1 //===--- ASTMatchersInternal.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 //  Implements the base layer of the matcher framework.
11 //
12 //  Matchers are methods that return a Matcher<T> which provides a method
13 //  Matches(...) which is a predicate on an AST node. The Matches method's
14 //  parameters define the context of the match, which allows matchers to recurse
15 //  or store the current node as bound to a specific string, so that it can be
16 //  retrieved later.
17 //
18 //  In general, matchers have two parts:
19 //  1. A function Matcher<T> MatcherName(<arguments>) which returns a Matcher<T>
20 //     based on the arguments and optionally on template type deduction based
21 //     on the arguments. Matcher<T>s form an implicit reverse hierarchy
22 //     to clang's AST class hierarchy, meaning that you can use a Matcher<Base>
23 //     everywhere a Matcher<Derived> is required.
24 //  2. An implementation of a class derived from MatcherInterface<T>.
25 //
26 //  The matcher functions are defined in ASTMatchers.h. To make it possible
27 //  to implement both the matcher function and the implementation of the matcher
28 //  interface in one place, ASTMatcherMacros.h defines macros that allow
29 //  implementing a matcher in a single place.
30 //
31 //  This file contains the base classes needed to construct the actual matchers.
32 //
33 //===----------------------------------------------------------------------===//
34 
35 #ifndef LLVM_CLANG_ASTMATCHERS_ASTMATCHERSINTERNAL_H
36 #define LLVM_CLANG_ASTMATCHERS_ASTMATCHERSINTERNAL_H
37 
38 #include "clang/AST/ASTTypeTraits.h"
39 #include "clang/AST/Decl.h"
40 #include "clang/AST/DeclCXX.h"
41 #include "clang/AST/DeclObjC.h"
42 #include "clang/AST/ExprCXX.h"
43 #include "clang/AST/ExprObjC.h"
44 #include "clang/AST/Stmt.h"
45 #include "clang/AST/StmtCXX.h"
46 #include "clang/AST/StmtObjC.h"
47 #include "clang/AST/Type.h"
48 #include "llvm/ADT/Optional.h"
49 #include "llvm/ADT/VariadicFunction.h"
50 #include "llvm/Support/ManagedStatic.h"
51 #include <map>
52 #include <string>
53 #include <vector>
54 
55 namespace clang {
56 namespace ast_matchers {
57 
58 class BoundNodes;
59 
60 namespace internal {
61 
62 /// \brief Internal version of BoundNodes. Holds all the bound nodes.
63 class BoundNodesMap {
64 public:
65   /// \brief Adds \c Node to the map with key \c ID.
66   ///
67   /// The node's base type should be in NodeBaseType or it will be unaccessible.
addNode(StringRef ID,const ast_type_traits::DynTypedNode & DynNode)68   void addNode(StringRef ID, const ast_type_traits::DynTypedNode& DynNode) {
69     NodeMap[ID] = DynNode;
70   }
71 
72   /// \brief Returns the AST node bound to \c ID.
73   ///
74   /// Returns NULL if there was no node bound to \c ID or if there is a node but
75   /// it cannot be converted to the specified type.
76   template <typename T>
getNodeAs(StringRef ID)77   const T *getNodeAs(StringRef ID) const {
78     IDToNodeMap::const_iterator It = NodeMap.find(ID);
79     if (It == NodeMap.end()) {
80       return nullptr;
81     }
82     return It->second.get<T>();
83   }
84 
getNode(StringRef ID)85   ast_type_traits::DynTypedNode getNode(StringRef ID) const {
86     IDToNodeMap::const_iterator It = NodeMap.find(ID);
87     if (It == NodeMap.end()) {
88       return ast_type_traits::DynTypedNode();
89     }
90     return It->second;
91   }
92 
93   /// \brief Imposes an order on BoundNodesMaps.
94   bool operator<(const BoundNodesMap &Other) const {
95     return NodeMap < Other.NodeMap;
96   }
97 
98   /// \brief A map from IDs to the bound nodes.
99   ///
100   /// Note that we're using std::map here, as for memoization:
101   /// - we need a comparison operator
102   /// - we need an assignment operator
103   typedef std::map<std::string, ast_type_traits::DynTypedNode> IDToNodeMap;
104 
getMap()105   const IDToNodeMap &getMap() const {
106     return NodeMap;
107   }
108 
109   /// \brief Returns \c true if this \c BoundNodesMap can be compared, i.e. all
110   /// stored nodes have memoization data.
isComparable()111   bool isComparable() const {
112     for (const auto &IDAndNode : NodeMap) {
113       if (!IDAndNode.second.getMemoizationData())
114         return false;
115     }
116     return true;
117   }
118 
119 private:
120   IDToNodeMap NodeMap;
121 };
122 
123 /// \brief Creates BoundNodesTree objects.
124 ///
125 /// The tree builder is used during the matching process to insert the bound
126 /// nodes from the Id matcher.
127 class BoundNodesTreeBuilder {
128 public:
129   /// \brief A visitor interface to visit all BoundNodes results for a
130   /// BoundNodesTree.
131   class Visitor {
132   public:
~Visitor()133     virtual ~Visitor() {}
134 
135     /// \brief Called multiple times during a single call to VisitMatches(...).
136     ///
137     /// 'BoundNodesView' contains the bound nodes for a single match.
138     virtual void visitMatch(const BoundNodes& BoundNodesView) = 0;
139   };
140 
141   /// \brief Add a binding from an id to a node.
setBinding(const std::string & Id,const ast_type_traits::DynTypedNode & DynNode)142   void setBinding(const std::string &Id,
143                   const ast_type_traits::DynTypedNode &DynNode) {
144     if (Bindings.empty())
145       Bindings.emplace_back();
146     for (BoundNodesMap &Binding : Bindings)
147       Binding.addNode(Id, DynNode);
148   }
149 
150   /// \brief Adds a branch in the tree.
151   void addMatch(const BoundNodesTreeBuilder &Bindings);
152 
153   /// \brief Visits all matches that this BoundNodesTree represents.
154   ///
155   /// The ownership of 'ResultVisitor' remains at the caller.
156   void visitMatches(Visitor* ResultVisitor);
157 
158   template <typename ExcludePredicate>
removeBindings(const ExcludePredicate & Predicate)159   bool removeBindings(const ExcludePredicate &Predicate) {
160     Bindings.erase(std::remove_if(Bindings.begin(), Bindings.end(), Predicate),
161                    Bindings.end());
162     return !Bindings.empty();
163   }
164 
165   /// \brief Imposes an order on BoundNodesTreeBuilders.
166   bool operator<(const BoundNodesTreeBuilder &Other) const {
167     return Bindings < Other.Bindings;
168   }
169 
170   /// \brief Returns \c true if this \c BoundNodesTreeBuilder can be compared,
171   /// i.e. all stored node maps have memoization data.
isComparable()172   bool isComparable() const {
173     for (const BoundNodesMap &NodesMap : Bindings) {
174       if (!NodesMap.isComparable())
175         return false;
176     }
177     return true;
178   }
179 
180 private:
181   SmallVector<BoundNodesMap, 16> Bindings;
182 };
183 
184 class ASTMatchFinder;
185 
186 /// \brief Generic interface for all matchers.
187 ///
188 /// Used by the implementation of Matcher<T> and DynTypedMatcher.
189 /// In general, implement MatcherInterface<T> or SingleNodeMatcherInterface<T>
190 /// instead.
191 class DynMatcherInterface : public RefCountedBaseVPTR {
192 public:
193   /// \brief Returns true if \p DynNode can be matched.
194   ///
195   /// May bind \p DynNode to an ID via \p Builder, or recurse into
196   /// the AST via \p Finder.
197   virtual bool dynMatches(const ast_type_traits::DynTypedNode &DynNode,
198                           ASTMatchFinder *Finder,
199                           BoundNodesTreeBuilder *Builder) const = 0;
200 };
201 
202 /// \brief Generic interface for matchers on an AST node of type T.
203 ///
204 /// Implement this if your matcher may need to inspect the children or
205 /// descendants of the node or bind matched nodes to names. If you are
206 /// writing a simple matcher that only inspects properties of the
207 /// current node and doesn't care about its children or descendants,
208 /// implement SingleNodeMatcherInterface instead.
209 template <typename T>
210 class MatcherInterface : public DynMatcherInterface {
211 public:
~MatcherInterface()212   ~MatcherInterface() override {}
213 
214   /// \brief Returns true if 'Node' can be matched.
215   ///
216   /// May bind 'Node' to an ID via 'Builder', or recurse into
217   /// the AST via 'Finder'.
218   virtual bool matches(const T &Node,
219                        ASTMatchFinder *Finder,
220                        BoundNodesTreeBuilder *Builder) const = 0;
221 
dynMatches(const ast_type_traits::DynTypedNode & DynNode,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)222   bool dynMatches(const ast_type_traits::DynTypedNode &DynNode,
223                   ASTMatchFinder *Finder,
224                   BoundNodesTreeBuilder *Builder) const override {
225     return matches(DynNode.getUnchecked<T>(), Finder, Builder);
226   }
227 };
228 
229 /// \brief Interface for matchers that only evaluate properties on a single
230 /// node.
