 /// \brief Matches while statements.
1289 ///
1290 /// Given
1291 /// \code
1292 ///   while (true) {}
1293 /// \endcode
1294 /// whileStmt()
1295 ///   matches 'while (true) {}'.
1296 const internal::VariadicDynCastAllOfMatcher<Stmt, WhileStmt> whileStmt;
1297 
1298 /// \brief Matches do statements.
1299 ///
1300 /// Given
1301 /// \code
1302 ///   do {} while (true);
1303 /// \endcode
1304 /// doStmt()
1305 ///   matches 'do {} while(true)'
1306 const internal::VariadicDynCastAllOfMatcher<Stmt, DoStmt> doStmt;
1307 
1308 /// \brief Matches break statements.
1309 ///
1310 /// Given
1311 /// \code
1312 ///   while (true) { break; }
1313 /// \endcode
1314 /// breakStmt()
1315 ///   matches 'break'
1316 const internal::VariadicDynCastAllOfMatcher<Stmt, BreakStmt> breakStmt;
1317 
1318 /// \brief Matches continue statements.
1319 ///
1320 /// Given
1321 /// \code
1322 ///   while (true) { continue; }
1323 /// \endcode
1324 /// continueStmt()
1325 ///   matches 'continue'
1326 const internal::VariadicDynCastAllOfMatcher<Stmt, ContinueStmt> continueStmt;
1327 
1328 /// \brief Matches return statements.
1329 ///
1330 /// Given
1331 /// \code
1332 ///   return 1;
1333 /// \endcode
1334 /// returnStmt()
1335 ///   matches 'return 1'
1336 const internal::VariadicDynCastAllOfMatcher<Stmt, ReturnStmt> returnStmt;
1337 
1338 /// \brief Matches goto statements.
1339 ///
1340 /// Given
1341 /// \code
1342 ///   goto FOO;
1343 ///   FOO: bar();
1344 /// \endcode
1345 /// gotoStmt()
1346 ///   matches 'goto FOO'
1347 const internal::VariadicDynCastAllOfMatcher<Stmt, GotoStmt> gotoStmt;
1348 
1349 /// \brief Matches label statements.
1350 ///
1351 /// Given
1352 /// \code
1353 ///   goto FOO;
1354 ///   FOO: bar();
1355 /// \endcode
1356 /// labelStmt()
1357 ///   matches 'FOO:'
1358 const internal::VariadicDynCastAllOfMatcher<Stmt, LabelStmt> labelStmt;
1359 
1360 /// \brief Matches switch statements.
1361 ///
1362 /// Given
1363 /// \code
1364 ///   switch(a) { case 42: break; default: break; }
1365 /// \endcode
1366 /// switchStmt()
1367 ///   matches 'switch(a)'.
1368 const internal::VariadicDynCastAllOfMatcher<Stmt, SwitchStmt> switchStmt;
1369 
1370 /// \brief Matches case and default statements inside switch statements.
1371 ///
1372 /// Given
1373 /// \code
1374 ///   switch(a) { case 42: break; default: break; }
1375 /// \endcode
1376 /// switchCase()
1377 ///   matches 'case 42: break;' and 'default: break;'.
1378 const internal::VariadicDynCastAllOfMatcher<Stmt, SwitchCase> switchCase;
1379 
1380 /// \brief Matches case statements inside switch statements.
1381 ///
1382 /// Given
1383 /// \code
1384 ///   switch(a) { case 42: break; default: break; }
1385 /// \endcode
1386 /// caseStmt()
1387 ///   matches 'case 42: break;'.
1388 const internal::VariadicDynCastAllOfMatcher<Stmt, CaseStmt> caseStmt;
1389 
1390 /// \brief Matches default statements inside switch statements.
1391 ///
1392 /// Given
1393 /// \code
1394 ///   switch(a) { case 42: break; default: break; }
1395 /// \endcode
1396 /// defaultStmt()
1397 ///   matches 'default: break;'.
1398 const internal::VariadicDynCastAllOfMatcher<Stmt, DefaultStmt> defaultStmt;
1399 
1400 /// \brief Matches compound statements.
1401 ///
1402 /// Example matches '{}' and '{{}}'in 'for (;;) {{}}'
1403 /// \code
1404 ///   for (;;) {{}}
1405 /// \endcode
1406 const internal::VariadicDynCastAllOfMatcher<Stmt, CompoundStmt> compoundStmt;
1407 
1408 /// \brief Matches catch statements.
1409 ///
1410 /// \code
1411 ///   try {} catch(int i) {}
1412 /// \endcode
1413 /// cxxCatchStmt()
1414 ///   matches 'catch(int i)'
1415 const internal::VariadicDynCastAllOfMatcher<Stmt, CXXCatchStmt> cxxCatchStmt;
1416 
1417 /// \brief Matches try statements.
1418 ///
1419 /// \code
1420 ///   try {} catch(int i) {}
1421 /// \endcode
1422 /// cxxTryStmt()
1423 ///   matches 'try {}'
1424 const internal::VariadicDynCastAllOfMatcher<Stmt, CXXTryStmt> cxxTryStmt;
1425 
1426 /// \brief Matches throw expressions.
1427 ///
1428 /// \code
1429 ///   try { throw 5; } catch(int i) {}
1430 /// \endcode
1431 /// cxxThrowExpr()
1432 ///   matches 'throw 5'
1433 const internal::VariadicDynCastAllOfMatcher<Stmt, CXXThrowExpr> cxxThrowExpr;
1434 
1435 /// \brief Matches null statements.
1436 ///
1437 /// \code
1438 ///   foo();;
1439 /// \endcode
1440 /// nullStmt()
1441 ///   matches the second ';'
1442 const internal::VariadicDynCastAllOfMatcher<Stmt, NullStmt> nullStmt;
1443 
1444 /// \brief Matches asm statements.
1445 ///
1446 /// \code
1447 ///  int i = 100;
1448 ///   __asm("mov al, 2");
1449 /// \endcode
1450 /// asmStmt()
1451 ///   matches '__asm("mov al, 2")'
1452 const internal::VariadicDynCastAllOfMatcher<Stmt, AsmStmt> asmStmt;
1453 
1454 /// \brief Matches bool literals.
1455 ///
1456 /// Example matches true
1457 /// \code
1458 ///   true
1459 /// \endcode
1460 const internal::VariadicDynCastAllOfMatcher<
1461   Stmt,
1462   CXXBoolLiteralExpr> cxxBoolLiteral;
1463 
1464 /// \brief Matches string literals (also matches wide string literals).
1465 ///
1466 /// Example matches "abcd", L"abcd"
1467 /// \code
1468 ///   char *s = "abcd"; wchar_t *ws = L"abcd"
1469 /// \endcode
1470 const internal::VariadicDynCastAllOfMatcher<
1471   Stmt,
1472   StringLiteral> stringLiteral;
1473 
1474 /// \brief Matches character literals (also matches wchar_t).
1475 ///
1476 /// Not matching Hex-encoded chars (e.g. 0x1234, which is a IntegerLiteral),
1477 /// though.
1478 ///
1479 /// Example matches 'a', L'a'
1480 /// \code
1481 ///   char ch = 'a'; wchar_t chw = L'a';
1482 /// \endcode
1483 const internal::VariadicDynCastAllOfMatcher<
1484   Stmt,
1485   CharacterLiteral> characterLiteral;
1486 
1487 /// \brief Matches integer literals of all sizes / encodings, e.g.
1488 /// 1, 1L, 0x1 and 1U.
1489 ///
1490 /// Does not match character-encoded integers such as L'a'.
1491 const internal::VariadicDynCastAllOfMatcher<
1492   Stmt,
1493   IntegerLiteral> integerLiteral;
1494 
1495 /// \brief Matches float literals of all sizes / encodings, e.g.
1496 /// 1.0, 1.0f, 1.0L and 1e10.
1497 ///
1498 /// Does not match implicit conversions such as
1499 /// \code
1500 ///   float a = 10;
1501 /// \endcode
1502 const internal::VariadicDynCastAllOfMatcher<
1503   Stmt,
1504   FloatingLiteral> floatLiteral;
1505 
1506 /// \brief Matches user defined literal operator call.
1507 ///
1508 /// Example match: "foo"_suffix
1509 const internal::VariadicDynCastAllOfMatcher<
1510   Stmt,
1511   UserDefinedLiteral> userDefinedLiteral;
1512 
1513 /// \brief Matches compound (i.e. non-scalar) literals
1514 ///
1515 /// Example match: {1}, (1, 2)
1516 /// \code
1517 ///   int array[4] = {1}; vector int myvec = (vector int)(1, 2);
1518 /// \endcode
1519 const internal::VariadicDynCastAllOfMatcher<
1520   Stmt,
1521   CompoundLiteralExpr> compoundLiteralExpr;
1522 
1523 /// \brief Matches nullptr literal.
1524 const internal::VariadicDynCastAllOfMatcher<
1525   Stmt,
1526   CXXNullPtrLiteralExpr> cxxNullPtrLiteralExpr;
1527 
1528 /// \brief Matches GNU __null expression.
1529 const internal::VariadicDynCastAllOfMatcher<
1530   Stmt,
1531   GNUNullExpr> gnuNullExpr;
1532 
1533 /// \brief Matches binary operator expressions.
1534 ///
1535 /// Example matches a || b
1536 /// \code
1537 ///   !(a || b)
1538 /// \endcode
1539 const internal::VariadicDynCastAllOfMatcher<
1540   Stmt,
1541   BinaryOperator> binaryOperator;
1542 
1543 /// \brief Matches unary operator expressions.
1544 ///
1545 /// Example matches !a
1546 /// \code
1547 ///   !a || b
1548 /// \endcode
1549 const internal::VariadicDynCastAllOfMatcher<
1550   Stmt,
1551   UnaryOperator> unaryOperator;
1552 
1553 /// \brief Matches conditional operator expressions.
1554 ///
1555 /// Example matches a ? b : c
1556 /// \code
1557 ///   (a ? b : c) + 42
1558 /// \endcode
1559 const internal::VariadicDynCastAllOfMatcher<
1560   Stmt,
1561   ConditionalOperator> conditionalOperator;
1562 
1563 /// \brief Matches a C++ static_assert declaration.
1564 ///
1565 /// Example:
1566 ///   staticAssertExpr()
1567 /// matches
1568 ///   static_assert(sizeof(S) == sizeof(int))
1569 /// in
1570 /// \code
1571 ///   struct S {
1572 ///     int x;
1573 ///   };
1574 ///   static_assert(sizeof(S) == sizeof(int));
1575 /// \endcode
1576 const internal::VariadicDynCastAllOfMatcher<
1577   Decl,
1578   StaticAssertDecl> staticAssertDecl;
1579 
1580 /// \brief Matches a reinterpret_cast expression.
1581 ///
1582 /// Either the source expression or the destination type can be matched
1583 /// using has(), but hasDestinationType() is more specific and can be
1584 /// more readable.
1585 ///
1586 /// Example matches reinterpret_cast<char*>(&p) in
1587 /// \code
1588 ///   void* p = reinterpret_cast<char*>(&p);
1589 /// \endcode
1590 const internal::VariadicDynCastAllOfMatcher<
1591   Stmt,
1592   CXXReinterpretCastExpr> cxxReinterpretCastExpr;
1593 
1594 /// \brief Matches a C++ static_cast expression.
1595 ///
1596 /// \see hasDestinationType
1597 /// \see reinterpretCast
1598 ///
1599 /// Example:
1600 ///   cxxStaticCastExpr()
1601 /// matches
1602 ///   static_cast<long>(8)
1603 /// in
1604 /// \code
1605 ///   long eight(static_cast<long>(8));
1606 /// \endcode
1607 const internal::VariadicDynCastAllOfMatcher<
1608   Stmt,
1609   CXXStaticCastExpr> cxxStaticCastExpr;
1610 
1611 /// \brief Matches a dynamic_cast expression.
1612 ///
1613 /// Example:
1614 ///   cxxDynamicCastExpr()
1615 /// matches
1616 ///   dynamic_cast<D*>(&b);
1617 /// in
1618 /// \code
1619 ///   struct B { virtual ~B() {} }; struct D : B {};
1620 ///   B b;
1621 ///   D* p = dynamic_cast<D*>(&b);
1622 /// \endcode
1623 const internal::VariadicDynCastAllOfMatcher<
1624   Stmt,
1625   CXXDynamicCastExpr> cxxDynamicCastExpr;
1626 
1627 /// \brief Matches a const_cast expression.
1628 ///
1629 /// Example: Matches const_cast<int*>(&r) in
1630 /// \code
1631 ///   int n = 42;
1632 ///   const int &r(n);
1633 ///   int* p = const_cast<int*>(&r);
1634 /// \endcode
1635 const internal::VariadicDynCastAllOfMatcher<
1636   Stmt,
1637   CXXConstCastExpr> cxxConstCastExpr;
1638 
1639 /// \brief Matches a C-style cast expression.
1640 ///
1641 /// Example: Matches (int*) 2.2f in
1642 /// \code
1643 ///   int i = (int) 2.2f;
1644 /// \endcode
1645 const internal::VariadicDynCastAllOfMatcher<
1646   Stmt,
1647   CStyleCastExpr> cStyleCastExpr;
1648 
1649 /// \brief Matches explicit cast expressions.
1650 ///
1651 /// Matches any cast expression written in user code, whether it be a
1652 /// C-style cast, a functional-style cast, or a keyword cast.
1653 ///
1654 /// Does not match implicit conversions.
1655 ///
1656 /// Note: the name "explicitCast" is chosen to match Clang's terminology, as
1657 /// Clang uses the term "cast" to apply to implicit conversions as well as to
1658 /// actual cast expressions.
1659 ///
1660 /// \see hasDestinationType.
1661 ///
1662 /// Example: matches all five of the casts in
1663 /// \code
1664 ///   int((int)(reinterpret_cast<int>(static_cast<int>(const_cast<int>(42)))))
1665 /// \endcode
1666 /// but does not match the implicit conversion in
1667 /// \code
1668 ///   long ell = 42;
1669 /// \endcode
1670 const internal::VariadicDynCastAllOfMatcher<
1671   Stmt,
1672   ExplicitCastExpr> explicitCastExpr;
1673 
1674 /// \brief Matches the implicit cast nodes of Clang's AST.
1675 ///
1676 /// This matches many different places, including function call return value
1677 /// eliding, as well as any type conversions.
1678 const internal::VariadicDynCastAllOfMatcher<
1679   Stmt,
1680   ImplicitCastExpr> implicitCastExpr;
1681 
1682 /// \brief Matches any cast nodes of Clang's AST.
1683 ///
1684 /// Example: castExpr() matches each of the following:
1685 /// \code
1686 ///   (int) 3;
1687 ///   const_cast<Expr *>(SubExpr);
1688 ///   char c = 0;
1689 /// \endcode
1690 /// but does not match
1691 /// \code
1692 ///   int i = (0);
1693 ///   int k = 0;
1694 /// \endcode
1695 const internal::VariadicDynCastAllOfMatcher<Stmt, CastExpr> castExpr;
1696 
1697 /// \brief Matches functional cast expressions
1698 ///
1699 /// Example: Matches Foo(bar);
1700 /// \code
1701 ///   Foo f = bar;
1702 ///   Foo g = (Foo) bar;
1703 ///   Foo h = Foo(bar);
1704 /// \endcode
1705 const internal::VariadicDynCastAllOfMatcher<
1706   Stmt,
1707   CXXFunctionalCastExpr> cxxFunctionalCastExpr;
1708 
1709 /// \brief Matches functional cast expressions having N != 1 arguments
1710 ///
1711 /// Example: Matches Foo(bar, bar)
1712 /// \code
1713 ///   Foo h = Foo(bar, bar);
1714 /// \endcode
1715 const internal::VariadicDynCastAllOfMatcher<
1716   Stmt,
1717   CXXTemporaryObjectExpr> cxxTemporaryObjectExpr;
1718 
1719 /// \brief Matches \c QualTypes in the clang AST.
1720 const internal::VariadicAllOfMatcher<QualType> qualType;
1721 
1722 /// \brief Matches \c Types in the clang AST.
1723 const internal::VariadicAllOfMatcher<Type> type;
1724 
1725 /// \brief Matches \c TypeLocs in the clang AST.
1726 const internal::VariadicAllOfMatcher<TypeLoc> typeLoc;
1727 
1728 /// \brief Matches if any of the given matchers matches.
1729 ///
1730 /// Unlike \c anyOf, \c eachOf will generate a match result for each
1731 /// matching submatcher.
1732 ///
1733 /// For example, in:
1734 /// \code
1735 ///   class A { int a; int b; };
1736 /// \endcode
1737 /// The matcher:
1738 /// \code
1739 ///   cxxRecordDecl(eachOf(has(fieldDecl(hasName("a")).bind("v")),
1740 ///                        has(fieldDecl(hasName("b")).bind("v"))))
1741 /// \endcode
1742 /// will generate two results binding "v", the first of which binds
1743 /// the field declaration of \c a, the second the field declaration of
1744 /// \c b.
1745 ///
1746 /// Usable as: Any Matcher
1747 const internal::VariadicOperatorMatcherFunc<2, UINT_MAX> eachOf = {
1748   internal::DynTypedMatcher::VO_EachOf
1749 };
1750 
1751 /// \brief Matches if any of the given matchers matches.
1752 ///
1753 /// Usable as: Any Matcher
1754 const internal::VariadicOperatorMatcherFunc<2, UINT_MAX> anyOf = {
1755   internal::DynTypedMatcher::VO_AnyOf
1756 };
1757 
1758 /// \brief Matches if all given matchers match.
1759 ///
1760 /// Usable as: Any Matcher
1761 const internal::VariadicOperatorMatcherFunc<2, UINT_MAX> allOf = {
1762   internal::DynTypedMatcher::VO_AllOf
1763 };
1764 
1765 /// \brief Matches sizeof (C99), alignof (C++11) and vec_step (OpenCL)
1766 ///
1767 /// Given
1768 /// \code
1769 ///   Foo x = bar;
1770 ///   int y = sizeof(x) + alignof(x);
1771 /// \endcode
1772 /// unaryExprOrTypeTraitExpr()
1773 ///   matches \c sizeof(x) and \c alignof(x)
1774 const internal::VariadicDynCastAllOfMatcher<
1775   Stmt,
1776   UnaryExprOrTypeTraitExpr> unaryExprOrTypeTraitExpr;
1777 
1778 /// \brief Matches unary expressions that have a specific type of argument.
1779 ///
1780 /// Given
1781 /// \code
1782 ///   int a, c; float b; int s = sizeof(a) + sizeof(b) + alignof(c);
1783 /// \endcode
1784 /// unaryExprOrTypeTraitExpr(hasArgumentOfType(asString("int"))
1785 ///   matches \c sizeof(a) and \c alignof(c)
AST_MATCHER_P(UnaryExprOrTypeTraitExpr,hasArgumentOfType,internal::Matcher<QualType>,InnerMatcher)1786 AST_MATCHER_P(UnaryExprOrTypeTraitExpr, hasArgumentOfType,
1787               internal::Matcher<QualType>, InnerMatcher) {
1788   const QualType ArgumentType = Node.getTypeOfArgument();
1789   return InnerMatcher.matches(ArgumentType, Finder, Builder);
1790 }
1791 
1792 /// \brief Matches unary expressions of a certain kind.
