1 //===--- RecursiveASTVisitor.h - Recursive AST Visitor ----------*- 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 defines the RecursiveASTVisitor interface, which recursively 11 // traverses the entire AST. 12 // 13 //===----------------------------------------------------------------------===// 14 #ifndef LLVM_CLANG_AST_RECURSIVEASTVISITOR_H 15 #define LLVM_CLANG_AST_RECURSIVEASTVISITOR_H 16 17 #include "clang/AST/Attr.h" 18 #include "clang/AST/Decl.h" 19 #include "clang/AST/DeclarationName.h" 20 #include "clang/AST/DeclBase.h" 21 #include "clang/AST/DeclCXX.h" 22 #include "clang/AST/DeclFriend.h" 23 #include "clang/AST/DeclObjC.h" 24 #include "clang/AST/DeclOpenMP.h" 25 #include "clang/AST/DeclTemplate.h" 26 #include "clang/AST/Expr.h" 27 #include "clang/AST/ExprCXX.h" 28 #include "clang/AST/ExprObjC.h" 29 #include "clang/AST/ExprOpenMP.h" 30 #include "clang/AST/LambdaCapture.h" 31 #include "clang/AST/NestedNameSpecifier.h" 32 #include "clang/AST/OpenMPClause.h" 33 #include "clang/AST/Stmt.h" 34 #include "clang/AST/StmtCXX.h" 35 #include "clang/AST/StmtObjC.h" 36 #include "clang/AST/StmtOpenMP.h" 37 #include "clang/AST/TemplateBase.h" 38 #include "clang/AST/TemplateName.h" 39 #include "clang/AST/Type.h" 40 #include "clang/AST/TypeLoc.h" 41 #include "clang/Basic/LLVM.h" 42 #include "clang/Basic/OpenMPKinds.h" 43 #include "clang/Basic/Specifiers.h" 44 #include "llvm/ADT/PointerIntPair.h" 45 #include "llvm/ADT/SmallVector.h" 46 #include "llvm/Support/Casting.h" 47 #include <algorithm> 48 #include <cstddef> 49 #include <type_traits> 50 51 // The following three macros are used for meta programming. The code 52 // using them is responsible for defining macro OPERATOR(). 53 54 // All unary operators. 55 #define UNARYOP_LIST() \ 56 OPERATOR(PostInc) OPERATOR(PostDec) OPERATOR(PreInc) OPERATOR(PreDec) \ 57 OPERATOR(AddrOf) OPERATOR(Deref) OPERATOR(Plus) OPERATOR(Minus) \ 58 OPERATOR(Not) OPERATOR(LNot) OPERATOR(Real) OPERATOR(Imag) \ 59 OPERATOR(Extension) OPERATOR(Coawait) 60 61 // All binary operators (excluding compound assign operators). 62 #define BINOP_LIST() \ 63 OPERATOR(PtrMemD) OPERATOR(PtrMemI) OPERATOR(Mul) OPERATOR(Div) \ 64 OPERATOR(Rem) OPERATOR(Add) OPERATOR(Sub) OPERATOR(Shl) OPERATOR(Shr) \ 65 OPERATOR(LT) OPERATOR(GT) OPERATOR(LE) OPERATOR(GE) OPERATOR(EQ) \ 66 OPERATOR(NE) OPERATOR(And) OPERATOR(Xor) OPERATOR(Or) OPERATOR(LAnd) \ 67 OPERATOR(LOr) OPERATOR(Assign) OPERATOR(Comma) 68 69 // All compound assign operators. 70 #define CAO_LIST() \ 71 OPERATOR(Mul) OPERATOR(Div) OPERATOR(Rem) OPERATOR(Add) OPERATOR(Sub) \ 72 OPERATOR(Shl) OPERATOR(Shr) OPERATOR(And) OPERATOR(Or) OPERATOR(Xor) 73 74 namespace clang { 75 76 // A helper macro to implement short-circuiting when recursing. It 77 // invokes CALL_EXPR, which must be a method call, on the derived 78 // object (s.t. a user of RecursiveASTVisitor can override the method 79 // in CALL_EXPR). 80 #define TRY_TO(CALL_EXPR) \ 81 do { \ 82 if (!getDerived().CALL_EXPR) \ 83 return false; \ 84 } while (false) 85 86 /// \brief A class that does preordor or postorder 87 /// depth-first traversal on the entire Clang AST and visits each node. 88 /// 89 /// This class performs three distinct tasks: 90 /// 1. traverse the AST (i.e. go to each node); 91 /// 2. at a given node, walk up the class hierarchy, starting from 92 /// the node's dynamic type, until the top-most class (e.g. Stmt, 93 /// Decl, or Type) is reached. 94 /// 3. given a (node, class) combination, where 'class' is some base 95 /// class of the dynamic type of 'node', call a user-overridable 96 /// function to actually visit the node. 97 /// 98 /// These tasks are done by three groups of methods, respectively: 99 /// 1. TraverseDecl(Decl *x) does task #1. It is the entry point 100 /// for traversing an AST rooted at x. This method simply 101 /// dispatches (i.e. forwards) to TraverseFoo(Foo *x) where Foo 102 /// is the dynamic type of *x, which calls WalkUpFromFoo(x) and 103 /// then recursively visits the child nodes of x. 104 /// TraverseStmt(Stmt *x) and TraverseType(QualType x) work 105 /// similarly. 106 /// 2. WalkUpFromFoo(Foo *x) does task #2. It does not try to visit 107 /// any child node of x. Instead, it first calls WalkUpFromBar(x) 108 /// where Bar is the direct parent class of Foo (unless Foo has 109 /// no parent), and then calls VisitFoo(x) (see the next list item). 110 /// 3. VisitFoo(Foo *x) does task #3. 111 /// 112 /// These three method groups are tiered (Traverse* > WalkUpFrom* > 113 /// Visit*). A method (e.g. Traverse*) may call methods from the same 114 /// tier (e.g. other Traverse*) or one tier lower (e.g. WalkUpFrom*). 115 /// It may not call methods from a higher tier. 116 /// 117 /// Note that since WalkUpFromFoo() calls WalkUpFromBar() (where Bar 118 /// is Foo's super class) before calling VisitFoo(), the result is 119 /// that the Visit*() methods for a given node are called in the 120 /// top-down order (e.g. for a node of type NamespaceDecl, the order will 121 /// be VisitDecl(), VisitNamedDecl(), and then VisitNamespaceDecl()). 122 /// 123 /// This scheme guarantees that all Visit*() calls for the same AST 124 /// node are grouped together. In other words, Visit*() methods for 125 /// different nodes are never interleaved. 126 /// 127 /// Clients of this visitor should subclass the visitor (providing 128 /// themselves as the template argument, using the curiously recurring 129 /// template pattern) and override any of the Traverse*, WalkUpFrom*, 130 /// and Visit* methods for declarations, types, statements, 131 /// expressions, or other AST nodes where the visitor should customize 132 /// behavior. Most users only need to override Visit*. Advanced 133 /// users may override Traverse* and WalkUpFrom* to implement custom 134 /// traversal strategies. Returning false from one of these overridden 135 /// functions will abort the entire traversal. 136 /// 137 /// By default, this visitor tries to visit every part of the explicit 138 /// source code exactly once. The default policy towards templates 139 /// is to descend into the 'pattern' class or function body, not any 140 /// explicit or implicit instantiations. Explicit specializations 141 /// are still visited, and the patterns of partial specializations 142 /// are visited separately. This behavior can be changed by 143 /// overriding shouldVisitTemplateInstantiations() in the derived class 144 /// to return true, in which case all known implicit and explicit 145 /// instantiations will be visited at the same time as the pattern 146 /// from which they were produced. 147 /// 148 /// By default, this visitor preorder traverses the AST. If postorder traversal 149 /// is needed, the \c shouldTraversePostOrder method needs to be overriden 150 /// to return \c true. 151 template <typename Derived> class RecursiveASTVisitor { 152 public: 153 /// A queue used for performing data recursion over statements. 154 /// Parameters involving this type are used to implement data 155 /// recursion over Stmts and Exprs within this class, and should 156 /// typically not be explicitly specified by derived classes. 157 /// The bool bit indicates whether the statement has been traversed or not. 158 typedef SmallVectorImpl<llvm::PointerIntPair<Stmt *, 1, bool>> 159 DataRecursionQueue; 160 161 /// \brief Return a reference to the derived class. 162 Derived &getDerived() { return *static_cast<Derived *>(this); } 163 164 /// \brief Return whether this visitor should recurse into 165 /// template instantiations. 166 bool shouldVisitTemplateInstantiations() const { return false; } 167 168 /// \brief Return whether this visitor should recurse into the types of 169 /// TypeLocs. 170 bool shouldWalkTypesOfTypeLocs() const { return true; } 171 172 /// \brief Return whether this visitor should recurse into implicit 173 /// code, e.g., implicit constructors and destructors. 174 bool shouldVisitImplicitCode() const { return false; } 175 176 /// \brief Return whether this visitor should traverse post-order. 177 bool shouldTraversePostOrder() const { return false; } 178 179 /// \brief Recursively visit a statement or expression, by 180 /// dispatching to Traverse*() based on the argument's dynamic type. 181 /// 182 /// \returns false if the visitation was terminated early, true 183 /// otherwise (including when the argument is nullptr). 184 bool TraverseStmt(Stmt *S, DataRecursionQueue *Queue = nullptr); 185 186 /// Invoked before visiting a statement or expression via data recursion. 187 /// 188 /// \returns false to skip visiting the node, true otherwise. 189 bool dataTraverseStmtPre(Stmt *S) { return true; } 190 191 /// Invoked after visiting a statement or expression via data recursion. 192 /// This is not invoked if the previously invoked \c dataTraverseStmtPre 193 /// returned false. 194 /// 195 /// \returns false if the visitation was terminated early, true otherwise. 196 bool dataTraverseStmtPost(Stmt *S) { return true; } 197 198 /// \brief Recursively visit a type, by dispatching to 199 /// Traverse*Type() based on the argument's getTypeClass() property. 200 /// 201 /// \returns false if the visitation was terminated early, true 202 /// otherwise (including when the argument is a Null type). 203 bool TraverseType(QualType T); 204 205 /// \brief Recursively visit a type with location, by dispatching to 206 /// Traverse*TypeLoc() based on the argument type's getTypeClass() property. 207 /// 208 /// \returns false if the visitation was terminated early, true 209 /// otherwise (including when the argument is a Null type location). 210 bool TraverseTypeLoc(TypeLoc TL); 211 212 /// \brief Recursively visit an attribute, by dispatching to 213 /// Traverse*Attr() based on the argument's dynamic type. 214 /// 215 /// \returns false if the visitation was terminated early, true 216 /// otherwise (including when the argument is a Null type location). 217 bool TraverseAttr(Attr *At); 218 219 /// \brief Recursively visit a declaration, by dispatching to 220 /// Traverse*Decl() based on the argument's dynamic type. 221 /// 222 /// \returns false if the visitation was terminated early, true 223 /// otherwise (including when the argument is NULL). 224 bool TraverseDecl(Decl *D); 225 226 /// \brief Recursively visit a C++ nested-name-specifier. 227 /// 228 /// \returns false if the visitation was terminated early, true otherwise. 229 bool TraverseNestedNameSpecifier(NestedNameSpecifier *NNS); 230 231 /// \brief Recursively visit a C++ nested-name-specifier with location 232 /// information. 233 /// 234 /// \returns false if the visitation was terminated early, true otherwise. 235 bool TraverseNestedNameSpecifierLoc(NestedNameSpecifierLoc NNS); 236 237 /// \brief Recursively visit a name with its location information. 238 /// 239 /// \returns false if the visitation was terminated early, true otherwise. 240 bool TraverseDeclarationNameInfo(DeclarationNameInfo NameInfo); 241 242 /// \brief Recursively visit a template name and dispatch to the 243 /// appropriate method. 244 /// 245 /// \returns false if the visitation was terminated early, true otherwise. 246 bool TraverseTemplateName(TemplateName Template); 247 248 /// \brief Recursively visit a template argument and dispatch to the 249 /// appropriate method for the argument type. 250 /// 251 /// \returns false if the visitation was terminated early, true otherwise. 252 // FIXME: migrate callers to TemplateArgumentLoc instead. 253 bool TraverseTemplateArgument(const TemplateArgument &Arg); 254 255 /// \brief Recursively visit a template argument location and dispatch to the 256 /// appropriate method for the argument type. 257 /// 258 /// \returns false if the visitation was terminated early, true otherwise. 259 bool TraverseTemplateArgumentLoc(const TemplateArgumentLoc &ArgLoc); 260 261 /// \brief Recursively visit a set of template arguments. 262 /// This can be overridden by a subclass, but it's not expected that 263 /// will be needed -- this visitor always dispatches to another. 264 /// 265 /// \returns false if the visitation was terminated early, true otherwise. 266 // FIXME: take a TemplateArgumentLoc* (or TemplateArgumentListInfo) instead. 267 bool TraverseTemplateArguments(const TemplateArgument *Args, 268 unsigned NumArgs); 269 270 /// \brief Recursively visit a constructor initializer. This 271 /// automatically dispatches to another visitor for the initializer 272 /// expression, but not for the name of the initializer, so may 273 /// be overridden for clients that need access to the name. 274 /// 275 /// \returns false if the visitation was terminated early, true otherwise. 