231 template <typename T>
232 class SingleNodeMatcherInterface : public MatcherInterface<T> {
233 public:
234   /// \brief Returns true if the matcher matches the provided node.
235   ///
236   /// A subclass must implement this instead of Matches().
237   virtual bool matchesNode(const T &Node) const = 0;
238 
239 private:
240   /// Implements MatcherInterface::Matches.
matches(const T & Node,ASTMatchFinder *,BoundNodesTreeBuilder *)241   bool matches(const T &Node,
242                ASTMatchFinder * /* Finder */,
243                BoundNodesTreeBuilder * /*  Builder */) const override {
244     return matchesNode(Node);
245   }
246 };
247 
248 template <typename> class Matcher;
249 
250 /// \brief Matcher that works on a \c DynTypedNode.
251 ///
252 /// It is constructed from a \c Matcher<T> object and redirects most calls to
253 /// underlying matcher.
254 /// It checks whether the \c DynTypedNode is convertible into the type of the
255 /// underlying matcher and then do the actual match on the actual node, or
256 /// return false if it is not convertible.
257 class DynTypedMatcher {
258 public:
259   /// \brief Takes ownership of the provided implementation pointer.
260   template <typename T>
DynTypedMatcher(MatcherInterface<T> * Implementation)261   DynTypedMatcher(MatcherInterface<T> *Implementation)
262       : AllowBind(false),
263         SupportedKind(ast_type_traits::ASTNodeKind::getFromNodeKind<T>()),
264         RestrictKind(SupportedKind), Implementation(Implementation) {}
265 
266   /// \brief Construct from a variadic function.
267   enum VariadicOperator {
268     /// \brief Matches nodes for which all provided matchers match.
269     VO_AllOf,
270     /// \brief Matches nodes for which at least one of the provided matchers
271     /// matches.
272     VO_AnyOf,
273     /// \brief Matches nodes for which at least one of the provided matchers
274     /// matches, but doesn't stop at the first match.
275     VO_EachOf,
276     /// \brief Matches nodes that do not match the provided matcher.
277     ///
278     /// Uses the variadic matcher interface, but fails if
279     /// InnerMatchers.size() != 1.
280     VO_UnaryNot
281   };
282   static DynTypedMatcher
283   constructVariadic(VariadicOperator Op,
284                     std::vector<DynTypedMatcher> InnerMatchers);
285 
286   /// \brief Get a "true" matcher for \p NodeKind.
287   ///
288   /// It only checks that the node is of the right kind.
289   static DynTypedMatcher trueMatcher(ast_type_traits::ASTNodeKind NodeKind);
290 
setAllowBind(bool AB)291   void setAllowBind(bool AB) { AllowBind = AB; }
292 
293   /// \brief Check whether this matcher could ever match a node of kind \p Kind.
294   /// \return \c false if this matcher will never match such a node. Otherwise,
295   /// return \c true.
296   bool canMatchNodesOfKind(ast_type_traits::ASTNodeKind Kind) const;
297 
298   /// \brief Return a matcher that points to the same implementation, but
299   ///   restricts the node types for \p Kind.
300   DynTypedMatcher dynCastTo(const ast_type_traits::ASTNodeKind Kind) const;
301 
302   /// \brief Returns true if the matcher matches the given \c DynNode.
303   bool matches(const ast_type_traits::DynTypedNode &DynNode,
304                ASTMatchFinder *Finder, BoundNodesTreeBuilder *Builder) const;
305 
306   /// \brief Same as matches(), but skips the kind check.
307   ///
308   /// It is faster, but the caller must ensure the node is valid for the
309   /// kind of this matcher.
310   bool matchesNoKindCheck(const ast_type_traits::DynTypedNode &DynNode,
311                           ASTMatchFinder *Finder,
312                           BoundNodesTreeBuilder *Builder) const;
313 
314   /// \brief Bind the specified \p ID to the matcher.
315   /// \return A new matcher with the \p ID bound to it if this matcher supports
316   ///   binding. Otherwise, returns an empty \c Optional<>.
317   llvm::Optional<DynTypedMatcher> tryBind(StringRef ID) const;
318 
319   /// \brief Returns a unique \p ID for the matcher.
320   ///
321   /// Casting a Matcher<T> to Matcher<U> creates a matcher that has the
322   /// same \c Implementation pointer, but different \c RestrictKind. We need to
323   /// include both in the ID to make it unique.
324   ///
325   /// \c MatcherIDType supports operator< and provides strict weak ordering.
326   typedef std::pair<ast_type_traits::ASTNodeKind, uint64_t> MatcherIDType;
getID()327   MatcherIDType getID() const {
328     /// FIXME: Document the requirements this imposes on matcher
329     /// implementations (no new() implementation_ during a Matches()).
330     return std::make_pair(RestrictKind,
331                           reinterpret_cast<uint64_t>(Implementation.get()));
332   }
333 
334   /// \brief Returns the type this matcher works on.
335   ///
336   /// \c matches() will always return false unless the node passed is of this
337   /// or a derived type.
getSupportedKind()338   ast_type_traits::ASTNodeKind getSupportedKind() const {
339     return SupportedKind;
340   }
341 
342   /// \brief Returns \c true if the passed \c DynTypedMatcher can be converted
343   ///   to a \c Matcher<T>.
344   ///
345   /// This method verifies that the underlying matcher in \c Other can process
346   /// nodes of types T.
canConvertTo()347   template <typename T> bool canConvertTo() const {
348     return canConvertTo(ast_type_traits::ASTNodeKind::getFromNodeKind<T>());
349   }
350   bool canConvertTo(ast_type_traits::ASTNodeKind To) const;
351 
352   /// \brief Construct a \c Matcher<T> interface around the dynamic matcher.
353   ///
354   /// This method asserts that \c canConvertTo() is \c true. Callers
355   /// should call \c canConvertTo() first to make sure that \c this is
356   /// compatible with T.
convertTo()357   template <typename T> Matcher<T> convertTo() const {
358     assert(canConvertTo<T>());
359     return unconditionalConvertTo<T>();
360   }
361 
362   /// \brief Same as \c convertTo(), but does not check that the underlying
363   ///   matcher can handle a value of T.
364   ///
365   /// If it is not compatible, then this matcher will never match anything.
366   template <typename T> Matcher<T> unconditionalConvertTo() const;
367 
368 private:
DynTypedMatcher(ast_type_traits::ASTNodeKind SupportedKind,ast_type_traits::ASTNodeKind RestrictKind,IntrusiveRefCntPtr<DynMatcherInterface> Implementation)369  DynTypedMatcher(ast_type_traits::ASTNodeKind SupportedKind,
370                  ast_type_traits::ASTNodeKind RestrictKind,
371                  IntrusiveRefCntPtr<DynMatcherInterface> Implementation)
372      : AllowBind(false),
373        SupportedKind(SupportedKind),
374        RestrictKind(RestrictKind),
375        Implementation(std::move(Implementation)) {}
376 
377   bool AllowBind;
378   ast_type_traits::ASTNodeKind SupportedKind;
379   /// \brief A potentially stricter node kind.
380   ///
381   /// It allows to perform implicit and dynamic cast of matchers without
382   /// needing to change \c Implementation.
383   ast_type_traits::ASTNodeKind RestrictKind;
384   IntrusiveRefCntPtr<DynMatcherInterface> Implementation;
385 };
386 
387 /// \brief Wrapper base class for a wrapping matcher.
388 ///
389 /// This is just a container for a DynTypedMatcher that can be used as a base
390 /// class for another matcher.
391 template <typename T>
392 class WrapperMatcherInterface : public MatcherInterface<T> {
393 protected:
WrapperMatcherInterface(DynTypedMatcher && InnerMatcher)394   explicit WrapperMatcherInterface(DynTypedMatcher &&InnerMatcher)
395       : InnerMatcher(std::move(InnerMatcher)) {}
396 
397   const DynTypedMatcher InnerMatcher;
398 };
399 
400 /// \brief Wrapper of a MatcherInterface<T> *that allows copying.
401 ///
402 /// A Matcher<Base> can be used anywhere a Matcher<Derived> is
403 /// required. This establishes an is-a relationship which is reverse
404 /// to the AST hierarchy. In other words, Matcher<T> is contravariant
405 /// with respect to T. The relationship is built via a type conversion
406 /// operator rather than a type hierarchy to be able to templatize the
407 /// type hierarchy instead of spelling it out.
408 template <typename T>
409 class Matcher {
410 public:
411   /// \brief Takes ownership of the provided implementation pointer.
Matcher(MatcherInterface<T> * Implementation)412   explicit Matcher(MatcherInterface<T> *Implementation)
413       : Implementation(Implementation) {}
414 
415   /// \brief Implicitly converts \c Other to a Matcher<T>.