1793 ///
1794 /// Given
1795 /// \code
1796 ///   int x;
1797 ///   int s = sizeof(x) + alignof(x)
1798 /// \endcode
1799 /// unaryExprOrTypeTraitExpr(ofKind(UETT_SizeOf))
1800 ///   matches \c sizeof(x)
AST_MATCHER_P(UnaryExprOrTypeTraitExpr,ofKind,UnaryExprOrTypeTrait,Kind)1801 AST_MATCHER_P(UnaryExprOrTypeTraitExpr, ofKind, UnaryExprOrTypeTrait, Kind) {
1802   return Node.getKind() == Kind;
1803 }
1804 
1805 /// \brief Same as unaryExprOrTypeTraitExpr, but only matching
1806 /// alignof.
alignOfExpr(const internal::Matcher<UnaryExprOrTypeTraitExpr> & InnerMatcher)1807 inline internal::Matcher<Stmt> alignOfExpr(
1808     const internal::Matcher<UnaryExprOrTypeTraitExpr> &InnerMatcher) {
1809   return stmt(unaryExprOrTypeTraitExpr(allOf(
1810       ofKind(UETT_AlignOf), InnerMatcher)));
1811 }
1812 
1813 /// \brief Same as unaryExprOrTypeTraitExpr, but only matching
1814 /// sizeof.
sizeOfExpr(const internal::Matcher<UnaryExprOrTypeTraitExpr> & InnerMatcher)1815 inline internal::Matcher<Stmt> sizeOfExpr(
1816     const internal::Matcher<UnaryExprOrTypeTraitExpr> &InnerMatcher) {
1817   return stmt(unaryExprOrTypeTraitExpr(
1818       allOf(ofKind(UETT_SizeOf), InnerMatcher)));
1819 }
1820 
1821 /// \brief Matches NamedDecl nodes that have the specified name.
1822 ///
1823 /// Supports specifying enclosing namespaces or classes by prefixing the name
1824 /// with '<enclosing>::'.
1825 /// Does not match typedefs of an underlying type with the given name.
1826 ///
1827 /// Example matches X (Name == "X")
1828 /// \code
1829 ///   class X;
1830 /// \endcode
1831 ///
1832 /// Example matches X (Name is one of "::a::b::X", "a::b::X", "b::X", "X")
1833 /// \code
1834 ///   namespace a { namespace b { class X; } }
1835 /// \endcode
hasName(const std::string & Name)1836 inline internal::Matcher<NamedDecl> hasName(const std::string &Name) {
1837   return internal::Matcher<NamedDecl>(new internal::HasNameMatcher(Name));
1838 }
1839 
1840 /// \brief Matches NamedDecl nodes whose fully qualified names contain
1841 /// a substring matched by the given RegExp.
1842 ///
1843 /// Supports specifying enclosing namespaces or classes by
1844 /// prefixing the name with '<enclosing>::'.  Does not match typedefs
1845 /// of an underlying type with the given name.
1846 ///
1847 /// Example matches X (regexp == "::X")
1848 /// \code
1849 ///   class X;
1850 /// \endcode
1851 ///
1852 /// Example matches X (regexp is one of "::X", "^foo::.*X", among others)
1853 /// \code
1854 ///   namespace foo { namespace bar { class X; } }
1855 /// \endcode
AST_MATCHER_P(NamedDecl,matchesName,std::string,RegExp)1856 AST_MATCHER_P(NamedDecl, matchesName, std::string, RegExp) {
1857   assert(!RegExp.empty());
1858   std::string FullNameString = "::" + Node.getQualifiedNameAsString();
1859   llvm::Regex RE(RegExp);
1860   return RE.match(FullNameString);
1861 }
1862 
1863 /// \brief Matches overloaded operator names.
1864 ///
1865 /// Matches overloaded operator names specified in strings without the
1866 /// "operator" prefix: e.g. "<<".
1867 ///
1868 /// Given:
1869 /// \code
1870 ///   class A { int operator*(); };
1871 ///   const A &operator<<(const A &a, const A &b);
1872 ///   A a;
1873 ///   a << a;   // <-- This matches
1874 /// \endcode
1875 ///
1876 /// \c cxxOperatorCallExpr(hasOverloadedOperatorName("<<"))) matches the
1877 /// specified line and
1878 /// \c cxxRecordDecl(hasMethod(hasOverloadedOperatorName("*")))
1879 /// matches the declaration of \c A.
1880 ///
1881 /// Usable as: Matcher<CXXOperatorCallExpr>, Matcher<FunctionDecl>
1882 inline internal::PolymorphicMatcherWithParam1<
1883     internal::HasOverloadedOperatorNameMatcher, StringRef,
1884     AST_POLYMORPHIC_SUPPORTED_TYPES(CXXOperatorCallExpr, FunctionDecl)>
hasOverloadedOperatorName(StringRef Name)1885 hasOverloadedOperatorName(StringRef Name) {
1886   return internal::PolymorphicMatcherWithParam1<
1887       internal::HasOverloadedOperatorNameMatcher, StringRef,
1888       AST_POLYMORPHIC_SUPPORTED_TYPES(CXXOperatorCallExpr, FunctionDecl)>(Name);
1889 }
1890 
1891 /// \brief Matches C++ classes that are directly or indirectly derived from
1892 /// a class matching \c Base.
1893 ///
1894 /// Note that a class is not considered to be derived from itself.
1895 ///
1896 /// Example matches Y, Z, C (Base == hasName("X"))
1897 /// \code
1898 ///   class X;
1899 ///   class Y : public X {};  // directly derived
1900 ///   class Z : public Y {};  // indirectly derived
1901 ///   typedef X A;
1902 ///   typedef A B;
1903 ///   class C : public B {};  // derived from a typedef of X
1904 /// \endcode
1905 ///
1906 /// In the following example, Bar matches isDerivedFrom(hasName("X")):
1907 /// \code
1908 ///   class Foo;
1909 ///   typedef Foo X;
1910 ///   class Bar : public Foo {};  // derived from a type that X is a typedef of
1911 /// \endcode
AST_MATCHER_P(CXXRecordDecl,isDerivedFrom,internal::Matcher<NamedDecl>,Base)1912 AST_MATCHER_P(CXXRecordDecl, isDerivedFrom,
1913               internal::Matcher<NamedDecl>, Base) {
1914   return Finder->classIsDerivedFrom(&Node, Base, Builder);
1915 }
1916 
1917 /// \brief Overloaded method as shortcut for \c isDerivedFrom(hasName(...)).
1918 AST_MATCHER_P_OVERLOAD(CXXRecordDecl, isDerivedFrom, std::string, BaseName, 1) {
1919   assert(!BaseName.empty());
1920   return isDerivedFrom(hasName(BaseName)).matches(Node, Finder, Builder);
1921 }
1922 
1923 /// \brief Similar to \c isDerivedFrom(), but also matches classes that directly
1924 /// match \c Base.
1925 AST_MATCHER_P_OVERLOAD(CXXRecordDecl, isSameOrDerivedFrom,
1926                        internal::Matcher<NamedDecl>, Base, 0) {
1927   return Matcher<CXXRecordDecl>(anyOf(Base, isDerivedFrom(Base)))
1928       .matches(Node, Finder, Builder);
1929 }
1930 
1931 /// \brief Overloaded method as shortcut for
1932 /// \c isSameOrDerivedFrom(hasName(...)).
1933 AST_MATCHER_P_OVERLOAD(CXXRecordDecl, isSameOrDerivedFrom, std::string,
1934                        BaseName, 1) {
1935   assert(!BaseName.empty());
1936   return isSameOrDerivedFrom(hasName(BaseName)).matches(Node, Finder, Builder);
1937 }
1938 
1939 /// \brief Matches the first method of a class or struct that satisfies \c
1940 /// InnerMatcher.
1941 ///
1942 /// Given:
1943 /// \code
1944 ///   class A { void func(); };
1945 ///   class B { void member(); };
1946 /// \endcode
1947 ///
1948 /// \c cxxRecordDecl(hasMethod(hasName("func"))) matches the declaration of
1949 /// \c A but not \c B.
AST_MATCHER_P(CXXRecordDecl,hasMethod,internal::Matcher<CXXMethodDecl>,InnerMatcher)1950 AST_MATCHER_P(CXXRecordDecl, hasMethod, internal::Matcher<CXXMethodDecl>,
1951               InnerMatcher) {
1952   return matchesFirstInPointerRange(InnerMatcher, Node.method_begin(),
1953                                     Node.method_end(), Finder, Builder);
1954 }
1955 
1956 /// \brief Matches AST nodes that have child AST nodes that match the
1957 /// provided matcher.
1958 ///
1959 /// Example matches X, Y
1960 ///   (matcher = cxxRecordDecl(has(cxxRecordDecl(hasName("X")))
1961 /// \code
1962 ///   class X {};  // Matches X, because X::X is a class of name X inside X.
1963 ///   class Y { class X {}; };
1964 ///   class Z { class Y { class X {}; }; };  // Does not match Z.
1965 /// \endcode
1966 ///
1967 /// ChildT must be an AST base type.
1968 ///
1969 /// Usable as: Any Matcher
1970 const internal::ArgumentAdaptingMatcherFunc<internal::HasMatcher>
1971 LLVM_ATTRIBUTE_UNUSED has = {};
1972 
1973 /// \brief Matches AST nodes that have descendant AST nodes that match the
1974 /// provided matcher.
1975 ///
1976 /// Example matches X, Y, Z
1977 ///     (matcher = cxxRecordDecl(hasDescendant(cxxRecordDecl(hasName("X")))))
1978 /// \code
1979 ///   class X {};  // Matches X, because X::X is a class of name X inside X.
1980 ///   class Y { class X {}; };
1981 ///   class Z { class Y { class X {}; }; };
1982 /// \endcode
1983 ///
1984 /// DescendantT must be an AST base type.
1985 ///
1986 /// Usable as: Any Matcher
1987 const internal::ArgumentAdaptingMatcherFunc<internal::HasDescendantMatcher>
1988 LLVM_ATTRIBUTE_UNUSED hasDescendant = {};
1989 
1990 /// \brief Matches AST nodes that have child AST nodes that match the
1991 /// provided matcher.
1992 ///
1993 /// Example matches X, Y
1994 ///   (matcher = cxxRecordDecl(forEach(cxxRecordDecl(hasName("X")))
1995 /// \code
1996 ///   class X {};  // Matches X, because X::X is a class of name X inside X.
1997 ///   class Y { class X {}; };
1998 ///   class Z { class Y { class X {}; }; };  // Does not match Z.
1999 /// \endcode
2000 ///
2001 /// ChildT must be an AST base type.
2002 ///
2003 /// As opposed to 'has', 'forEach' will cause a match for each result that
2004 /// matches instead of only on the first one.
2005 ///
2006 /// Usable as: Any Matcher
2007 const internal::ArgumentAdaptingMatcherFunc<internal::ForEachMatcher>
2008 LLVM_ATTRIBUTE_UNUSED forEach = {};
2009 
2010 /// \brief Matches AST nodes that have descendant AST nodes that match the
2011 /// provided matcher.
2012 ///
2013 /// Example matches X, A, B, C
2014 ///   (matcher = cxxRecordDecl(forEachDescendant(cxxRecordDecl(hasName("X")))))
2015 /// \code
2016 ///   class X {};  // Matches X, because X::X is a class of name X inside X.
2017 ///   class A { class X {}; };
2018 ///   class B { class C { class X {}; }; };
2019 /// \endcode
2020 ///
2021 /// DescendantT must be an AST base type.
2022 ///
2023 /// As opposed to 'hasDescendant', 'forEachDescendant' will cause a match for
2024 /// each result that matches instead of only on the first one.
2025 ///
2026 /// Note: Recursively combined ForEachDescendant can cause many matches:
2027 ///   cxxRecordDecl(forEachDescendant(cxxRecordDecl(
2028 ///     forEachDescendant(cxxRecordDecl())
2029 ///   )))
2030 /// will match 10 times (plus injected class name matches) on:
2031 /// \code
2032 ///   class A { class B { class C { class D { class E {}; }; }; }; };
2033 /// \endcode
2034 ///
2035 /// Usable as: Any Matcher
2036 const internal::ArgumentAdaptingMatcherFunc<internal::ForEachDescendantMatcher>
2037 LLVM_ATTRIBUTE_UNUSED forEachDescendant = {};
2038 
2039 /// \brief Matches if the node or any descendant matches.
2040 ///
2041 /// Generates results for each match.
2042 ///
2043 /// For example, in:
2044 /// \code
2045 ///   class A { class B {}; class C {}; };
2046 /// \endcode
2047 /// The matcher:
2048 /// \code
2049 ///   cxxRecordDecl(hasName("::A"),
2050 ///                 findAll(cxxRecordDecl(isDefinition()).bind("m")))
2051 /// \endcode
2052 /// will generate results for \c A, \c B and \c C.
2053 ///
2054 /// Usable as: Any Matcher
2055 template <typename T>
findAll(const internal::Matcher<T> & Matcher)2056 internal::Matcher<T> findAll(const internal::Matcher<T> &Matcher) {
2057   return eachOf(Matcher, forEachDescendant(Matcher));
2058 }
2059 
2060 /// \brief Matches AST nodes that have a parent that matches the provided
2061 /// matcher.
2062 ///
2063 /// Given
2064 /// \code
2065 /// void f() { for (;;) { int x = 42; if (true) { int x = 43; } } }
2066 /// \endcode
2067 /// \c compoundStmt(hasParent(ifStmt())) matches "{ int x = 43; }".
2068 ///
2069 /// Usable as: Any Matcher
2070 const internal::ArgumentAdaptingMatcherFunc<
2071     internal::HasParentMatcher,
2072     internal::TypeList<Decl, NestedNameSpecifierLoc, Stmt, TypeLoc>,
2073     internal::TypeList<Decl, NestedNameSpecifierLoc, Stmt, TypeLoc>>
2074     LLVM_ATTRIBUTE_UNUSED hasParent = {};
2075 
2076 /// \brief Matches AST nodes that have an ancestor that matches the provided
2077 /// matcher.
2078 ///
2079 /// Given
2080 /// \code
2081 /// void f() { if (true) { int x = 42; } }
2082 /// void g() { for (;;) { int x = 43; } }
2083 /// \endcode
2084 /// \c expr(integerLiteral(hasAncestor(ifStmt()))) matches \c 42, but not 43.
2085 ///
2086 /// Usable as: Any Matcher
2087 const internal::ArgumentAdaptingMatcherFunc<
2088     internal::HasAncestorMatcher,
2089     internal::TypeList<Decl, NestedNameSpecifierLoc, Stmt, TypeLoc>,
2090     internal::TypeList<Decl, NestedNameSpecifierLoc, Stmt, TypeLoc>>
2091     LLVM_ATTRIBUTE_UNUSED hasAncestor = {};
2092 
2093 /// \brief Matches if the provided matcher does not match.
2094 ///
2095 /// Example matches Y (matcher = cxxRecordDecl(unless(hasName("X"))))
2096 /// \code
2097 ///   class X {};
2098 ///   class Y {};
2099 /// \endcode
2100 ///
2101 /// Usable as: Any Matcher
2102 const internal::VariadicOperatorMatcherFunc<1, 1> unless = {
2103   internal::DynTypedMatcher::VO_UnaryNot
2104 };
2105 
2106 /// \brief Matches a node if the declaration associated with that node
2107 /// matches the given matcher.
2108 ///
2109 /// The associated declaration is:
2110 /// - for type nodes, the declaration of the underlying type
2111 /// - for CallExpr, the declaration of the callee
2112 /// - for MemberExpr, the declaration of the referenced member
2113 /// - for CXXConstructExpr, the declaration of the constructor
2114 ///
2115 /// Also usable as Matcher<T> for any T supporting the getDecl() member
2116 /// function. e.g. various subtypes of clang::Type and various expressions.
2117 ///
2118 /// Usable as: Matcher<CallExpr>, Matcher<CXXConstructExpr>,
2119 ///   Matcher<DeclRefExpr>, Matcher<EnumType>, Matcher<InjectedClassNameType>,
2120 ///   Matcher<LabelStmt>, Matcher<MemberExpr>, Matcher<QualType>,
2121 ///   Matcher<RecordType>, Matcher<TagType>,
2122 ///   Matcher<TemplateSpecializationType>, Matcher<TemplateTypeParmType>,
2123 ///   Matcher<TypedefType>, Matcher<UnresolvedUsingType>
2124 inline internal::PolymorphicMatcherWithParam1<
2125     internal::HasDeclarationMatcher, internal::Matcher<Decl>,
2126     void(internal::HasDeclarationSupportedTypes)>
hasDeclaration(const internal::Matcher<Decl> & InnerMatcher)2127 hasDeclaration(const internal::Matcher<Decl> &InnerMatcher) {
2128   return internal::PolymorphicMatcherWithParam1<
2129       internal::HasDeclarationMatcher, internal::Matcher<Decl>,
2130       void(internal::HasDeclarationSupportedTypes)>(InnerMatcher);
2131 }
2132 
2133 /// \brief Matches on the implicit object argument of a member call expression.
2134 ///
2135 /// Example matches y.x()
2136 ///   (matcher = cxxMemberCallExpr(on(hasType(cxxRecordDecl(hasName("Y"))))))
2137 /// \code
2138 ///   class Y { public: void x(); };
2139 ///   void z() { Y y; y.x(); }",
2140 /// \endcode
2141 ///
2142 /// FIXME: Overload to allow directly matching types?
AST_MATCHER_P(CXXMemberCallExpr,on,internal::Matcher<Expr>,InnerMatcher)2143 AST_MATCHER_P(CXXMemberCallExpr, on, internal::Matcher<Expr>,
2144               InnerMatcher) {
2145   const Expr *ExprNode = Node.getImplicitObjectArgument()
2146                             ->IgnoreParenImpCasts();
2147   return (ExprNode != nullptr &&
2148           InnerMatcher.matches(*ExprNode, Finder, Builder));
2149 }
2150 
2151 
2152 /// \brief Matches on the receiver of an ObjectiveC Message expression.
2153 ///
2154 /// Example
2155 /// matcher = objCMessageExpr(hasRecieverType(asString("UIWebView *")));
2156 /// matches the [webView ...] message invocation.
2157 /// \code
2158 ///   NSString *webViewJavaScript = ...
2159 ///   UIWebView *webView = ...