276 bool TraverseConstructorInitializer(CXXCtorInitializer *Init); 277 278 /// \brief Recursively visit a lambda capture. \c Init is the expression that 279 /// will be used to initialize the capture. 280 /// 281 /// \returns false if the visitation was terminated early, true otherwise. 282 bool TraverseLambdaCapture(LambdaExpr *LE, const LambdaCapture *C, 283 Expr *Init); 284 285 /// \brief Recursively visit the body of a lambda expression. 286 /// 287 /// This provides a hook for visitors that need more context when visiting 288 /// \c LE->getBody(). 289 /// 290 /// \returns false if the visitation was terminated early, true otherwise. 291 bool TraverseLambdaBody(LambdaExpr *LE, DataRecursionQueue *Queue = nullptr); 292 293 /// \brief Recursively visit the syntactic or semantic form of an 294 /// initialization list. 295 /// 296 /// \returns false if the visitation was terminated early, true otherwise. 297 bool TraverseSynOrSemInitListExpr(InitListExpr *S, 298 DataRecursionQueue *Queue = nullptr); 299 300 // ---- Methods on Attrs ---- 301 302 // \brief Visit an attribute. 303 bool VisitAttr(Attr *A) { return true; } 304 305 // Declare Traverse* and empty Visit* for all Attr classes. 306 #define ATTR_VISITOR_DECLS_ONLY 307 #include "clang/AST/AttrVisitor.inc" 308 #undef ATTR_VISITOR_DECLS_ONLY 309 310 // ---- Methods on Stmts ---- 311 312 private: 313 template<typename T, typename U> 314 struct has_same_member_pointer_type : std::false_type {}; 315 template<typename T, typename U, typename R, typename... P> 316 struct has_same_member_pointer_type<R (T::*)(P...), R (U::*)(P...)> 317 : std::true_type {}; 318 319 // Traverse the given statement. If the most-derived traverse function takes a 320 // data recursion queue, pass it on; otherwise, discard it. Note that the 321 // first branch of this conditional must compile whether or not the derived 322 // class can take a queue, so if we're taking the second arm, make the first 323 // arm call our function rather than the derived class version. 324 #define TRAVERSE_STMT_BASE(NAME, CLASS, VAR, QUEUE) \ 325 (has_same_member_pointer_type<decltype( \ 326 &RecursiveASTVisitor::Traverse##NAME), \ 327 decltype(&Derived::Traverse##NAME)>::value \ 328 ? static_cast<typename std::conditional< \ 329 has_same_member_pointer_type< \ 330 decltype(&RecursiveASTVisitor::Traverse##NAME), \ 331 decltype(&Derived::Traverse##NAME)>::value, \ 332 Derived &, RecursiveASTVisitor &>::type>(*this) \ 333 .Traverse##NAME(static_cast<CLASS *>(VAR), QUEUE) \ 334 : getDerived().Traverse##NAME(static_cast<CLASS *>(VAR))) 335 336 // Try to traverse the given statement, or enqueue it if we're performing data 337 // recursion in the middle of traversing another statement. Can only be called 338 // from within a DEF_TRAVERSE_STMT body or similar context. 339 #define TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S) \ 340 do { \ 341 if (!TRAVERSE_STMT_BASE(Stmt, Stmt, S, Queue)) \ 342 return false; \ 343 } while (false) 344 345 public: 346 // Declare Traverse*() for all concrete Stmt classes. 347 #define ABSTRACT_STMT(STMT) 348 #define STMT(CLASS, PARENT) \ 349 bool Traverse##CLASS(CLASS *S, DataRecursionQueue *Queue = nullptr); 350 #include "clang/AST/StmtNodes.inc" 351 // The above header #undefs ABSTRACT_STMT and STMT upon exit. 352 353 // Define WalkUpFrom*() and empty Visit*() for all Stmt classes. 354 bool WalkUpFromStmt(Stmt *S) { return getDerived().VisitStmt(S); } 355 bool VisitStmt(Stmt *S) { return true; } 356 #define STMT(CLASS, PARENT) \ 357 bool WalkUpFrom##CLASS(CLASS *S) { \ 358 TRY_TO(WalkUpFrom##PARENT(S)); \ 359 TRY_TO(Visit##CLASS(S)); \ 360 return true; \ 361 } \ 362 bool Visit##CLASS(CLASS *S) { return true; } 363 #include "clang/AST/StmtNodes.inc" 364 365 // Define Traverse*(), WalkUpFrom*(), and Visit*() for unary 366 // operator methods. Unary operators are not classes in themselves 367 // (they're all opcodes in UnaryOperator) but do have visitors. 368 #define OPERATOR(NAME) \ 369 bool TraverseUnary##NAME(UnaryOperator *S, \ 370 DataRecursionQueue *Queue = nullptr) { \ 371 if (!getDerived().shouldTraversePostOrder()) \ 372 TRY_TO(WalkUpFromUnary##NAME(S)); \ 373 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getSubExpr()); \ 374 return true; \ 375 } \ 376 bool WalkUpFromUnary##NAME(UnaryOperator *S) { \ 377 TRY_TO(WalkUpFromUnaryOperator(S)); \ 378 TRY_TO(VisitUnary##NAME(S)); \ 379 return true; \ 380 } \ 381 bool VisitUnary##NAME(UnaryOperator *S) { return true; } 382 383 UNARYOP_LIST() 384 #undef OPERATOR 385 386 // Define Traverse*(), WalkUpFrom*(), and Visit*() for binary 387 // operator methods. Binary operators are not classes in themselves 388 // (they're all opcodes in BinaryOperator) but do have visitors. 389 #define GENERAL_BINOP_FALLBACK(NAME, BINOP_TYPE) \ 390 bool TraverseBin##NAME(BINOP_TYPE *S, DataRecursionQueue *Queue = nullptr) { \ 391 if (!getDerived().shouldTraversePostOrder()) \ 392 TRY_TO(WalkUpFromBin##NAME(S)); \ 393 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getLHS()); \ 394 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getRHS()); \ 395 return true; \ 396 } \ 397 bool WalkUpFromBin##NAME(BINOP_TYPE *S) { \ 398 TRY_TO(WalkUpFrom##BINOP_TYPE(S)); \ 399 TRY_TO(VisitBin##NAME(S)); \ 400 return true; \ 401 } \ 402 bool VisitBin##NAME(BINOP_TYPE *S) { return true; } 403 404 #define OPERATOR(NAME) GENERAL_BINOP_FALLBACK(NAME, BinaryOperator) 405 BINOP_LIST() 406 #undef OPERATOR 407 408 // Define Traverse*(), WalkUpFrom*(), and Visit*() for compound 409 // assignment methods. Compound assignment operators are not 410 // classes in themselves (they're all opcodes in 411 // CompoundAssignOperator) but do have visitors. 412 #define OPERATOR(NAME) \ 413 GENERAL_BINOP_FALLBACK(NAME##Assign, CompoundAssignOperator) 414 415 CAO_LIST() 416 #undef OPERATOR 417 #undef GENERAL_BINOP_FALLBACK 418 419 // ---- Methods on Types ---- 420 // FIXME: revamp to take TypeLoc's rather than Types. 421 422 // Declare Traverse*() for all concrete Type classes. 423 #define ABSTRACT_TYPE(CLASS, BASE) 424 #define TYPE(CLASS, BASE) bool Traverse##CLASS##Type(CLASS##Type *T); 425 #include "clang/AST/TypeNodes.def" 426 // The above header #undefs ABSTRACT_TYPE and TYPE upon exit. 427 428 // Define WalkUpFrom*() and empty Visit*() for all Type classes. 429 bool WalkUpFromType(Type *T) { return getDerived().VisitType(T); } 430 bool VisitType(Type *T) { return true; } 431 #define TYPE(CLASS, BASE) \ 432 bool WalkUpFrom##CLASS##Type(CLASS##Type *T) { \ 433 TRY_TO(WalkUpFrom##BASE(T)); \ 434 TRY_TO(Visit##CLASS##Type(T)); \ 435 return true; \ 436 } \ 437 bool Visit##CLASS##Type(CLASS##Type *T) { return true; } 438 #include "clang/AST/TypeNodes.def" 439 440 // ---- Methods on TypeLocs ---- 441 // FIXME: this currently just calls the matching Type methods 442 443 // Declare Traverse*() for all concrete TypeLoc classes. 444 #define ABSTRACT_TYPELOC(CLASS, BASE) 445 #define TYPELOC(CLASS, BASE) bool Traverse##CLASS##TypeLoc(CLASS##TypeLoc TL); 446 #include "clang/AST/TypeLocNodes.def" 447 // The above header #undefs ABSTRACT_TYPELOC and TYPELOC upon exit. 448 449 // Define WalkUpFrom*() and empty Visit*() for all TypeLoc classes. 450 bool WalkUpFromTypeLoc(TypeLoc TL) { return getDerived().VisitTypeLoc(TL); } 451 bool VisitTypeLoc(TypeLoc TL) { return true; } 452 453 // QualifiedTypeLoc and UnqualTypeLoc are not declared in 454 // TypeNodes.def and thus need to be handled specially. 455 bool WalkUpFromQualifiedTypeLoc(QualifiedTypeLoc TL) { 456 return getDerived().VisitUnqualTypeLoc(TL.getUnqualifiedLoc()); 457 } 458 bool VisitQualifiedTypeLoc(QualifiedTypeLoc TL) { return true; } 459 bool WalkUpFromUnqualTypeLoc(UnqualTypeLoc TL) { 460 return getDerived().VisitUnqualTypeLoc(TL.getUnqualifiedLoc()); 461 } 462 bool VisitUnqualTypeLoc(UnqualTypeLoc TL) { return true; } 463 464 // Note that BASE includes trailing 'Type' which CLASS doesn't. 465 #define TYPE(CLASS, BASE) \ 466 bool WalkUpFrom##CLASS##TypeLoc(CLASS##TypeLoc TL) { \ 467 TRY_TO(WalkUpFrom##BASE##Loc(TL)); \ 468 TRY_TO(Visit##CLASS##TypeLoc(TL)); \ 469 return true; \ 470 } \ 471 bool Visit##CLASS##TypeLoc(CLASS##TypeLoc TL) { return true; } 472 #include "clang/AST/TypeNodes.def" 473 474 // ---- Methods on Decls ---- 475 476 // Declare Traverse*() for all concrete Decl classes. 477 #define ABSTRACT_DECL(DECL) 478 #define DECL(CLASS, BASE) bool Traverse##CLASS##Decl(CLASS##Decl *D); 479 #include "clang/AST/DeclNodes.inc" 480 // The above header #undefs ABSTRACT_DECL and DECL upon exit. 481 482 // Define WalkUpFrom*() and empty Visit*() for all Decl classes. 483 bool WalkUpFromDecl(Decl *D) { return getDerived().VisitDecl(D); } 484 bool VisitDecl(Decl *D) { return true; } 485 #define DECL(CLASS, BASE) \ 486 bool WalkUpFrom##CLASS##Decl(CLASS##Decl *D) { \ 487 TRY_TO(WalkUpFrom##BASE(D)); \ 488 TRY_TO(Visit##CLASS##Decl(D)); \ 489 return true; \ 490 } \ 491 bool Visit##CLASS##Decl(CLASS##Decl *D) { return true; } 492 #include "clang/AST/DeclNodes.inc" 493 494 private: 495 // These are helper methods used by more than one Traverse* method. 496 bool TraverseTemplateParameterListHelper(TemplateParameterList *TPL); 497 498 // Traverses template parameter lists of either a DeclaratorDecl or TagDecl. 499 template <typename T> 500 bool TraverseDeclTemplateParameterLists(T *D); 501 502 #define DEF_TRAVERSE_TMPL_INST(TMPLDECLKIND) \ 503 bool TraverseTemplateInstantiations(TMPLDECLKIND##TemplateDecl *D); 504 DEF_TRAVERSE_TMPL_INST(Class) 505 DEF_TRAVERSE_TMPL_INST(Var) 506 DEF_TRAVERSE_TMPL_INST(Function) 507 #undef DEF_TRAVERSE_TMPL_INST 508 bool TraverseTemplateArgumentLocsHelper(const TemplateArgumentLoc *TAL, 509 unsigned Count); 510 bool TraverseArrayTypeLocHelper(ArrayTypeLoc TL); 511 bool TraverseRecordHelper(RecordDecl *D); 512 bool TraverseCXXRecordHelper(CXXRecordDecl *D); 513 bool TraverseDeclaratorHelper(DeclaratorDecl *D); 514 bool TraverseDeclContextHelper(DeclContext *DC); 515 bool TraverseFunctionHelper(FunctionDecl *D); 516 bool TraverseVarHelper(VarDecl *D); 517 bool TraverseOMPExecutableDirective(OMPExecutableDirective *S); 518 bool TraverseOMPLoopDirective(OMPLoopDirective *S); 519 bool TraverseOMPClause(OMPClause *C); 520 #define OPENMP_CLAUSE(Name, Class) bool Visit##Class(Class *C); 521 #include "clang/Basic/OpenMPKinds.def" 522 /// \brief Process clauses with list of variables. 523 template <typename T> bool VisitOMPClauseList(T *Node); 524 /// Process clauses with pre-initis. 525 bool VisitOMPClauseWithPreInit(OMPClauseWithPreInit *Node); 526 bool VisitOMPClauseWithPostUpdate(OMPClauseWithPostUpdate *Node); 527 528 bool dataTraverseNode(Stmt *S, DataRecursionQueue *Queue); 529 bool PostVisitStmt(Stmt *S); 530 }; 531 532 template <typename Derived> 533 bool RecursiveASTVisitor<Derived>::dataTraverseNode(Stmt *S, 534 DataRecursionQueue *Queue) { 535 #define DISPATCH_STMT(NAME, CLASS, VAR) \ 536 return TRAVERSE_STMT_BASE(NAME, CLASS, VAR, Queue); 537 538 // If we have a binary expr, dispatch to the subcode of the binop. A smart 539 // optimizer (e.g. LLVM) will fold this comparison into the switch stmt 540 // below. 541 if (BinaryOperator *BinOp = dyn_cast<BinaryOperator>(S)) { 542 switch (BinOp->getOpcode()) { 543 #define OPERATOR(NAME) \ 544 case BO_##NAME: \ 545 DISPATCH_STMT(Bin##NAME, BinaryOperator, S); 546 547 BINOP_LIST() 548 #undef OPERATOR 549 #undef BINOP_LIST 550 551 #define OPERATOR(NAME) \ 552 case BO_##NAME##Assign: \ 553 DISPATCH_STMT(Bin##NAME##Assign, CompoundAssignOperator, S); 554 555 CAO_LIST() 556 #undef OPERATOR 557 #undef CAO_LIST 558 } 559 } else if (UnaryOperator *UnOp = dyn_cast<UnaryOperator>(S)) { 560 switch (UnOp->getOpcode()) { 561 #define OPERATOR(NAME) \ 562 case UO_##NAME: \ 563 DISPATCH_STMT(Unary##NAME, UnaryOperator, S); 564 565 UNARYOP_LIST() 566 #undef OPERATOR 567 #undef UNARYOP_LIST 568 } 569 } 570 571 // Top switch stmt: dispatch to TraverseFooStmt for each concrete FooStmt. 