416   ///
417   /// Requires \c T to be derived from \c From.
418   template <typename From>
419   Matcher(const Matcher<From> &Other,
420           typename std::enable_if<std::is_base_of<From, T>::value &&
421                                   !std::is_same<From, T>::value>::type * = 0)
422       : Implementation(restrictMatcher(Other.Implementation)) {
423     assert(Implementation.getSupportedKind().isSame(
424         ast_type_traits::ASTNodeKind::getFromNodeKind<T>()));
425   }
426 
427   /// \brief Implicitly converts \c Matcher<Type> to \c Matcher<QualType>.
428   ///
429   /// The resulting matcher is not strict, i.e. ignores qualifiers.
430   template <typename TypeT>
431   Matcher(const Matcher<TypeT> &Other,
432           typename std::enable_if<
433             std::is_same<T, QualType>::value &&
434             std::is_same<TypeT, Type>::value>::type* = 0)
Implementation(new TypeToQualType<TypeT> (Other))435       : Implementation(new TypeToQualType<TypeT>(Other)) {}
436 
437   /// \brief Convert \c this into a \c Matcher<T> by applying dyn_cast<> to the
438   /// argument.
439   /// \c To must be a base class of \c T.
440   template <typename To>
dynCastTo()441   Matcher<To> dynCastTo() const {
442     static_assert(std::is_base_of<To, T>::value, "Invalid dynCast call.");
443     return Matcher<To>(Implementation);
444   }
445 
446   /// \brief Forwards the call to the underlying MatcherInterface<T> pointer.
matches(const T & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)447   bool matches(const T &Node,
448                ASTMatchFinder *Finder,
449                BoundNodesTreeBuilder *Builder) const {
450     return Implementation.matches(ast_type_traits::DynTypedNode::create(Node),
451                                   Finder, Builder);
452   }
453 
454   /// \brief Returns an ID that uniquely identifies the matcher.
getID()455   DynTypedMatcher::MatcherIDType getID() const {
456     return Implementation.getID();
457   }
458 
459   /// \brief Extract the dynamic matcher.
460   ///
461   /// The returned matcher keeps the same restrictions as \c this and remembers
462   /// that it is meant to support nodes of type \c T.
DynTypedMatcher()463   operator DynTypedMatcher() const { return Implementation; }
464 
465   /// \brief Allows the conversion of a \c Matcher<Type> to a \c
466   /// Matcher<QualType>.
467   ///
468   /// Depending on the constructor argument, the matcher is either strict, i.e.
469   /// does only matches in the absence of qualifiers, or not, i.e. simply
470   /// ignores any qualifiers.
471   template <typename TypeT>
472   class TypeToQualType : public WrapperMatcherInterface<QualType> {
473   public:
TypeToQualType(const Matcher<TypeT> & InnerMatcher)474     TypeToQualType(const Matcher<TypeT> &InnerMatcher)
475         : TypeToQualType::WrapperMatcherInterface(InnerMatcher) {}
476 
matches(const QualType & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)477     bool matches(const QualType &Node, ASTMatchFinder *Finder,
478                  BoundNodesTreeBuilder *Builder) const override {
479       if (Node.isNull())
480         return false;
481       return this->InnerMatcher.matches(
482           ast_type_traits::DynTypedNode::create(*Node), Finder, Builder);
483     }
484   };
485 
486 private:
487   // For Matcher<T> <=> Matcher<U> conversions.
488   template <typename U> friend class Matcher;
489   // For DynTypedMatcher::unconditionalConvertTo<T>.
490   friend class DynTypedMatcher;
491 
restrictMatcher(const DynTypedMatcher & Other)492   static DynTypedMatcher restrictMatcher(const DynTypedMatcher &Other) {
493     return Other.dynCastTo(ast_type_traits::ASTNodeKind::getFromNodeKind<T>());
494   }
495 
Matcher(const DynTypedMatcher & Implementation)496   explicit Matcher(const DynTypedMatcher &Implementation)
497       : Implementation(restrictMatcher(Implementation)) {
498     assert(this->Implementation.getSupportedKind()
499                .isSame(ast_type_traits::ASTNodeKind::getFromNodeKind<T>()));
500   }
501 
502   DynTypedMatcher Implementation;
503 };  // class Matcher
504 
505 /// \brief A convenient helper for creating a Matcher<T> without specifying
506 /// the template type argument.
507 template <typename T>
makeMatcher(MatcherInterface<T> * Implementation)508 inline Matcher<T> makeMatcher(MatcherInterface<T> *Implementation) {
509   return Matcher<T>(Implementation);
510 }
511 
512 /// \brief Specialization of the conversion functions for QualType.
513 ///
514 /// This specialization provides the Matcher<Type>->Matcher<QualType>
515 /// conversion that the static API does.
516 template <>
517 inline Matcher<QualType> DynTypedMatcher::convertTo<QualType>() const {
518   assert(canConvertTo<QualType>());
519   const ast_type_traits::ASTNodeKind SourceKind = getSupportedKind();
520   if (SourceKind.isSame(
521           ast_type_traits::ASTNodeKind::getFromNodeKind<Type>())) {
522     // We support implicit conversion from Matcher<Type> to Matcher<QualType>
523     return unconditionalConvertTo<Type>();
524   }
525   return unconditionalConvertTo<QualType>();
526 }
527 
528 /// \brief Finds the first node in a range that matches the given matcher.
529 template <typename MatcherT, typename IteratorT>
matchesFirstInRange(const MatcherT & Matcher,IteratorT Start,IteratorT End,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)530 bool matchesFirstInRange(const MatcherT &Matcher, IteratorT Start,
531                          IteratorT End, ASTMatchFinder *Finder,
532                          BoundNodesTreeBuilder *Builder) {
533   for (IteratorT I = Start; I != End; ++I) {
534     BoundNodesTreeBuilder Result(*Builder);
535     if (Matcher.matches(*I, Finder, &Result)) {
536       *Builder = std::move(Result);
537       return true;
538     }
539   }
540   return false;
541 }
542 
543 /// \brief Finds the first node in a pointer range that matches the given
544 /// matcher.
545 template <typename MatcherT, typename IteratorT>
matchesFirstInPointerRange(const MatcherT & Matcher,IteratorT Start,IteratorT End,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)546 bool matchesFirstInPointerRange(const MatcherT &Matcher, IteratorT Start,
547                                 IteratorT End, ASTMatchFinder *Finder,
548                                 BoundNodesTreeBuilder *Builder) {
549   for (IteratorT I = Start; I != End; ++I) {
550     BoundNodesTreeBuilder Result(*Builder);
551     if (Matcher.matches(**I, Finder, &Result)) {
552       *Builder = std::move(Result);
553       return true;
554     }
555   }
556   return false;
557 }
558 
559 /// \brief Metafunction to determine if type T has a member called getDecl.
560 template <typename T> struct has_getDecl {
561   struct Default { int getDecl; };
562   struct Derived : T, Default { };
563 
564   template<typename C, C> struct CheckT;
565 
566   // If T::getDecl exists, an ambiguity arises and CheckT will
567   // not be instantiable. This makes f(...) the only available
568   // overload.
569   template<typename C>
570   static char (&f(CheckT<int Default::*, &C::getDecl>*))[1];
571   template<typename C> static char (&f(...))[2];
572 
573   static bool const value = sizeof(f<Derived>(nullptr)) == 2;
574 };
575 
576 /// \brief Matches overloaded operators with a specific name.
577 ///
578 /// The type argument ArgT is not used by this matcher but is used by
579 /// PolymorphicMatcherWithParam1 and should be StringRef.
580 template <typename T, typename ArgT>
581 class HasOverloadedOperatorNameMatcher : public SingleNodeMatcherInterface<T> {
582   static_assert(std::is_same<T, CXXOperatorCallExpr>::value ||
583                 std::is_base_of<FunctionDecl, T>::value,
584                 "unsupported class for matcher");
585   static_assert(std::is_same<ArgT, StringRef>::value,
586                 "argument type must be StringRef");
587 
588 public:
HasOverloadedOperatorNameMatcher(const StringRef Name)589   explicit HasOverloadedOperatorNameMatcher(const StringRef Name)
590       : SingleNodeMatcherInterface<T>(), Name(Name) {}
591 
matchesNode(const T & Node)592   bool matchesNode(const T &Node) const override {
593     return matchesSpecialized(Node);
594   }
595 
596 private:
597 
598   /// \brief CXXOperatorCallExpr exist only for calls to overloaded operators
599   /// so this function returns true if the call is to an operator of the given
600   /// name.
matchesSpecialized(const CXXOperatorCallExpr & Node)601   bool matchesSpecialized(const CXXOperatorCallExpr &Node) const {
602     return getOperatorSpelling(Node.getOperator()) == Name;
603   }
604 
605   /// \brief Returns true only if CXXMethodDecl represents an overloaded
606   /// operator and has the given operator name.
matchesSpecialized(const FunctionDecl & Node)607   bool matchesSpecialized(const FunctionDecl &Node) const {
608     return Node.isOverloadedOperator() &&
609            getOperatorSpelling(Node.getOverloadedOperator()) == Name;
610   }
611 
612   std::string Name;
613 };
614 
615 /// \brief Matches named declarations with a specific name.