2160 ///   [webView stringByEvaluatingJavaScriptFromString:webViewJavascript];
2161 /// \endcode
AST_MATCHER_P(ObjCMessageExpr,hasReceiverType,internal::Matcher<QualType>,InnerMatcher)2162 AST_MATCHER_P(ObjCMessageExpr, hasReceiverType, internal::Matcher<QualType>,
2163               InnerMatcher) {
2164   const QualType TypeDecl = Node.getReceiverType();
2165   return InnerMatcher.matches(TypeDecl, Finder, Builder);
2166 }
2167 
2168 /// \brief Matches when BaseName == Selector.getAsString()
2169 ///
2170 ///  matcher = objCMessageExpr(hasSelector("loadHTMLString:baseURL:"));
2171 ///  matches the outer message expr in the code below, but NOT the message
2172 ///  invocation for self.bodyView.
2173 /// \code
2174 ///     [self.bodyView loadHTMLString:html baseURL:NULL];
2175 /// \endcode
AST_MATCHER_P(ObjCMessageExpr,hasSelector,std::string,BaseName)2176 AST_MATCHER_P(ObjCMessageExpr, hasSelector, std::string, BaseName) {
2177   Selector Sel = Node.getSelector();
2178   return BaseName.compare(Sel.getAsString()) == 0;
2179 }
2180 
2181 
2182 /// \brief Matches ObjC selectors whose name contains
2183 /// a substring matched by the given RegExp.
2184 ///  matcher = objCMessageExpr(matchesSelector("loadHTMLString\:baseURL?"));
2185 ///  matches the outer message expr in the code below, but NOT the message
2186 ///  invocation for self.bodyView.
2187 /// \code
2188 ///     [self.bodyView loadHTMLString:html baseURL:NULL];
2189 /// \endcode
AST_MATCHER_P(ObjCMessageExpr,matchesSelector,std::string,RegExp)2190 AST_MATCHER_P(ObjCMessageExpr, matchesSelector, std::string, RegExp) {
2191   assert(!RegExp.empty());
2192   std::string SelectorString = Node.getSelector().getAsString();
2193   llvm::Regex RE(RegExp);
2194   return RE.match(SelectorString);
2195 }
2196 
2197 /// \brief Matches when the selector is the empty selector
2198 ///
2199 /// Matches only when the selector of the objCMessageExpr is NULL. This may
2200 /// represent an error condition in the tree!
AST_MATCHER(ObjCMessageExpr,hasNullSelector)2201 AST_MATCHER(ObjCMessageExpr, hasNullSelector) {
2202   return Node.getSelector().isNull();
2203 }
2204 
2205 /// \brief Matches when the selector is a Unary Selector
2206 ///
2207 ///  matcher = objCMessageExpr(matchesSelector(hasUnarySelector());
2208 ///  matches self.bodyView in the code below, but NOT the outer message
2209 ///  invocation of "loadHTMLString:baseURL:".
2210 /// \code
2211 ///     [self.bodyView loadHTMLString:html baseURL:NULL];
2212 /// \endcode
AST_MATCHER(ObjCMessageExpr,hasUnarySelector)2213 AST_MATCHER(ObjCMessageExpr, hasUnarySelector) {
2214   return Node.getSelector().isUnarySelector();
2215 }
2216 
2217 /// \brief Matches when the selector is a keyword selector
2218 ///
2219 /// objCMessageExpr(hasKeywordSelector()) matches the generated setFrame
2220 /// message expression in
2221 ///
2222 /// \code
2223 ///   UIWebView *webView = ...;
2224 ///   CGRect bodyFrame = webView.frame;
2225 ///   bodyFrame.size.height = self.bodyContentHeight;
2226 ///   webView.frame = bodyFrame;
2227 ///   //     ^---- matches here
2228 /// \endcode
AST_MATCHER(ObjCMessageExpr,hasKeywordSelector)2229 AST_MATCHER(ObjCMessageExpr, hasKeywordSelector) {
2230   return Node.getSelector().isKeywordSelector();
2231 }
2232 
2233 /// \brief Matches when the selector has the specified number of arguments
2234 ///
2235 ///  matcher = objCMessageExpr(numSelectorArgs(0));
2236 ///  matches self.bodyView in the code below
2237 ///
2238 ///  matcher = objCMessageExpr(numSelectorArgs(2));
2239 ///  matches the invocation of "loadHTMLString:baseURL:" but not that
2240 ///  of self.bodyView
2241 /// \code
2242 ///     [self.bodyView loadHTMLString:html baseURL:NULL];
2243 /// \endcode
AST_MATCHER_P(ObjCMessageExpr,numSelectorArgs,unsigned,N)2244 AST_MATCHER_P(ObjCMessageExpr, numSelectorArgs, unsigned, N) {
2245   return Node.getSelector().getNumArgs() == N;
2246 }
2247 
2248 /// \brief Matches if the call expression's callee expression matches.
2249 ///
2250 /// Given
2251 /// \code
2252 ///   class Y { void x() { this->x(); x(); Y y; y.x(); } };
2253 ///   void f() { f(); }
2254 /// \endcode
2255 /// callExpr(callee(expr()))
2256 ///   matches this->x(), x(), y.x(), f()
2257 /// with callee(...)
2258 ///   matching this->x, x, y.x, f respectively
2259 ///
2260 /// Note: Callee cannot take the more general internal::Matcher<Expr>
2261 /// because this introduces ambiguous overloads with calls to Callee taking a
2262 /// internal::Matcher<Decl>, as the matcher hierarchy is purely
2263 /// implemented in terms of implicit casts.
AST_MATCHER_P(CallExpr,callee,internal::Matcher<Stmt>,InnerMatcher)2264 AST_MATCHER_P(CallExpr, callee, internal::Matcher<Stmt>,
2265               InnerMatcher) {
2266   const Expr *ExprNode = Node.getCallee();
2267   return (ExprNode != nullptr &&
2268           InnerMatcher.matches(*ExprNode, Finder, Builder));
2269 }
2270 
2271 /// \brief Matches if the call expression's callee's declaration matches the
2272 /// given matcher.
2273 ///
2274 /// Example matches y.x() (matcher = callExpr(callee(
2275 ///                                    cxxMethodDecl(hasName("x")))))
2276 /// \code
2277 ///   class Y { public: void x(); };
2278 ///   void z() { Y y; y.x(); }
2279 /// \endcode
2280 AST_MATCHER_P_OVERLOAD(CallExpr, callee, internal::Matcher<Decl>, InnerMatcher,
2281                        1) {
2282   return callExpr(hasDeclaration(InnerMatcher)).matches(Node, Finder, Builder);
2283 }
2284 
2285 /// \brief Matches if the expression's or declaration's type matches a type
2286 /// matcher.
2287 ///
2288 /// Example matches x (matcher = expr(hasType(cxxRecordDecl(hasName("X")))))
2289 ///             and z (matcher = varDecl(hasType(cxxRecordDecl(hasName("X")))))
2290 /// \code
2291 ///  class X {};
2292 ///  void y(X &x) { x; X z; }
2293 /// \endcode
2294 AST_POLYMORPHIC_MATCHER_P_OVERLOAD(
2295     hasType, AST_POLYMORPHIC_SUPPORTED_TYPES(Expr, ValueDecl),
2296     internal::Matcher<QualType>, InnerMatcher, 0) {
2297   return InnerMatcher.matches(Node.getType(), Finder, Builder);
2298 }
2299 
2300 /// \brief Overloaded to match the declaration of the expression's or value
2301 /// declaration's type.
2302 ///
2303 /// In case of a value declaration (for example a variable declaration),
2304 /// this resolves one layer of indirection. For example, in the value
2305 /// declaration "X x;", cxxRecordDecl(hasName("X")) matches the declaration of
2306 /// X, while varDecl(hasType(cxxRecordDecl(hasName("X")))) matches the
2307 /// declaration of x.
2308 ///
2309 /// Example matches x (matcher = expr(hasType(cxxRecordDecl(hasName("X")))))
2310 ///             and z (matcher = varDecl(hasType(cxxRecordDecl(hasName("X")))))
2311 /// \code
2312 ///  class X {};
2313 ///  void y(X &x) { x; X z; }
2314 /// \endcode
2315 ///
2316 /// Usable as: Matcher<Expr>, Matcher<ValueDecl>
2317 AST_POLYMORPHIC_MATCHER_P_OVERLOAD(hasType,
2318                                    AST_POLYMORPHIC_SUPPORTED_TYPES(Expr,
2319                                                                    ValueDecl),
2320                                    internal::Matcher<Decl>, InnerMatcher, 1) {
2321   return qualType(hasDeclaration(InnerMatcher))
2322       .matches(Node.getType(), Finder, Builder);
2323 }
2324 
2325 /// \brief Matches if the type location of the declarator decl's type matches
2326 /// the inner matcher.
2327 ///
2328 /// Given
2329 /// \code
2330 ///   int x;
2331 /// \endcode
2332 /// declaratorDecl(hasTypeLoc(loc(asString("int"))))
2333 ///   matches int x
AST_MATCHER_P(DeclaratorDecl,hasTypeLoc,internal::Matcher<TypeLoc>,Inner)2334 AST_MATCHER_P(DeclaratorDecl, hasTypeLoc, internal::Matcher<TypeLoc>, Inner) {
2335   if (!Node.getTypeSourceInfo())
2336     // This happens for example for implicit destructors.
2337     return false;
2338   return Inner.matches(Node.getTypeSourceInfo()->getTypeLoc(), Finder, Builder);
2339 }
2340 
2341 /// \brief Matches if the matched type is represented by the given string.
2342 ///
2343 /// Given
2344 /// \code
2345 ///   class Y { public: void x(); };
2346 ///   void z() { Y* y; y->x(); }
2347 /// \endcode
2348 /// cxxMemberCallExpr(on(hasType(asString("class Y *"))))
2349 ///   matches y->x()
AST_MATCHER_P(QualType,asString,std::string,Name)2350 AST_MATCHER_P(QualType, asString, std::string, Name) {
2351   return Name == Node.getAsString();
2352 }
2353 
2354 /// \brief Matches if the matched type is a pointer type and the pointee type
2355 /// matches the specified matcher.
2356 ///
2357 /// Example matches y->x()
2358 ///   (matcher = cxxMemberCallExpr(on(hasType(pointsTo
2359 ///      cxxRecordDecl(hasName("Y")))))))
2360 /// \code
2361 ///   class Y { public: void x(); };
2362 ///   void z() { Y *y; y->x(); }
2363 /// \endcode
AST_MATCHER_P(QualType,pointsTo,internal::Matcher<QualType>,InnerMatcher)2364 AST_MATCHER_P(
2365     QualType, pointsTo, internal::Matcher<QualType>,
2366     InnerMatcher) {
2367   return (!Node.isNull() && Node->isAnyPointerType() &&
2368           InnerMatcher.matches(Node->getPointeeType(), Finder, Builder));
2369 }
2370 
2371 /// \brief Overloaded to match the pointee type's declaration.
2372 AST_MATCHER_P_OVERLOAD(QualType, pointsTo, internal::Matcher<Decl>,
2373                        InnerMatcher, 1) {
2374   return pointsTo(qualType(hasDeclaration(InnerMatcher)))
2375       .matches(Node, Finder, Builder);
2376 }
2377 
2378 /// \brief Matches if the matched type is a reference type and the referenced
2379 /// type matches the specified matcher.
2380 ///
2381 /// Example matches X &x and const X &y
2382 ///     (matcher = varDecl(hasType(references(cxxRecordDecl(hasName("X"))))))
2383 /// \code
2384 ///   class X {
2385 ///     void a(X b) {
2386 ///       X &x = b;
2387 ///       const X &y = b;
2388 ///     }
2389 ///   };
2390 /// \endcode
AST_MATCHER_P(QualType,references,internal::Matcher<QualType>,InnerMatcher)2391 AST_MATCHER_P(QualType, references, internal::Matcher<QualType>,
2392               InnerMatcher) {
2393   return (!Node.isNull() && Node->isReferenceType() &&
2394           InnerMatcher.matches(Node->getPointeeType(), Finder, Builder));
2395 }
2396 
2397 /// \brief Matches QualTypes whose canonical type matches InnerMatcher.
2398 ///
2399 /// Given:
2400 /// \code
2401 ///   typedef int &int_ref;
2402 ///   int a;
2403 ///   int_ref b = a;
2404 /// \endcode
2405 ///
2406 /// \c varDecl(hasType(qualType(referenceType()))))) will not match the
2407 /// declaration of b but \c
2408 /// varDecl(hasType(qualType(hasCanonicalType(referenceType())))))) does.
AST_MATCHER_P(QualType,hasCanonicalType,internal::Matcher<QualType>,InnerMatcher)2409 AST_MATCHER_P(QualType, hasCanonicalType, internal::Matcher<QualType>,
2410               InnerMatcher) {
2411   if (Node.isNull())
2412     return false;
2413   return InnerMatcher.matches(Node.getCanonicalType(), Finder, Builder);
2414 }
2415 
2416 /// \brief Overloaded to match the referenced type's declaration.
2417 AST_MATCHER_P_OVERLOAD(QualType, references, internal::Matcher<Decl>,
2418                        InnerMatcher, 1) {
2419   return references(qualType(hasDeclaration(InnerMatcher)))
2420       .matches(Node, Finder, Builder);
2421 }
2422 
AST_MATCHER_P(CXXMemberCallExpr,onImplicitObjectArgument,internal::Matcher<Expr>,InnerMatcher)2423 AST_MATCHER_P(CXXMemberCallExpr, onImplicitObjectArgument,
2424               internal::Matcher<Expr>, InnerMatcher) {
2425   const Expr *ExprNode = Node.getImplicitObjectArgument();
2426   return (ExprNode != nullptr &&
2427           InnerMatcher.matches(*ExprNode, Finder, Builder));
2428 }
2429 
2430 /// \brief Matches if the expression's type either matches the specified
2431 /// matcher, or is a pointer to a type that matches the InnerMatcher.
2432 AST_MATCHER_P_OVERLOAD(CXXMemberCallExpr, thisPointerType,
2433                        internal::Matcher<QualType>, InnerMatcher, 0) {
2434   return onImplicitObjectArgument(
2435       anyOf(hasType(InnerMatcher), hasType(pointsTo(InnerMatcher))))
2436       .matches(Node, Finder, Builder);
2437 }
2438 
2439 /// \brief Overloaded to match the type's declaration.
2440 AST_MATCHER_P_OVERLOAD(CXXMemberCallExpr, thisPointerType,
2441                        internal::Matcher<Decl>, InnerMatcher, 1) {
2442   return onImplicitObjectArgument(
2443       anyOf(hasType(InnerMatcher), hasType(pointsTo(InnerMatcher))))
2444       .matches(Node, Finder, Builder);
2445 }
2446 
2447 /// \brief Matches a DeclRefExpr that refers to a declaration that matches the
2448 /// specified matcher.
2449 ///
2450 /// Example matches x in if(x)
2451 ///     (matcher = declRefExpr(to(varDecl(hasName("x")))))
2452 /// \code
2453 ///   bool x;
2454 ///   if (x) {}
2455 /// \endcode
AST_MATCHER_P(DeclRefExpr,to,internal::Matcher<Decl>,InnerMatcher)2456 AST_MATCHER_P(DeclRefExpr, to, internal::Matcher<Decl>,
2457               InnerMatcher) {
2458   const Decl *DeclNode = Node.getDecl();
2459   return (DeclNode != nullptr &&
2460           InnerMatcher.matches(*DeclNode, Finder, Builder));
2461 }
2462 
2463 /// \brief Matches a \c DeclRefExpr that refers to a declaration through a
2464 /// specific using shadow declaration.
2465 ///
2466 /// Given
2467 /// \code
2468 ///   namespace a { void f() {} }
2469 ///   using a::f;
2470 ///   void g() {
2471 ///     f();     // Matches this ..
2472 ///     a::f();  // .. but not this.
2473 ///   }
2474 /// \endcode
2475 /// declRefExpr(throughUsingDecl(anything()))
2476 ///   matches \c f()
AST_MATCHER_P(DeclRefExpr,throughUsingDecl,internal::Matcher<UsingShadowDecl>,InnerMatcher)2477 AST_MATCHER_P(DeclRefExpr, throughUsingDecl,
2478               internal::Matcher<UsingShadowDecl>, InnerMatcher) {
2479   const NamedDecl *FoundDecl = Node.getFoundDecl();
2480   if (const UsingShadowDecl *UsingDecl = dyn_cast<UsingShadowDecl>(FoundDecl))
2481     return InnerMatcher.matches(*UsingDecl, Finder, Builder);
2482   return false;
2483 }
2484 
2485 /// \brief Matches the Decl of a DeclStmt which has a single declaration.
2486 ///
2487 /// Given
2488 /// \code
2489 ///   int a, b;
2490 ///   int c;
2491 /// \endcode
2492 /// declStmt(hasSingleDecl(anything()))
2493 ///   matches 'int c;' but not 'int a, b;'.
AST_MATCHER_P(DeclStmt,hasSingleDecl,internal::Matcher<Decl>,InnerMatcher)2494 AST_MATCHER_P(DeclStmt, hasSingleDecl, internal::Matcher<Decl>, InnerMatcher) {
2495   if (Node.isSingleDecl()) {
2496     const Decl *FoundDecl = Node.getSingleDecl();
2497     return InnerMatcher.matches(*FoundDecl, Finder, Builder);
2498   }
2499   return false;
2500 }
2501 
2502 /// \brief Matches a variable declaration that has an initializer expression
2503 /// that matches the given matcher.
2504 ///
2505 /// Example matches x (matcher = varDecl(hasInitializer(callExpr())))
2506 /// \code
2507 ///   bool y() { return true; }
2508 ///   bool x = y();
2509 /// \endcode
AST_MATCHER_P(VarDecl,hasInitializer,internal::Matcher<Expr>,InnerMatcher)2510 AST_MATCHER_P(
2511     VarDecl, hasInitializer, internal::Matcher<Expr>,
2512     InnerMatcher) {
2513   const Expr *Initializer = Node.getAnyInitializer();
2514   return (Initializer != nullptr &&
2515           InnerMatcher.matches(*Initializer, Finder, Builder));
2516 }
2517 
2518 /// \brief Matches a variable declaration that has function scope and is a
2519 /// non-static local variable.
2520 ///
2521 /// Example matches x (matcher = varDecl(hasLocalStorage())
2522 /// \code
2523 /// void f() {
2524 ///   int x;
2525 ///   static int y;
2526 /// }
2527 /// int z;
2528 /// \endcode
AST_MATCHER(VarDecl,hasLocalStorage)2529 AST_MATCHER(VarDecl, hasLocalStorage) {
2530   return Node.hasLocalStorage();
2531 }
2532 
2533 /// \brief Matches a variable declaration that does not have local storage.
2534 ///
2535 /// Example matches y and z (matcher = varDecl(hasGlobalStorage())
2536 /// \code
2537 /// void f() {
2538 ///   int x;
2539 ///   static int y;
2540 /// }
2541 /// int z;
2542 /// \endcode
AST_MATCHER(VarDecl,hasGlobalStorage)2543 AST_MATCHER(VarDecl, hasGlobalStorage) {
2544   return Node.hasGlobalStorage();
2545 }
2546 
2547 /// \brief Matches a variable declaration that has automatic storage duration.