572 switch (S->getStmtClass()) { 573 case Stmt::NoStmtClass: 574 break; 575 #define ABSTRACT_STMT(STMT) 576 #define STMT(CLASS, PARENT) \ 577 case Stmt::CLASS##Class: \ 578 DISPATCH_STMT(CLASS, CLASS, S); 579 #include "clang/AST/StmtNodes.inc" 580 } 581 582 return true; 583 } 584 585 #undef DISPATCH_STMT 586 587 template <typename Derived> 588 bool RecursiveASTVisitor<Derived>::PostVisitStmt(Stmt *S) { 589 switch (S->getStmtClass()) { 590 case Stmt::NoStmtClass: 591 break; 592 #define ABSTRACT_STMT(STMT) 593 #define STMT(CLASS, PARENT) \ 594 case Stmt::CLASS##Class: \ 595 TRY_TO(WalkUpFrom##CLASS(static_cast<CLASS *>(S))); break; 596 #include "clang/AST/StmtNodes.inc" 597 } 598 599 return true; 600 } 601 602 #undef DISPATCH_STMT 603 604 template <typename Derived> 605 bool RecursiveASTVisitor<Derived>::TraverseStmt(Stmt *S, 606 DataRecursionQueue *Queue) { 607 if (!S) 608 return true; 609 610 if (Queue) { 611 Queue->push_back({S, false}); 612 return true; 613 } 614 615 SmallVector<llvm::PointerIntPair<Stmt *, 1, bool>, 8> LocalQueue; 616 LocalQueue.push_back({S, false}); 617 618 while (!LocalQueue.empty()) { 619 auto &CurrSAndVisited = LocalQueue.back(); 620 Stmt *CurrS = CurrSAndVisited.getPointer(); 621 bool Visited = CurrSAndVisited.getInt(); 622 if (Visited) { 623 LocalQueue.pop_back(); 624 TRY_TO(dataTraverseStmtPost(CurrS)); 625 if (getDerived().shouldTraversePostOrder()) { 626 TRY_TO(PostVisitStmt(CurrS)); 627 } 628 continue; 629 } 630 631 if (getDerived().dataTraverseStmtPre(CurrS)) { 632 CurrSAndVisited.setInt(true); 633 size_t N = LocalQueue.size(); 634 TRY_TO(dataTraverseNode(CurrS, &LocalQueue)); 635 // Process new children in the order they were added. 636 std::reverse(LocalQueue.begin() + N, LocalQueue.end()); 637 } else { 638 LocalQueue.pop_back(); 639 } 640 } 641 642 return true; 643 } 644 645 #define DISPATCH(NAME, CLASS, VAR) \ 646 return getDerived().Traverse##NAME(static_cast<CLASS *>(VAR)) 647 648 template <typename Derived> 649 bool RecursiveASTVisitor<Derived>::TraverseType(QualType T) { 650 if (T.isNull()) 651 return true; 652 653 switch (T->getTypeClass()) { 654 #define ABSTRACT_TYPE(CLASS, BASE) 655 #define TYPE(CLASS, BASE) \ 656 case Type::CLASS: \ 657 DISPATCH(CLASS##Type, CLASS##Type, const_cast<Type *>(T.getTypePtr())); 658 #include "clang/AST/TypeNodes.def" 659 } 660 661 return true; 662 } 663 664 template <typename Derived> 665 bool RecursiveASTVisitor<Derived>::TraverseTypeLoc(TypeLoc TL) { 666 if (TL.isNull()) 667 return true; 668 669 switch (TL.getTypeLocClass()) { 670 #define ABSTRACT_TYPELOC(CLASS, BASE) 671 #define TYPELOC(CLASS, BASE) \ 672 case TypeLoc::CLASS: \ 673 return getDerived().Traverse##CLASS##TypeLoc(TL.castAs<CLASS##TypeLoc>()); 674 #include "clang/AST/TypeLocNodes.def" 675 } 676 677 return true; 678 } 679 680 // Define the Traverse*Attr(Attr* A) methods 681 #define VISITORCLASS RecursiveASTVisitor 682 #include "clang/AST/AttrVisitor.inc" 683 #undef VISITORCLASS 684 685 template <typename Derived> 686 bool RecursiveASTVisitor<Derived>::TraverseDecl(Decl *D) { 687 if (!D) 688 return true; 689 690 // As a syntax visitor, by default we want to ignore declarations for 691 // implicit declarations (ones not typed explicitly by the user). 692 if (!getDerived().shouldVisitImplicitCode() && D->isImplicit()) 693 return true; 694 695 switch (D->getKind()) { 696 #define ABSTRACT_DECL(DECL) 697 #define DECL(CLASS, BASE) \ 698 case Decl::CLASS: \ 699 if (!getDerived().Traverse##CLASS##Decl(static_cast<CLASS##Decl *>(D))) \ 700 return false; \ 701 break; 702 #include "clang/AST/DeclNodes.inc" 703 } 704 705 // Visit any attributes attached to this declaration. 706 for (auto *I : D->attrs()) { 707 if (!getDerived().TraverseAttr(I)) 708 return false; 709 } 710 return true; 711 } 712 713 #undef DISPATCH 714 715 template <typename Derived> 716 bool RecursiveASTVisitor<Derived>::TraverseNestedNameSpecifier( 717 NestedNameSpecifier *NNS) { 718 if (!NNS) 719 return true; 720 721 if (NNS->getPrefix()) 722 TRY_TO(TraverseNestedNameSpecifier(NNS->getPrefix())); 723 724 switch (NNS->getKind()) { 725 case NestedNameSpecifier::Identifier: 726 case NestedNameSpecifier::Namespace: 727 case NestedNameSpecifier::NamespaceAlias: 728 case NestedNameSpecifier::Global: 729 case NestedNameSpecifier::Super: 730 return true; 731 732 case NestedNameSpecifier::TypeSpec: 733 case NestedNameSpecifier::TypeSpecWithTemplate: 734 TRY_TO(TraverseType(QualType(NNS->getAsType(), 0))); 735 } 736 737 return true; 738 } 739 740 template <typename Derived> 741 bool RecursiveASTVisitor<Derived>::TraverseNestedNameSpecifierLoc( 742 NestedNameSpecifierLoc NNS) { 743 if (!NNS) 744 return true; 745 746 if (NestedNameSpecifierLoc Prefix = NNS.getPrefix()) 747 TRY_TO(TraverseNestedNameSpecifierLoc(Prefix)); 748 749 switch (NNS.getNestedNameSpecifier()->getKind()) { 750 case NestedNameSpecifier::Identifier: 751 case NestedNameSpecifier::Namespace: 752 case NestedNameSpecifier::NamespaceAlias: 753 case NestedNameSpecifier::Global: 754 case NestedNameSpecifier::Super: 755 return true; 756 757 case NestedNameSpecifier::TypeSpec: 758 case NestedNameSpecifier::TypeSpecWithTemplate: 759 TRY_TO(TraverseTypeLoc(NNS.getTypeLoc())); 760 break; 761 } 762 763 return true; 764 } 765 766 template <typename Derived> 767 bool RecursiveASTVisitor<Derived>::TraverseDeclarationNameInfo( 768 DeclarationNameInfo NameInfo) { 769 switch (NameInfo.getName().getNameKind()) { 770 case DeclarationName::CXXConstructorName: 771 case DeclarationName::CXXDestructorName: 772 case DeclarationName::CXXConversionFunctionName: 773 if (TypeSourceInfo *TSInfo = NameInfo.getNamedTypeInfo()) 774 TRY_TO(TraverseTypeLoc(TSInfo->getTypeLoc())); 775 break; 776 777 case DeclarationName::CXXDeductionGuideName: 778 TRY_TO(TraverseTemplateName( 779 TemplateName(NameInfo.getName().getCXXDeductionGuideTemplate()))); 780 break; 781 782 case DeclarationName::Identifier: 783 case DeclarationName::ObjCZeroArgSelector: 784 case DeclarationName::ObjCOneArgSelector: 785 case DeclarationName::ObjCMultiArgSelector: 786 case DeclarationName::CXXOperatorName: 787 case DeclarationName::CXXLiteralOperatorName: 788 case DeclarationName::CXXUsingDirective: 789 break; 790 } 791 792 return true; 793 } 794 795 template <typename Derived> 796 bool RecursiveASTVisitor<Derived>::TraverseTemplateName(TemplateName Template) { 797 if (DependentTemplateName *DTN = Template.getAsDependentTemplateName()) 798 TRY_TO(TraverseNestedNameSpecifier(DTN->getQualifier())); 799 else if (QualifiedTemplateName *QTN = Template.getAsQualifiedTemplateName()) 800 TRY_TO(TraverseNestedNameSpecifier(QTN->getQualifier())); 801 802 return true; 803 } 804 805 template <typename Derived> 806 bool RecursiveASTVisitor<Derived>::TraverseTemplateArgument( 807 const TemplateArgument &Arg) { 808 switch (Arg.getKind()) { 809 case TemplateArgument::Null: 810 case TemplateArgument::Declaration: 811 case TemplateArgument::Integral: 812 case TemplateArgument::NullPtr: 813 return true; 814 815 case TemplateArgument::Type: 816 return getDerived().TraverseType(Arg.getAsType()); 817 818 case TemplateArgument::Template: 819 case TemplateArgument::TemplateExpansion: 820 return getDerived().TraverseTemplateName( 821 Arg.getAsTemplateOrTemplatePattern()); 822 823 case TemplateArgument::Expression: 824 return getDerived().TraverseStmt(Arg.getAsExpr()); 825 826 case TemplateArgument::Pack: 827 return getDerived().TraverseTemplateArguments(Arg.pack_begin(), 828 Arg.pack_size()); 829 } 830 831 return true; 832 } 833 834 // FIXME: no template name location? 835 // FIXME: no source locations for a template argument pack? 836 template <typename Derived> 837 bool RecursiveASTVisitor<Derived>::TraverseTemplateArgumentLoc( 838 const TemplateArgumentLoc &ArgLoc) { 839 const TemplateArgument &Arg = ArgLoc.getArgument(); 840 841 switch (Arg.getKind()) { 842 case TemplateArgument::Null: 843 case TemplateArgument::Declaration: 844 case TemplateArgument::Integral: 845 case TemplateArgument::NullPtr: 846 return true; 847 848 case TemplateArgument::Type: { 849 // FIXME: how can TSI ever be NULL? 850 if (TypeSourceInfo *TSI = ArgLoc.getTypeSourceInfo()) 851 return getDerived().TraverseTypeLoc(TSI->getTypeLoc()); 852 else 853 return getDerived().TraverseType(Arg.getAsType()); 854 } 855 856 case TemplateArgument::Template: 857 case TemplateArgument::TemplateExpansion: 858 if (ArgLoc.getTemplateQualifierLoc()) 859 TRY_TO(getDerived().TraverseNestedNameSpecifierLoc( 860 ArgLoc.getTemplateQualifierLoc())); 861 return getDerived().TraverseTemplateName( 862 Arg.getAsTemplateOrTemplatePattern()); 863 864 case TemplateArgument::Expression: 865 return getDerived().TraverseStmt(ArgLoc.getSourceExpression()); 866 867 case TemplateArgument::Pack: 868 return getDerived().TraverseTemplateArguments(Arg.pack_begin(), 869 Arg.pack_size()); 870 } 871 872 return true; 873 } 874 875 template <typename Derived> 876 bool RecursiveASTVisitor<Derived>::TraverseTemplateArguments( 877 const TemplateArgument *Args, unsigned NumArgs) { 878 for (unsigned I = 0; I != NumArgs; ++I) { 879 TRY_TO(TraverseTemplateArgument(Args[I])); 880 } 881 882 return true; 883 } 884 885 template <typename Derived> 886 bool RecursiveASTVisitor<Derived>::TraverseConstructorInitializer( 887 CXXCtorInitializer *Init) { 888 if (TypeSourceInfo *TInfo = Init->getTypeSourceInfo()) 889 TRY_TO(TraverseTypeLoc(TInfo->getTypeLoc())); 890 891 if (Init->isWritten() || getDerived().shouldVisitImplicitCode()) 892 TRY_TO(TraverseStmt(Init->getInit())); 893 894 return true; 895 } 896 897 template <typename Derived> 898 bool 899 RecursiveASTVisitor<Derived>::TraverseLambdaCapture(LambdaExpr *LE, 900 const LambdaCapture *C, 901 Expr *Init) { 902 if (LE->isInitCapture(C)) 903 TRY_TO(TraverseDecl(C->getCapturedVar())); 904 else 905 TRY_TO(TraverseStmt(Init)); 906 return true; 907 } 908 909 template <typename Derived> 910 bool RecursiveASTVisitor<Derived>::TraverseLambdaBody( 911 LambdaExpr *LE, DataRecursionQueue *Queue) { 912 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(LE->getBody()); 913 return true; 914 } 915 916 // ----------------- Type traversal ----------------- 917 918 // This macro makes available a variable T, the passed-in type. 919 #define DEF_TRAVERSE_TYPE(TYPE, CODE) \ 920 template <typename Derived> \ 921 bool RecursiveASTVisitor<Derived>::Traverse##TYPE(TYPE *T) { \ 922 if (!getDerived().shouldTraversePostOrder()) \ 923 TRY_TO(WalkUpFrom##TYPE(T)); \ 924 { CODE; } \ 925 if (getDerived().shouldTraversePostOrder()) \ 926 TRY_TO(WalkUpFrom##TYPE(T)); \ 927 return true; \ 928 } 929 930 DEF_TRAVERSE_TYPE(BuiltinType, {}) 931 932 DEF_TRAVERSE_TYPE(ComplexType, { TRY_TO(TraverseType(T->getElementType())); }) 933 934 DEF_TRAVERSE_TYPE(PointerType, { TRY_TO(TraverseType(T->getPointeeType())); }) 935 936 DEF_TRAVERSE_TYPE(BlockPointerType, 937 { TRY_TO(TraverseType(T->getPointeeType())); }) 938 939 DEF_TRAVERSE_TYPE(LValueReferenceType, 940 { TRY_TO(TraverseType(T->getPointeeType())); }) 941 942 DEF_TRAVERSE_TYPE(RValueReferenceType, 943 { TRY_TO(TraverseType(T->getPointeeType())); }) 944 945 DEF_TRAVERSE_TYPE(MemberPointerType, { 946 TRY_TO(TraverseType(QualType(T->getClass(), 0))); 947 TRY_TO(TraverseType(T->getPointeeType())); 948 }) 949 950 DEF_TRAVERSE_TYPE(AdjustedType, { TRY_TO(TraverseType(T->getOriginalType())); }) 951 952 DEF_TRAVERSE_TYPE(DecayedType, { TRY_TO(TraverseType(T->getOriginalType())); }) 953 954 DEF_TRAVERSE_TYPE(ConstantArrayType, 955 { TRY_TO(TraverseType(T->getElementType())); }) 956 957 DEF_TRAVERSE_TYPE(IncompleteArrayType, 958 { TRY_TO(TraverseType(T->getElementType())); }) 959 960 DEF_TRAVERSE_TYPE(VariableArrayType, { 961 TRY_TO(TraverseType(T->getElementType())); 962 TRY_TO(TraverseStmt(T->getSizeExpr())); 963 }) 964 965 DEF_TRAVERSE_TYPE(DependentSizedArrayType, { 966 TRY_TO(TraverseType(T->getElementType())); 967 if (T->getSizeExpr()) 968 TRY_TO(TraverseStmt(T->getSizeExpr())); 969 }) 970 971 DEF_TRAVERSE_TYPE(DependentSizedExtVectorType, { 972 if (T->getSizeExpr()) 973 TRY_TO(TraverseStmt(T->getSizeExpr())); 974 TRY_TO(TraverseType(T->getElementType())); 975 }) 976 977 DEF_TRAVERSE_TYPE(VectorType, { TRY_TO(TraverseType(T->getElementType())); }) 978 979 DEF_TRAVERSE_TYPE(ExtVectorType, { TRY_TO(TraverseType(T->getElementType())); }) 980 981 DEF_TRAVERSE_TYPE(FunctionNoProtoType, 982 { TRY_TO(TraverseType(T->getReturnType())); }) 983 984 DEF_TRAVERSE_TYPE(FunctionProtoType, { 985 TRY_TO(TraverseType(T->getReturnType())); 986 987 for (const auto &A : T->param_types()) { 988 TRY_TO(TraverseType(A)); 989 } 990 991 for (const auto &E : T->exceptions()) { 992 TRY_TO(TraverseType(E)); 993 } 994 995 if (Expr *NE = T->getNoexceptExpr()) 996 TRY_TO(TraverseStmt(NE)); 997 }) 998 999 DEF_TRAVERSE_TYPE(UnresolvedUsingType, {}) 1000 DEF_TRAVERSE_TYPE(TypedefType, {}) 1001 1002 