616 ///
617 /// See \c hasName() in ASTMatchers.h for details.
618 class HasNameMatcher : public SingleNodeMatcherInterface<NamedDecl> {
619  public:
620   explicit HasNameMatcher(StringRef Name);
621 
622   bool matchesNode(const NamedDecl &Node) const override;
623 
624  private:
625   /// \brief Unqualified match routine.
626   ///
627   /// It is much faster than the full match, but it only works for unqualified
628   /// matches.
629   bool matchesNodeUnqualified(const NamedDecl &Node) const;
630 
631   /// \brief Full match routine
632   ///
633   /// It generates the fully qualified name of the declaration (which is
634   /// expensive) before trying to match.
635   /// It is slower but simple and works on all cases.
636   bool matchesNodeFull(const NamedDecl &Node) const;
637 
638   const bool UseUnqualifiedMatch;
639   const std::string Name;
640 };
641 
642 /// \brief Matches declarations for QualType and CallExpr.
643 ///
644 /// Type argument DeclMatcherT is required by PolymorphicMatcherWithParam1 but
645 /// not actually used.
646 template <typename T, typename DeclMatcherT>
647 class HasDeclarationMatcher : public WrapperMatcherInterface<T> {
648   static_assert(std::is_same<DeclMatcherT, Matcher<Decl>>::value,
649                 "instantiated with wrong types");
650 
651 public:
HasDeclarationMatcher(const Matcher<Decl> & InnerMatcher)652   explicit HasDeclarationMatcher(const Matcher<Decl> &InnerMatcher)
653       : HasDeclarationMatcher::WrapperMatcherInterface(InnerMatcher) {}
654 
matches(const T & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)655   bool matches(const T &Node, ASTMatchFinder *Finder,
656                BoundNodesTreeBuilder *Builder) const override {
657     return matchesSpecialized(Node, Finder, Builder);
658   }
659 
660 private:
661   /// \brief If getDecl exists as a member of U, returns whether the inner
662   /// matcher matches Node.getDecl().
663   template <typename U>
664   bool matchesSpecialized(
665       const U &Node, ASTMatchFinder *Finder, BoundNodesTreeBuilder *Builder,
666       typename std::enable_if<has_getDecl<U>::value, int>::type = 0) const {
667     return matchesDecl(Node.getDecl(), Finder, Builder);
668   }
669 
670   /// \brief Extracts the CXXRecordDecl or EnumDecl of a QualType and returns
671   /// whether the inner matcher matches on it.
matchesSpecialized(const QualType & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)672   bool matchesSpecialized(const QualType &Node, ASTMatchFinder *Finder,
673                           BoundNodesTreeBuilder *Builder) const {
674     /// FIXME: Add other ways to convert...
675     if (Node.isNull())
676       return false;
677     if (const EnumType *AsEnum = dyn_cast<EnumType>(Node.getTypePtr()))
678       return matchesDecl(AsEnum->getDecl(), Finder, Builder);
679     return matchesDecl(Node->getAsCXXRecordDecl(), Finder, Builder);
680   }
681 
682   /// \brief Gets the TemplateDecl from a TemplateSpecializationType
683   /// and returns whether the inner matches on it.
matchesSpecialized(const TemplateSpecializationType & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)684   bool matchesSpecialized(const TemplateSpecializationType &Node,
685                           ASTMatchFinder *Finder,
686                           BoundNodesTreeBuilder *Builder) const {
687     return matchesDecl(Node.getTemplateName().getAsTemplateDecl(),
688                        Finder, Builder);
689   }
690 
691   /// \brief Extracts the Decl of the callee of a CallExpr and returns whether
692   /// the inner matcher matches on it.
matchesSpecialized(const CallExpr & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)693   bool matchesSpecialized(const CallExpr &Node, ASTMatchFinder *Finder,
694                           BoundNodesTreeBuilder *Builder) const {
695     return matchesDecl(Node.getCalleeDecl(), Finder, Builder);
696   }
697 
698   /// \brief Extracts the Decl of the constructor call and returns whether the
699   /// inner matcher matches on it.
matchesSpecialized(const CXXConstructExpr & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)700   bool matchesSpecialized(const CXXConstructExpr &Node,
701                           ASTMatchFinder *Finder,
702                           BoundNodesTreeBuilder *Builder) const {
703     return matchesDecl(Node.getConstructor(), Finder, Builder);
704   }
705 
706   /// \brief Extracts the \c ValueDecl a \c MemberExpr refers to and returns
707   /// whether the inner matcher matches on it.
matchesSpecialized(const MemberExpr & Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)708   bool matchesSpecialized(const MemberExpr &Node,
709                           ASTMatchFinder *Finder,
710                           BoundNodesTreeBuilder *Builder) const {
711     return matchesDecl(Node.getMemberDecl(), Finder, Builder);
712   }
713 
714   /// \brief Returns whether the inner matcher \c Node. Returns false if \c Node
715   /// is \c NULL.
matchesDecl(const Decl * Node,ASTMatchFinder * Finder,BoundNodesTreeBuilder * Builder)716   bool matchesDecl(const Decl *Node, ASTMatchFinder *Finder,
717                    BoundNodesTreeBuilder *Builder) const {
718     return Node != nullptr &&
719            this->InnerMatcher.matches(
720                ast_type_traits::DynTypedNode::create(*Node), Finder, Builder);
721   }
722 };
723 
724 /// \brief IsBaseType<T>::value is true if T is a "base" type in the AST
725 /// node class hierarchies.
726 template <typename T>
727 struct IsBaseType {
728   static const bool value =
729       std::is_same<T, Decl>::value ||
730       std::is_same<T, Stmt>::value ||
731       std::is_same<T, QualType>::value ||
732       std::is_same<T, Type>::value ||
733       std::is_same<T, TypeLoc>::value ||
734       std::is_same<T, NestedNameSpecifier>::value ||
735       std::is_same<T, NestedNameSpecifierLoc>::value ||
736       std::is_same<T, CXXCtorInitializer>::value;
737 };
738 template <typename T>
739 const bool IsBaseType<T>::value;
740 
741 /// \brief Interface that allows matchers to traverse the AST.
742 /// FIXME: Find a better name.
743 ///
744 /// This provides three entry methods for each base node type in the AST:
745 /// - \c matchesChildOf:
746 ///   Matches a matcher on every child node of the given node. Returns true
747 ///   if at least one child node could be matched.
748 /// - \c matchesDescendantOf:
749 ///   Matches a matcher on all descendant nodes of the given node. Returns true
750 ///   if at least one descendant matched.
751 /// - \c matchesAncestorOf:
752 ///   Matches a matcher on all ancestors of the given node. Returns true if
753 ///   at least one ancestor matched.
754 ///
755 /// FIXME: Currently we only allow Stmt and Decl nodes to start a traversal.
756 /// In the future, we wan to implement this for all nodes for which it makes
757 /// sense. In the case of matchesAncestorOf, we'll want to implement it for
758 /// all nodes, as all nodes have ancestors.
759 class ASTMatchFinder {
760 public:
761   /// \brief Defines how we descend a level in the AST when we pass
762   /// through expressions.
763   enum TraversalKind {
764     /// Will traverse any child nodes.
765     TK_AsIs,
766     /// Will not traverse implicit casts and parentheses.
767     TK_IgnoreImplicitCastsAndParentheses
768   };
769 
770   /// \brief Defines how bindings are processed on recursive matches.
771   enum BindKind {
772     /// Stop at the first match and only bind the first match.
773     BK_First,
774     /// Create results for all combinations of bindings that match.
775     BK_All
776   };
777 
778   /// \brief Defines which ancestors are considered for a match.
779   enum AncestorMatchMode {
780     /// All ancestors.
781     AMM_All,
782     /// Direct parent only.
783     AMM_ParentOnly
784   };
785 
~ASTMatchFinder()786   virtual ~ASTMatchFinder() {}
787 
788   /// \brief Returns true if the given class is directly or indirectly derived
789   /// from a base type matching \c base.
790   ///
791   /// A class is considered to be also derived from itself.