2548 ///
2549 /// Example matches x, but not y, z, or a.
2550 /// (matcher = varDecl(hasAutomaticStorageDuration())
2551 /// \code
2552 /// void f() {
2553 ///   int x;
2554 ///   static int y;
2555 ///   thread_local int z;
2556 /// }
2557 /// int a;
2558 /// \endcode
AST_MATCHER(VarDecl,hasAutomaticStorageDuration)2559 AST_MATCHER(VarDecl, hasAutomaticStorageDuration) {
2560   return Node.getStorageDuration() == SD_Automatic;
2561 }
2562 
2563 /// \brief Matches a variable declaration that has static storage duration.
2564 ///
2565 /// Example matches y and a, but not x or z.
2566 /// (matcher = varDecl(hasStaticStorageDuration())
2567 /// \code
2568 /// void f() {
2569 ///   int x;
2570 ///   static int y;
2571 ///   thread_local int z;
2572 /// }
2573 /// int a;
2574 /// \endcode
AST_MATCHER(VarDecl,hasStaticStorageDuration)2575 AST_MATCHER(VarDecl, hasStaticStorageDuration) {
2576   return Node.getStorageDuration() == SD_Static;
2577 }
2578 
2579 /// \brief Matches a variable declaration that has thread storage duration.
2580 ///
2581 /// Example matches z, but not x, z, or a.
2582 /// (matcher = varDecl(hasThreadStorageDuration())
2583 /// \code
2584 /// void f() {
2585 ///   int x;
2586 ///   static int y;
2587 ///   thread_local int z;
2588 /// }
2589 /// int a;
2590 /// \endcode
AST_MATCHER(VarDecl,hasThreadStorageDuration)2591 AST_MATCHER(VarDecl, hasThreadStorageDuration) {
2592   return Node.getStorageDuration() == SD_Thread;
2593 }
2594 
2595 /// \brief Matches a variable declaration that is an exception variable from
2596 /// a C++ catch block, or an Objective-C \@catch statement.
2597 ///
2598 /// Example matches x (matcher = varDecl(isExceptionVariable())
2599 /// \code
2600 /// void f(int y) {
2601 ///   try {
2602 ///   } catch (int x) {
2603 ///   }
2604 /// }
2605 /// \endcode
AST_MATCHER(VarDecl,isExceptionVariable)2606 AST_MATCHER(VarDecl, isExceptionVariable) {
2607   return Node.isExceptionVariable();
2608 }
2609 
2610 /// \brief Checks that a call expression or a constructor call expression has
2611 /// a specific number of arguments (including absent default arguments).
2612 ///
2613 /// Example matches f(0, 0) (matcher = callExpr(argumentCountIs(2)))
2614 /// \code
2615 ///   void f(int x, int y);
2616 ///   f(0, 0);
2617 /// \endcode
AST_POLYMORPHIC_MATCHER_P(argumentCountIs,AST_POLYMORPHIC_SUPPORTED_TYPES (CallExpr,CXXConstructExpr,ObjCMessageExpr),unsigned,N)2618 AST_POLYMORPHIC_MATCHER_P(argumentCountIs,
2619                           AST_POLYMORPHIC_SUPPORTED_TYPES(CallExpr,
2620                                                           CXXConstructExpr,
2621                                                           ObjCMessageExpr),
2622                           unsigned, N) {
2623   return Node.getNumArgs() == N;
2624 }
2625 
2626 /// \brief Matches the n'th argument of a call expression or a constructor
2627 /// call expression.
2628 ///
2629 /// Example matches y in x(y)
2630 ///     (matcher = callExpr(hasArgument(0, declRefExpr())))
2631 /// \code
2632 ///   void x(int) { int y; x(y); }
2633 /// \endcode
AST_POLYMORPHIC_MATCHER_P2(hasArgument,AST_POLYMORPHIC_SUPPORTED_TYPES (CallExpr,CXXConstructExpr,ObjCMessageExpr),unsigned,N,internal::Matcher<Expr>,InnerMatcher)2634 AST_POLYMORPHIC_MATCHER_P2(hasArgument,
2635                            AST_POLYMORPHIC_SUPPORTED_TYPES(CallExpr,
2636                                                            CXXConstructExpr,
2637                                                            ObjCMessageExpr),
2638                            unsigned, N, internal::Matcher<Expr>, InnerMatcher) {
2639   return (N < Node.getNumArgs() &&
2640           InnerMatcher.matches(
2641               *Node.getArg(N)->IgnoreParenImpCasts(), Finder, Builder));
2642 }
2643 
2644 /// \brief Matches declaration statements that contain a specific number of
2645 /// declarations.
2646 ///
2647 /// Example: Given
2648 /// \code
2649 ///   int a, b;
2650 ///   int c;
2651 ///   int d = 2, e;
2652 /// \endcode
2653 /// declCountIs(2)
2654 ///   matches 'int a, b;' and 'int d = 2, e;', but not 'int c;'.
AST_MATCHER_P(DeclStmt,declCountIs,unsigned,N)2655 AST_MATCHER_P(DeclStmt, declCountIs, unsigned, N) {
2656   return std::distance(Node.decl_begin(), Node.decl_end()) == (ptrdiff_t)N;
2657 }
2658 
2659 /// \brief Matches the n'th declaration of a declaration statement.
2660 ///
2661 /// Note that this does not work for global declarations because the AST
2662 /// breaks up multiple-declaration DeclStmt's into multiple single-declaration
2663 /// DeclStmt's.
2664 /// Example: Given non-global declarations
2665 /// \code
2666 ///   int a, b = 0;
2667 ///   int c;
2668 ///   int d = 2, e;
2669 /// \endcode
2670 /// declStmt(containsDeclaration(
2671 ///       0, varDecl(hasInitializer(anything()))))
2672 ///   matches only 'int d = 2, e;', and
2673 /// declStmt(containsDeclaration(1, varDecl()))
2674 /// \code
2675 ///   matches 'int a, b = 0' as well as 'int d = 2, e;'
2676 ///   but 'int c;' is not matched.
2677 /// \endcode
AST_MATCHER_P2(DeclStmt,containsDeclaration,unsigned,N,internal::Matcher<Decl>,InnerMatcher)2678 AST_MATCHER_P2(DeclStmt, containsDeclaration, unsigned, N,
2679                internal::Matcher<Decl>, InnerMatcher) {
2680   const unsigned NumDecls = std::distance(Node.decl_begin(), Node.decl_end());
2681   if (N >= NumDecls)
2682     return false;
2683   DeclStmt::const_decl_iterator Iterator = Node.decl_begin();
2684   std::advance(Iterator, N);
2685   return InnerMatcher.matches(**Iterator, Finder, Builder);
2686 }
2687 
2688 /// \brief Matches a C++ catch statement that has a catch-all handler.
2689 ///
2690 /// Given
2691 /// \code
2692 ///   try {
2693 ///     // ...
2694 ///   } catch (int) {
2695 ///     // ...
2696 ///   } catch (...) {
2697 ///     // ...
2698 ///   }
2699 /// /endcode
2700 /// cxxCatchStmt(isCatchAll()) matches catch(...) but not catch(int).
AST_MATCHER(CXXCatchStmt,isCatchAll)2701 AST_MATCHER(CXXCatchStmt, isCatchAll) {
2702   return Node.getExceptionDecl() == nullptr;
2703 }
2704 
2705 /// \brief Matches a constructor initializer.
2706 ///
2707 /// Given
2708 /// \code
2709 ///   struct Foo {
2710 ///     Foo() : foo_(1) { }
2711 ///     int foo_;
2712 ///   };
2713 /// \endcode
2714 /// cxxRecordDecl(has(cxxConstructorDecl(
2715 ///   hasAnyConstructorInitializer(anything())
2716 /// )))
2717 ///   record matches Foo, hasAnyConstructorInitializer matches foo_(1)
AST_MATCHER_P(CXXConstructorDecl,hasAnyConstructorInitializer,internal::Matcher<CXXCtorInitializer>,InnerMatcher)2718 AST_MATCHER_P(CXXConstructorDecl, hasAnyConstructorInitializer,
2719               internal::Matcher<CXXCtorInitializer>, InnerMatcher) {
2720   return matchesFirstInPointerRange(InnerMatcher, Node.init_begin(),
2721                                     Node.init_end(), Finder, Builder);
2722 }
2723 
2724 /// \brief Matches the field declaration of a constructor initializer.
2725 ///
2726 /// Given
2727 /// \code
2728 ///   struct Foo {
2729 ///     Foo() : foo_(1) { }
2730 ///     int foo_;
2731 ///   };
2732 /// \endcode
2733 /// cxxRecordDecl(has(cxxConstructorDecl(hasAnyConstructorInitializer(
2734 ///     forField(hasName("foo_"))))))
2735 ///   matches Foo
2736 /// with forField matching foo_
AST_MATCHER_P(CXXCtorInitializer,forField,internal::Matcher<FieldDecl>,InnerMatcher)2737 AST_MATCHER_P(CXXCtorInitializer, forField,
2738               internal::Matcher<FieldDecl>, InnerMatcher) {
2739   const FieldDecl *NodeAsDecl = Node.getMember();
2740   return (NodeAsDecl != nullptr &&
2741       InnerMatcher.matches(*NodeAsDecl, Finder, Builder));
2742 }
2743 
2744 /// \brief Matches the initializer expression of a constructor initializer.
2745 ///
2746 /// Given
2747 /// \code
2748 ///   struct Foo {
2749 ///     Foo() : foo_(1) { }
2750 ///     int foo_;
2751 ///   };
2752 /// \endcode
2753 /// cxxRecordDecl(has(cxxConstructorDecl(hasAnyConstructorInitializer(
2754 ///     withInitializer(integerLiteral(equals(1)))))))
2755 ///   matches Foo
2756 /// with withInitializer matching (1)
AST_MATCHER_P(CXXCtorInitializer,withInitializer,internal::Matcher<Expr>,InnerMatcher)2757 AST_MATCHER_P(CXXCtorInitializer, withInitializer,
2758               internal::Matcher<Expr>, InnerMatcher) {
2759   const Expr* NodeAsExpr = Node.getInit();
2760   return (NodeAsExpr != nullptr &&
2761       InnerMatcher.matches(*NodeAsExpr, Finder, Builder));
2762 }
2763 
2764 /// \brief Matches a constructor initializer if it is explicitly written in
2765 /// code (as opposed to implicitly added by the compiler).
2766 ///
2767 /// Given
2768 /// \code
2769 ///   struct Foo {
2770 ///     Foo() { }
2771 ///     Foo(int) : foo_("A") { }
2772 ///     string foo_;
2773 ///   };
2774 /// \endcode
2775 /// cxxConstructorDecl(hasAnyConstructorInitializer(isWritten()))
2776 ///   will match Foo(int), but not Foo()
AST_MATCHER(CXXCtorInitializer,isWritten)2777 AST_MATCHER(CXXCtorInitializer, isWritten) {
2778   return Node.isWritten();
2779 }
2780 
2781 /// \brief Matches a constructor initializer if it is initializing a base, as
2782 /// opposed to a member.
2783 ///
2784 /// Given
2785 /// \code
2786 ///   struct B {};
2787 ///   struct D : B {
2788 ///     int I;
2789 ///     D(int i) : I(i) {}
2790 ///   };
2791 ///   struct E : B {
2792 ///     E() : B() {}
2793 ///   };
2794 /// \endcode
2795 /// cxxConstructorDecl(hasAnyConstructorInitializer(isBaseInitializer()))
2796 ///   will match E(), but not match D(int).
AST_MATCHER(CXXCtorInitializer,isBaseInitializer)2797 AST_MATCHER(CXXCtorInitializer, isBaseInitializer) {
2798   return Node.isBaseInitializer();
2799 }
2800 
2801 /// \brief Matches a constructor initializer if it is initializing a member, as
2802 /// opposed to a base.
2803 ///
2804 /// Given
2805 /// \code
2806 ///   struct B {};
2807 ///   struct D : B {
2808 ///     int I;
2809 ///     D(int i) : I(i) {}
2810 ///   };
2811 ///   struct E : B {
2812 ///     E() : B() {}
2813 ///   };
2814 /// \endcode
2815 /// cxxConstructorDecl(hasAnyConstructorInitializer(isMemberInitializer()))
2816 ///   will match D(int), but not match E().
AST_MATCHER(CXXCtorInitializer,isMemberInitializer)2817 AST_MATCHER(CXXCtorInitializer, isMemberInitializer) {
2818   return Node.isMemberInitializer();
2819 }
2820 
2821 /// \brief Matches any argument of a call expression or a constructor call
2822 /// expression.
2823 ///
2824 /// Given
2825 /// \code
2826 ///   void x(int, int, int) { int y; x(1, y, 42); }
2827 /// \endcode
2828 /// callExpr(hasAnyArgument(declRefExpr()))
2829 ///   matches x(1, y, 42)
2830 /// with hasAnyArgument(...)
2831 ///   matching y
2832 ///
2833 /// FIXME: Currently this will ignore parentheses and implicit casts on
2834 /// the argument before applying the inner matcher. We'll want to remove
2835 /// this to allow for greater control by the user once \c ignoreImplicit()
2836 /// has been implemented.
AST_POLYMORPHIC_MATCHER_P(hasAnyArgument,AST_POLYMORPHIC_SUPPORTED_TYPES (CallExpr,CXXConstructExpr),internal::Matcher<Expr>,InnerMatcher)2837 AST_POLYMORPHIC_MATCHER_P(hasAnyArgument,
2838                           AST_POLYMORPHIC_SUPPORTED_TYPES(CallExpr,
2839                                                           CXXConstructExpr),
2840                           internal::Matcher<Expr>, InnerMatcher) {
2841   for (const Expr *Arg : Node.arguments()) {
2842     BoundNodesTreeBuilder Result(*Builder);
2843     if (InnerMatcher.matches(*Arg->IgnoreParenImpCasts(), Finder, &Result)) {
2844       *Builder = std::move(Result);
2845       return true;
2846     }
2847   }
2848   return false;
2849 }
2850 
2851 /// \brief Matches a constructor call expression which uses list initialization.
AST_MATCHER(CXXConstructExpr,isListInitialization)2852 AST_MATCHER(CXXConstructExpr, isListInitialization) {
2853   return Node.isListInitialization();
2854 }
2855 
2856 /// \brief Matches the n'th parameter of a function declaration.
2857 ///
2858 /// Given
2859 /// \code
2860 ///   class X { void f(int x) {} };
2861 /// \endcode
2862 /// cxxMethodDecl(hasParameter(0, hasType(varDecl())))
2863 ///   matches f(int x) {}
2864 /// with hasParameter(...)
2865 ///   matching int x
AST_MATCHER_P2(FunctionDecl,hasParameter,unsigned,N,internal::Matcher<ParmVarDecl>,InnerMatcher)2866 AST_MATCHER_P2(FunctionDecl, hasParameter,
2867                unsigned, N, internal::Matcher<ParmVarDecl>,
2868                InnerMatcher) {
2869   return (N < Node.getNumParams() &&
2870           InnerMatcher.matches(
2871               *Node.getParamDecl(N), Finder, Builder));
2872 }
2873 
2874 /// \brief Matches any parameter of a function declaration.
2875 ///
2876 /// Does not match the 'this' parameter of a method.
2877 ///
2878 /// Given
2879 /// \code
2880 ///   class X { void f(int x, int y, int z) {} };
2881 /// \endcode
2882 /// cxxMethodDecl(hasAnyParameter(hasName("y")))
2883 ///   matches f(int x, int y, int z) {}
2884 /// with hasAnyParameter(...)
2885 ///   matching int y
AST_MATCHER_P(FunctionDecl,hasAnyParameter,internal::Matcher<ParmVarDecl>,InnerMatcher)2886 AST_MATCHER_P(FunctionDecl, hasAnyParameter,
2887               internal::Matcher<ParmVarDecl>, InnerMatcher) {
2888   return matchesFirstInPointerRange(InnerMatcher, Node.param_begin(),
2889                                     Node.param_end(), Finder, Builder);
2890 }
2891 
2892 /// \brief Matches \c FunctionDecls that have a specific parameter count.
2893 ///
2894 /// Given
2895 /// \code
2896 ///   void f(int i) {}
2897 ///   void g(int i, int j) {}
2898 /// \endcode
2899 /// functionDecl(parameterCountIs(2))
2900 ///   matches g(int i, int j) {}
AST_MATCHER_P(FunctionDecl,parameterCountIs,unsigned,N)2901 AST_MATCHER_P(FunctionDecl, parameterCountIs, unsigned, N) {
2902   return Node.getNumParams() == N;
2903 }
2904 
2905 /// \brief Matches the return type of a function declaration.
2906 ///
2907 /// Given:
2908 /// \code
2909 ///   class X { int f() { return 1; } };
2910 /// \endcode
2911 /// cxxMethodDecl(returns(asString("int")))
2912 ///   matches int f() { return 1; }
AST_MATCHER_P(FunctionDecl,returns,internal::Matcher<QualType>,InnerMatcher)2913 AST_MATCHER_P(FunctionDecl, returns,
2914               internal::Matcher<QualType>, InnerMatcher) {
2915   return InnerMatcher.matches(Node.getReturnType(), Finder, Builder);
2916 }
2917 
2918 /// \brief Matches extern "C" function declarations.
2919 ///
2920 /// Given:
2921 /// \code
2922 ///   extern "C" void f() {}
2923 ///   extern "C" { void g() {} }
2924 ///   void h() {}
2925 /// \endcode
2926 /// functionDecl(isExternC())
2927 ///   matches the declaration of f and g, but not the declaration h
AST_MATCHER(FunctionDecl,isExternC)2928 AST_MATCHER(FunctionDecl, isExternC) {
2929   return Node.isExternC();
2930 }
2931 
2932 /// \brief Matches deleted function declarations.
2933 ///
2934 /// Given:
2935 /// \code
2936 ///   void Func();
2937 ///   void DeletedFunc() = delete;
2938 /// \endcode
2939 /// functionDecl(isDeleted())
2940 ///   matches the declaration of DeletedFunc, but not Func.
AST_MATCHER(FunctionDecl,isDeleted)2941 AST_MATCHER(FunctionDecl, isDeleted) {
2942   return Node.isDeleted();
2943 }
2944 
2945 /// \brief Matches functions that have a non-throwing exception specification.
2946 ///
2947 /// Given:
2948 /// \code
2949 ///   void f();
2950 ///   void g() noexcept;
2951 ///   void h() throw();
2952 ///   void i() throw(int);
2953 ///   void j() noexcept(false);
2954 /// \endcode
2955 /// functionDecl(isNoThrow())
2956 ///   matches the declarations of g, and h, but not f, i or j.
AST_MATCHER(FunctionDecl,isNoThrow)2957 AST_MATCHER(FunctionDecl, isNoThrow) {
2958   const auto *FnTy = Node.getType()->getAs<FunctionProtoType>();
2959 
2960   // If the function does not have a prototype, then it is assumed to be a
2961   // throwing function (as it would if the function did not have any exception
2962   // specification).