DEF_TRAVERSE_TYPE(TypeOfExprType, 1003 { TRY_TO(TraverseStmt(T->getUnderlyingExpr())); }) 1004 1005 DEF_TRAVERSE_TYPE(TypeOfType, { TRY_TO(TraverseType(T->getUnderlyingType())); }) 1006 1007 DEF_TRAVERSE_TYPE(DecltypeType, 1008 { TRY_TO(TraverseStmt(T->getUnderlyingExpr())); }) 1009 1010 DEF_TRAVERSE_TYPE(UnaryTransformType, { 1011 TRY_TO(TraverseType(T->getBaseType())); 1012 TRY_TO(TraverseType(T->getUnderlyingType())); 1013 }) 1014 1015 DEF_TRAVERSE_TYPE(AutoType, { TRY_TO(TraverseType(T->getDeducedType())); }) 1016 DEF_TRAVERSE_TYPE(DeducedTemplateSpecializationType, { 1017 TRY_TO(TraverseTemplateName(T->getTemplateName())); 1018 TRY_TO(TraverseType(T->getDeducedType())); 1019 }) 1020 1021 DEF_TRAVERSE_TYPE(RecordType, {}) 1022 DEF_TRAVERSE_TYPE(EnumType, {}) 1023 DEF_TRAVERSE_TYPE(TemplateTypeParmType, {}) 1024 DEF_TRAVERSE_TYPE(SubstTemplateTypeParmType, { 1025 TRY_TO(TraverseType(T->getReplacementType())); 1026 }) 1027 DEF_TRAVERSE_TYPE(SubstTemplateTypeParmPackType, { 1028 TRY_TO(TraverseTemplateArgument(T->getArgumentPack())); 1029 }) 1030 1031 DEF_TRAVERSE_TYPE(TemplateSpecializationType, { 1032 TRY_TO(TraverseTemplateName(T->getTemplateName())); 1033 TRY_TO(TraverseTemplateArguments(T->getArgs(), T->getNumArgs())); 1034 }) 1035 1036 DEF_TRAVERSE_TYPE(InjectedClassNameType, {}) 1037 1038 DEF_TRAVERSE_TYPE(AttributedType, 1039 { TRY_TO(TraverseType(T->getModifiedType())); }) 1040 1041 DEF_TRAVERSE_TYPE(ParenType, { TRY_TO(TraverseType(T->getInnerType())); }) 1042 1043 DEF_TRAVERSE_TYPE(ElaboratedType, { 1044 if (T->getQualifier()) { 1045 TRY_TO(TraverseNestedNameSpecifier(T->getQualifier())); 1046 } 1047 TRY_TO(TraverseType(T->getNamedType())); 1048 }) 1049 1050 DEF_TRAVERSE_TYPE(DependentNameType, 1051 { TRY_TO(TraverseNestedNameSpecifier(T->getQualifier())); }) 1052 1053 DEF_TRAVERSE_TYPE(DependentTemplateSpecializationType, { 1054 TRY_TO(TraverseNestedNameSpecifier(T->getQualifier())); 1055 TRY_TO(TraverseTemplateArguments(T->getArgs(), T->getNumArgs())); 1056 }) 1057 1058 DEF_TRAVERSE_TYPE(PackExpansionType, { TRY_TO(TraverseType(T->getPattern())); }) 1059 1060 DEF_TRAVERSE_TYPE(ObjCTypeParamType, {}) 1061 1062 DEF_TRAVERSE_TYPE(ObjCInterfaceType, {}) 1063 1064 DEF_TRAVERSE_TYPE(ObjCObjectType, { 1065 // We have to watch out here because an ObjCInterfaceType's base 1066 // type is itself. 1067 if (T->getBaseType().getTypePtr() != T) 1068 TRY_TO(TraverseType(T->getBaseType())); 1069 for (auto typeArg : T->getTypeArgsAsWritten()) { 1070 TRY_TO(TraverseType(typeArg)); 1071 } 1072 }) 1073 1074 DEF_TRAVERSE_TYPE(ObjCObjectPointerType, 1075 { TRY_TO(TraverseType(T->getPointeeType())); }) 1076 1077 DEF_TRAVERSE_TYPE(AtomicType, { TRY_TO(TraverseType(T->getValueType())); }) 1078 1079 DEF_TRAVERSE_TYPE(PipeType, { TRY_TO(TraverseType(T->getElementType())); }) 1080 1081 #undef DEF_TRAVERSE_TYPE 1082 1083 // ----------------- TypeLoc traversal ----------------- 1084 1085 // This macro makes available a variable TL, the passed-in TypeLoc. 1086 // If requested, it calls WalkUpFrom* for the Type in the given TypeLoc, 1087 // in addition to WalkUpFrom* for the TypeLoc itself, such that existing 1088 // clients that override the WalkUpFrom*Type() and/or Visit*Type() methods 1089 // continue to work. 1090 #define DEF_TRAVERSE_TYPELOC(TYPE, CODE) \ 1091 template <typename Derived> \ 1092 bool RecursiveASTVisitor<Derived>::Traverse##TYPE##Loc(TYPE##Loc TL) { \ 1093 if (getDerived().shouldWalkTypesOfTypeLocs()) \ 1094 TRY_TO(WalkUpFrom##TYPE(const_cast<TYPE *>(TL.getTypePtr()))); \ 1095 TRY_TO(WalkUpFrom##TYPE##Loc(TL)); \ 1096 { CODE; } \ 1097 return true; \ 1098 } 1099 1100 template <typename Derived> 1101 bool 1102 RecursiveASTVisitor<Derived>::TraverseQualifiedTypeLoc(QualifiedTypeLoc TL) { 1103 // Move this over to the 'main' typeloc tree. Note that this is a 1104 // move -- we pretend that we were really looking at the unqualified 1105 // typeloc all along -- rather than a recursion, so we don't follow 1106 // the normal CRTP plan of going through 1107 // getDerived().TraverseTypeLoc. If we did, we'd be traversing 1108 // twice for the same type (once as a QualifiedTypeLoc version of 1109 // the type, once as an UnqualifiedTypeLoc version of the type), 1110 // which in effect means we'd call VisitTypeLoc twice with the 1111 // 'same' type. This solves that problem, at the cost of never 1112 // seeing the qualified version of the type (unless the client 1113 // subclasses TraverseQualifiedTypeLoc themselves). It's not a 1114 // perfect solution. A perfect solution probably requires making 1115 // QualifiedTypeLoc a wrapper around TypeLoc -- like QualType is a 1116 // wrapper around Type* -- rather than being its own class in the 1117 // type hierarchy. 1118 return TraverseTypeLoc(TL.getUnqualifiedLoc()); 1119 } 1120 1121 DEF_TRAVERSE_TYPELOC(BuiltinType, {}) 1122 1123 // FIXME: ComplexTypeLoc is unfinished 1124 DEF_TRAVERSE_TYPELOC(ComplexType, { 1125 TRY_TO(TraverseType(TL.getTypePtr()->getElementType())); 1126 }) 1127 1128 DEF_TRAVERSE_TYPELOC(PointerType, 1129 { TRY_TO(TraverseTypeLoc(TL.getPointeeLoc())); }) 1130 1131 DEF_TRAVERSE_TYPELOC(BlockPointerType, 1132 { TRY_TO(TraverseTypeLoc(TL.getPointeeLoc())); }) 1133 1134 DEF_TRAVERSE_TYPELOC(LValueReferenceType, 1135 { TRY_TO(TraverseTypeLoc(TL.getPointeeLoc())); }) 1136 1137 DEF_TRAVERSE_TYPELOC(RValueReferenceType, 1138 { TRY_TO(TraverseTypeLoc(TL.getPointeeLoc())); }) 1139 1140 // FIXME: location of base class? 1141 // We traverse this in the type case as well, but how is it not reached through 1142 // the pointee type? 1143 DEF_TRAVERSE_TYPELOC(MemberPointerType, { 1144 TRY_TO(TraverseType(QualType(TL.getTypePtr()->getClass(), 0))); 1145 TRY_TO(TraverseTypeLoc(TL.getPointeeLoc())); 1146 }) 1147 1148 DEF_TRAVERSE_TYPELOC(AdjustedType, 1149 { TRY_TO(TraverseTypeLoc(TL.getOriginalLoc())); }) 1150 1151 DEF_TRAVERSE_TYPELOC(DecayedType, 1152 { TRY_TO(TraverseTypeLoc(TL.getOriginalLoc())); }) 1153 1154 template <typename Derived> 1155 bool RecursiveASTVisitor<Derived>::TraverseArrayTypeLocHelper(ArrayTypeLoc TL) { 1156 // This isn't available for ArrayType, but is for the ArrayTypeLoc. 1157 TRY_TO(TraverseStmt(TL.getSizeExpr())); 1158 return true; 1159 } 1160 1161 DEF_TRAVERSE_TYPELOC(ConstantArrayType, { 1162 TRY_TO(TraverseTypeLoc(TL.getElementLoc())); 1163 return TraverseArrayTypeLocHelper(TL); 1164 }) 1165 1166 DEF_TRAVERSE_TYPELOC(IncompleteArrayType, { 1167 TRY_TO(TraverseTypeLoc(TL.getElementLoc())); 1168 return TraverseArrayTypeLocHelper(TL); 1169 }) 1170 1171 DEF_TRAVERSE_TYPELOC(VariableArrayType, { 1172 TRY_TO(TraverseTypeLoc(TL.getElementLoc())); 1173 return TraverseArrayTypeLocHelper(TL); 1174 }) 1175 1176 DEF_TRAVERSE_TYPELOC(DependentSizedArrayType, { 1177 TRY_TO(TraverseTypeLoc(TL.getElementLoc())); 1178 return TraverseArrayTypeLocHelper(TL); 1179 }) 1180 1181 // FIXME: order? why not size expr first? 1182 // FIXME: base VectorTypeLoc is unfinished 1183 DEF_TRAVERSE_TYPELOC(DependentSizedExtVectorType, { 1184 if (TL.getTypePtr()->getSizeExpr()) 1185 TRY_TO(TraverseStmt(TL.getTypePtr()->getSizeExpr())); 1186 TRY_TO(TraverseType(TL.getTypePtr()->getElementType())); 1187 }) 1188 1189 // FIXME: VectorTypeLoc is unfinished 1190 DEF_TRAVERSE_TYPELOC(VectorType, { 1191 TRY_TO(TraverseType(TL.getTypePtr()->getElementType())); 1192 }) 1193 1194 // FIXME: size and attributes 1195 // FIXME: base VectorTypeLoc is unfinished 1196 DEF_TRAVERSE_TYPELOC(ExtVectorType, { 1197 TRY_TO(TraverseType(TL.getTypePtr()->getElementType())); 1198 }) 1199 1200 DEF_TRAVERSE_TYPELOC(FunctionNoProtoType, 1201 { TRY_TO(TraverseTypeLoc(TL.getReturnLoc())); }) 1202 1203 // FIXME: location of exception specifications (attributes?) 1204 DEF_TRAVERSE_TYPELOC(FunctionProtoType, { 1205 TRY_TO(TraverseTypeLoc(TL.getReturnLoc())); 1206 1207 const FunctionProtoType *T = TL.getTypePtr(); 1208 1209 for (unsigned I = 0, E = TL.getNumParams(); I != E; ++I) { 1210 if (TL.getParam(I)) { 1211 TRY_TO(TraverseDecl(TL.getParam(I))); 1212 } else if (I < T->getNumParams()) { 1213 TRY_TO(TraverseType(T->getParamType(I))); 1214 } 1215 } 1216 1217 for (const auto &E : T->exceptions()) { 1218 TRY_TO(TraverseType(E)); 1219 } 1220 1221 if (Expr *NE = T->getNoexceptExpr()) 1222 TRY_TO(TraverseStmt(NE)); 1223 }) 1224 1225 DEF_TRAVERSE_TYPELOC(UnresolvedUsingType, {}) 1226 DEF_TRAVERSE_TYPELOC(TypedefType, {}) 1227 1228 DEF_TRAVERSE_TYPELOC(TypeOfExprType, 1229 { TRY_TO(TraverseStmt(TL.getUnderlyingExpr())); }) 1230 1231 DEF_TRAVERSE_TYPELOC(TypeOfType, { 1232 TRY_TO(TraverseTypeLoc(TL.getUnderlyingTInfo()->getTypeLoc())); 1233 }) 1234 1235 // FIXME: location of underlying expr 1236 DEF_TRAVERSE_TYPELOC(DecltypeType, { 1237 TRY_TO(TraverseStmt(TL.getTypePtr()->getUnderlyingExpr())); 1238 }) 1239 1240 DEF_TRAVERSE_TYPELOC(UnaryTransformType, { 1241 TRY_TO(TraverseTypeLoc(TL.getUnderlyingTInfo()->getTypeLoc())); 1242 }) 1243 1244 DEF_TRAVERSE_TYPELOC(AutoType, { 1245 TRY_TO(TraverseType(TL.getTypePtr()->getDeducedType())); 1246 }) 1247 1248 DEF_TRAVERSE_TYPELOC(DeducedTemplateSpecializationType, { 1249 TRY_TO(TraverseTemplateName(TL.getTypePtr()->getTemplateName())); 1250 TRY_TO(TraverseType(TL.getTypePtr()->getDeducedType())); 1251 }) 1252 1253 DEF_TRAVERSE_TYPELOC(RecordType, {}) 1254 DEF_TRAVERSE_TYPELOC(EnumType, {}) 1255 DEF_TRAVERSE_TYPELOC(TemplateTypeParmType, {}) 1256 DEF_TRAVERSE_TYPELOC(SubstTemplateTypeParmType, { 1257 TRY_TO(TraverseType(TL.getTypePtr()->getReplacementType())); 1258 }) 1259 DEF_TRAVERSE_TYPELOC(SubstTemplateTypeParmPackType, { 1260 TRY_TO(TraverseTemplateArgument(TL.getTypePtr()->getArgumentPack())); 1261 }) 1262 1263 // FIXME: use the loc for the template name? 1264 DEF_TRAVERSE_TYPELOC(TemplateSpecializationType, { 1265 TRY_TO(TraverseTemplateName(TL.getTypePtr()->getTemplateName())); 1266 for (unsigned I = 0, E = TL.getNumArgs(); I != E; ++I) { 1267 TRY_TO(TraverseTemplateArgumentLoc(TL.getArgLoc(I))); 1268 } 1269 }) 1270 1271 DEF_TRAVERSE_TYPELOC(InjectedClassNameType, {}) 1272 1273 DEF_TRAVERSE_TYPELOC(ParenType, { TRY_TO(TraverseTypeLoc(TL.getInnerLoc())); }) 1274 1275 DEF_TRAVERSE_TYPELOC(AttributedType, 1276 { TRY_TO(TraverseTypeLoc(TL.getModifiedLoc())); }) 1277 1278 DEF_TRAVERSE_TYPELOC(ElaboratedType, { 1279 if (TL.getQualifierLoc()) { 1280 TRY_TO(TraverseNestedNameSpecifierLoc(TL.getQualifierLoc())); 1281 } 1282 TRY_TO(TraverseTypeLoc(TL.getNamedTypeLoc())); 1283 }) 1284 1285 DEF_TRAVERSE_TYPELOC(DependentNameType, { 1286 TRY_TO(TraverseNestedNameSpecifierLoc(TL.getQualifierLoc())); 1287 }) 1288 1289 DEF_TRAVERSE_TYPELOC(DependentTemplateSpecializationType, { 1290 if (TL.getQualifierLoc()) { 1291 TRY_TO(TraverseNestedNameSpecifierLoc(TL.getQualifierLoc())); 1292 } 1293 1294 for (unsigned I = 0, E = TL.getNumArgs(); I != E; ++I) { 1295 TRY_TO(TraverseTemplateArgumentLoc(TL.getArgLoc(I))); 1296 } 1297 }) 1298 1299 DEF_TRAVERSE_TYPELOC(PackExpansionType, 1300 { TRY_TO(TraverseTypeLoc(TL.getPatternLoc())); }) 1301 1302 DEF_TRAVERSE_TYPELOC(ObjCTypeParamType, {}) 1303 1304 DEF_TRAVERSE_TYPELOC(ObjCInterfaceType, {}) 1305 1306 DEF_TRAVERSE_TYPELOC(ObjCObjectType, { 1307 // We have to watch out here because an ObjCInterfaceType's base 1308 // type is itself. 1309 if (TL.getTypePtr()->getBaseType().getTypePtr() != TL.getTypePtr()) 1310 TRY_TO(TraverseTypeLoc(TL.getBaseLoc())); 1311 for (unsigned i = 0, n = TL.getNumTypeArgs(); i != n; ++i) 1312 TRY_TO(TraverseTypeLoc(TL.getTypeArgTInfo(i)->getTypeLoc())); 1313 }) 1314 1315 DEF_TRAVERSE_TYPELOC(ObjCObjectPointerType, 1316 { TRY_TO(TraverseTypeLoc(TL.getPointeeLoc())); }) 1317 1318 DEF_TRAVERSE_TYPELOC(AtomicType, { TRY_TO(TraverseTypeLoc(TL.getValueLoc())); }) 1319 1320 DEF_TRAVERSE_TYPELOC(PipeType, { TRY_TO(TraverseTypeLoc(TL.getValueLoc())); }) 1321 1322 #undef DEF_TRAVERSE_TYPELOC 1323 1324 // ----------------- Decl traversal ----------------- 1325 // 1326 // For a Decl, we automate (in the DEF_TRAVERSE_DECL macro) traversing 1327 // the children that come from the DeclContext associated with it. 1328 // Therefore each Traverse* only needs to worry about children other 1329 // than those. 1330 1331 template <typename Derived> 1332 bool RecursiveASTVisitor<Derived>::TraverseDeclContextHelper(DeclContext *DC) { 1333 if (!DC) 1334 return true; 1335 1336 for (auto *Child : DC->decls()) { 1337 // BlockDecls and CapturedDecls are traversed through BlockExprs and 1338 // CapturedStmts respectively. 