792   virtual bool classIsDerivedFrom(const CXXRecordDecl *Declaration,
793                                   const Matcher<NamedDecl> &Base,
794                                   BoundNodesTreeBuilder *Builder) = 0;
795 
796   template <typename T>
matchesChildOf(const T & Node,const DynTypedMatcher & Matcher,BoundNodesTreeBuilder * Builder,TraversalKind Traverse,BindKind Bind)797   bool matchesChildOf(const T &Node,
798                       const DynTypedMatcher &Matcher,
799                       BoundNodesTreeBuilder *Builder,
800                       TraversalKind Traverse,
801                       BindKind Bind) {
802     static_assert(std::is_base_of<Decl, T>::value ||
803                   std::is_base_of<Stmt, T>::value ||
804                   std::is_base_of<NestedNameSpecifier, T>::value ||
805                   std::is_base_of<NestedNameSpecifierLoc, T>::value ||
806                   std::is_base_of<TypeLoc, T>::value ||
807                   std::is_base_of<QualType, T>::value,
808                   "unsupported type for recursive matching");
809    return matchesChildOf(ast_type_traits::DynTypedNode::create(Node),
810                           Matcher, Builder, Traverse, Bind);
811   }
812 
813   template <typename T>
matchesDescendantOf(const T & Node,const DynTypedMatcher & Matcher,BoundNodesTreeBuilder * Builder,BindKind Bind)814   bool matchesDescendantOf(const T &Node,
815                            const DynTypedMatcher &Matcher,
816                            BoundNodesTreeBuilder *Builder,
817                            BindKind Bind) {
818     static_assert(std::is_base_of<Decl, T>::value ||
819                   std::is_base_of<Stmt, T>::value ||
820                   std::is_base_of<NestedNameSpecifier, T>::value ||
821                   std::is_base_of<NestedNameSpecifierLoc, T>::value ||
822                   std::is_base_of<TypeLoc, T>::value ||
823                   std::is_base_of<QualType, T>::value,
824                   "unsupported type for recursive matching");
825     return matchesDescendantOf(ast_type_traits::DynTypedNode::create(Node),
826                                Matcher, Builder, Bind);
827   }
828 
829   // FIXME: Implement support for BindKind.
830   template <typename T>
matchesAncestorOf(const T & Node,const DynTypedMatcher & Matcher,BoundNodesTreeBuilder * Builder,AncestorMatchMode MatchMode)831   bool matchesAncestorOf(const T &Node,
832                          const DynTypedMatcher &Matcher,
833                          BoundNodesTreeBuilder *Builder,
834                          AncestorMatchMode MatchMode) {
835     static_assert(std::is_base_of<Decl, T>::value ||
836                   std::is_base_of<Stmt, T>::value,
837                   "only Decl or Stmt allowed for recursive matching");
838     return matchesAncestorOf(ast_type_traits::DynTypedNode::create(Node),
839                              Matcher, Builder, MatchMode);
840   }
841 
842   virtual ASTContext &getASTContext() const = 0;
843 
844 protected:
845   virtual bool matchesChildOf(const ast_type_traits::DynTypedNode &Node,
846                               const DynTypedMatcher &Matcher,
847                               BoundNodesTreeBuilder *Builder,
848                               TraversalKind Traverse,
849                               BindKind Bind) = 0;
850 
851   virtual bool matchesDescendantOf(const ast_type_traits::DynTypedNode &Node,
852                                    const DynTypedMatcher &Matcher,
853                                    BoundNodesTreeBuilder *Builder,
854                                    BindKind Bind) = 0;
855 
856   virtual bool matchesAncestorOf(const ast_type_traits::DynTypedNode &Node,
857                                  const DynTypedMatcher &Matcher,
858                                  BoundNodesTreeBuilder *Builder,
859                                  AncestorMatchMode MatchMode) = 0;
860 };
861 
862 /// \brief A type-list implementation.
863 ///
864 /// A "linked list" of types, accessible by using the ::head and ::tail
865 /// typedefs.
866 template <typename... Ts> struct TypeList {}; // Empty sentinel type list.
867 
868 template <typename T1, typename... Ts> struct TypeList<T1, Ts...> {
869   /// \brief The first type on the list.
870   typedef T1 head;
871 
872   /// \brief A sublist with the tail. ie everything but the head.
873   ///
874   /// This type is used to do recursion. TypeList<>/EmptyTypeList indicates the
875   /// end of the list.
876   typedef TypeList<Ts...> tail;
877 };
878 
879 /// \brief The empty type list.
880 typedef TypeList<> EmptyTypeList;
881 
882 /// \brief Helper meta-function to determine if some type \c T is present or
883 ///   a parent type in the list.
884 template <typename AnyTypeList, typename T>
885 struct TypeListContainsSuperOf {
886   static const bool value =
887       std::is_base_of<typename AnyTypeList::head, T>::value ||
888       TypeListContainsSuperOf<typename AnyTypeList::tail, T>::value;
889 };
890 template <typename T>
891 struct TypeListContainsSuperOf<EmptyTypeList, T> {
892   static const bool value = false;
893 };
894 
895 /// \brief A "type list" that contains all types.
896 ///
897 /// Useful for matchers like \c anything and \c unless.
898 typedef TypeList<Decl, Stmt, NestedNameSpecifier, NestedNameSpecifierLoc,
899                  QualType, Type, TypeLoc, CXXCtorInitializer> AllNodeBaseTypes;
900 
901 /// \brief Helper meta-function to extract the argument out of a function of
902 ///   type void(Arg).
903 ///
904 /// See AST_POLYMORPHIC_SUPPORTED_TYPES for details.
905 template <class T> struct ExtractFunctionArgMeta;
906 template <class T> struct ExtractFunctionArgMeta<void(T)> {
907   typedef T type;
908 };
909 
910 /// \brief Default type lists for ArgumentAdaptingMatcher matchers.
911 typedef AllNodeBaseTypes AdaptativeDefaultFromTypes;
912 typedef TypeList<Decl, Stmt, NestedNameSpecifier, NestedNameSpecifierLoc,
913                  TypeLoc, QualType> AdaptativeDefaultToTypes;
914 
915 /// \brief All types that are supported by HasDeclarationMatcher above.
916 typedef TypeList<CallExpr, CXXConstructExpr, DeclRefExpr, EnumType,
917                  InjectedClassNameType, LabelStmt, MemberExpr, QualType,
918                  RecordType, TagType, TemplateSpecializationType,
919                  TemplateTypeParmType, TypedefType,
920                  UnresolvedUsingType> HasDeclarationSupportedTypes;
921 
922 /// \brief Converts a \c Matcher<T> to a matcher of desired type \c To by
923 /// "adapting" a \c To into a \c T.
924 ///
925 /// The \c ArgumentAdapterT argument specifies how the adaptation is done.
926 ///
927 /// For example:
928 ///   \c ArgumentAdaptingMatcher<HasMatcher, T>(InnerMatcher);
929 /// Given that \c InnerMatcher is of type \c Matcher<T>, this returns a matcher
930 /// that is convertible into any matcher of type \c To by constructing
931 /// \c HasMatcher<To, T>(InnerMatcher).
932 ///
933 /// If a matcher does not need knowledge about the inner type, prefer to use
934 /// PolymorphicMatcherWithParam1.
935 template <template <typename ToArg, typename FromArg> class ArgumentAdapterT,
936           typename FromTypes = AdaptativeDefaultFromTypes,
937           typename ToTypes = AdaptativeDefaultToTypes>
938 struct ArgumentAdaptingMatcherFunc {
939   template <typename T> class Adaptor {
940   public:
941     explicit Adaptor(const Matcher<T> &InnerMatcher)
942         : InnerMatcher(InnerMatcher) {}
943 
944     typedef ToTypes ReturnTypes;
945 
946     template <typename To> operator Matcher<To>() const {
947       return Matcher<To>(new ArgumentAdapterT<To, T>(InnerMatcher));
948     }
949 
950   private:
951     const Matcher<T> InnerMatcher;
952   };
953 
954   template <typename T>
955   static Adaptor<T> create(const Matcher<T> &InnerMatcher) {
956     return Adaptor<T>(InnerMatcher);
957   }
958 
959   template <typename T>
960   Adaptor<T> operator()(const Matcher<T> &InnerMatcher) const {
961     return create(InnerMatcher);
962   }
963 };
964 
965 /// \brief A PolymorphicMatcherWithParamN<MatcherT, P1, ..., PN> object can be
966 /// created from N parameters p1, ..., pN (of type P1, ..., PN) and
967 /// used as a Matcher<T> where a MatcherT<T, P1, ..., PN>(p1, ..., pN)
968 /// can be constructed.
969 ///
970 /// For example:
971 /// - PolymorphicMatcherWithParam0<IsDefinitionMatcher>()
972 ///   creates an object that can be used as a Matcher<T> for any type T
973 ///   where an IsDefinitionMatcher<T>() can be constructed.
974 /// - PolymorphicMatcherWithParam1<ValueEqualsMatcher, int>(42)
975 ///   creates an object that can be used as a Matcher<T> for any type T
976 ///   where a ValueEqualsMatcher<T, int>(42) can be constructed.