2963   if (!FnTy)
2964     return false;
2965 
2966   // Assume the best for any unresolved exception specification.
2967   if (isUnresolvedExceptionSpec(FnTy->getExceptionSpecType()))
2968     return true;
2969 
2970   return FnTy->isNothrow(Node.getASTContext());
2971 }
2972 
2973 /// \brief Matches constexpr variable and function declarations.
2974 ///
2975 /// Given:
2976 /// \code
2977 ///   constexpr int foo = 42;
2978 ///   constexpr int bar();
2979 /// \endcode
2980 /// varDecl(isConstexpr())
2981 ///   matches the declaration of foo.
2982 /// functionDecl(isConstexpr())
2983 ///   matches the declaration of bar.
AST_POLYMORPHIC_MATCHER(isConstexpr,AST_POLYMORPHIC_SUPPORTED_TYPES (VarDecl,FunctionDecl))2984 AST_POLYMORPHIC_MATCHER(isConstexpr,
2985                         AST_POLYMORPHIC_SUPPORTED_TYPES(VarDecl,
2986                                                         FunctionDecl)) {
2987   return Node.isConstexpr();
2988 }
2989 
2990 /// \brief Matches the condition expression of an if statement, for loop,
2991 /// or conditional operator.
2992 ///
2993 /// Example matches true (matcher = hasCondition(cxxBoolLiteral(equals(true))))
2994 /// \code
2995 ///   if (true) {}
2996 /// \endcode
AST_POLYMORPHIC_MATCHER_P(hasCondition,AST_POLYMORPHIC_SUPPORTED_TYPES (IfStmt,ForStmt,WhileStmt,DoStmt,ConditionalOperator),internal::Matcher<Expr>,InnerMatcher)2997 AST_POLYMORPHIC_MATCHER_P(hasCondition,
2998                           AST_POLYMORPHIC_SUPPORTED_TYPES(IfStmt, ForStmt,
2999                                                           WhileStmt, DoStmt,
3000                                                           ConditionalOperator),
3001                           internal::Matcher<Expr>, InnerMatcher) {
3002   const Expr *const Condition = Node.getCond();
3003   return (Condition != nullptr &&
3004           InnerMatcher.matches(*Condition, Finder, Builder));
3005 }
3006 
3007 /// \brief Matches the then-statement of an if statement.
3008 ///
3009 /// Examples matches the if statement
3010 ///   (matcher = ifStmt(hasThen(cxxBoolLiteral(equals(true)))))
3011 /// \code
3012 ///   if (false) true; else false;
3013 /// \endcode
AST_MATCHER_P(IfStmt,hasThen,internal::Matcher<Stmt>,InnerMatcher)3014 AST_MATCHER_P(IfStmt, hasThen, internal::Matcher<Stmt>, InnerMatcher) {
3015   const Stmt *const Then = Node.getThen();
3016   return (Then != nullptr && InnerMatcher.matches(*Then, Finder, Builder));
3017 }
3018 
3019 /// \brief Matches the else-statement of an if statement.
3020 ///
3021 /// Examples matches the if statement
3022 ///   (matcher = ifStmt(hasElse(cxxBoolLiteral(equals(true)))))
3023 /// \code
3024 ///   if (false) false; else true;
3025 /// \endcode
AST_MATCHER_P(IfStmt,hasElse,internal::Matcher<Stmt>,InnerMatcher)3026 AST_MATCHER_P(IfStmt, hasElse, internal::Matcher<Stmt>, InnerMatcher) {
3027   const Stmt *const Else = Node.getElse();
3028   return (Else != nullptr && InnerMatcher.matches(*Else, Finder, Builder));
3029 }
3030 
3031 /// \brief Matches if a node equals a previously bound node.
3032 ///
3033 /// Matches a node if it equals the node previously bound to \p ID.
3034 ///
3035 /// Given
3036 /// \code
3037 ///   class X { int a; int b; };
3038 /// \endcode
3039 /// cxxRecordDecl(
3040 ///     has(fieldDecl(hasName("a"), hasType(type().bind("t")))),
3041 ///     has(fieldDecl(hasName("b"), hasType(type(equalsBoundNode("t"))))))
3042 ///   matches the class \c X, as \c a and \c b have the same type.
3043 ///
3044 /// Note that when multiple matches are involved via \c forEach* matchers,
3045 /// \c equalsBoundNodes acts as a filter.
3046 /// For example:
3047 /// compoundStmt(
3048 ///     forEachDescendant(varDecl().bind("d")),
3049 ///     forEachDescendant(declRefExpr(to(decl(equalsBoundNode("d"))))))
3050 /// will trigger a match for each combination of variable declaration
3051 /// and reference to that variable declaration within a compound statement.
AST_POLYMORPHIC_MATCHER_P(equalsBoundNode,AST_POLYMORPHIC_SUPPORTED_TYPES (Stmt,Decl,Type,QualType),std::string,ID)3052 AST_POLYMORPHIC_MATCHER_P(equalsBoundNode,
3053                           AST_POLYMORPHIC_SUPPORTED_TYPES(Stmt, Decl, Type,
3054                                                           QualType),
3055                           std::string, ID) {
3056   // FIXME: Figure out whether it makes sense to allow this
3057   // on any other node types.
3058   // For *Loc it probably does not make sense, as those seem
3059   // unique. For NestedNameSepcifier it might make sense, as
3060   // those also have pointer identity, but I'm not sure whether
3061   // they're ever reused.
3062   internal::NotEqualsBoundNodePredicate Predicate;
3063   Predicate.ID = ID;
3064   Predicate.Node = ast_type_traits::DynTypedNode::create(Node);
3065   return Builder->removeBindings(Predicate);
3066 }
3067 
3068 /// \brief Matches the condition variable statement in an if statement.
3069 ///
3070 /// Given
3071 /// \code
3072 ///   if (A* a = GetAPointer()) {}
3073 /// \endcode
3074 /// hasConditionVariableStatement(...)
3075 ///   matches 'A* a = GetAPointer()'.
AST_MATCHER_P(IfStmt,hasConditionVariableStatement,internal::Matcher<DeclStmt>,InnerMatcher)3076 AST_MATCHER_P(IfStmt, hasConditionVariableStatement,
3077               internal::Matcher<DeclStmt>, InnerMatcher) {
3078   const DeclStmt* const DeclarationStatement =
3079     Node.getConditionVariableDeclStmt();
3080   return DeclarationStatement != nullptr &&
3081          InnerMatcher.matches(*DeclarationStatement, Finder, Builder);
3082 }
3083 
3084 /// \brief Matches the index expression of an array subscript expression.
3085 ///
3086 /// Given
3087 /// \code
3088 ///   int i[5];
3089 ///   void f() { i[1] = 42; }
3090 /// \endcode
3091 /// arraySubscriptExpression(hasIndex(integerLiteral()))
3092 ///   matches \c i[1] with the \c integerLiteral() matching \c 1
AST_MATCHER_P(ArraySubscriptExpr,hasIndex,internal::Matcher<Expr>,InnerMatcher)3093 AST_MATCHER_P(ArraySubscriptExpr, hasIndex,
3094               internal::Matcher<Expr>, InnerMatcher) {
3095   if (const Expr* Expression = Node.getIdx())
3096     return InnerMatcher.matches(*Expression, Finder, Builder);
3097   return false;
3098 }
3099 
3100 /// \brief Matches the base expression of an array subscript expression.
3101 ///
3102 /// Given
3103 /// \code
3104 ///   int i[5];
3105 ///   void f() { i[1] = 42; }
3106 /// \endcode
3107 /// arraySubscriptExpression(hasBase(implicitCastExpr(
3108 ///     hasSourceExpression(declRefExpr()))))
3109 ///   matches \c i[1] with the \c declRefExpr() matching \c i
AST_MATCHER_P(ArraySubscriptExpr,hasBase,internal::Matcher<Expr>,InnerMatcher)3110 AST_MATCHER_P(ArraySubscriptExpr, hasBase,
3111               internal::Matcher<Expr>, InnerMatcher) {
3112   if (const Expr* Expression = Node.getBase())
3113     return InnerMatcher.matches(*Expression, Finder, Builder);
3114   return false;
3115 }
3116 
3117 /// \brief Matches a 'for', 'while', or 'do while' statement that has
3118 /// a given body.
3119 ///
3120 /// Given
3121 /// \code
3122 ///   for (;;) {}
3123 /// \endcode
3124 /// hasBody(compoundStmt())
3125 ///   matches 'for (;;) {}'
3126 /// with compoundStmt()
3127 ///   matching '{}'
AST_POLYMORPHIC_MATCHER_P(hasBody,AST_POLYMORPHIC_SUPPORTED_TYPES (DoStmt,ForStmt,WhileStmt,CXXForRangeStmt),internal::Matcher<Stmt>,InnerMatcher)3128 AST_POLYMORPHIC_MATCHER_P(hasBody,
3129                           AST_POLYMORPHIC_SUPPORTED_TYPES(DoStmt, ForStmt,
3130                                                           WhileStmt,
3131                                                           CXXForRangeStmt),
3132                           internal::Matcher<Stmt>, InnerMatcher) {
3133   const Stmt *const Statement = Node.getBody();
3134   return (Statement != nullptr &&
3135           InnerMatcher.matches(*Statement, Finder, Builder));
3136 }
3137 
3138 /// \brief Matches compound statements where at least one substatement matches
3139 /// a given matcher.
3140 ///
3141 /// Given
3142 /// \code
3143 ///   { {}; 1+2; }
3144 /// \endcode
3145 /// hasAnySubstatement(compoundStmt())
3146 ///   matches '{ {}; 1+2; }'
3147 /// with compoundStmt()
3148 ///   matching '{}'
AST_MATCHER_P(CompoundStmt,hasAnySubstatement,internal::Matcher<Stmt>,InnerMatcher)3149 AST_MATCHER_P(CompoundStmt, hasAnySubstatement,
3150               internal::Matcher<Stmt>, InnerMatcher) {
3151   return matchesFirstInPointerRange(InnerMatcher, Node.body_begin(),
3152                                     Node.body_end(), Finder, Builder);
3153 }
3154 
3155 /// \brief Checks that a compound statement contains a specific number of
3156 /// child statements.
3157 ///
3158 /// Example: Given
3159 /// \code
3160 ///   { for (;;) {} }
3161 /// \endcode
3162 /// compoundStmt(statementCountIs(0)))
3163 ///   matches '{}'
3164 ///   but does not match the outer compound statement.
AST_MATCHER_P(CompoundStmt,statementCountIs,unsigned,N)3165 AST_MATCHER_P(CompoundStmt, statementCountIs, unsigned, N) {
3166   return Node.size() == N;
3167 }
3168 
3169 /// \brief Matches literals that are equal to the given value.
3170 ///
3171 /// Example matches true (matcher = cxxBoolLiteral(equals(true)))
3172 /// \code
3173 ///   true
3174 /// \endcode
3175 ///
3176 /// Usable as: Matcher<CharacterLiteral>, Matcher<CXXBoolLiteral>,
3177 ///            Matcher<FloatingLiteral>, Matcher<IntegerLiteral>
3178 template <typename ValueT>
3179 internal::PolymorphicMatcherWithParam1<internal::ValueEqualsMatcher, ValueT>
equals(const ValueT & Value)3180 equals(const ValueT &Value) {
3181   return internal::PolymorphicMatcherWithParam1<
3182     internal::ValueEqualsMatcher,
3183     ValueT>(Value);
3184 }
3185 
3186 /// \brief Matches the operator Name of operator expressions (binary or
3187 /// unary).
3188 ///
3189 /// Example matches a || b (matcher = binaryOperator(hasOperatorName("||")))
3190 /// \code
3191 ///   !(a || b)
3192 /// \endcode
AST_POLYMORPHIC_MATCHER_P(hasOperatorName,AST_POLYMORPHIC_SUPPORTED_TYPES (BinaryOperator,UnaryOperator),std::string,Name)3193 AST_POLYMORPHIC_MATCHER_P(hasOperatorName,
3194                           AST_POLYMORPHIC_SUPPORTED_TYPES(BinaryOperator,
3195                                                           UnaryOperator),
3196                           std::string, Name) {
3197   return Name == Node.getOpcodeStr(Node.getOpcode());
3198 }
3199 
3200 /// \brief Matches the left hand side of binary operator expressions.
3201 ///
3202 /// Example matches a (matcher = binaryOperator(hasLHS()))
3203 /// \code
3204 ///   a || b
3205 /// \endcode
AST_POLYMORPHIC_MATCHER_P(hasLHS,AST_POLYMORPHIC_SUPPORTED_TYPES (BinaryOperator,ArraySubscriptExpr),internal::Matcher<Expr>,InnerMatcher)3206 AST_POLYMORPHIC_MATCHER_P(hasLHS,
3207                           AST_POLYMORPHIC_SUPPORTED_TYPES(BinaryOperator,
3208                                                           ArraySubscriptExpr),
3209                           internal::Matcher<Expr>, InnerMatcher) {
3210   const Expr *LeftHandSide = Node.getLHS();
3211   return (LeftHandSide != nullptr &&
3212           InnerMatcher.matches(*LeftHandSide, Finder, Builder));
3213 }
3214 
3215 /// \brief Matches the right hand side of binary operator expressions.
3216 ///
3217 /// Example matches b (matcher = binaryOperator(hasRHS()))
3218 /// \code
3219 ///   a || b
3220 /// \endcode
AST_POLYMORPHIC_MATCHER_P(hasRHS,AST_POLYMORPHIC_SUPPORTED_TYPES (BinaryOperator,ArraySubscriptExpr),internal::Matcher<Expr>,InnerMatcher)3221 AST_POLYMORPHIC_MATCHER_P(hasRHS,
3222                           AST_POLYMORPHIC_SUPPORTED_TYPES(BinaryOperator,
3223                                                           ArraySubscriptExpr),
3224                           internal::Matcher<Expr>, InnerMatcher) {
3225   const Expr *RightHandSide = Node.getRHS();
3226   return (RightHandSide != nullptr &&
3227           InnerMatcher.matches(*RightHandSide, Finder, Builder));
3228 }
3229 
3230 /// \brief Matches if either the left hand side or the right hand side of a
3231 /// binary operator matches.
hasEitherOperand(const internal::Matcher<Expr> & InnerMatcher)3232 inline internal::Matcher<BinaryOperator> hasEitherOperand(
3233     const internal::Matcher<Expr> &InnerMatcher) {
3234   return anyOf(hasLHS(InnerMatcher), hasRHS(InnerMatcher));
3235 }
3236 
3237 /// \brief Matches if the operand of a unary operator matches.
3238 ///
3239 /// Example matches true (matcher = hasUnaryOperand(
3240 ///                                   cxxBoolLiteral(equals(true))))
3241 /// \code
3242 ///   !true
3243 /// \endcode
AST_MATCHER_P(UnaryOperator,hasUnaryOperand,internal::Matcher<Expr>,InnerMatcher)3244 AST_MATCHER_P(UnaryOperator, hasUnaryOperand,
3245               internal::Matcher<Expr>, InnerMatcher) {
3246   const Expr * const Operand = Node.getSubExpr();
3247   return (Operand != nullptr &&
3248           InnerMatcher.matches(*Operand, Finder, Builder));
3249 }
3250 
3251 /// \brief Matches if the cast's source expression matches the given matcher.
3252 ///
3253 /// Example: matches "a string" (matcher =
3254 ///                                  hasSourceExpression(cxxConstructExpr()))
3255 /// \code
3256 /// class URL { URL(string); };
3257 /// URL url = "a string";
3258 /// \endcode
AST_MATCHER_P(CastExpr,hasSourceExpression,internal::Matcher<Expr>,InnerMatcher)3259 AST_MATCHER_P(CastExpr, hasSourceExpression,
3260               internal::Matcher<Expr>, InnerMatcher) {
3261   const Expr* const SubExpression = Node.getSubExpr();
3262   return (SubExpression != nullptr &&
3263           InnerMatcher.matches(*SubExpression, Finder, Builder));
3264 }
3265 
3266 /// \brief Matches casts whose destination type matches a given matcher.
3267 ///
3268 /// (Note: Clang's AST refers to other conversions as "casts" too, and calls
3269 /// actual casts "explicit" casts.)
AST_MATCHER_P(ExplicitCastExpr,hasDestinationType,internal::Matcher<QualType>,InnerMatcher)3270 AST_MATCHER_P(ExplicitCastExpr, hasDestinationType,
3271               internal::Matcher<QualType>, InnerMatcher) {
3272   const QualType NodeType = Node.getTypeAsWritten();
3273   return InnerMatcher.matches(NodeType, Finder, Builder);
3274 }
3275 
3276 /// \brief Matches implicit casts whose destination type matches a given
3277 /// matcher.
3278 ///
3279 /// FIXME: Unit test this matcher
AST_MATCHER_P(ImplicitCastExpr,hasImplicitDestinationType,internal::Matcher<QualType>,InnerMatcher)3280 AST_MATCHER_P(ImplicitCastExpr, hasImplicitDestinationType,
3281               internal::Matcher<QualType>, InnerMatcher) {
3282   return InnerMatcher.matches(Node.getType(), Finder, Builder);
3283 }
3284 
3285 /// \brief Matches RecordDecl object that are spelled with "struct."
3286 ///
3287 /// Example matches S, but not C or U.
3288 /// \code
3289 ///   struct S {};
3290 ///   class C {};
3291 ///   union U {};
3292 /// \endcode
AST_MATCHER(RecordDecl,isStruct)3293 AST_MATCHER(RecordDecl, isStruct) {
3294   return Node.isStruct();
3295 }
3296 
3297 /// \brief Matches RecordDecl object that are spelled with "union."
3298 ///
3299 /// Example matches U, but not C or S.
3300 /// \code
3301 ///   struct S {};
3302 ///   class C {};
3303 ///   union U {};
3304 /// \endcode
AST_MATCHER(RecordDecl,isUnion)3305 AST_MATCHER(RecordDecl, isUnion) {
3306   return Node.isUnion();
3307 }
3308 
3309 /// \brief Matches RecordDecl object that are spelled with "class."
3310 ///
3311 /// Example matches C, but not S or U.
3312 /// \code
3313 ///   struct S {};
3314 ///   class C {};
3315 ///   union U {};
3316 /// \endcode
AST_MATCHER(RecordDecl,isClass)3317 AST_MATCHER(RecordDecl, isClass) {
3318   return Node.isClass();
3319 }
3320 
3321 /// \brief Matches the true branch expression of a conditional operator.
3322 ///
3323 /// Example matches a
3324 /// \code
3325 ///   condition ? a : b
3326 /// \endcode
AST_MATCHER_P(ConditionalOperator,hasTrueExpression,internal::Matcher<Expr>,InnerMatcher)3327 AST_MATCHER_P(ConditionalOperator, hasTrueExpression,
3328               internal::Matcher<Expr>, InnerMatcher) {
3329   const Expr *Expression = Node.getTrueExpr();
3330   return (Expression != nullptr &&
3331           InnerMatcher.matches(*Expression, Finder, Builder));
3332 }
3333 
3334 /// \brief Matches the false branch expression of a conditional operator.