1339 if (!isa<BlockDecl>(Child) && !isa<CapturedDecl>(Child)) 1340 TRY_TO(TraverseDecl(Child)); 1341 } 1342 1343 return true; 1344 } 1345 1346 // This macro makes available a variable D, the passed-in decl. 1347 #define DEF_TRAVERSE_DECL(DECL, CODE) \ 1348 template <typename Derived> \ 1349 bool RecursiveASTVisitor<Derived>::Traverse##DECL(DECL *D) { \ 1350 bool ShouldVisitChildren = true; \ 1351 bool ReturnValue = true; \ 1352 if (!getDerived().shouldTraversePostOrder()) \ 1353 TRY_TO(WalkUpFrom##DECL(D)); \ 1354 { CODE; } \ 1355 if (ReturnValue && ShouldVisitChildren) \ 1356 TRY_TO(TraverseDeclContextHelper(dyn_cast<DeclContext>(D))); \ 1357 if (ReturnValue && getDerived().shouldTraversePostOrder()) \ 1358 TRY_TO(WalkUpFrom##DECL(D)); \ 1359 return ReturnValue; \ 1360 } 1361 1362 DEF_TRAVERSE_DECL(AccessSpecDecl, {}) 1363 1364 DEF_TRAVERSE_DECL(BlockDecl, { 1365 if (TypeSourceInfo *TInfo = D->getSignatureAsWritten()) 1366 TRY_TO(TraverseTypeLoc(TInfo->getTypeLoc())); 1367 TRY_TO(TraverseStmt(D->getBody())); 1368 for (const auto &I : D->captures()) { 1369 if (I.hasCopyExpr()) { 1370 TRY_TO(TraverseStmt(I.getCopyExpr())); 1371 } 1372 } 1373 ShouldVisitChildren = false; 1374 }) 1375 1376 DEF_TRAVERSE_DECL(CapturedDecl, { 1377 TRY_TO(TraverseStmt(D->getBody())); 1378 ShouldVisitChildren = false; 1379 }) 1380 1381 DEF_TRAVERSE_DECL(EmptyDecl, {}) 1382 1383 DEF_TRAVERSE_DECL(FileScopeAsmDecl, 1384 { TRY_TO(TraverseStmt(D->getAsmString())); }) 1385 1386 DEF_TRAVERSE_DECL(ImportDecl, {}) 1387 1388 DEF_TRAVERSE_DECL(FriendDecl, { 1389 // Friend is either decl or a type. 1390 if (D->getFriendType()) 1391 TRY_TO(TraverseTypeLoc(D->getFriendType()->getTypeLoc())); 1392 else 1393 TRY_TO(TraverseDecl(D->getFriendDecl())); 1394 }) 1395 1396 DEF_TRAVERSE_DECL(FriendTemplateDecl, { 1397 if (D->getFriendType()) 1398 TRY_TO(TraverseTypeLoc(D->getFriendType()->getTypeLoc())); 1399 else 1400 TRY_TO(TraverseDecl(D->getFriendDecl())); 1401 for (unsigned I = 0, E = D->getNumTemplateParameters(); I < E; ++I) { 1402 TemplateParameterList *TPL = D->getTemplateParameterList(I); 1403 for (TemplateParameterList::iterator ITPL = TPL->begin(), ETPL = TPL->end(); 1404 ITPL != ETPL; ++ITPL) { 1405 TRY_TO(TraverseDecl(*ITPL)); 1406 } 1407 } 1408 }) 1409 1410 DEF_TRAVERSE_DECL(ClassScopeFunctionSpecializationDecl, { 1411 TRY_TO(TraverseDecl(D->getSpecialization())); 1412 1413 if (D->hasExplicitTemplateArgs()) { 1414 const TemplateArgumentListInfo &args = D->templateArgs(); 1415 TRY_TO(TraverseTemplateArgumentLocsHelper(args.getArgumentArray(), 1416 args.size())); 1417 } 1418 }) 1419 1420 DEF_TRAVERSE_DECL(LinkageSpecDecl, {}) 1421 1422 DEF_TRAVERSE_DECL(ExportDecl, {}) 1423 1424 DEF_TRAVERSE_DECL(ObjCPropertyImplDecl, {// FIXME: implement this 1425 }) 1426 1427 DEF_TRAVERSE_DECL(StaticAssertDecl, { 1428 TRY_TO(TraverseStmt(D->getAssertExpr())); 1429 TRY_TO(TraverseStmt(D->getMessage())); 1430 }) 1431 1432 DEF_TRAVERSE_DECL( 1433 TranslationUnitDecl, 1434 {// Code in an unnamed namespace shows up automatically in 1435 // decls_begin()/decls_end(). Thus we don't need to recurse on 1436 // D->getAnonymousNamespace(). 1437 }) 1438 1439 DEF_TRAVERSE_DECL(PragmaCommentDecl, {}) 1440 1441 DEF_TRAVERSE_DECL(PragmaDetectMismatchDecl, {}) 1442 1443 DEF_TRAVERSE_DECL(ExternCContextDecl, {}) 1444 1445 DEF_TRAVERSE_DECL(NamespaceAliasDecl, { 1446 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1447 1448 // We shouldn't traverse an aliased namespace, since it will be 1449 // defined (and, therefore, traversed) somewhere else. 1450 ShouldVisitChildren = false; 1451 }) 1452 1453 DEF_TRAVERSE_DECL(LabelDecl, {// There is no code in a LabelDecl. 1454 }) 1455 1456 DEF_TRAVERSE_DECL( 1457 NamespaceDecl, 1458 {// Code in an unnamed namespace shows up automatically in 1459 // decls_begin()/decls_end(). Thus we don't need to recurse on 1460 // D->getAnonymousNamespace(). 1461 }) 1462 1463 DEF_TRAVERSE_DECL(ObjCCompatibleAliasDecl, {// FIXME: implement 1464 }) 1465 1466 DEF_TRAVERSE_DECL(ObjCCategoryDecl, {// FIXME: implement 1467 if (ObjCTypeParamList *typeParamList = D->getTypeParamList()) { 1468 for (auto typeParam : *typeParamList) { 1469 TRY_TO(TraverseObjCTypeParamDecl(typeParam)); 1470 } 1471 } 1472 }) 1473 1474 DEF_TRAVERSE_DECL(ObjCCategoryImplDecl, {// FIXME: implement 1475 }) 1476 1477 DEF_TRAVERSE_DECL(ObjCImplementationDecl, {// FIXME: implement 1478 }) 1479 1480 DEF_TRAVERSE_DECL(ObjCInterfaceDecl, {// FIXME: implement 1481 if (ObjCTypeParamList *typeParamList = D->getTypeParamListAsWritten()) { 1482 for (auto typeParam : *typeParamList) { 1483 TRY_TO(TraverseObjCTypeParamDecl(typeParam)); 1484 } 1485 } 1486 1487 if (TypeSourceInfo *superTInfo = D->getSuperClassTInfo()) { 1488 TRY_TO(TraverseTypeLoc(superTInfo->getTypeLoc())); 1489 } 1490 }) 1491 1492 DEF_TRAVERSE_DECL(ObjCProtocolDecl, {// FIXME: implement 1493 }) 1494 1495 DEF_TRAVERSE_DECL(ObjCMethodDecl, { 1496 if (D->getReturnTypeSourceInfo()) { 1497 TRY_TO(TraverseTypeLoc(D->getReturnTypeSourceInfo()->getTypeLoc())); 1498 } 1499 for (ParmVarDecl *Parameter : D->parameters()) { 1500 TRY_TO(TraverseDecl(Parameter)); 1501 } 1502 if (D->isThisDeclarationADefinition()) { 1503 TRY_TO(TraverseStmt(D->getBody())); 1504 } 1505 ShouldVisitChildren = false; 1506 }) 1507 1508 DEF_TRAVERSE_DECL(ObjCTypeParamDecl, { 1509 if (D->hasExplicitBound()) { 1510 TRY_TO(TraverseTypeLoc(D->getTypeSourceInfo()->getTypeLoc())); 1511 // We shouldn't traverse D->getTypeForDecl(); it's a result of 1512 // declaring the type alias, not something that was written in the 1513 // source. 1514 } 1515 }) 1516 1517 DEF_TRAVERSE_DECL(ObjCPropertyDecl, { 1518 if (D->getTypeSourceInfo()) 1519 TRY_TO(TraverseTypeLoc(D->getTypeSourceInfo()->getTypeLoc())); 1520 else 1521 TRY_TO(TraverseType(D->getType())); 1522 ShouldVisitChildren = false; 1523 }) 1524 1525 DEF_TRAVERSE_DECL(UsingDecl, { 1526 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1527 TRY_TO(TraverseDeclarationNameInfo(D->getNameInfo())); 1528 }) 1529 1530 DEF_TRAVERSE_DECL(UsingPackDecl, {}) 1531 1532 DEF_TRAVERSE_DECL(UsingDirectiveDecl, { 1533 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1534 }) 1535 1536 DEF_TRAVERSE_DECL(UsingShadowDecl, {}) 1537 1538 DEF_TRAVERSE_DECL(ConstructorUsingShadowDecl, {}) 1539 1540 DEF_TRAVERSE_DECL(OMPThreadPrivateDecl, { 1541 for (auto *I : D->varlists()) { 1542 TRY_TO(TraverseStmt(I)); 1543 } 1544 }) 1545 1546 DEF_TRAVERSE_DECL(OMPDeclareReductionDecl, { 1547 TRY_TO(TraverseStmt(D->getCombiner())); 1548 if (auto *Initializer = D->getInitializer()) 1549 TRY_TO(TraverseStmt(Initializer)); 1550 TRY_TO(TraverseType(D->getType())); 1551 return true; 1552 }) 1553 1554 DEF_TRAVERSE_DECL(OMPCapturedExprDecl, { TRY_TO(TraverseVarHelper(D)); }) 1555 1556 // A helper method for TemplateDecl's children. 1557 template <typename Derived> 1558 bool RecursiveASTVisitor<Derived>::TraverseTemplateParameterListHelper( 1559 TemplateParameterList *TPL) { 1560 if (TPL) { 1561 for (TemplateParameterList::iterator I = TPL->begin(), E = TPL->end(); 1562 I != E; ++I) { 1563 TRY_TO(TraverseDecl(*I)); 1564 } 1565 } 1566 return true; 1567 } 1568 1569 template <typename Derived> 1570 template <typename T> 1571 bool RecursiveASTVisitor<Derived>::TraverseDeclTemplateParameterLists(T *D) { 1572 for (unsigned i = 0; i < D->getNumTemplateParameterLists(); i++) { 1573 TemplateParameterList *TPL = D->getTemplateParameterList(i); 1574 TraverseTemplateParameterListHelper(TPL); 1575 } 1576 return true; 1577 } 1578 1579 template <typename Derived> 1580 bool RecursiveASTVisitor<Derived>::TraverseTemplateInstantiations( 1581 ClassTemplateDecl *D) { 1582 for (auto *SD : D->specializations()) { 1583 for (auto *RD : SD->redecls()) { 1584 // We don't want to visit injected-class-names in this traversal. 1585 if (cast<CXXRecordDecl>(RD)->isInjectedClassName()) 1586 continue; 1587 1588 switch ( 1589 cast<ClassTemplateSpecializationDecl>(RD)->getSpecializationKind()) { 1590 // Visit the implicit instantiations with the requested pattern. 1591 case TSK_Undeclared: 1592 case TSK_ImplicitInstantiation: 1593 TRY_TO(TraverseDecl(RD)); 1594 break; 1595 1596 // We don't need to do anything on an explicit instantiation 1597 // or explicit specialization because there will be an explicit 1598 // node for it elsewhere. 1599 case TSK_ExplicitInstantiationDeclaration: 1600 case TSK_ExplicitInstantiationDefinition: 1601 case TSK_ExplicitSpecialization: 1602 break; 1603 } 1604 } 1605 } 1606 1607 return true; 1608 } 1609 1610 template <typename Derived> 1611 bool RecursiveASTVisitor<Derived>::TraverseTemplateInstantiations( 1612 VarTemplateDecl *D) { 1613 for (auto *SD : D->specializations()) { 1614 for (auto *RD : SD->redecls()) { 1615 switch ( 1616 cast<VarTemplateSpecializationDecl>(RD)->getSpecializationKind()) { 1617 case TSK_Undeclared: 1618 case TSK_ImplicitInstantiation: 1619 TRY_TO(TraverseDecl(RD)); 1620 break; 1621 1622 case TSK_ExplicitInstantiationDeclaration: 1623 case TSK_ExplicitInstantiationDefinition: 1624 case TSK_ExplicitSpecialization: 1625 break; 1626 } 1627 } 1628 } 1629 1630 return true; 1631 } 1632 1633 // A helper method for traversing the instantiations of a 1634 // function while skipping its specializations. 1635 template <typename Derived> 1636 bool RecursiveASTVisitor<Derived>::TraverseTemplateInstantiations( 1637 FunctionTemplateDecl *D) { 1638 for (auto *FD : D->specializations()) { 1639 for (auto *RD : FD->redecls()) { 1640 switch (RD->getTemplateSpecializationKind()) { 1641 case TSK_Undeclared: 1642 case TSK_ImplicitInstantiation: 1643 // We don't know what kind of FunctionDecl this is. 1644 TRY_TO(TraverseDecl(RD)); 1645 break; 1646 1647 // FIXME: For now traverse explicit instantiations here. Change that 1648 // once they are represented as dedicated nodes in the AST. 1649 case TSK_ExplicitInstantiationDeclaration: 1650 case TSK_ExplicitInstantiationDefinition: 1651 TRY_TO(TraverseDecl(RD)); 1652 break; 1653 1654 case TSK_ExplicitSpecialization: 1655 break; 1656 } 1657 } 1658 } 1659 1660 return true; 1661 } 1662 1663 // This macro unifies the traversal of class, variable and function 1664 // template declarations. 1665 #define DEF_TRAVERSE_TMPL_DECL(TMPLDECLKIND) \ 1666 DEF_TRAVERSE_DECL(TMPLDECLKIND##TemplateDecl, { \ 1667 TRY_TO(TraverseDecl(D->getTemplatedDecl())); \ 1668 TRY_TO(TraverseTemplateParameterListHelper(D->getTemplateParameters())); \ 1669 \ 1670 /* By default, we do not traverse the instantiations of \ 1671 class templates since they do not appear in the user code. The \ 1672 following code optionally traverses them. \ 1673 \ 1674 We only traverse the class instantiations when we see the canonical \ 1675 declaration of the template, to ensure we only visit them once. */ \ 1676 if (getDerived().shouldVisitTemplateInstantiations() && \ 1677 D == D->getCanonicalDecl()) \ 1678 TRY_TO(TraverseTemplateInstantiations(D)); \ 1679 \ 1680 /* Note that getInstantiatedFromMemberTemplate() is just a link \ 1681 from a template instantiation back to the template from which \ 1682 it was instantiated, and thus should not be traversed. */ \ 1683 }) 1684 1685 DEF_TRAVERSE_TMPL_DECL(Class) 1686 DEF_TRAVERSE_TMPL_DECL(Var) 1687 DEF_TRAVERSE_TMPL_DECL(Function) 1688 1689 DEF_TRAVERSE_DECL(TemplateTemplateParmDecl, { 1690 // D is the "T" in something like 1691 // template <template <typename> class T> class container { }; 1692 TRY_TO(TraverseDecl(D->getTemplatedDecl())); 1693 if (D->hasDefaultArgument() && !D->defaultArgumentWasInherited()) { 1694 TRY_TO(TraverseTemplateArgumentLoc(D->getDefaultArgument())); 1695 } 1696 TRY_TO(TraverseTemplateParameterListHelper(D->getTemplateParameters())); 1697 }) 1698 1699 DEF_TRAVERSE_DECL(BuiltinTemplateDecl, { 1700 TRY_TO(TraverseTemplateParameterListHelper(D->getTemplateParameters())); 1701 }) 1702 1703 DEF_TRAVERSE_DECL(TemplateTypeParmDecl, { 1704 // D is the "T" in something like "template<typename T> class vector;" 1705 if (D->getTypeForDecl()) 1706 TRY_TO(TraverseType(QualType(D->getTypeForDecl(), 0))); 1707 if (D->hasDefaultArgument() && !D->defaultArgumentWasInherited()) 1708 TRY_TO(TraverseTypeLoc(D->getDefaultArgumentInfo()->getTypeLoc())); 1709 }) 1710 1711 DEF_TRAVERSE_DECL(TypedefDecl, { 1712 TRY_TO(TraverseTypeLoc(D->getTypeSourceInfo()->getTypeLoc())); 1713 // We shouldn't traverse D->getTypeForDecl(); it's a result of 1714 // declaring the typedef, not something that was written in the 1715 // source. 