977 template <template <typename T> class MatcherT,
978           typename ReturnTypesF = void(AllNodeBaseTypes)>
979 class PolymorphicMatcherWithParam0 {
980 public:
981   typedef typename ExtractFunctionArgMeta<ReturnTypesF>::type ReturnTypes;
982   template <typename T>
983   operator Matcher<T>() const {
984     static_assert(TypeListContainsSuperOf<ReturnTypes, T>::value,
985                   "right polymorphic conversion");
986     return Matcher<T>(new MatcherT<T>());
987   }
988 };
989 
990 template <template <typename T, typename P1> class MatcherT,
991           typename P1,
992           typename ReturnTypesF = void(AllNodeBaseTypes)>
993 class PolymorphicMatcherWithParam1 {
994 public:
995   explicit PolymorphicMatcherWithParam1(const P1 &Param1)
996       : Param1(Param1) {}
997 
998   typedef typename ExtractFunctionArgMeta<ReturnTypesF>::type ReturnTypes;
999 
1000   template <typename T>
1001   operator Matcher<T>() const {
1002     static_assert(TypeListContainsSuperOf<ReturnTypes, T>::value,
1003                   "right polymorphic conversion");
1004     return Matcher<T>(new MatcherT<T, P1>(Param1));
1005   }
1006 
1007 private:
1008   const P1 Param1;
1009 };
1010 
1011 template <template <typename T, typename P1, typename P2> class MatcherT,
1012           typename P1, typename P2,
1013           typename ReturnTypesF = void(AllNodeBaseTypes)>
1014 class PolymorphicMatcherWithParam2 {
1015 public:
1016   PolymorphicMatcherWithParam2(const P1 &Param1, const P2 &Param2)
1017       : Param1(Param1), Param2(Param2) {}
1018 
1019   typedef typename ExtractFunctionArgMeta<ReturnTypesF>::type ReturnTypes;
1020 
1021   template <typename T>
1022   operator Matcher<T>() const {
1023     static_assert(TypeListContainsSuperOf<ReturnTypes, T>::value,
1024                   "right polymorphic conversion");
1025     return Matcher<T>(new MatcherT<T, P1, P2>(Param1, Param2));
1026   }
1027 
1028 private:
1029   const P1 Param1;
1030   const P2 Param2;
1031 };
1032 
1033 /// \brief Matches any instance of the given NodeType.
1034 ///
1035 /// This is useful when a matcher syntactically requires a child matcher,
1036 /// but the context doesn't care. See for example: anything().
1037 class TrueMatcher {
1038  public:
1039   typedef AllNodeBaseTypes ReturnTypes;
1040 
1041   template <typename T>
1042   operator Matcher<T>() const {
1043     return DynTypedMatcher::trueMatcher(
1044                ast_type_traits::ASTNodeKind::getFromNodeKind<T>())
1045         .template unconditionalConvertTo<T>();
1046   }
1047 };
1048 
1049 /// \brief A Matcher that allows binding the node it matches to an id.
1050 ///
1051 /// BindableMatcher provides a \a bind() method that allows binding the
1052 /// matched node to an id if the match was successful.
1053 template <typename T>
1054 class BindableMatcher : public Matcher<T> {
1055 public:
1056   explicit BindableMatcher(const Matcher<T> &M) : Matcher<T>(M) {}
1057   explicit BindableMatcher(MatcherInterface<T> *Implementation)
1058     : Matcher<T>(Implementation) {}
1059 
1060   /// \brief Returns a matcher that will bind the matched node on a match.
1061   ///
1062   /// The returned matcher is equivalent to this matcher, but will
1063   /// bind the matched node on a match.
1064   Matcher<T> bind(StringRef ID) const {
1065     return DynTypedMatcher(*this)
1066         .tryBind(ID)
1067         ->template unconditionalConvertTo<T>();
1068   }
1069 
1070   /// \brief Same as Matcher<T>'s conversion operator, but enables binding on
1071   /// the returned matcher.
1072   operator DynTypedMatcher() const {
1073     DynTypedMatcher Result = static_cast<const Matcher<T>&>(*this);
1074     Result.setAllowBind(true);
1075     return Result;
1076   }
1077 };
1078 
1079 /// \brief Matches nodes of type T that have child nodes of type ChildT for
1080 /// which a specified child matcher matches.
1081 ///
1082 /// ChildT must be an AST base type.
1083 template <typename T, typename ChildT>
1084 class HasMatcher : public WrapperMatcherInterface<T> {
1085   static_assert(IsBaseType<ChildT>::value,
1086                 "has only accepts base type matcher");
1087 
1088 public:
1089   explicit HasMatcher(const Matcher<ChildT> &ChildMatcher)
1090       : HasMatcher::WrapperMatcherInterface(ChildMatcher) {}
1091 
1092   bool matches(const T &Node, ASTMatchFinder *Finder,
1093                BoundNodesTreeBuilder *Builder) const override {
1094     return Finder->matchesChildOf(
1095         Node, this->InnerMatcher, Builder,
1096         ASTMatchFinder::TK_IgnoreImplicitCastsAndParentheses,
1097         ASTMatchFinder::BK_First);
1098   }
1099 };
1100 
1101 /// \brief Matches nodes of type T that have child nodes of type ChildT for
1102 /// which a specified child matcher matches. ChildT must be an AST base
1103 /// type.
1104 /// As opposed to the HasMatcher, the ForEachMatcher will produce a match
1105 /// for each child that matches.
1106 template <typename T, typename ChildT>
1107 class ForEachMatcher : public WrapperMatcherInterface<T> {
1108   static_assert(IsBaseType<ChildT>::value,
1109                 "for each only accepts base type matcher");
1110 
1111  public:
1112    explicit ForEachMatcher(const Matcher<ChildT> &ChildMatcher)
1113        : ForEachMatcher::WrapperMatcherInterface(ChildMatcher) {}
1114 
1115   bool matches(const T& Node, ASTMatchFinder* Finder,
1116                BoundNodesTreeBuilder* Builder) const override {
1117     return Finder->matchesChildOf(
1118         Node, this->InnerMatcher, Builder,
1119         ASTMatchFinder::TK_IgnoreImplicitCastsAndParentheses,
1120         ASTMatchFinder::BK_All);
1121   }
1122 };
1123 
1124 /// \brief VariadicOperatorMatcher related types.
1125 /// @{
1126 
1127 /// \brief Polymorphic matcher object that uses a \c
1128 /// DynTypedMatcher::VariadicOperator operator.
1129 ///
1130 /// Input matchers can have any type (including other polymorphic matcher
1131 /// types), and the actual Matcher<T> is generated on demand with an implicit
1132 /// coversion operator.
1133 template <typename... Ps> class VariadicOperatorMatcher {
1134 public:
1135   VariadicOperatorMatcher(DynTypedMatcher::VariadicOperator Op, Ps &&... Params)
1136       : Op(Op), Params(std::forward<Ps>(Params)...) {}
1137 
1138   template <typename T> operator Matcher<T>() const {
1139     return DynTypedMatcher::constructVariadic(
1140                Op, getMatchers<T>(llvm::index_sequence_for<Ps...>()))
1141         .template unconditionalConvertTo<T>();
1142   }
1143 
1144 private:
1145   // Helper method to unpack the tuple into a vector.
1146   template <typename T, std::size_t... Is>
1147   std::vector<DynTypedMatcher> getMatchers(llvm::index_sequence<Is...>) const {
1148     return {Matcher<T>(std::get<Is>(Params))...};
1149   }
1150 
1151   const DynTypedMatcher::VariadicOperator Op;
1152   std::tuple<Ps...> Params;
1153 };
1154 
1155 /// \brief Overloaded function object to generate VariadicOperatorMatcher
1156 ///   objects from arbitrary matchers.
1157 template <unsigned MinCount, unsigned MaxCount>
1158 struct VariadicOperatorMatcherFunc {
1159   DynTypedMatcher::VariadicOperator Op;
1160 
1161   template <typename... Ms>
1162   VariadicOperatorMatcher<Ms...> operator()(Ms &&... Ps) const {
1163     static_assert(MinCount <= sizeof...(Ms) && sizeof...(Ms) <= MaxCount,
1164                   "invalid number of parameters for variadic matcher");
1165     return VariadicOperatorMatcher<Ms...>(Op, std::forward<Ms>(Ps)...);
1166   }
1167 };
1168 
1169 /// @}
1170 
1171 template <typename T>
1172 inline Matcher<T> DynTypedMatcher::unconditionalConvertTo() const {
1173   return Matcher<T>(*this);
1174 }
1175 
1176 /// \brief Creates a Matcher<T> that matches if all inner matchers match.
1177 template<typename T>
1178 BindableMatcher<T> makeAllOfComposite(
1179     ArrayRef<const Matcher<T> *> InnerMatchers) {
1180   // For the size() == 0 case, we return a "true" matcher.
1181   if (InnerMatchers.size() == 0) {
1182     return BindableMatcher<T>(TrueMatcher());
1183   }
1184   // For the size() == 1 case, we simply return that one matcher.
1185   // No need to wrap it in a variadic operation.