3335 ///
3336 /// Example matches b
3337 /// \code
3338 ///   condition ? a : b
3339 /// \endcode
AST_MATCHER_P(ConditionalOperator,hasFalseExpression,internal::Matcher<Expr>,InnerMatcher)3340 AST_MATCHER_P(ConditionalOperator, hasFalseExpression,
3341               internal::Matcher<Expr>, InnerMatcher) {
3342   const Expr *Expression = Node.getFalseExpr();
3343   return (Expression != nullptr &&
3344           InnerMatcher.matches(*Expression, Finder, Builder));
3345 }
3346 
3347 /// \brief Matches if a declaration has a body attached.
3348 ///
3349 /// Example matches A, va, fa
3350 /// \code
3351 ///   class A {};
3352 ///   class B;  // Doesn't match, as it has no body.
3353 ///   int va;
3354 ///   extern int vb;  // Doesn't match, as it doesn't define the variable.
3355 ///   void fa() {}
3356 ///   void fb();  // Doesn't match, as it has no body.
3357 /// \endcode
3358 ///
3359 /// Usable as: Matcher<TagDecl>, Matcher<VarDecl>, Matcher<FunctionDecl>
AST_POLYMORPHIC_MATCHER(isDefinition,AST_POLYMORPHIC_SUPPORTED_TYPES (TagDecl,VarDecl,FunctionDecl))3360 AST_POLYMORPHIC_MATCHER(isDefinition,
3361                         AST_POLYMORPHIC_SUPPORTED_TYPES(TagDecl, VarDecl,
3362                                                         FunctionDecl)) {
3363   return Node.isThisDeclarationADefinition();
3364 }
3365 
3366 /// \brief Matches if a function declaration is variadic.
3367 ///
3368 /// Example matches f, but not g or h. The function i will not match, even when
3369 /// compiled in C mode.
3370 /// \code
3371 ///   void f(...);
3372 ///   void g(int);
3373 ///   template <typename... Ts> void h(Ts...);
3374 ///   void i();
3375 /// \endcode
AST_MATCHER(FunctionDecl,isVariadic)3376 AST_MATCHER(FunctionDecl, isVariadic) {
3377   return Node.isVariadic();
3378 }
3379 
3380 /// \brief Matches the class declaration that the given method declaration
3381 /// belongs to.
3382 ///
3383 /// FIXME: Generalize this for other kinds of declarations.
3384 /// FIXME: What other kind of declarations would we need to generalize
3385 /// this to?
3386 ///
3387 /// Example matches A() in the last line
3388 ///     (matcher = cxxConstructExpr(hasDeclaration(cxxMethodDecl(
3389 ///         ofClass(hasName("A"))))))
3390 /// \code
3391 ///   class A {
3392 ///    public:
3393 ///     A();
3394 ///   };
3395 ///   A a = A();
3396 /// \endcode
AST_MATCHER_P(CXXMethodDecl,ofClass,internal::Matcher<CXXRecordDecl>,InnerMatcher)3397 AST_MATCHER_P(CXXMethodDecl, ofClass,
3398               internal::Matcher<CXXRecordDecl>, InnerMatcher) {
3399   const CXXRecordDecl *Parent = Node.getParent();
3400   return (Parent != nullptr &&
3401           InnerMatcher.matches(*Parent, Finder, Builder));
3402 }
3403 
3404 /// \brief Matches if the given method declaration is virtual.
3405 ///
3406 /// Given
3407 /// \code
3408 ///   class A {
3409 ///    public:
3410 ///     virtual void x();
3411 ///   };
3412 /// \endcode
3413 ///   matches A::x
AST_MATCHER(CXXMethodDecl,isVirtual)3414 AST_MATCHER(CXXMethodDecl, isVirtual) {
3415   return Node.isVirtual();
3416 }
3417 
3418 /// \brief Matches if the given method or class declaration is final.
3419 ///
3420 /// Given:
3421 /// \code
3422 ///   class A final {};
3423 ///
3424 ///   struct B {
3425 ///     virtual void f();
3426 ///   };
3427 ///
3428 ///   struct C : B {
3429 ///     void f() final;
3430 ///   };
3431 /// \endcode
3432 /// matches A and C::f, but not B, C, or B::f
AST_POLYMORPHIC_MATCHER(isFinal,AST_POLYMORPHIC_SUPPORTED_TYPES (CXXRecordDecl,CXXMethodDecl))3433 AST_POLYMORPHIC_MATCHER(isFinal,
3434                         AST_POLYMORPHIC_SUPPORTED_TYPES(CXXRecordDecl,
3435                                                         CXXMethodDecl)) {
3436   return Node.template hasAttr<FinalAttr>();
3437 }
3438 
3439 /// \brief Matches if the given method declaration is pure.
3440 ///
3441 /// Given
3442 /// \code
3443 ///   class A {
3444 ///    public:
3445 ///     virtual void x() = 0;
3446 ///   };
3447 /// \endcode
3448 ///   matches A::x
AST_MATCHER(CXXMethodDecl,isPure)3449 AST_MATCHER(CXXMethodDecl, isPure) {
3450   return Node.isPure();
3451 }
3452 
3453 /// \brief Matches if the given method declaration is const.
3454 ///
3455 /// Given
3456 /// \code
3457 /// struct A {
3458 ///   void foo() const;
3459 ///   void bar();
3460 /// };
3461 /// \endcode
3462 ///
3463 /// cxxMethodDecl(isConst()) matches A::foo() but not A::bar()
AST_MATCHER(CXXMethodDecl,isConst)3464 AST_MATCHER(CXXMethodDecl, isConst) {
3465   return Node.isConst();
3466 }
3467 
3468 /// \brief Matches if the given method declaration declares a copy assignment
3469 /// operator.
3470 ///
3471 /// Given
3472 /// \code
3473 /// struct A {
3474 ///   A &operator=(const A &);
3475 ///   A &operator=(A &&);
3476 /// };
3477 /// \endcode
3478 ///
3479 /// cxxMethodDecl(isCopyAssignmentOperator()) matches the first method but not
3480 /// the second one.
AST_MATCHER(CXXMethodDecl,isCopyAssignmentOperator)3481 AST_MATCHER(CXXMethodDecl, isCopyAssignmentOperator) {
3482   return Node.isCopyAssignmentOperator();
3483 }
3484 
3485 /// \brief Matches if the given method declaration overrides another method.
3486 ///
3487 /// Given
3488 /// \code
3489 ///   class A {
3490 ///    public:
3491 ///     virtual void x();
3492 ///   };
3493 ///   class B : public A {
3494 ///    public:
3495 ///     virtual void x();
3496 ///   };
3497 /// \endcode
3498 ///   matches B::x
AST_MATCHER(CXXMethodDecl,isOverride)3499 AST_MATCHER(CXXMethodDecl, isOverride) {
3500   return Node.size_overridden_methods() > 0 || Node.hasAttr<OverrideAttr>();
3501 }
3502 
3503 /// \brief Matches member expressions that are called with '->' as opposed
3504 /// to '.'.
3505 ///
3506 /// Member calls on the implicit this pointer match as called with '->'.
3507 ///
3508 /// Given
3509 /// \code
3510 ///   class Y {
3511 ///     void x() { this->x(); x(); Y y; y.x(); a; this->b; Y::b; }
3512 ///     int a;
3513 ///     static int b;
3514 ///   };
3515 /// \endcode
3516 /// memberExpr(isArrow())
3517 ///   matches this->x, x, y.x, a, this->b
AST_MATCHER(MemberExpr,isArrow)3518 AST_MATCHER(MemberExpr, isArrow) {
3519   return Node.isArrow();
3520 }
3521 
3522 /// \brief Matches QualType nodes that are of integer type.
3523 ///
3524 /// Given
3525 /// \code
3526 ///   void a(int);
3527 ///   void b(long);
3528 ///   void c(double);
3529 /// \endcode
3530 /// functionDecl(hasAnyParameter(hasType(isInteger())))
3531 /// matches "a(int)", "b(long)", but not "c(double)".
AST_MATCHER(QualType,isInteger)3532 AST_MATCHER(QualType, isInteger) {
3533     return Node->isIntegerType();
3534 }
3535 
3536 /// \brief Matches QualType nodes that are of character type.
3537 ///
3538 /// Given
3539 /// \code
3540 ///   void a(char);
3541 ///   void b(wchar_t);
3542 ///   void c(double);
3543 /// \endcode
3544 /// functionDecl(hasAnyParameter(hasType(isAnyCharacter())))
3545 /// matches "a(char)", "b(wchar_t)", but not "c(double)".
AST_MATCHER(QualType,isAnyCharacter)3546 AST_MATCHER(QualType, isAnyCharacter) {
3547     return Node->isAnyCharacterType();
3548 }
3549 
3550 /// \brief Matches QualType nodes that are const-qualified, i.e., that
3551 /// include "top-level" const.
3552 ///
3553 /// Given
3554 /// \code
3555 ///   void a(int);
3556 ///   void b(int const);
3557 ///   void c(const int);
3558 ///   void d(const int*);
3559 ///   void e(int const) {};
3560 /// \endcode
3561 /// functionDecl(hasAnyParameter(hasType(isConstQualified())))
3562 ///   matches "void b(int const)", "void c(const int)" and
3563 ///   "void e(int const) {}". It does not match d as there
3564 ///   is no top-level const on the parameter type "const int *".
AST_MATCHER(QualType,isConstQualified)3565 AST_MATCHER(QualType, isConstQualified) {
3566   return Node.isConstQualified();
3567 }
3568 
3569 /// \brief Matches QualType nodes that are volatile-qualified, i.e., that
3570 /// include "top-level" volatile.
3571 ///
3572 /// Given
3573 /// \code
3574 ///   void a(int);
3575 ///   void b(int volatile);
3576 ///   void c(volatile int);
3577 ///   void d(volatile int*);
3578 ///   void e(int volatile) {};
3579 /// \endcode
3580 /// functionDecl(hasAnyParameter(hasType(isVolatileQualified())))
3581 ///   matches "void b(int volatile)", "void c(volatile int)" and
3582 ///   "void e(int volatile) {}". It does not match d as there
3583 ///   is no top-level volatile on the parameter type "volatile int *".
AST_MATCHER(QualType,isVolatileQualified)3584 AST_MATCHER(QualType, isVolatileQualified) {
3585   return Node.isVolatileQualified();
3586 }
3587 
3588 /// \brief Matches QualType nodes that have local CV-qualifiers attached to
3589 /// the node, not hidden within a typedef.
3590 ///
3591 /// Given
3592 /// \code
3593 ///   typedef const int const_int;
3594 ///   const_int i;
3595 ///   int *const j;
3596 ///   int *volatile k;
3597 ///   int m;
3598 /// \endcode
3599 /// \c varDecl(hasType(hasLocalQualifiers())) matches only \c j and \c k.
3600 /// \c i is const-qualified but the qualifier is not local.
AST_MATCHER(QualType,hasLocalQualifiers)3601 AST_MATCHER(QualType, hasLocalQualifiers) {
3602   return Node.hasLocalQualifiers();
3603 }
3604 
3605 /// \brief Matches a member expression where the member is matched by a
3606 /// given matcher.
3607 ///
3608 /// Given
3609 /// \code
3610 ///   struct { int first, second; } first, second;
3611 ///   int i(second.first);
3612 ///   int j(first.second);
3613 /// \endcode
3614 /// memberExpr(member(hasName("first")))
3615 ///   matches second.first
3616 ///   but not first.second (because the member name there is "second").
AST_MATCHER_P(MemberExpr,member,internal::Matcher<ValueDecl>,InnerMatcher)3617 AST_MATCHER_P(MemberExpr, member,
3618               internal::Matcher<ValueDecl>, InnerMatcher) {
3619   return InnerMatcher.matches(*Node.getMemberDecl(), Finder, Builder);
3620 }
3621 
3622 /// \brief Matches a member expression where the object expression is
3623 /// matched by a given matcher.
3624 ///
3625 /// Given
3626 /// \code
3627 ///   struct X { int m; };
3628 ///   void f(X x) { x.m; m; }
3629 /// \endcode
3630 /// memberExpr(hasObjectExpression(hasType(cxxRecordDecl(hasName("X")))))))
3631 ///   matches "x.m" and "m"
3632 /// with hasObjectExpression(...)
3633 ///   matching "x" and the implicit object expression of "m" which has type X*.
AST_MATCHER_P(MemberExpr,hasObjectExpression,internal::Matcher<Expr>,InnerMatcher)3634 AST_MATCHER_P(MemberExpr, hasObjectExpression,
3635               internal::Matcher<Expr>, InnerMatcher) {
3636   return InnerMatcher.matches(*Node.getBase(), Finder, Builder);
3637 }
3638 
3639 /// \brief Matches any using shadow declaration.
3640 ///
3641 /// Given
3642 /// \code
3643 ///   namespace X { void b(); }
3644 ///   using X::b;
3645 /// \endcode
3646 /// usingDecl(hasAnyUsingShadowDecl(hasName("b"))))
3647 ///   matches \code using X::b \endcode
AST_MATCHER_P(UsingDecl,hasAnyUsingShadowDecl,internal::Matcher<UsingShadowDecl>,InnerMatcher)3648 AST_MATCHER_P(UsingDecl, hasAnyUsingShadowDecl,
3649               internal::Matcher<UsingShadowDecl>, InnerMatcher) {
3650   return matchesFirstInPointerRange(InnerMatcher, Node.shadow_begin(),
3651                                     Node.shadow_end(), Finder, Builder);
3652 }
3653 
3654 /// \brief Matches a using shadow declaration where the target declaration is
3655 /// matched by the given matcher.
3656 ///
3657 /// Given
3658 /// \code
3659 ///   namespace X { int a; void b(); }
3660 ///   using X::a;
3661 ///   using X::b;
3662 /// \endcode
3663 /// usingDecl(hasAnyUsingShadowDecl(hasTargetDecl(functionDecl())))
3664 ///   matches \code using X::b \endcode
3665 ///   but not \code using X::a \endcode
AST_MATCHER_P(UsingShadowDecl,hasTargetDecl,internal::Matcher<NamedDecl>,InnerMatcher)3666 AST_MATCHER_P(UsingShadowDecl, hasTargetDecl,
3667               internal::Matcher<NamedDecl>, InnerMatcher) {
3668   return InnerMatcher.matches(*Node.getTargetDecl(), Finder, Builder);
3669 }
3670 
3671 /// \brief Matches template instantiations of function, class, or static
3672 /// member variable template instantiations.
3673 ///
3674 /// Given
3675 /// \code
3676 ///   template <typename T> class X {}; class A {}; X<A> x;
3677 /// \endcode
3678 /// or
3679 /// \code
3680 ///   template <typename T> class X {}; class A {}; template class X<A>;
3681 /// \endcode
3682 /// cxxRecordDecl(hasName("::X"), isTemplateInstantiation())
3683 ///   matches the template instantiation of X<A>.
3684 ///
3685 /// But given
3686 /// \code
3687 ///   template <typename T>  class X {}; class A {};
3688 ///   template <> class X<A> {}; X<A> x;
3689 /// \endcode
3690 /// cxxRecordDecl(hasName("::X"), isTemplateInstantiation())
3691 ///   does not match, as X<A> is an explicit template specialization.
3692 ///
3693 /// Usable as: Matcher<FunctionDecl>, Matcher<VarDecl>, Matcher<CXXRecordDecl>
AST_POLYMORPHIC_MATCHER(isTemplateInstantiation,AST_POLYMORPHIC_SUPPORTED_TYPES (FunctionDecl,VarDecl,CXXRecordDecl))3694 AST_POLYMORPHIC_MATCHER(isTemplateInstantiation,
3695                         AST_POLYMORPHIC_SUPPORTED_TYPES(FunctionDecl, VarDecl,
3696                                                         CXXRecordDecl)) {
3697   return (Node.getTemplateSpecializationKind() == TSK_ImplicitInstantiation ||
3698           Node.getTemplateSpecializationKind() ==
3699           TSK_ExplicitInstantiationDefinition);
3700 }
3701 
3702 /// \brief Matches declarations that are template instantiations or are inside
3703 /// template instantiations.
3704 ///
3705 /// Given
3706 /// \code
3707 ///   template<typename T> void A(T t) { T i; }
3708 ///   A(0);
3709 ///   A(0U);
3710 /// \endcode
3711 /// functionDecl(isInstantiated())
3712 ///   matches 'A(int) {...};' and 'A(unsigned) {...}'.
AST_MATCHER_FUNCTION(internal::Matcher<Decl>,isInstantiated)3713 AST_MATCHER_FUNCTION(internal::Matcher<Decl>, isInstantiated) {
3714   auto IsInstantiation = decl(anyOf(cxxRecordDecl(isTemplateInstantiation()),
3715                                     functionDecl(isTemplateInstantiation())));
3716   return decl(anyOf(IsInstantiation, hasAncestor(IsInstantiation)));
3717 }
3718 
3719 /// \brief Matches statements inside of a template instantiation.
3720 ///
3721 /// Given
3722 /// \code
3723 ///   int j;
3724 ///   template<typename T> void A(T t) { T i; j += 42;}
3725 ///   A(0);
3726 ///   A(0U);
3727 /// \endcode
3728 /// declStmt(isInTemplateInstantiation())
3729 ///   matches 'int i;' and 'unsigned i'.
3730 /// unless(stmt(isInTemplateInstantiation()))
3731 ///   will NOT match j += 42; as it's shared between the template definition and
3732 ///   instantiation.
AST_MATCHER_FUNCTION(internal::Matcher<Stmt>,isInTemplateInstantiation)3733 AST_MATCHER_FUNCTION(internal::Matcher<Stmt>, isInTemplateInstantiation) {
3734   return stmt(
3735       hasAncestor(decl(anyOf(cxxRecordDecl(isTemplateInstantiation()),
3736                              functionDecl(isTemplateInstantiation())))));
3737 }
3738 
3739 /// \brief Matches explicit template specializations of function, class, or
3740 /// static member variable template instantiations.
3741 ///
3742 /// Given
3743 /// \code
3744 ///   template<typename T> void A(T t) { }
3745 ///   template<> void A(int N) { }
3746 /// \endcode
3747 /// functionDecl(isExplicitTemplateSpecialization())
3748 ///   matches the specialization A<int>().
3749 ///
3750 /// Usable as: Matcher<FunctionDecl>, Matcher<VarDecl>, Matcher<CXXRecordDecl>
AST_POLYMORPHIC_MATCHER(isExplicitTemplateSpecialization,AST_POLYMORPHIC_SUPPORTED_TYPES (FunctionDecl,VarDecl,CXXRecordDecl))3751 AST_POLYMORPHIC_MATCHER(isExplicitTemplateSpecialization,
3752                         AST_POLYMORPHIC_SUPPORTED_TYPES(FunctionDecl, VarDecl,
3753                                                         CXXRecordDecl)) {
3754   return (Node.getTemplateSpecializationKind() == TSK_ExplicitSpecialization);
3755 }
3756 
3757 /// \brief Matches \c TypeLocs for which the given inner
3758 /// QualType-matcher matches.