1716 }) 1717 1718 DEF_TRAVERSE_DECL(TypeAliasDecl, { 1719 TRY_TO(TraverseTypeLoc(D->getTypeSourceInfo()->getTypeLoc())); 1720 // We shouldn't traverse D->getTypeForDecl(); it's a result of 1721 // declaring the type alias, not something that was written in the 1722 // source. 1723 }) 1724 1725 DEF_TRAVERSE_DECL(TypeAliasTemplateDecl, { 1726 TRY_TO(TraverseDecl(D->getTemplatedDecl())); 1727 TRY_TO(TraverseTemplateParameterListHelper(D->getTemplateParameters())); 1728 }) 1729 1730 DEF_TRAVERSE_DECL(UnresolvedUsingTypenameDecl, { 1731 // A dependent using declaration which was marked with 'typename'. 1732 // template<class T> class A : public B<T> { using typename B<T>::foo; }; 1733 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1734 // We shouldn't traverse D->getTypeForDecl(); it's a result of 1735 // declaring the type, not something that was written in the 1736 // source. 1737 }) 1738 1739 DEF_TRAVERSE_DECL(EnumDecl, { 1740 TRY_TO(TraverseDeclTemplateParameterLists(D)); 1741 1742 if (D->getTypeForDecl()) 1743 TRY_TO(TraverseType(QualType(D->getTypeForDecl(), 0))); 1744 1745 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1746 // The enumerators are already traversed by 1747 // decls_begin()/decls_end(). 1748 }) 1749 1750 // Helper methods for RecordDecl and its children. 1751 template <typename Derived> 1752 bool RecursiveASTVisitor<Derived>::TraverseRecordHelper(RecordDecl *D) { 1753 // We shouldn't traverse D->getTypeForDecl(); it's a result of 1754 // declaring the type, not something that was written in the source. 1755 1756 TRY_TO(TraverseDeclTemplateParameterLists(D)); 1757 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1758 return true; 1759 } 1760 1761 template <typename Derived> 1762 bool RecursiveASTVisitor<Derived>::TraverseCXXRecordHelper(CXXRecordDecl *D) { 1763 if (!TraverseRecordHelper(D)) 1764 return false; 1765 if (D->isCompleteDefinition()) { 1766 for (const auto &I : D->bases()) { 1767 TRY_TO(TraverseTypeLoc(I.getTypeSourceInfo()->getTypeLoc())); 1768 } 1769 // We don't traverse the friends or the conversions, as they are 1770 // already in decls_begin()/decls_end(). 1771 } 1772 return true; 1773 } 1774 1775 DEF_TRAVERSE_DECL(RecordDecl, { TRY_TO(TraverseRecordHelper(D)); }) 1776 1777 DEF_TRAVERSE_DECL(CXXRecordDecl, { TRY_TO(TraverseCXXRecordHelper(D)); }) 1778 1779 #define DEF_TRAVERSE_TMPL_SPEC_DECL(TMPLDECLKIND) \ 1780 DEF_TRAVERSE_DECL(TMPLDECLKIND##TemplateSpecializationDecl, { \ 1781 /* For implicit instantiations ("set<int> x;"), we don't want to \ 1782 recurse at all, since the instatiated template isn't written in \ 1783 the source code anywhere. (Note the instatiated *type* -- \ 1784 set<int> -- is written, and will still get a callback of \ 1785 TemplateSpecializationType). For explicit instantiations \ 1786 ("template set<int>;"), we do need a callback, since this \ 1787 is the only callback that's made for this instantiation. \ 1788 We use getTypeAsWritten() to distinguish. */ \ 1789 if (TypeSourceInfo *TSI = D->getTypeAsWritten()) \ 1790 TRY_TO(TraverseTypeLoc(TSI->getTypeLoc())); \ 1791 \ 1792 if (!getDerived().shouldVisitTemplateInstantiations() && \ 1793 D->getTemplateSpecializationKind() != TSK_ExplicitSpecialization) \ 1794 /* Returning from here skips traversing the \ 1795 declaration context of the *TemplateSpecializationDecl \ 1796 (embedded in the DEF_TRAVERSE_DECL() macro) \ 1797 which contains the instantiated members of the template. */ \ 1798 return true; \ 1799 }) 1800 1801 DEF_TRAVERSE_TMPL_SPEC_DECL(Class) 1802 DEF_TRAVERSE_TMPL_SPEC_DECL(Var) 1803 1804 template <typename Derived> 1805 bool RecursiveASTVisitor<Derived>::TraverseTemplateArgumentLocsHelper( 1806 const TemplateArgumentLoc *TAL, unsigned Count) { 1807 for (unsigned I = 0; I < Count; ++I) { 1808 TRY_TO(TraverseTemplateArgumentLoc(TAL[I])); 1809 } 1810 return true; 1811 } 1812 1813 #define DEF_TRAVERSE_TMPL_PART_SPEC_DECL(TMPLDECLKIND, DECLKIND) \ 1814 DEF_TRAVERSE_DECL(TMPLDECLKIND##TemplatePartialSpecializationDecl, { \ 1815 /* The partial specialization. */ \ 1816 if (TemplateParameterList *TPL = D->getTemplateParameters()) { \ 1817 for (TemplateParameterList::iterator I = TPL->begin(), E = TPL->end(); \ 1818 I != E; ++I) { \ 1819 TRY_TO(TraverseDecl(*I)); \ 1820 } \ 1821 } \ 1822 /* The args that remains unspecialized. */ \ 1823 TRY_TO(TraverseTemplateArgumentLocsHelper( \ 1824 D->getTemplateArgsAsWritten()->getTemplateArgs(), \ 1825 D->getTemplateArgsAsWritten()->NumTemplateArgs)); \ 1826 \ 1827 /* Don't need the *TemplatePartialSpecializationHelper, even \ 1828 though that's our parent class -- we already visit all the \ 1829 template args here. */ \ 1830 TRY_TO(Traverse##DECLKIND##Helper(D)); \ 1831 \ 1832 /* Instantiations will have been visited with the primary template. */ \ 1833 }) 1834 1835 DEF_TRAVERSE_TMPL_PART_SPEC_DECL(Class, CXXRecord) 1836 DEF_TRAVERSE_TMPL_PART_SPEC_DECL(Var, Var) 1837 1838 DEF_TRAVERSE_DECL(EnumConstantDecl, { TRY_TO(TraverseStmt(D->getInitExpr())); }) 1839 1840 DEF_TRAVERSE_DECL(UnresolvedUsingValueDecl, { 1841 // Like UnresolvedUsingTypenameDecl, but without the 'typename': 1842 // template <class T> Class A : public Base<T> { using Base<T>::foo; }; 1843 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1844 TRY_TO(TraverseDeclarationNameInfo(D->getNameInfo())); 1845 }) 1846 1847 DEF_TRAVERSE_DECL(IndirectFieldDecl, {}) 1848 1849 template <typename Derived> 1850 bool RecursiveASTVisitor<Derived>::TraverseDeclaratorHelper(DeclaratorDecl *D) { 1851 TRY_TO(TraverseDeclTemplateParameterLists(D)); 1852 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1853 if (D->getTypeSourceInfo()) 1854 TRY_TO(TraverseTypeLoc(D->getTypeSourceInfo()->getTypeLoc())); 1855 else 1856 TRY_TO(TraverseType(D->getType())); 1857 return true; 1858 } 1859 1860 DEF_TRAVERSE_DECL(DecompositionDecl, { 1861 TRY_TO(TraverseVarHelper(D)); 1862 for (auto *Binding : D->bindings()) { 1863 TRY_TO(TraverseDecl(Binding)); 1864 } 1865 }) 1866 1867 DEF_TRAVERSE_DECL(BindingDecl, { 1868 if (getDerived().shouldVisitImplicitCode()) 1869 TRY_TO(TraverseStmt(D->getBinding())); 1870 }) 1871 1872 DEF_TRAVERSE_DECL(MSPropertyDecl, { TRY_TO(TraverseDeclaratorHelper(D)); }) 1873 1874 DEF_TRAVERSE_DECL(FieldDecl, { 1875 TRY_TO(TraverseDeclaratorHelper(D)); 1876 if (D->isBitField()) 1877 TRY_TO(TraverseStmt(D->getBitWidth())); 1878 else if (D->hasInClassInitializer()) 1879 TRY_TO(TraverseStmt(D->getInClassInitializer())); 1880 }) 1881 1882 DEF_TRAVERSE_DECL(ObjCAtDefsFieldDecl, { 1883 TRY_TO(TraverseDeclaratorHelper(D)); 1884 if (D->isBitField()) 1885 TRY_TO(TraverseStmt(D->getBitWidth())); 1886 // FIXME: implement the rest. 1887 }) 1888 1889 DEF_TRAVERSE_DECL(ObjCIvarDecl, { 1890 TRY_TO(TraverseDeclaratorHelper(D)); 1891 if (D->isBitField()) 1892 TRY_TO(TraverseStmt(D->getBitWidth())); 1893 // FIXME: implement the rest. 1894 }) 1895 1896 template <typename Derived> 1897 bool RecursiveASTVisitor<Derived>::TraverseFunctionHelper(FunctionDecl *D) { 1898 TRY_TO(TraverseDeclTemplateParameterLists(D)); 1899 TRY_TO(TraverseNestedNameSpecifierLoc(D->getQualifierLoc())); 1900 TRY_TO(TraverseDeclarationNameInfo(D->getNameInfo())); 1901 1902 // If we're an explicit template specialization, iterate over the 1903 // template args that were explicitly specified. If we were doing 1904 // this in typing order, we'd do it between the return type and 1905 // the function args, but both are handled by the FunctionTypeLoc 1906 // above, so we have to choose one side. I've decided to do before. 1907 if (const FunctionTemplateSpecializationInfo *FTSI = 1908 D->getTemplateSpecializationInfo()) { 1909 if (FTSI->getTemplateSpecializationKind() != TSK_Undeclared && 1910 FTSI->getTemplateSpecializationKind() != TSK_ImplicitInstantiation) { 1911 // A specialization might not have explicit template arguments if it has 1912 // a templated return type and concrete arguments. 1913 if (const ASTTemplateArgumentListInfo *TALI = 1914 FTSI->TemplateArgumentsAsWritten) { 1915 TRY_TO(TraverseTemplateArgumentLocsHelper(TALI->getTemplateArgs(), 1916 TALI->NumTemplateArgs)); 1917 } 1918 } 1919 } 1920 1921 // Visit the function type itself, which can be either 1922 // FunctionNoProtoType or FunctionProtoType, or a typedef. This 1923 // also covers the return type and the function parameters, 1924 // including exception specifications. 1925 if (TypeSourceInfo *TSI = D->getTypeSourceInfo()) { 1926 TRY_TO(TraverseTypeLoc(TSI->getTypeLoc())); 1927 } else if (getDerived().shouldVisitImplicitCode()) { 1928 // Visit parameter variable declarations of the implicit function 1929 // if the traverser is visiting implicit code. Parameter variable 1930 // declarations do not have valid TypeSourceInfo, so to visit them 1931 // we need to traverse the declarations explicitly. 1932 for (ParmVarDecl *Parameter : D->parameters()) { 1933 TRY_TO(TraverseDecl(Parameter)); 1934 } 1935 } 1936 1937 if (CXXConstructorDecl *Ctor = dyn_cast<CXXConstructorDecl>(D)) { 1938 // Constructor initializers. 1939 for (auto *I : Ctor->inits()) { 1940 TRY_TO(TraverseConstructorInitializer(I)); 1941 } 1942 } 1943 1944 if (D->isThisDeclarationADefinition()) { 1945 TRY_TO(TraverseStmt(D->getBody())); // Function body. 1946 } 1947 return true; 1948 } 1949 1950 DEF_TRAVERSE_DECL(FunctionDecl, { 1951 // We skip decls_begin/decls_end, which are already covered by 1952 // TraverseFunctionHelper(). 1953 ShouldVisitChildren = false; 1954 ReturnValue = TraverseFunctionHelper(D); 1955 }) 1956 1957 DEF_TRAVERSE_DECL(CXXDeductionGuideDecl, { 1958 // We skip decls_begin/decls_end, which are already covered by 1959 // TraverseFunctionHelper(). 1960 ShouldVisitChildren = false; 1961 ReturnValue = TraverseFunctionHelper(D); 1962 }) 1963 1964 DEF_TRAVERSE_DECL(CXXMethodDecl, { 1965 // We skip decls_begin/decls_end, which are already covered by 1966 // TraverseFunctionHelper(). 1967 ShouldVisitChildren = false; 1968 ReturnValue = TraverseFunctionHelper(D); 1969 }) 1970 1971 DEF_TRAVERSE_DECL(CXXConstructorDecl, { 1972 // We skip decls_begin/decls_end, which are already covered by 1973 // TraverseFunctionHelper(). 1974 ShouldVisitChildren = false; 1975 ReturnValue = TraverseFunctionHelper(D); 1976 }) 1977 1978 // CXXConversionDecl is the declaration of a type conversion operator. 1979 // It's not a cast expression. 1980 DEF_TRAVERSE_DECL(CXXConversionDecl, { 1981 // We skip decls_begin/decls_end, which are already covered by 1982 // TraverseFunctionHelper(). 1983 ShouldVisitChildren = false; 1984 ReturnValue = TraverseFunctionHelper(D); 1985 }) 1986 1987 DEF_TRAVERSE_DECL(CXXDestructorDecl, { 1988 // We skip decls_begin/decls_end, which are already covered by 1989 // TraverseFunctionHelper(). 1990 ShouldVisitChildren = false; 1991 ReturnValue = TraverseFunctionHelper(D); 1992 }) 1993 1994 template <typename Derived> 1995 bool RecursiveASTVisitor<Derived>::TraverseVarHelper(VarDecl *D) { 1996 TRY_TO(TraverseDeclaratorHelper(D)); 1997 // Default params are taken care of when we traverse the ParmVarDecl. 1998 if (!isa<ParmVarDecl>(D) && 1999 (!D->isCXXForRangeDecl() || getDerived().shouldVisitImplicitCode())) 2000 TRY_TO(TraverseStmt(D->getInit())); 2001 return true; 2002 } 2003 2004 DEF_TRAVERSE_DECL(VarDecl, { TRY_TO(TraverseVarHelper(D)); }) 2005 2006 DEF_TRAVERSE_DECL(ImplicitParamDecl, { TRY_TO(TraverseVarHelper(D)); }) 2007 2008 DEF_TRAVERSE_DECL(NonTypeTemplateParmDecl, { 2009 // A non-type template parameter, e.g. "S" in template<int S> class Foo ... 