1186   if (InnerMatchers.size() == 1) {
1187     return BindableMatcher<T>(*InnerMatchers[0]);
1188   }
1189 
1190   typedef llvm::pointee_iterator<const Matcher<T> *const *> PI;
1191   std::vector<DynTypedMatcher> DynMatchers(PI(InnerMatchers.begin()),
1192                                            PI(InnerMatchers.end()));
1193   return BindableMatcher<T>(
1194       DynTypedMatcher::constructVariadic(DynTypedMatcher::VO_AllOf,
1195                                          std::move(DynMatchers))
1196           .template unconditionalConvertTo<T>());
1197 }
1198 
1199 /// \brief Creates a Matcher<T> that matches if
1200 /// T is dyn_cast'able into InnerT and all inner matchers match.
1201 ///
1202 /// Returns BindableMatcher, as matchers that use dyn_cast have
1203 /// the same object both to match on and to run submatchers on,
1204 /// so there is no ambiguity with what gets bound.
1205 template<typename T, typename InnerT>
1206 BindableMatcher<T> makeDynCastAllOfComposite(
1207     ArrayRef<const Matcher<InnerT> *> InnerMatchers) {
1208   return BindableMatcher<T>(
1209       makeAllOfComposite(InnerMatchers).template dynCastTo<T>());
1210 }
1211 
1212 /// \brief Matches nodes of type T that have at least one descendant node of
1213 /// type DescendantT for which the given inner matcher matches.
1214 ///
1215 /// DescendantT must be an AST base type.
1216 template <typename T, typename DescendantT>
1217 class HasDescendantMatcher : public WrapperMatcherInterface<T> {
1218   static_assert(IsBaseType<DescendantT>::value,
1219                 "has descendant only accepts base type matcher");
1220 
1221 public:
1222   explicit HasDescendantMatcher(const Matcher<DescendantT> &DescendantMatcher)
1223       : HasDescendantMatcher::WrapperMatcherInterface(DescendantMatcher) {}
1224 
1225   bool matches(const T &Node, ASTMatchFinder *Finder,
1226                BoundNodesTreeBuilder *Builder) const override {
1227     return Finder->matchesDescendantOf(Node, this->InnerMatcher, Builder,
1228                                        ASTMatchFinder::BK_First);
1229   }
1230 };
1231 
1232 /// \brief Matches nodes of type \c T that have a parent node of type \c ParentT
1233 /// for which the given inner matcher matches.
1234 ///
1235 /// \c ParentT must be an AST base type.
1236 template <typename T, typename ParentT>
1237 class HasParentMatcher : public WrapperMatcherInterface<T> {
1238   static_assert(IsBaseType<ParentT>::value,
1239                 "has parent only accepts base type matcher");
1240 
1241 public:
1242   explicit HasParentMatcher(const Matcher<ParentT> &ParentMatcher)
1243       : HasParentMatcher::WrapperMatcherInterface(ParentMatcher) {}
1244 
1245   bool matches(const T &Node, ASTMatchFinder *Finder,
1246                BoundNodesTreeBuilder *Builder) const override {
1247     return Finder->matchesAncestorOf(Node, this->InnerMatcher, Builder,
1248                                      ASTMatchFinder::AMM_ParentOnly);
1249   }
1250 };
1251 
1252 /// \brief Matches nodes of type \c T that have at least one ancestor node of
1253 /// type \c AncestorT for which the given inner matcher matches.
1254 ///
1255 /// \c AncestorT must be an AST base type.
1256 template <typename T, typename AncestorT>
1257 class HasAncestorMatcher : public WrapperMatcherInterface<T> {
1258   static_assert(IsBaseType<AncestorT>::value,
1259                 "has ancestor only accepts base type matcher");
1260 
1261 public:
1262   explicit HasAncestorMatcher(const Matcher<AncestorT> &AncestorMatcher)
1263       : HasAncestorMatcher::WrapperMatcherInterface(AncestorMatcher) {}
1264 
1265   bool matches(const T &Node, ASTMatchFinder *Finder,
1266                BoundNodesTreeBuilder *Builder) const override {
1267     return Finder->matchesAncestorOf(Node, this->InnerMatcher, Builder,
1268                                      ASTMatchFinder::AMM_All);
1269   }
1270 };
1271 
1272 /// \brief Matches nodes of type T that have at least one descendant node of
1273 /// type DescendantT for which the given inner matcher matches.
1274 ///
1275 /// DescendantT must be an AST base type.
1276 /// As opposed to HasDescendantMatcher, ForEachDescendantMatcher will match
1277 /// for each descendant node that matches instead of only for the first.
1278 template <typename T, typename DescendantT>
1279 class ForEachDescendantMatcher : public WrapperMatcherInterface<T> {
1280   static_assert(IsBaseType<DescendantT>::value,
1281                 "for each descendant only accepts base type matcher");
1282 
1283 public:
1284   explicit ForEachDescendantMatcher(
1285       const Matcher<DescendantT> &DescendantMatcher)
1286       : ForEachDescendantMatcher::WrapperMatcherInterface(DescendantMatcher) {}
1287 
1288   bool matches(const T &Node, ASTMatchFinder *Finder,
1289                BoundNodesTreeBuilder *Builder) const override {
1290     return Finder->matchesDescendantOf(Node, this->InnerMatcher, Builder,
1291                                        ASTMatchFinder::BK_All);
1292   }
1293 };
1294 
1295 /// \brief Matches on nodes that have a getValue() method if getValue() equals
1296 /// the value the ValueEqualsMatcher was constructed with.
1297 template <typename T, typename ValueT>
1298 class ValueEqualsMatcher : public SingleNodeMatcherInterface<T> {
1299   static_assert(std::is_base_of<CharacterLiteral, T>::value ||
1300                 std::is_base_of<CXXBoolLiteralExpr, T>::value ||
1301                 std::is_base_of<FloatingLiteral, T>::value ||
1302                 std::is_base_of<IntegerLiteral, T>::value,
1303                 "the node must have a getValue method");
1304 
1305 public:
1306   explicit ValueEqualsMatcher(const ValueT &ExpectedValue)
1307       : ExpectedValue(ExpectedValue) {}
1308 
1309   bool matchesNode(const T &Node) const override {
1310     return Node.getValue() == ExpectedValue;
1311   }
1312 
1313 private:
1314   const ValueT ExpectedValue;
1315 };
1316 
1317 /// \brief Template specializations to easily write matchers for floating point
1318 /// literals.
1319 template <>
1320 inline bool ValueEqualsMatcher<FloatingLiteral, double>::matchesNode(
1321     const FloatingLiteral &Node) const {
1322   if ((&Node.getSemantics()) == &llvm::APFloat::IEEEsingle)
1323     return Node.getValue().convertToFloat() == ExpectedValue;
1324   if ((&Node.getSemantics()) == &llvm::APFloat::IEEEdouble)
1325     return Node.getValue().convertToDouble() == ExpectedValue;
1326   return false;
1327 }
1328 template <>
1329 inline bool ValueEqualsMatcher<FloatingLiteral, float>::matchesNode(
1330     const FloatingLiteral &Node) const {
1331   if ((&Node.getSemantics()) == &llvm::APFloat::IEEEsingle)
1332     return Node.getValue().convertToFloat() == ExpectedValue;
1333   if ((&Node.getSemantics()) == &llvm::APFloat::IEEEdouble)
1334     return Node.getValue().convertToDouble() == ExpectedValue;
1335   return false;
1336 }
1337 template <>
1338 inline bool ValueEqualsMatcher<FloatingLiteral, llvm::APFloat>::matchesNode(
1339     const FloatingLiteral &Node) const {
1340   return ExpectedValue.compare(Node.getValue()) == llvm::APFloat::cmpEqual;
1341 }
1342 
1343 /// \brief A VariadicDynCastAllOfMatcher<SourceT, TargetT> object is a
1344 /// variadic functor that takes a number of Matcher<TargetT> and returns a
1345 /// Matcher<SourceT> that matches TargetT nodes that are matched by all of the
1346 /// given matchers, if SourceT can be dynamically casted into TargetT.
1347 ///
1348 /// For example:
1349 ///   const VariadicDynCastAllOfMatcher<
1350 ///       Decl, CXXRecordDecl> record;
1351 /// Creates a functor record(...) that creates a Matcher<Decl> given
1352 /// a variable number of arguments of type Matcher<CXXRecordDecl>.
1353 /// The returned matcher matches if the given Decl can by dynamically
1354 /// casted to CXXRecordDecl and all given matchers match.
1355 template <typename SourceT, typename TargetT>
1356 class VariadicDynCastAllOfMatcher
1357     : public llvm::VariadicFunction<
1358         BindableMatcher<SourceT>, Matcher<TargetT>,
1359         makeDynCastAllOfComposite<SourceT, TargetT> > {
1360 public:
1361   VariadicDynCastAllOfMatcher() {}
1362 };
1363 
1364 /// \brief A \c VariadicAllOfMatcher<T> object is a variadic functor that takes
1365 /// a number of \c Matcher<T> and returns a \c Matcher<T> that matches \c T
1366 /// nodes that are matched by all of the given matchers.