3759 AST_MATCHER_FUNCTION_P_OVERLOAD(internal::BindableMatcher<TypeLoc>, loc,
3760                                 internal::Matcher<QualType>, InnerMatcher, 0) {
3761   return internal::BindableMatcher<TypeLoc>(
3762       new internal::TypeLocTypeMatcher(InnerMatcher));
3763 }
3764 
3765 /// \brief Matches type \c void.
3766 ///
3767 /// Given
3768 /// \code
3769 ///  struct S { void func(); };
3770 /// \endcode
3771 /// functionDecl(returns(voidType()))
3772 ///   matches "void func();"
AST_MATCHER(Type,voidType)3773 AST_MATCHER(Type, voidType) {
3774   return Node.isVoidType();
3775 }
3776 
3777 /// \brief Matches builtin Types.
3778 ///
3779 /// Given
3780 /// \code
3781 ///   struct A {};
3782 ///   A a;
3783 ///   int b;
3784 ///   float c;
3785 ///   bool d;
3786 /// \endcode
3787 /// builtinType()
3788 ///   matches "int b", "float c" and "bool d"
3789 AST_TYPE_MATCHER(BuiltinType, builtinType);
3790 
3791 /// \brief Matches all kinds of arrays.
3792 ///
3793 /// Given
3794 /// \code
3795 ///   int a[] = { 2, 3 };
3796 ///   int b[4];
3797 ///   void f() { int c[a[0]]; }
3798 /// \endcode
3799 /// arrayType()
3800 ///   matches "int a[]", "int b[4]" and "int c[a[0]]";
3801 AST_TYPE_MATCHER(ArrayType, arrayType);
3802 
3803 /// \brief Matches C99 complex types.
3804 ///
3805 /// Given
3806 /// \code
3807 ///   _Complex float f;
3808 /// \endcode
3809 /// complexType()
3810 ///   matches "_Complex float f"
3811 AST_TYPE_MATCHER(ComplexType, complexType);
3812 
3813 /// \brief Matches arrays and C99 complex types that have a specific element
3814 /// type.
3815 ///
3816 /// Given
3817 /// \code
3818 ///   struct A {};
3819 ///   A a[7];
3820 ///   int b[7];
3821 /// \endcode
3822 /// arrayType(hasElementType(builtinType()))
3823 ///   matches "int b[7]"
3824 ///
3825 /// Usable as: Matcher<ArrayType>, Matcher<ComplexType>
3826 AST_TYPELOC_TRAVERSE_MATCHER(hasElementType, getElement,
3827                              AST_POLYMORPHIC_SUPPORTED_TYPES(ArrayType,
3828                                                              ComplexType));
3829 
3830 /// \brief Matches C arrays with a specified constant size.
3831 ///
3832 /// Given
3833 /// \code
3834 ///   void() {
3835 ///     int a[2];
3836 ///     int b[] = { 2, 3 };
3837 ///     int c[b[0]];
3838 ///   }
3839 /// \endcode
3840 /// constantArrayType()
3841 ///   matches "int a[2]"
3842 AST_TYPE_MATCHER(ConstantArrayType, constantArrayType);
3843 
3844 /// \brief Matches \c ConstantArrayType nodes that have the specified size.
3845 ///
3846 /// Given
3847 /// \code
3848 ///   int a[42];
3849 ///   int b[2 * 21];
3850 ///   int c[41], d[43];
3851 /// \endcode
3852 /// constantArrayType(hasSize(42))
3853 ///   matches "int a[42]" and "int b[2 * 21]"
AST_MATCHER_P(ConstantArrayType,hasSize,unsigned,N)3854 AST_MATCHER_P(ConstantArrayType, hasSize, unsigned, N) {
3855   return Node.getSize() == N;
3856 }
3857 
3858 /// \brief Matches C++ arrays whose size is a value-dependent expression.
3859 ///
3860 /// Given
3861 /// \code
3862 ///   template<typename T, int Size>
3863 ///   class array {
3864 ///     T data[Size];
3865 ///   };
3866 /// \endcode
3867 /// dependentSizedArrayType
3868 ///   matches "T data[Size]"
3869 AST_TYPE_MATCHER(DependentSizedArrayType, dependentSizedArrayType);
3870 
3871 /// \brief Matches C arrays with unspecified size.
3872 ///
3873 /// Given
3874 /// \code
3875 ///   int a[] = { 2, 3 };
3876 ///   int b[42];
3877 ///   void f(int c[]) { int d[a[0]]; };
3878 /// \endcode
3879 /// incompleteArrayType()
3880 ///   matches "int a[]" and "int c[]"
3881 AST_TYPE_MATCHER(IncompleteArrayType, incompleteArrayType);
3882 
3883 /// \brief Matches C arrays with a specified size that is not an
3884 /// integer-constant-expression.
3885 ///
3886 /// Given
3887 /// \code
3888 ///   void f() {
3889 ///     int a[] = { 2, 3 }
3890 ///     int b[42];
3891 ///     int c[a[0]];
3892 ///   }
3893 /// \endcode
3894 /// variableArrayType()
3895 ///   matches "int c[a[0]]"
3896 AST_TYPE_MATCHER(VariableArrayType, variableArrayType);
3897 
3898 /// \brief Matches \c VariableArrayType nodes that have a specific size
3899 /// expression.
3900 ///
3901 /// Given
3902 /// \code
3903 ///   void f(int b) {
3904 ///     int a[b];
3905 ///   }
3906 /// \endcode
3907 /// variableArrayType(hasSizeExpr(ignoringImpCasts(declRefExpr(to(
3908 ///   varDecl(hasName("b")))))))
3909 ///   matches "int a[b]"
AST_MATCHER_P(VariableArrayType,hasSizeExpr,internal::Matcher<Expr>,InnerMatcher)3910 AST_MATCHER_P(VariableArrayType, hasSizeExpr,
3911               internal::Matcher<Expr>, InnerMatcher) {
3912   return InnerMatcher.matches(*Node.getSizeExpr(), Finder, Builder);
3913 }
3914 
3915 /// \brief Matches atomic types.
3916 ///
3917 /// Given
3918 /// \code
3919 ///   _Atomic(int) i;
3920 /// \endcode
3921 /// atomicType()
3922 ///   matches "_Atomic(int) i"
3923 AST_TYPE_MATCHER(AtomicType, atomicType);
3924 
3925 /// \brief Matches atomic types with a specific value type.
3926 ///
3927 /// Given
3928 /// \code
3929 ///   _Atomic(int) i;
3930 ///   _Atomic(float) f;
3931 /// \endcode
3932 /// atomicType(hasValueType(isInteger()))
3933 ///  matches "_Atomic(int) i"
3934 ///
3935 /// Usable as: Matcher<AtomicType>
3936 AST_TYPELOC_TRAVERSE_MATCHER(hasValueType, getValue,
3937                              AST_POLYMORPHIC_SUPPORTED_TYPES(AtomicType));
3938 
3939 /// \brief Matches types nodes representing C++11 auto types.
3940 ///
3941 /// Given:
3942 /// \code
3943 ///   auto n = 4;
3944 ///   int v[] = { 2, 3 }
3945 ///   for (auto i : v) { }
3946 /// \endcode
3947 /// autoType()
3948 ///   matches "auto n" and "auto i"
3949 AST_TYPE_MATCHER(AutoType, autoType);
3950 
3951 /// \brief Matches \c AutoType nodes where the deduced type is a specific type.
3952 ///
3953 /// Note: There is no \c TypeLoc for the deduced type and thus no
3954 /// \c getDeducedLoc() matcher.
3955 ///
3956 /// Given
3957 /// \code
3958 ///   auto a = 1;
3959 ///   auto b = 2.0;
3960 /// \endcode
3961 /// autoType(hasDeducedType(isInteger()))
3962 ///   matches "auto a"
3963 ///
3964 /// Usable as: Matcher<AutoType>
3965 AST_TYPE_TRAVERSE_MATCHER(hasDeducedType, getDeducedType,
3966                           AST_POLYMORPHIC_SUPPORTED_TYPES(AutoType));
3967 
3968 /// \brief Matches \c FunctionType nodes.
3969 ///
3970 /// Given
3971 /// \code
3972 ///   int (*f)(int);
3973 ///   void g();
3974 /// \endcode
3975 /// functionType()
3976 ///   matches "int (*f)(int)" and the type of "g".
3977 AST_TYPE_MATCHER(FunctionType, functionType);
3978 
3979 /// \brief Matches \c ParenType nodes.
3980 ///
3981 /// Given
3982 /// \code
3983 ///   int (*ptr_to_array)[4];
3984 ///   int *array_of_ptrs[4];
3985 /// \endcode
3986 ///
3987 /// \c varDecl(hasType(pointsTo(parenType()))) matches \c ptr_to_array but not
3988 /// \c array_of_ptrs.
3989 AST_TYPE_MATCHER(ParenType, parenType);
3990 
3991 /// \brief Matches \c ParenType nodes where the inner type is a specific type.
3992 ///
3993 /// Given
3994 /// \code
3995 ///   int (*ptr_to_array)[4];
3996 ///   int (*ptr_to_func)(int);
3997 /// \endcode
3998 ///
3999 /// \c varDecl(hasType(pointsTo(parenType(innerType(functionType()))))) matches
4000 /// \c ptr_to_func but not \c ptr_to_array.
4001 ///
4002 /// Usable as: Matcher<ParenType>
4003 AST_TYPE_TRAVERSE_MATCHER(innerType, getInnerType,
4004                           AST_POLYMORPHIC_SUPPORTED_TYPES(ParenType));
4005 
4006 /// \brief Matches block pointer types, i.e. types syntactically represented as
4007 /// "void (^)(int)".
4008 ///
4009 /// The \c pointee is always required to be a \c FunctionType.
4010 AST_TYPE_MATCHER(BlockPointerType, blockPointerType);
4011 
4012 /// \brief Matches member pointer types.
4013 /// Given
4014 /// \code
4015 ///   struct A { int i; }
4016 ///   A::* ptr = A::i;
4017 /// \endcode
4018 /// memberPointerType()
4019 ///   matches "A::* ptr"
4020 AST_TYPE_MATCHER(MemberPointerType, memberPointerType);
4021 
4022 /// \brief Matches pointer types, but does not match Objective-C object pointer
4023 /// types.
4024 ///
4025 /// Given
4026 /// \code
4027 ///   int *a;
4028 ///   int &b = *a;
4029 ///   int c = 5;
4030 ///
4031 ///   @interface Foo
4032 ///   @end
4033 ///   Foo *f;
4034 /// \endcode
4035 /// pointerType()
4036 ///   matches "int *a", but does not match "Foo *f".
4037 AST_TYPE_MATCHER(PointerType, pointerType);
4038 
4039 /// \brief Matches an Objective-C object pointer type, which is different from
4040 /// a pointer type, despite being syntactically similar.
4041 ///
4042 /// Given
4043 /// \code
4044 ///   int *a;
4045 ///
4046 ///   @interface Foo
4047 ///   @end
4048 ///   Foo *f;
4049 /// \endcode
4050 /// pointerType()
4051 ///   matches "Foo *f", but does not match "int *a".
4052 AST_TYPE_MATCHER(ObjCObjectPointerType, objcObjectPointerType);
4053 
4054 /// \brief Matches both lvalue and rvalue reference types.
4055 ///
4056 /// Given
4057 /// \code
4058 ///   int *a;
4059 ///   int &b = *a;
4060 ///   int &&c = 1;
4061 ///   auto &d = b;
4062 ///   auto &&e = c;
4063 ///   auto &&f = 2;
4064 ///   int g = 5;
4065 /// \endcode
4066 ///
4067 /// \c referenceType() matches the types of \c b, \c c, \c d, \c e, and \c f.
4068 AST_TYPE_MATCHER(ReferenceType, referenceType);
4069 
4070 /// \brief Matches lvalue reference types.
4071 ///
4072 /// Given:
4073 /// \code
4074 ///   int *a;
4075 ///   int &b = *a;
4076 ///   int &&c = 1;
4077 ///   auto &d = b;
4078 ///   auto &&e = c;
4079 ///   auto &&f = 2;
4080 ///   int g = 5;
4081 /// \endcode
4082 ///
4083 /// \c lValueReferenceType() matches the types of \c b, \c d, and \c e. \c e is
4084 /// matched since the type is deduced as int& by reference collapsing rules.
4085 AST_TYPE_MATCHER(LValueReferenceType, lValueReferenceType);
4086 
4087 /// \brief Matches rvalue reference types.
4088 ///
4089 /// Given:
4090 /// \code
4091 ///   int *a;
4092 ///   int &b = *a;
4093 ///   int &&c = 1;
4094 ///   auto &d = b;
4095 ///   auto &&e = c;
4096 ///   auto &&f = 2;
4097 ///   int g = 5;
4098 /// \endcode
4099 ///
4100 /// \c rValueReferenceType() matches the types of \c c and \c f. \c e is not
4101 /// matched as it is deduced to int& by reference collapsing rules.
4102 AST_TYPE_MATCHER(RValueReferenceType, rValueReferenceType);
4103 
4104 /// \brief Narrows PointerType (and similar) matchers to those where the
4105 /// \c pointee matches a given matcher.
4106 ///
4107 /// Given
4108 /// \code
4109 ///   int *a;
4110 ///   int const *b;
4111 ///   float const *f;
4112 /// \endcode
4113 /// pointerType(pointee(isConstQualified(), isInteger()))
4114 ///   matches "int const *b"
4115 ///
4116 /// Usable as: Matcher<BlockPointerType>, Matcher<MemberPointerType>,
4117 ///   Matcher<PointerType>, Matcher<ReferenceType>
4118 AST_TYPELOC_TRAVERSE_MATCHER(pointee, getPointee,
4119                              AST_POLYMORPHIC_SUPPORTED_TYPES(BlockPointerType,
4120                                                              MemberPointerType,
4121                                                              PointerType,
4122                                                              ReferenceType));
4123 
4124 /// \brief Matches typedef types.
4125 ///
4126 /// Given
4127 /// \code
4128 ///   typedef int X;
4129 /// \endcode
4130 /// typedefType()
4131 ///   matches "typedef int X"
4132 AST_TYPE_MATCHER(TypedefType, typedefType);
4133 
4134 /// \brief Matches template specialization types.
4135 ///
4136 /// Given
4137 /// \code
4138 ///   template <typename T>
4139 ///   class C { };
4140 ///
4141 ///   template class C<int>;  // A
4142 ///   C<char> var;            // B
4143 /// \endcode
4144 ///
4145 /// \c templateSpecializationType() matches the type of the explicit
4146 /// instantiation in \c A and the type of the variable declaration in \c B.
4147 AST_TYPE_MATCHER(TemplateSpecializationType, templateSpecializationType);
4148 
4149 /// \brief Matches types nodes representing unary type transformations.
4150 ///
4151 /// Given:
4152 /// \code
4153 ///   typedef __underlying_type(T) type;
4154 /// \endcode
4155 /// unaryTransformType()
4156 ///   matches "__underlying_type(T)"
4157 AST_TYPE_MATCHER(UnaryTransformType, unaryTransformType);
4158 
4159 /// \brief Matches record types (e.g. structs, classes).
4160 ///
4161 /// Given
4162 /// \code
4163 ///   class C {};
4164 ///   struct S {};
4165 ///
4166 ///   C c;
4167 ///   S s;
4168 /// \endcode
4169 ///
4170 /// \c recordType() matches the type of the variable declarations of both \c c
4171 /// and \c s.
4172 AST_TYPE_MATCHER(RecordType, recordType);
4173 
4174 /// \brief Matches types specified with an elaborated type keyword or with a
4175 /// qualified name.
4176 ///
4177 /// Given
4178 /// \code
4179 ///   namespace N {
4180 ///     namespace M {
4181 ///       class D {};
4182 ///     }
4183 ///   }
4184 ///   class C {};
4185 ///
4186 ///   class C c;
4187 ///   N::M::D d;
4188 /// \endcode
4189 ///
4190 /// \c elaboratedType() matches the type of the variable declarations of both
4191 /// \c c and \c d.
4192 AST_TYPE_MATCHER(ElaboratedType, elaboratedType);
4193 
4194 /// \brief Matches ElaboratedTypes whose qualifier, a NestedNameSpecifier,
4195 /// matches \c InnerMatcher if the qualifier exists.
4196 ///
4197 /// Given
4198 /// \code
4199 ///   namespace N {
4200 ///     namespace M {
4201 ///       class D {};
4202 ///     }
4203 ///   }
4204 ///   N::M::D d;
4205 /// \endcode
4206 ///
4207 /// \c elaboratedType(hasQualifier(hasPrefix(specifiesNamespace(hasName("N"))))
4208 /// matches the type of the variable declaration of \c d.
AST_MATCHER_P(ElaboratedType,hasQualifier,internal::Matcher<NestedNameSpecifier>,InnerMatcher)4209 AST_MATCHER_P(ElaboratedType, hasQualifier,
4210               internal::Matcher<NestedNameSpecifier>, InnerMatcher) {
4211   if (const NestedNameSpecifier *Qualifier = Node.getQualifier())
4212     return InnerMatcher.matches(*Qualifier, Finder, Builder);
4213 
4214   return false;
4215 }
4216 
4217 /// \brief Matches ElaboratedTypes whose named type matches \c InnerMatcher.
4218 ///
4219 /// Given
4220 /// \code
4221 ///   namespace N {
4222 ///     namespace M {
4223 ///       class D {};
4224 ///     }
4225 ///   }
4226 ///   N::M::D d;
4227 /// \endcode
4228 ///
4229 /// \c elaboratedType(namesType(recordType(
4230 /// hasDeclaration(namedDecl(hasName("D")))))) matches the type of the variable
4231 /// declaration of \c d.
AST_MATCHER_P(ElaboratedType,namesType,internal::Matcher<QualType>,InnerMatcher)4232 AST_MATCHER_P(ElaboratedType, namesType, internal::Matcher<QualType>,
4233               InnerMatcher) {
4234   return InnerMatcher.matches(Node.getNamedType(), Finder, Builder);
4235 }
4236 
4237 /// \brief Matches types that represent the result of substituting a type for a
4238 /// template type parameter.
4239 ///
4240 /// Given
4241 /// \code
4242 ///   template <typename T>
4243 ///   void F(T t) {
4244 ///     int i = 1 + t;
4245 ///   }
4246 /// \endcode
4247 ///
4248 /// \c substTemplateTypeParmType() matches the type of 't' but not '1'
4249 AST_TYPE_MATCHER(SubstTemplateTypeParmType, substTemplateTypeParmType);
4250 
4251 /// \brief Matches template type parameter types.