2010 TRY_TO(TraverseDeclaratorHelper(D)); 2011 if (D->hasDefaultArgument() && !D->defaultArgumentWasInherited()) 2012 TRY_TO(TraverseStmt(D->getDefaultArgument())); 2013 }) 2014 2015 DEF_TRAVERSE_DECL(ParmVarDecl, { 2016 TRY_TO(TraverseVarHelper(D)); 2017 2018 if (D->hasDefaultArg() && D->hasUninstantiatedDefaultArg() && 2019 !D->hasUnparsedDefaultArg()) 2020 TRY_TO(TraverseStmt(D->getUninstantiatedDefaultArg())); 2021 2022 if (D->hasDefaultArg() && !D->hasUninstantiatedDefaultArg() && 2023 !D->hasUnparsedDefaultArg()) 2024 TRY_TO(TraverseStmt(D->getDefaultArg())); 2025 }) 2026 2027 #undef DEF_TRAVERSE_DECL 2028 2029 // ----------------- Stmt traversal ----------------- 2030 // 2031 // For stmts, we automate (in the DEF_TRAVERSE_STMT macro) iterating 2032 // over the children defined in children() (every stmt defines these, 2033 // though sometimes the range is empty). Each individual Traverse* 2034 // method only needs to worry about children other than those. To see 2035 // what children() does for a given class, see, e.g., 2036 // http://clang.llvm.org/doxygen/Stmt_8cpp_source.html 2037 2038 // This macro makes available a variable S, the passed-in stmt. 2039 #define DEF_TRAVERSE_STMT(STMT, CODE) \ 2040 template <typename Derived> \ 2041 bool RecursiveASTVisitor<Derived>::Traverse##STMT( \ 2042 STMT *S, DataRecursionQueue *Queue) { \ 2043 bool ShouldVisitChildren = true; \ 2044 bool ReturnValue = true; \ 2045 if (!getDerived().shouldTraversePostOrder()) \ 2046 TRY_TO(WalkUpFrom##STMT(S)); \ 2047 { CODE; } \ 2048 if (ShouldVisitChildren) { \ 2049 for (Stmt *SubStmt : S->children()) { \ 2050 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(SubStmt); \ 2051 } \ 2052 } \ 2053 if (!Queue && ReturnValue && getDerived().shouldTraversePostOrder()) \ 2054 TRY_TO(WalkUpFrom##STMT(S)); \ 2055 return ReturnValue; \ 2056 } 2057 2058 DEF_TRAVERSE_STMT(GCCAsmStmt, { 2059 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getAsmString()); 2060 for (unsigned I = 0, E = S->getNumInputs(); I < E; ++I) { 2061 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getInputConstraintLiteral(I)); 2062 } 2063 for (unsigned I = 0, E = S->getNumOutputs(); I < E; ++I) { 2064 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getOutputConstraintLiteral(I)); 2065 } 2066 for (unsigned I = 0, E = S->getNumClobbers(); I < E; ++I) { 2067 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getClobberStringLiteral(I)); 2068 } 2069 // children() iterates over inputExpr and outputExpr. 2070 }) 2071 2072 DEF_TRAVERSE_STMT( 2073 MSAsmStmt, 2074 {// FIXME: MS Asm doesn't currently parse Constraints, Clobbers, etc. Once 2075 // added this needs to be implemented. 2076 }) 2077 2078 DEF_TRAVERSE_STMT(CXXCatchStmt, { 2079 TRY_TO(TraverseDecl(S->getExceptionDecl())); 2080 // children() iterates over the handler block. 2081 }) 2082 2083 DEF_TRAVERSE_STMT(DeclStmt, { 2084 for (auto *I : S->decls()) { 2085 TRY_TO(TraverseDecl(I)); 2086 } 2087 // Suppress the default iteration over children() by 2088 // returning. Here's why: A DeclStmt looks like 'type var [= 2089 // initializer]'. The decls above already traverse over the 2090 // initializers, so we don't have to do it again (which 2091 // children() would do). 2092 ShouldVisitChildren = false; 2093 }) 2094 2095 // These non-expr stmts (most of them), do not need any action except 2096 // iterating over the children. 2097 DEF_TRAVERSE_STMT(BreakStmt, {}) 2098 DEF_TRAVERSE_STMT(CXXTryStmt, {}) 2099 DEF_TRAVERSE_STMT(CaseStmt, {}) 2100 DEF_TRAVERSE_STMT(CompoundStmt, {}) 2101 DEF_TRAVERSE_STMT(ContinueStmt, {}) 2102 DEF_TRAVERSE_STMT(DefaultStmt, {}) 2103 DEF_TRAVERSE_STMT(DoStmt, {}) 2104 DEF_TRAVERSE_STMT(ForStmt, {}) 2105 DEF_TRAVERSE_STMT(GotoStmt, {}) 2106 DEF_TRAVERSE_STMT(IfStmt, {}) 2107 DEF_TRAVERSE_STMT(IndirectGotoStmt, {}) 2108 DEF_TRAVERSE_STMT(LabelStmt, {}) 2109 DEF_TRAVERSE_STMT(AttributedStmt, {}) 2110 DEF_TRAVERSE_STMT(NullStmt, {}) 2111 DEF_TRAVERSE_STMT(ObjCAtCatchStmt, {}) 2112 DEF_TRAVERSE_STMT(ObjCAtFinallyStmt, {}) 2113 DEF_TRAVERSE_STMT(ObjCAtSynchronizedStmt, {}) 2114 DEF_TRAVERSE_STMT(ObjCAtThrowStmt, {}) 2115 DEF_TRAVERSE_STMT(ObjCAtTryStmt, {}) 2116 DEF_TRAVERSE_STMT(ObjCForCollectionStmt, {}) 2117 DEF_TRAVERSE_STMT(ObjCAutoreleasePoolStmt, {}) 2118 2119 DEF_TRAVERSE_STMT(CXXForRangeStmt, { 2120 if (!getDerived().shouldVisitImplicitCode()) { 2121 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getLoopVarStmt()); 2122 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getRangeInit()); 2123 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getBody()); 2124 // Visit everything else only if shouldVisitImplicitCode(). 2125 ShouldVisitChildren = false; 2126 } 2127 }) 2128 2129 DEF_TRAVERSE_STMT(MSDependentExistsStmt, { 2130 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2131 TRY_TO(TraverseDeclarationNameInfo(S->getNameInfo())); 2132 }) 2133 2134 DEF_TRAVERSE_STMT(ReturnStmt, {}) 2135 DEF_TRAVERSE_STMT(SwitchStmt, {}) 2136 DEF_TRAVERSE_STMT(WhileStmt, {}) 2137 2138 DEF_TRAVERSE_STMT(CXXDependentScopeMemberExpr, { 2139 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2140 TRY_TO(TraverseDeclarationNameInfo(S->getMemberNameInfo())); 2141 if (S->hasExplicitTemplateArgs()) { 2142 TRY_TO(TraverseTemplateArgumentLocsHelper(S->getTemplateArgs(), 2143 S->getNumTemplateArgs())); 2144 } 2145 }) 2146 2147 DEF_TRAVERSE_STMT(DeclRefExpr, { 2148 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2149 TRY_TO(TraverseDeclarationNameInfo(S->getNameInfo())); 2150 TRY_TO(TraverseTemplateArgumentLocsHelper(S->getTemplateArgs(), 2151 S->getNumTemplateArgs())); 2152 }) 2153 2154 DEF_TRAVERSE_STMT(DependentScopeDeclRefExpr, { 2155 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2156 TRY_TO(TraverseDeclarationNameInfo(S->getNameInfo())); 2157 if (S->hasExplicitTemplateArgs()) { 2158 TRY_TO(TraverseTemplateArgumentLocsHelper(S->getTemplateArgs(), 2159 S->getNumTemplateArgs())); 2160 } 2161 }) 2162 2163 DEF_TRAVERSE_STMT(MemberExpr, { 2164 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2165 TRY_TO(TraverseDeclarationNameInfo(S->getMemberNameInfo())); 2166 TRY_TO(TraverseTemplateArgumentLocsHelper(S->getTemplateArgs(), 2167 S->getNumTemplateArgs())); 2168 }) 2169 2170 DEF_TRAVERSE_STMT( 2171 ImplicitCastExpr, 2172 {// We don't traverse the cast type, as it's not written in the 2173 // source code. 2174 }) 2175 2176 DEF_TRAVERSE_STMT(CStyleCastExpr, { 2177 TRY_TO(TraverseTypeLoc(S->getTypeInfoAsWritten()->getTypeLoc())); 2178 }) 2179 2180 DEF_TRAVERSE_STMT(CXXFunctionalCastExpr, { 2181 TRY_TO(TraverseTypeLoc(S->getTypeInfoAsWritten()->getTypeLoc())); 2182 }) 2183 2184 DEF_TRAVERSE_STMT(CXXConstCastExpr, { 2185 TRY_TO(TraverseTypeLoc(S->getTypeInfoAsWritten()->getTypeLoc())); 2186 }) 2187 2188 DEF_TRAVERSE_STMT(CXXDynamicCastExpr, { 2189 TRY_TO(TraverseTypeLoc(S->getTypeInfoAsWritten()->getTypeLoc())); 2190 }) 2191 2192 DEF_TRAVERSE_STMT(CXXReinterpretCastExpr, { 2193 TRY_TO(TraverseTypeLoc(S->getTypeInfoAsWritten()->getTypeLoc())); 2194 }) 2195 2196 DEF_TRAVERSE_STMT(CXXStaticCastExpr, { 2197 TRY_TO(TraverseTypeLoc(S->getTypeInfoAsWritten()->getTypeLoc())); 2198 }) 2199 2200 template <typename Derived> 2201 bool RecursiveASTVisitor<Derived>::TraverseSynOrSemInitListExpr( 2202 InitListExpr *S, DataRecursionQueue *Queue) { 2203 if (S) { 2204 // Skip this if we traverse postorder. We will visit it later 2205 // in PostVisitStmt. 2206 if (!getDerived().shouldTraversePostOrder()) 2207 TRY_TO(WalkUpFromInitListExpr(S)); 2208 2209 // All we need are the default actions. FIXME: use a helper function. 2210 for (Stmt *SubStmt : S->children()) { 2211 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(SubStmt); 2212 } 2213 } 2214 return true; 2215 } 2216 2217 // This method is called once for each pair of syntactic and semantic 2218 // InitListExpr, and it traverses the subtrees defined by the two forms. This 2219 // may cause some of the children to be visited twice, if they appear both in 2220 // the syntactic and the semantic form. 2221 // 2222 // There is no guarantee about which form \p S takes when this method is called. 2223 DEF_TRAVERSE_STMT(InitListExpr, { 2224 TRY_TO(TraverseSynOrSemInitListExpr( 2225 S->isSemanticForm() ? S->getSyntacticForm() : S, Queue)); 2226 TRY_TO(TraverseSynOrSemInitListExpr( 2227 S->isSemanticForm() ? S : S->getSemanticForm(), Queue)); 2228 ShouldVisitChildren = false; 2229 }) 2230 2231 // GenericSelectionExpr is a special case because the types and expressions 2232 // are interleaved. We also need to watch out for null types (default 2233 // generic associations). 2234 DEF_TRAVERSE_STMT(GenericSelectionExpr, { 2235 TRY_TO(TraverseStmt(S->getControllingExpr())); 2236 for (unsigned i = 0; i != S->getNumAssocs(); ++i) { 2237 if (TypeSourceInfo *TS = S->getAssocTypeSourceInfo(i)) 2238 TRY_TO(TraverseTypeLoc(TS->getTypeLoc())); 2239 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getAssocExpr(i)); 2240 } 2241 ShouldVisitChildren = false; 2242 }) 2243 2244 // PseudoObjectExpr is a special case because of the weirdness with 2245 // syntactic expressions and opaque values. 2246 DEF_TRAVERSE_STMT(PseudoObjectExpr, { 2247 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getSyntacticForm()); 2248 for (PseudoObjectExpr::semantics_iterator i = S->semantics_begin(), 2249 e = S->semantics_end(); 2250 i != e; ++i) { 2251 Expr *sub = *i; 2252 if (OpaqueValueExpr *OVE = dyn_cast<OpaqueValueExpr>(sub)) 2253 sub = OVE->getSourceExpr(); 2254 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(sub); 2255 } 2256 ShouldVisitChildren = false; 2257 }) 2258 2259 DEF_TRAVERSE_STMT(CXXScalarValueInitExpr, { 2260 // This is called for code like 'return T()' where T is a built-in 2261 // (i.e. non-class) type. 2262 TRY_TO(TraverseTypeLoc(S->getTypeSourceInfo()->getTypeLoc())); 2263 }) 2264 2265 DEF_TRAVERSE_STMT(CXXNewExpr, { 2266 // The child-iterator will pick up the other arguments. 2267 TRY_TO(TraverseTypeLoc(S->getAllocatedTypeSourceInfo()->getTypeLoc())); 2268 }) 2269 2270 DEF_TRAVERSE_STMT(OffsetOfExpr, { 2271 // The child-iterator will pick up the expression representing 2272 // the field. 2273 // FIMXE: for code like offsetof(Foo, a.b.c), should we get 2274 // making a MemberExpr callbacks for Foo.a, Foo.a.b, and Foo.a.b.c? 2275 TRY_TO(TraverseTypeLoc(S->getTypeSourceInfo()->getTypeLoc())); 2276 }) 2277 2278 DEF_TRAVERSE_STMT(UnaryExprOrTypeTraitExpr, { 2279 // The child-iterator will pick up the arg if it's an expression, 2280 // but not if it's a type. 2281 if (S->isArgumentType()) 2282 TRY_TO(TraverseTypeLoc(S->getArgumentTypeInfo()->getTypeLoc())); 2283 }) 2284 2285 DEF_TRAVERSE_STMT(CXXTypeidExpr, { 2286 // The child-iterator will pick up the arg if it's an expression, 2287 // but not if it's a type. 2288 if (S->isTypeOperand()) 2289 TRY_TO(TraverseTypeLoc(S->getTypeOperandSourceInfo()->getTypeLoc())); 2290 }) 2291 2292 DEF_TRAVERSE_STMT(MSPropertyRefExpr, { 2293 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2294 }) 2295 2296 DEF_TRAVERSE_STMT(MSPropertySubscriptExpr, {}) 2297 2298 DEF_TRAVERSE_STMT(CXXUuidofExpr, { 2299 // The child-iterator will pick up the arg if it's an expression, 2300 // but not if it's a type. 2301 if (S->isTypeOperand()) 2302 TRY_TO(TraverseTypeLoc(S->getTypeOperandSourceInfo()->getTypeLoc())); 2303 }) 2304 2305 DEF_TRAVERSE_STMT(TypeTraitExpr, { 2306 for (unsigned I = 0, N = S->getNumArgs(); I != N; ++I) 2307 TRY_TO(TraverseTypeLoc(S->getArg(I)->getTypeLoc())); 2308 }) 2309 2310 DEF_TRAVERSE_STMT(ArrayTypeTraitExpr, { 2311 TRY_TO(TraverseTypeLoc(S->getQueriedTypeSourceInfo()->getTypeLoc())); 2312 }) 2313 2314 DEF_TRAVERSE_STMT(ExpressionTraitExpr, 2315 { TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getQueriedExpression()); }) 2316 2317 DEF_TRAVERSE_STMT(VAArgExpr, { 2318 // The child-iterator will pick up the expression argument. 2319 TRY_TO(TraverseTypeLoc(S->getWrittenTypeInfo()->getTypeLoc())); 2320 }) 2321 2322 DEF_TRAVERSE_STMT(CXXTemporaryObjectExpr, { 2323 // This is called for code like 'return T()' where T is a class type. 2324 TRY_TO(TraverseTypeLoc(S->getTypeSourceInfo()->getTypeLoc())); 2325 }) 2326 2327 // Walk only the visible parts of lambda expressions. 2328 DEF_TRAVERSE_STMT(LambdaExpr, { 2329 for (unsigned I = 0, N = S->capture_size(); I != N; ++I) { 2330 const LambdaCapture *C = S->capture_begin() + I; 2331 if (C->isExplicit() || getDerived().shouldVisitImplicitCode()) { 2332 TRY_TO(TraverseLambdaCapture(S, C, S->capture_init_begin()[I])); 2333 } 2334 } 2335 2336 TypeLoc TL = S->getCallOperator()->getTypeSourceInfo()->getTypeLoc(); 2337 FunctionProtoTypeLoc Proto = TL.getAsAdjusted<FunctionProtoTypeLoc>(); 2338 2339 if (S->hasExplicitParameters() && S->hasExplicitResultType()) { 2340 // Visit the whole type. 2341 TRY_TO(TraverseTypeLoc(TL)); 2342 } else { 2343 if (S->hasExplicitParameters()) { 2344 // Visit parameters. 2345 for (unsigned I = 0, N = Proto.getNumParams(); I != N; ++I) { 2346 TRY_TO(TraverseDecl(Proto.getParam(I))); 2347 } 2348 } else if (S->hasExplicitResultType()) { 2349 TRY_TO(TraverseTypeLoc(Proto.getReturnLoc())); 2350 } 2351 2352 auto *T = Proto.getTypePtr(); 2353 for (const auto &E : T->exceptions()) { 2354 TRY_TO(TraverseType(E)); 2355 } 2356 2357 if (Expr *NE = T->getNoexceptExpr()) 2358 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(NE); 2359 } 2360 2361 ReturnValue = TRAVERSE_STMT_BASE(LambdaBody, LambdaExpr, S, Queue); 2362 ShouldVisitChildren = false; 2363 }) 2364 2365 DEF_TRAVERSE_STMT(CXXUnresolvedConstructExpr, { 2366 // This is called for code like 'T()', where T is a template argument. 