1367 ///
1368 /// For example:
1369 ///   const VariadicAllOfMatcher<NestedNameSpecifier> nestedNameSpecifier;
1370 /// Creates a functor nestedNameSpecifier(...) that creates a
1371 /// \c Matcher<NestedNameSpecifier> given a variable number of arguments of type
1372 /// \c Matcher<NestedNameSpecifier>.
1373 /// The returned matcher matches if all given matchers match.
1374 template <typename T>
1375 class VariadicAllOfMatcher : public llvm::VariadicFunction<
1376                                BindableMatcher<T>, Matcher<T>,
1377                                makeAllOfComposite<T> > {
1378 public:
1379   VariadicAllOfMatcher() {}
1380 };
1381 
1382 /// \brief Matches nodes of type \c TLoc for which the inner
1383 /// \c Matcher<T> matches.
1384 template <typename TLoc, typename T>
1385 class LocMatcher : public WrapperMatcherInterface<TLoc> {
1386 public:
1387   explicit LocMatcher(const Matcher<T> &InnerMatcher)
1388       : LocMatcher::WrapperMatcherInterface(InnerMatcher) {}
1389 
1390   bool matches(const TLoc &Node, ASTMatchFinder *Finder,
1391                BoundNodesTreeBuilder *Builder) const override {
1392     if (!Node)
1393       return false;
1394     return this->InnerMatcher.matches(extract(Node), Finder, Builder);
1395   }
1396 
1397 private:
1398   static ast_type_traits::DynTypedNode
1399   extract(const NestedNameSpecifierLoc &Loc) {
1400     return ast_type_traits::DynTypedNode::create(*Loc.getNestedNameSpecifier());
1401   }
1402 };
1403 
1404 /// \brief Matches \c TypeLocs based on an inner matcher matching a certain
1405 /// \c QualType.
1406 ///
1407 /// Used to implement the \c loc() matcher.
1408 class TypeLocTypeMatcher : public WrapperMatcherInterface<TypeLoc> {
1409 public:
1410   explicit TypeLocTypeMatcher(const Matcher<QualType> &InnerMatcher)
1411       : TypeLocTypeMatcher::WrapperMatcherInterface(InnerMatcher) {}
1412 
1413   bool matches(const TypeLoc &Node, ASTMatchFinder *Finder,
1414                BoundNodesTreeBuilder *Builder) const override {
1415     if (!Node)
1416       return false;
1417     return this->InnerMatcher.matches(
1418         ast_type_traits::DynTypedNode::create(Node.getType()), Finder, Builder);
1419   }
1420 };
1421 
1422 /// \brief Matches nodes of type \c T for which the inner matcher matches on a
1423 /// another node of type \c T that can be reached using a given traverse
1424 /// function.
1425 template <typename T>
1426 class TypeTraverseMatcher : public WrapperMatcherInterface<T> {
1427 public:
1428   explicit TypeTraverseMatcher(const Matcher<QualType> &InnerMatcher,
1429                                QualType (T::*TraverseFunction)() const)
1430       : TypeTraverseMatcher::WrapperMatcherInterface(InnerMatcher),
1431         TraverseFunction(TraverseFunction) {}
1432 
1433   bool matches(const T &Node, ASTMatchFinder *Finder,
1434                BoundNodesTreeBuilder *Builder) const override {
1435     QualType NextNode = (Node.*TraverseFunction)();
1436     if (NextNode.isNull())
1437       return false;
1438     return this->InnerMatcher.matches(
1439         ast_type_traits::DynTypedNode::create(NextNode), Finder, Builder);
1440   }
1441 
1442 private:
1443   QualType (T::*TraverseFunction)() const;
1444 };
1445 
1446 /// \brief Matches nodes of type \c T in a ..Loc hierarchy, for which the inner
1447 /// matcher matches on a another node of type \c T that can be reached using a
1448 /// given traverse function.
1449 template <typename T>
1450 class TypeLocTraverseMatcher : public WrapperMatcherInterface<T> {
1451 public:
1452   explicit TypeLocTraverseMatcher(const Matcher<TypeLoc> &InnerMatcher,
1453                                   TypeLoc (T::*TraverseFunction)() const)
1454       : TypeLocTraverseMatcher::WrapperMatcherInterface(InnerMatcher),
1455         TraverseFunction(TraverseFunction) {}
1456 
1457   bool matches(const T &Node, ASTMatchFinder *Finder,
1458                BoundNodesTreeBuilder *Builder) const override {
1459     TypeLoc NextNode = (Node.*TraverseFunction)();
1460     if (!NextNode)
1461       return false;
1462     return this->InnerMatcher.matches(
1463         ast_type_traits::DynTypedNode::create(NextNode), Finder, Builder);
1464   }
1465 
1466 private:
1467   TypeLoc (T::*TraverseFunction)() const;
1468 };
1469 
1470 /// \brief Converts a \c Matcher<InnerT> to a \c Matcher<OuterT>, where
1471 /// \c OuterT is any type that is supported by \c Getter.
1472 ///
1473 /// \code Getter<OuterT>::value() \endcode returns a
1474 /// \code InnerTBase (OuterT::*)() \endcode, which is used to adapt a \c OuterT
1475 /// object into a \c InnerT
1476 template <typename InnerTBase,
1477           template <typename OuterT> class Getter,
1478           template <typename OuterT> class MatcherImpl,
1479           typename ReturnTypesF>
1480 class TypeTraversePolymorphicMatcher {
1481 private:
1482   typedef TypeTraversePolymorphicMatcher<InnerTBase, Getter, MatcherImpl,
1483                                          ReturnTypesF> Self;
1484   static Self create(ArrayRef<const Matcher<InnerTBase> *> InnerMatchers);
1485 
1486 public:
1487   typedef typename ExtractFunctionArgMeta<ReturnTypesF>::type ReturnTypes;
1488 
1489   explicit TypeTraversePolymorphicMatcher(
1490       ArrayRef<const Matcher<InnerTBase> *> InnerMatchers)
1491       : InnerMatcher(makeAllOfComposite(InnerMatchers)) {}
1492 
1493   template <typename OuterT> operator Matcher<OuterT>() const {
1494     return Matcher<OuterT>(
1495         new MatcherImpl<OuterT>(InnerMatcher, Getter<OuterT>::value()));
1496   }
1497 
1498   struct Func : public llvm::VariadicFunction<Self, Matcher<InnerTBase>,
1499                                               &Self::create> {
1500     Func() {}
1501   };
1502 
1503 private:
1504   const Matcher<InnerTBase> InnerMatcher;
1505 };
1506 
1507 /// \brief A simple memoizer of T(*)() functions.
1508 ///
1509 /// It will call the passed 'Func' template parameter at most once.
1510 /// Used to support AST_MATCHER_FUNCTION() macro.
1511 template <typename Matcher, Matcher (*Func)()> class MemoizedMatcher {
1512   struct Wrapper {
1513     Wrapper() : M(Func()) {}
1514     Matcher M;
1515   };
1516 
1517 public:
1518   static const Matcher &getInstance() {
1519     static llvm::ManagedStatic<Wrapper> Instance;
1520     return Instance->M;
1521   }
1522 };
1523 
1524 // Define the create() method out of line to silence a GCC warning about
1525 // the struct "Func" having greater visibility than its base, which comes from
1526 // using the flag -fvisibility-inlines-hidden.
1527 template <typename InnerTBase, template <typename OuterT> class Getter,
1528           template <typename OuterT> class MatcherImpl, typename ReturnTypesF>
1529 TypeTraversePolymorphicMatcher<InnerTBase, Getter, MatcherImpl, ReturnTypesF>
1530 TypeTraversePolymorphicMatcher<
1531     InnerTBase, Getter, MatcherImpl,
1532     ReturnTypesF>::create(ArrayRef<const Matcher<InnerTBase> *> InnerMatchers) {
1533   return Self(InnerMatchers);
1534 }
1535 
1536 // FIXME: unify ClassTemplateSpecializationDecl and TemplateSpecializationType's
1537 // APIs for accessing the template argument list.
1538 inline ArrayRef<TemplateArgument>
1539 getTemplateSpecializationArgs(const ClassTemplateSpecializationDecl &D) {
1540   return D.getTemplateArgs().asArray();
1541 }
1542 
1543 inline ArrayRef<TemplateArgument>
1544 getTemplateSpecializationArgs(const TemplateSpecializationType &T) {
1545   return llvm::makeArrayRef(T.getArgs(), T.getNumArgs());
1546 }
1547 
1548 struct NotEqualsBoundNodePredicate {
1549   bool operator()(const internal::BoundNodesMap &Nodes) const {
1550     return Nodes.getNode(ID) != Node;
1551   }
1552   std::string ID;
1553   ast_type_traits::DynTypedNode Node;
1554 };
1555 
1556 } // end namespace internal
1557 } // end namespace ast_matchers
1558 } // end namespace clang
1559 
1560 #endif
1561