4252 ///
4253 /// Example matches T, but not int.
4254 ///     (matcher = templateTypeParmType())
4255 /// \code
4256 ///   template <typename T> void f(int i);
4257 /// \endcode
4258 AST_TYPE_MATCHER(TemplateTypeParmType, templateTypeParmType);
4259 
4260 /// \brief Matches injected class name types.
4261 ///
4262 /// Example matches S s, but not S<T> s.
4263 ///     (matcher = parmVarDecl(hasType(injectedClassNameType())))
4264 /// \code
4265 ///   template <typename T> struct S {
4266 ///     void f(S s);
4267 ///     void g(S<T> s);
4268 ///   };
4269 /// \endcode
4270 AST_TYPE_MATCHER(InjectedClassNameType, injectedClassNameType);
4271 
4272 /// \brief Matches decayed type
4273 /// Example matches i[] in declaration of f.
4274 ///     (matcher = valueDecl(hasType(decayedType(hasDecayedType(pointerType())))))
4275 /// Example matches i[1].
4276 ///     (matcher = expr(hasType(decayedType(hasDecayedType(pointerType())))))
4277 /// \code
4278 ///   void f(int i[]) {
4279 ///     i[1] = 0;
4280 ///   }
4281 /// \endcode
4282 AST_TYPE_MATCHER(DecayedType, decayedType);
4283 
4284 /// \brief Matches the decayed type, whos decayed type matches \c InnerMatcher
AST_MATCHER_P(DecayedType,hasDecayedType,internal::Matcher<QualType>,InnerType)4285 AST_MATCHER_P(DecayedType, hasDecayedType, internal::Matcher<QualType>,
4286               InnerType) {
4287   return InnerType.matches(Node.getDecayedType(), Finder, Builder);
4288 }
4289 
4290 /// \brief Matches declarations whose declaration context, interpreted as a
4291 /// Decl, matches \c InnerMatcher.
4292 ///
4293 /// Given
4294 /// \code
4295 ///   namespace N {
4296 ///     namespace M {
4297 ///       class D {};
4298 ///     }
4299 ///   }
4300 /// \endcode
4301 ///
4302 /// \c cxxRcordDecl(hasDeclContext(namedDecl(hasName("M")))) matches the
4303 /// declaration of \c class \c D.
AST_MATCHER_P(Decl,hasDeclContext,internal::Matcher<Decl>,InnerMatcher)4304 AST_MATCHER_P(Decl, hasDeclContext, internal::Matcher<Decl>, InnerMatcher) {
4305   const DeclContext *DC = Node.getDeclContext();
4306   if (!DC) return false;
4307   return InnerMatcher.matches(*Decl::castFromDeclContext(DC), Finder, Builder);
4308 }
4309 
4310 /// \brief Matches nested name specifiers.
4311 ///
4312 /// Given
4313 /// \code
4314 ///   namespace ns {
4315 ///     struct A { static void f(); };
4316 ///     void A::f() {}
4317 ///     void g() { A::f(); }
4318 ///   }
4319 ///   ns::A a;
4320 /// \endcode
4321 /// nestedNameSpecifier()
4322 ///   matches "ns::" and both "A::"
4323 const internal::VariadicAllOfMatcher<NestedNameSpecifier> nestedNameSpecifier;
4324 
4325 /// \brief Same as \c nestedNameSpecifier but matches \c NestedNameSpecifierLoc.
4326 const internal::VariadicAllOfMatcher<
4327   NestedNameSpecifierLoc> nestedNameSpecifierLoc;
4328 
4329 /// \brief Matches \c NestedNameSpecifierLocs for which the given inner
4330 /// NestedNameSpecifier-matcher matches.
4331 AST_MATCHER_FUNCTION_P_OVERLOAD(
4332     internal::BindableMatcher<NestedNameSpecifierLoc>, loc,
4333     internal::Matcher<NestedNameSpecifier>, InnerMatcher, 1) {
4334   return internal::BindableMatcher<NestedNameSpecifierLoc>(
4335       new internal::LocMatcher<NestedNameSpecifierLoc, NestedNameSpecifier>(
4336           InnerMatcher));
4337 }
4338 
4339 /// \brief Matches nested name specifiers that specify a type matching the
4340 /// given \c QualType matcher without qualifiers.
4341 ///
4342 /// Given
4343 /// \code
4344 ///   struct A { struct B { struct C {}; }; };
4345 ///   A::B::C c;
4346 /// \endcode
4347 /// nestedNameSpecifier(specifiesType(
4348 ///   hasDeclaration(cxxRecordDecl(hasName("A")))
4349 /// ))
4350 ///   matches "A::"
AST_MATCHER_P(NestedNameSpecifier,specifiesType,internal::Matcher<QualType>,InnerMatcher)4351 AST_MATCHER_P(NestedNameSpecifier, specifiesType,
4352               internal::Matcher<QualType>, InnerMatcher) {
4353   if (!Node.getAsType())
4354     return false;
4355   return InnerMatcher.matches(QualType(Node.getAsType(), 0), Finder, Builder);
4356 }
4357 
4358 /// \brief Matches nested name specifier locs that specify a type matching the
4359 /// given \c TypeLoc.
4360 ///
4361 /// Given
4362 /// \code
4363 ///   struct A { struct B { struct C {}; }; };
4364 ///   A::B::C c;
4365 /// \endcode
4366 /// nestedNameSpecifierLoc(specifiesTypeLoc(loc(type(
4367 ///   hasDeclaration(cxxRecordDecl(hasName("A")))))))
4368 ///   matches "A::"
AST_MATCHER_P(NestedNameSpecifierLoc,specifiesTypeLoc,internal::Matcher<TypeLoc>,InnerMatcher)4369 AST_MATCHER_P(NestedNameSpecifierLoc, specifiesTypeLoc,
4370               internal::Matcher<TypeLoc>, InnerMatcher) {
4371   return Node && InnerMatcher.matches(Node.getTypeLoc(), Finder, Builder);
4372 }
4373 
4374 /// \brief Matches on the prefix of a \c NestedNameSpecifier.
4375 ///
4376 /// Given
4377 /// \code
4378 ///   struct A { struct B { struct C {}; }; };
4379 ///   A::B::C c;
4380 /// \endcode
4381 /// nestedNameSpecifier(hasPrefix(specifiesType(asString("struct A")))) and
4382 ///   matches "A::"
4383 AST_MATCHER_P_OVERLOAD(NestedNameSpecifier, hasPrefix,
4384                        internal::Matcher<NestedNameSpecifier>, InnerMatcher,
4385                        0) {
4386   const NestedNameSpecifier *NextNode = Node.getPrefix();
4387   if (!NextNode)
4388     return false;
4389   return InnerMatcher.matches(*NextNode, Finder, Builder);
4390 }
4391 
4392 /// \brief Matches on the prefix of a \c NestedNameSpecifierLoc.
4393 ///
4394 /// Given
4395 /// \code
4396 ///   struct A { struct B { struct C {}; }; };
4397 ///   A::B::C c;
4398 /// \endcode
4399 /// nestedNameSpecifierLoc(hasPrefix(loc(specifiesType(asString("struct A")))))
4400 ///   matches "A::"
4401 AST_MATCHER_P_OVERLOAD(NestedNameSpecifierLoc, hasPrefix,
4402                        internal::Matcher<NestedNameSpecifierLoc>, InnerMatcher,
4403                        1) {
4404   NestedNameSpecifierLoc NextNode = Node.getPrefix();
4405   if (!NextNode)
4406     return false;
4407   return InnerMatcher.matches(NextNode, Finder, Builder);
4408 }
4409 
4410 /// \brief Matches nested name specifiers that specify a namespace matching the
4411 /// given namespace matcher.
4412 ///
4413 /// Given
4414 /// \code
4415 ///   namespace ns { struct A {}; }
4416 ///   ns::A a;
4417 /// \endcode
4418 /// nestedNameSpecifier(specifiesNamespace(hasName("ns")))
4419 ///   matches "ns::"
AST_MATCHER_P(NestedNameSpecifier,specifiesNamespace,internal::Matcher<NamespaceDecl>,InnerMatcher)4420 AST_MATCHER_P(NestedNameSpecifier, specifiesNamespace,
4421               internal::Matcher<NamespaceDecl>, InnerMatcher) {
4422   if (!Node.getAsNamespace())
4423     return false;
4424   return InnerMatcher.matches(*Node.getAsNamespace(), Finder, Builder);
4425 }
4426 
4427 /// \brief Overloads for the \c equalsNode matcher.
4428 /// FIXME: Implement for other node types.
4429 /// @{
4430 
4431 /// \brief Matches if a node equals another node.
4432 ///
4433 /// \c Decl has pointer identity in the AST.
4434 AST_MATCHER_P_OVERLOAD(Decl, equalsNode, const Decl*, Other, 0) {
4435   return &Node == Other;
4436 }
4437 /// \brief Matches if a node equals another node.
4438 ///
4439 /// \c Stmt has pointer identity in the AST.
4440 AST_MATCHER_P_OVERLOAD(Stmt, equalsNode, const Stmt*, Other, 1) {
4441   return &Node == Other;
4442 }
4443 /// \brief Matches if a node equals another node.
4444 ///
4445 /// \c Type has pointer identity in the AST.
4446 AST_MATCHER_P_OVERLOAD(Type, equalsNode, const Type*, Other, 2) {
4447     return &Node == Other;
4448 }
4449 
4450 /// @}
4451 
4452 /// \brief Matches each case or default statement belonging to the given switch
4453 /// statement. This matcher may produce multiple matches.
4454 ///
4455 /// Given
4456 /// \code
4457 ///   switch (1) { case 1: case 2: default: switch (2) { case 3: case 4: ; } }
4458 /// \endcode
4459 /// switchStmt(forEachSwitchCase(caseStmt().bind("c"))).bind("s")
4460 ///   matches four times, with "c" binding each of "case 1:", "case 2:",
4461 /// "case 3:" and "case 4:", and "s" respectively binding "switch (1)",
4462 /// "switch (1)", "switch (2)" and "switch (2)".
AST_MATCHER_P(SwitchStmt,forEachSwitchCase,internal::Matcher<SwitchCase>,InnerMatcher)4463 AST_MATCHER_P(SwitchStmt, forEachSwitchCase, internal::Matcher<SwitchCase>,
4464               InnerMatcher) {
4465   BoundNodesTreeBuilder Result;
4466   // FIXME: getSwitchCaseList() does not necessarily guarantee a stable
4467   // iteration order. We should use the more general iterating matchers once
4468   // they are capable of expressing this matcher (for example, it should ignore
4469   // case statements belonging to nested switch statements).
4470   bool Matched = false;
4471   for (const SwitchCase *SC = Node.getSwitchCaseList(); SC;
4472        SC = SC->getNextSwitchCase()) {
4473     BoundNodesTreeBuilder CaseBuilder(*Builder);
4474     bool CaseMatched = InnerMatcher.matches(*SC, Finder, &CaseBuilder);
4475     if (CaseMatched) {
4476       Matched = true;
4477       Result.addMatch(CaseBuilder);
4478     }
4479   }
4480   *Builder = std::move(Result);
4481   return Matched;
4482 }
4483 
4484 /// \brief Matches each constructor initializer in a constructor definition.
4485 ///
4486 /// Given
4487 /// \code
4488 ///   class A { A() : i(42), j(42) {} int i; int j; };
4489 /// \endcode
4490 /// cxxConstructorDecl(forEachConstructorInitializer(
4491 ///   forField(decl().bind("x"))
4492 /// ))
4493 ///   will trigger two matches, binding for 'i' and 'j' respectively.
AST_MATCHER_P(CXXConstructorDecl,forEachConstructorInitializer,internal::Matcher<CXXCtorInitializer>,InnerMatcher)4494 AST_MATCHER_P(CXXConstructorDecl, forEachConstructorInitializer,
4495               internal::Matcher<CXXCtorInitializer>, InnerMatcher) {
4496   BoundNodesTreeBuilder Result;
4497   bool Matched = false;
4498   for (const auto *I : Node.inits()) {
4499     BoundNodesTreeBuilder InitBuilder(*Builder);
4500     if (InnerMatcher.matches(*I, Finder, &InitBuilder)) {
4501       Matched = true;
4502       Result.addMatch(InitBuilder);
4503     }
4504   }
4505   *Builder = std::move(Result);
4506   return Matched;
4507 }
4508 
4509 /// \brief Matches constructor declarations that are copy constructors.
4510 ///
4511 /// Given
4512 /// \code
4513 ///   struct S {
4514 ///     S(); // #1
4515 ///     S(const S &); // #2
4516 ///     S(S &&); // #3
4517 ///   };
4518 /// \endcode
4519 /// cxxConstructorDecl(isCopyConstructor()) will match #2, but not #1 or #3.
AST_MATCHER(CXXConstructorDecl,isCopyConstructor)4520 AST_MATCHER(CXXConstructorDecl, isCopyConstructor) {
4521   return Node.isCopyConstructor();
4522 }
4523 
4524 /// \brief Matches constructor declarations that are move constructors.
4525 ///
4526 /// Given
4527 /// \code
4528 ///   struct S {
4529 ///     S(); // #1
4530 ///     S(const S &); // #2
4531 ///     S(S &&); // #3
4532 ///   };
4533 /// \endcode
4534 /// cxxConstructorDecl(isMoveConstructor()) will match #3, but not #1 or #2.
AST_MATCHER(CXXConstructorDecl,isMoveConstructor)4535 AST_MATCHER(CXXConstructorDecl, isMoveConstructor) {
4536   return Node.isMoveConstructor();
4537 }
4538 
4539 /// \brief Matches constructor declarations that are default constructors.
4540 ///
4541 /// Given
4542 /// \code
4543 ///   struct S {
4544 ///     S(); // #1
4545 ///     S(const S &); // #2
4546 ///     S(S &&); // #3
4547 ///   };
4548 /// \endcode
4549 /// cxxConstructorDecl(isDefaultConstructor()) will match #1, but not #2 or #3.
AST_MATCHER(CXXConstructorDecl,isDefaultConstructor)4550 AST_MATCHER(CXXConstructorDecl, isDefaultConstructor) {
4551   return Node.isDefaultConstructor();
4552 }
4553 
4554 /// \brief Matches constructor and conversion declarations that are marked with
4555 /// the explicit keyword.
4556 ///
4557 /// Given
4558 /// \code
4559 ///   struct S {
4560 ///     S(int); // #1
4561 ///     explicit S(double); // #2
4562 ///     operator int(); // #3
4563 ///     explicit operator bool(); // #4
4564 ///   };
4565 /// \endcode
4566 /// cxxConstructorDecl(isExplicit()) will match #2, but not #1.
4567 /// cxxConversionDecl(isExplicit()) will match #4, but not #3.
AST_POLYMORPHIC_MATCHER(isExplicit,AST_POLYMORPHIC_SUPPORTED_TYPES (CXXConstructorDecl,CXXConversionDecl))4568 AST_POLYMORPHIC_MATCHER(isExplicit,
4569                         AST_POLYMORPHIC_SUPPORTED_TYPES(CXXConstructorDecl,
4570                                                         CXXConversionDecl)) {
4571   return Node.isExplicit();
4572 }
4573 
4574 /// \brief Matches function and namespace declarations that are marked with
4575 /// the inline keyword.
4576 ///
4577 /// Given
4578 /// \code
4579 ///   inline void f();
4580 ///   void g();
4581 ///   namespace n {
4582 ///   inline namespace m {}
4583 ///   }
4584 /// \endcode
4585 /// functionDecl(isInline()) will match ::f().
4586 /// namespaceDecl(isInline()) will match n::m.
AST_POLYMORPHIC_MATCHER(isInline,AST_POLYMORPHIC_SUPPORTED_TYPES (NamespaceDecl,FunctionDecl))4587 AST_POLYMORPHIC_MATCHER(isInline,
4588                         AST_POLYMORPHIC_SUPPORTED_TYPES(NamespaceDecl,
4589                                                         FunctionDecl)) {
4590   // This is required because the spelling of the function used to determine
4591   // whether inline is specified or not differs between the polymorphic types.
4592   if (const auto *FD = dyn_cast<FunctionDecl>(&Node))
4593     return FD->isInlineSpecified();
4594   else if (const auto *NSD = dyn_cast<NamespaceDecl>(&Node))
4595     return NSD->isInline();
4596   llvm_unreachable("Not a valid polymorphic type");
4597 }
4598 
4599 /// \brief Matches anonymous namespace declarations.
4600 ///
4601 /// Given
4602 /// \code
4603 ///   namespace n {
4604 ///   namespace {} // #1
4605 ///   }
4606 /// \endcode
4607 /// namespaceDecl(isAnonymous()) will match #1 but not ::n.
AST_MATCHER(NamespaceDecl,isAnonymous)4608 AST_MATCHER(NamespaceDecl, isAnonymous) {
4609   return Node.isAnonymousNamespace();
4610 }
4611 
4612 /// \brief If the given case statement does not use the GNU case range
4613 /// extension, matches the constant given in the statement.
4614 ///
4615 /// Given
4616 /// \code
4617 ///   switch (1) { case 1: case 1+1: case 3 ... 4: ; }
4618 /// \endcode
4619 /// caseStmt(hasCaseConstant(integerLiteral()))
4620 ///   matches "case 1:"
AST_MATCHER_P(CaseStmt,hasCaseConstant,internal::Matcher<Expr>,InnerMatcher)4621 AST_MATCHER_P(CaseStmt, hasCaseConstant, internal::Matcher<Expr>,
4622               InnerMatcher) {
4623   if (Node.getRHS())
4624     return false;
4625 
4626   return InnerMatcher.matches(*Node.getLHS(), Finder, Builder);
4627 }
4628 
4629 /// \brief Matches declaration that has a given attribute.
4630 ///
4631 /// Given
4632 /// \code
4633 ///   __attribute__((device)) void f() { ... }
4634 /// \endcode
4635 /// decl(hasAttr(clang::attr::CUDADevice)) matches the function declaration of
4636 /// f. If the matcher is use from clang-query, attr::Kind parameter should be
4637 /// passed as a quoted string. e.g., hasAttr("attr::CUDADevice").
AST_MATCHER_P(Decl,hasAttr,attr::Kind,AttrKind)4638 AST_MATCHER_P(Decl, hasAttr, attr::Kind, AttrKind) {
4639   for (const auto *Attr : Node.attrs()) {
4640     if (Attr->getKind() == AttrKind)
4641       return true;
4642   }
4643   return false;
4644 }
4645 
4646 /// \brief Matches CUDA kernel call expression.
4647 ///
4648 /// Example matches,
4649 /// \code
4650 ///   kernel<<<i,j>>>();
4651 /// \endcode
4652 const internal::VariadicDynCastAllOfMatcher<
4653   Stmt,
4654   CUDAKernelCallExpr> cudaKernelCallExpr;
4655 
4656 } // end namespace ast_matchers
4657 } // end namespace clang
4658 
4659 #endif
4660