2367 TRY_TO(TraverseTypeLoc(S->getTypeSourceInfo()->getTypeLoc())); 2368 }) 2369 2370 // These expressions all might take explicit template arguments. 2371 // We traverse those if so. FIXME: implement these. 2372 DEF_TRAVERSE_STMT(CXXConstructExpr, {}) 2373 DEF_TRAVERSE_STMT(CallExpr, {}) 2374 DEF_TRAVERSE_STMT(CXXMemberCallExpr, {}) 2375 2376 // These exprs (most of them), do not need any action except iterating 2377 // over the children. 2378 DEF_TRAVERSE_STMT(AddrLabelExpr, {}) 2379 DEF_TRAVERSE_STMT(ArraySubscriptExpr, {}) 2380 DEF_TRAVERSE_STMT(OMPArraySectionExpr, {}) 2381 2382 DEF_TRAVERSE_STMT(BlockExpr, { 2383 TRY_TO(TraverseDecl(S->getBlockDecl())); 2384 return true; // no child statements to loop through. 2385 }) 2386 2387 DEF_TRAVERSE_STMT(ChooseExpr, {}) 2388 DEF_TRAVERSE_STMT(CompoundLiteralExpr, { 2389 TRY_TO(TraverseTypeLoc(S->getTypeSourceInfo()->getTypeLoc())); 2390 }) 2391 DEF_TRAVERSE_STMT(CXXBindTemporaryExpr, {}) 2392 DEF_TRAVERSE_STMT(CXXBoolLiteralExpr, {}) 2393 2394 DEF_TRAVERSE_STMT(CXXDefaultArgExpr, { 2395 if (getDerived().shouldVisitImplicitCode()) 2396 TRY_TO(TraverseStmt(S->getExpr())); 2397 }) 2398 2399 DEF_TRAVERSE_STMT(CXXDefaultInitExpr, {}) 2400 DEF_TRAVERSE_STMT(CXXDeleteExpr, {}) 2401 DEF_TRAVERSE_STMT(ExprWithCleanups, {}) 2402 DEF_TRAVERSE_STMT(CXXInheritedCtorInitExpr, {}) 2403 DEF_TRAVERSE_STMT(CXXNullPtrLiteralExpr, {}) 2404 DEF_TRAVERSE_STMT(CXXStdInitializerListExpr, {}) 2405 2406 DEF_TRAVERSE_STMT(CXXPseudoDestructorExpr, { 2407 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2408 if (TypeSourceInfo *ScopeInfo = S->getScopeTypeInfo()) 2409 TRY_TO(TraverseTypeLoc(ScopeInfo->getTypeLoc())); 2410 if (TypeSourceInfo *DestroyedTypeInfo = S->getDestroyedTypeInfo()) 2411 TRY_TO(TraverseTypeLoc(DestroyedTypeInfo->getTypeLoc())); 2412 }) 2413 2414 DEF_TRAVERSE_STMT(CXXThisExpr, {}) 2415 DEF_TRAVERSE_STMT(CXXThrowExpr, {}) 2416 DEF_TRAVERSE_STMT(UserDefinedLiteral, {}) 2417 DEF_TRAVERSE_STMT(DesignatedInitExpr, {}) 2418 DEF_TRAVERSE_STMT(DesignatedInitUpdateExpr, {}) 2419 DEF_TRAVERSE_STMT(ExtVectorElementExpr, {}) 2420 DEF_TRAVERSE_STMT(GNUNullExpr, {}) 2421 DEF_TRAVERSE_STMT(ImplicitValueInitExpr, {}) 2422 DEF_TRAVERSE_STMT(NoInitExpr, {}) 2423 DEF_TRAVERSE_STMT(ArrayInitLoopExpr, { 2424 // FIXME: The source expression of the OVE should be listed as 2425 // a child of the ArrayInitLoopExpr. 2426 if (OpaqueValueExpr *OVE = S->getCommonExpr()) 2427 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(OVE->getSourceExpr()); 2428 }) 2429 DEF_TRAVERSE_STMT(ArrayInitIndexExpr, {}) 2430 DEF_TRAVERSE_STMT(ObjCBoolLiteralExpr, {}) 2431 2432 DEF_TRAVERSE_STMT(ObjCEncodeExpr, { 2433 if (TypeSourceInfo *TInfo = S->getEncodedTypeSourceInfo()) 2434 TRY_TO(TraverseTypeLoc(TInfo->getTypeLoc())); 2435 }) 2436 2437 DEF_TRAVERSE_STMT(ObjCIsaExpr, {}) 2438 DEF_TRAVERSE_STMT(ObjCIvarRefExpr, {}) 2439 2440 DEF_TRAVERSE_STMT(ObjCMessageExpr, { 2441 if (TypeSourceInfo *TInfo = S->getClassReceiverTypeInfo()) 2442 TRY_TO(TraverseTypeLoc(TInfo->getTypeLoc())); 2443 }) 2444 2445 DEF_TRAVERSE_STMT(ObjCPropertyRefExpr, {}) 2446 DEF_TRAVERSE_STMT(ObjCSubscriptRefExpr, {}) 2447 DEF_TRAVERSE_STMT(ObjCProtocolExpr, {}) 2448 DEF_TRAVERSE_STMT(ObjCSelectorExpr, {}) 2449 DEF_TRAVERSE_STMT(ObjCIndirectCopyRestoreExpr, {}) 2450 2451 DEF_TRAVERSE_STMT(ObjCBridgedCastExpr, { 2452 TRY_TO(TraverseTypeLoc(S->getTypeInfoAsWritten()->getTypeLoc())); 2453 }) 2454 2455 DEF_TRAVERSE_STMT(ObjCAvailabilityCheckExpr, {}) 2456 DEF_TRAVERSE_STMT(ParenExpr, {}) 2457 DEF_TRAVERSE_STMT(ParenListExpr, {}) 2458 DEF_TRAVERSE_STMT(PredefinedExpr, {}) 2459 DEF_TRAVERSE_STMT(ShuffleVectorExpr, {}) 2460 DEF_TRAVERSE_STMT(ConvertVectorExpr, {}) 2461 DEF_TRAVERSE_STMT(StmtExpr, {}) 2462 DEF_TRAVERSE_STMT(UnresolvedLookupExpr, { 2463 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2464 if (S->hasExplicitTemplateArgs()) { 2465 TRY_TO(TraverseTemplateArgumentLocsHelper(S->getTemplateArgs(), 2466 S->getNumTemplateArgs())); 2467 } 2468 }) 2469 2470 DEF_TRAVERSE_STMT(UnresolvedMemberExpr, { 2471 TRY_TO(TraverseNestedNameSpecifierLoc(S->getQualifierLoc())); 2472 if (S->hasExplicitTemplateArgs()) { 2473 TRY_TO(TraverseTemplateArgumentLocsHelper(S->getTemplateArgs(), 2474 S->getNumTemplateArgs())); 2475 } 2476 }) 2477 2478 DEF_TRAVERSE_STMT(SEHTryStmt, {}) 2479 DEF_TRAVERSE_STMT(SEHExceptStmt, {}) 2480 DEF_TRAVERSE_STMT(SEHFinallyStmt, {}) 2481 DEF_TRAVERSE_STMT(SEHLeaveStmt, {}) 2482 DEF_TRAVERSE_STMT(CapturedStmt, { TRY_TO(TraverseDecl(S->getCapturedDecl())); }) 2483 2484 DEF_TRAVERSE_STMT(CXXOperatorCallExpr, {}) 2485 DEF_TRAVERSE_STMT(OpaqueValueExpr, {}) 2486 DEF_TRAVERSE_STMT(TypoExpr, {}) 2487 DEF_TRAVERSE_STMT(CUDAKernelCallExpr, {}) 2488 2489 // These operators (all of them) do not need any action except 2490 // iterating over the children. 2491 DEF_TRAVERSE_STMT(BinaryConditionalOperator, {}) 2492 DEF_TRAVERSE_STMT(ConditionalOperator, {}) 2493 DEF_TRAVERSE_STMT(UnaryOperator, {}) 2494 DEF_TRAVERSE_STMT(BinaryOperator, {}) 2495 DEF_TRAVERSE_STMT(CompoundAssignOperator, {}) 2496 DEF_TRAVERSE_STMT(CXXNoexceptExpr, {}) 2497 DEF_TRAVERSE_STMT(PackExpansionExpr, {}) 2498 DEF_TRAVERSE_STMT(SizeOfPackExpr, {}) 2499 DEF_TRAVERSE_STMT(SubstNonTypeTemplateParmPackExpr, {}) 2500 DEF_TRAVERSE_STMT(SubstNonTypeTemplateParmExpr, {}) 2501 DEF_TRAVERSE_STMT(FunctionParmPackExpr, {}) 2502 DEF_TRAVERSE_STMT(MaterializeTemporaryExpr, {}) 2503 DEF_TRAVERSE_STMT(CXXFoldExpr, {}) 2504 DEF_TRAVERSE_STMT(AtomicExpr, {}) 2505 2506 // For coroutines expressions, traverse either the operand 2507 // as written or the implied calls, depending on what the 2508 // derived class requests. 2509 DEF_TRAVERSE_STMT(CoroutineBodyStmt, { 2510 if (!getDerived().shouldVisitImplicitCode()) { 2511 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getBody()); 2512 ShouldVisitChildren = false; 2513 } 2514 }) 2515 DEF_TRAVERSE_STMT(CoreturnStmt, { 2516 if (!getDerived().shouldVisitImplicitCode()) { 2517 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getOperand()); 2518 ShouldVisitChildren = false; 2519 } 2520 }) 2521 DEF_TRAVERSE_STMT(CoawaitExpr, { 2522 if (!getDerived().shouldVisitImplicitCode()) { 2523 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getOperand()); 2524 ShouldVisitChildren = false; 2525 } 2526 }) 2527 DEF_TRAVERSE_STMT(DependentCoawaitExpr, { 2528 if (!getDerived().shouldVisitImplicitCode()) { 2529 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getOperand()); 2530 ShouldVisitChildren = false; 2531 } 2532 }) 2533 DEF_TRAVERSE_STMT(CoyieldExpr, { 2534 if (!getDerived().shouldVisitImplicitCode()) { 2535 TRY_TO_TRAVERSE_OR_ENQUEUE_STMT(S->getOperand()); 2536 ShouldVisitChildren = false; 2537 } 2538 }) 2539 2540 // These literals (all of them) do not need any action. 2541 DEF_TRAVERSE_STMT(IntegerLiteral, {}) 2542 DEF_TRAVERSE_STMT(CharacterLiteral, {}) 2543 DEF_TRAVERSE_STMT(FloatingLiteral, {}) 2544 DEF_TRAVERSE_STMT(ImaginaryLiteral, {}) 2545 DEF_TRAVERSE_STMT(StringLiteral, {}) 2546 DEF_TRAVERSE_STMT(ObjCStringLiteral, {}) 2547 DEF_TRAVERSE_STMT(ObjCBoxedExpr, {}) 2548 DEF_TRAVERSE_STMT(ObjCArrayLiteral, {}) 2549 DEF_TRAVERSE_STMT(ObjCDictionaryLiteral, {}) 2550 2551 // Traverse OpenCL: AsType, Convert. 2552 DEF_TRAVERSE_STMT(AsTypeExpr, {}) 2553 2554 // OpenMP directives. 2555 template <typename Derived> 2556 bool RecursiveASTVisitor<Derived>::TraverseOMPExecutableDirective( 2557 OMPExecutableDirective *S) { 2558 for (auto *C : S->clauses()) { 2559 TRY_TO(TraverseOMPClause(C)); 2560 } 2561 return true; 2562 } 2563 2564 template <typename Derived> 2565 bool 2566 RecursiveASTVisitor<Derived>::TraverseOMPLoopDirective(OMPLoopDirective *S) { 2567 return TraverseOMPExecutableDirective(S); 2568 } 2569 2570 DEF_TRAVERSE_STMT(OMPParallelDirective, 2571 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2572 2573 DEF_TRAVERSE_STMT(OMPSimdDirective, 2574 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2575 2576 DEF_TRAVERSE_STMT(OMPForDirective, 2577 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2578 2579 DEF_TRAVERSE_STMT(OMPForSimdDirective, 2580 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2581 2582 DEF_TRAVERSE_STMT(OMPSectionsDirective, 2583 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2584 2585 DEF_TRAVERSE_STMT(OMPSectionDirective, 2586 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2587 2588 DEF_TRAVERSE_STMT(OMPSingleDirective, 2589 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2590 2591 DEF_TRAVERSE_STMT(OMPMasterDirective, 2592 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2593 2594 DEF_TRAVERSE_STMT(OMPCriticalDirective, { 2595 TRY_TO(TraverseDeclarationNameInfo(S->getDirectiveName())); 2596 TRY_TO(TraverseOMPExecutableDirective(S)); 2597 }) 2598 2599 DEF_TRAVERSE_STMT(OMPParallelForDirective, 2600 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2601 2602 DEF_TRAVERSE_STMT(OMPParallelForSimdDirective, 2603 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2604 2605 DEF_TRAVERSE_STMT(OMPParallelSectionsDirective, 2606 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2607 2608 DEF_TRAVERSE_STMT(OMPTaskDirective, 2609 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2610 2611 DEF_TRAVERSE_STMT(OMPTaskyieldDirective, 2612 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2613 2614 DEF_TRAVERSE_STMT(OMPBarrierDirective, 2615 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2616 2617 DEF_TRAVERSE_STMT(OMPTaskwaitDirective, 2618 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2619 2620 DEF_TRAVERSE_STMT(OMPTaskgroupDirective, 2621 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2622 2623 DEF_TRAVERSE_STMT(OMPCancellationPointDirective, 2624 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2625 2626 DEF_TRAVERSE_STMT(OMPCancelDirective, 2627 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2628 2629 DEF_TRAVERSE_STMT(OMPFlushDirective, 2630 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2631 2632 DEF_TRAVERSE_STMT(OMPOrderedDirective, 2633 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2634 2635 DEF_TRAVERSE_STMT(OMPAtomicDirective, 2636 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2637 2638 DEF_TRAVERSE_STMT(OMPTargetDirective, 2639 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2640 2641 DEF_TRAVERSE_STMT(OMPTargetDataDirective, 2642 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2643 2644 DEF_TRAVERSE_STMT(OMPTargetEnterDataDirective, 2645 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2646 2647 DEF_TRAVERSE_STMT(OMPTargetExitDataDirective, 2648 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2649 2650 DEF_TRAVERSE_STMT(OMPTargetParallelDirective, 2651 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2652 2653 DEF_TRAVERSE_STMT(OMPTargetParallelForDirective, 2654 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2655 2656 DEF_TRAVERSE_STMT(OMPTeamsDirective, 2657 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2658 2659 DEF_TRAVERSE_STMT(OMPTargetUpdateDirective, 2660 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2661 2662 DEF_TRAVERSE_STMT(OMPTaskLoopDirective, 2663 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2664 2665 DEF_TRAVERSE_STMT(OMPTaskLoopSimdDirective, 2666 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2667 2668 DEF_TRAVERSE_STMT(OMPDistributeDirective, 2669 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2670 2671 DEF_TRAVERSE_STMT(OMPDistributeParallelForDirective, 2672 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2673 2674 DEF_TRAVERSE_STMT(OMPDistributeParallelForSimdDirective, 2675 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2676 2677 DEF_TRAVERSE_STMT(OMPDistributeSimdDirective, 2678 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2679 2680 DEF_TRAVERSE_STMT(OMPTargetParallelForSimdDirective, 2681 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2682 2683 DEF_TRAVERSE_STMT(OMPTargetSimdDirective, 2684 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2685 2686 DEF_TRAVERSE_STMT(OMPTeamsDistributeDirective, 2687 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2688 2689 DEF_TRAVERSE_STMT(OMPTeamsDistributeSimdDirective, 2690 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2691 2692 DEF_TRAVERSE_STMT(OMPTeamsDistributeParallelForSimdDirective, 2693 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2694 2695 DEF_TRAVERSE_STMT(OMPTeamsDistributeParallelForDirective, 2696 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2697 2698 DEF_TRAVERSE_STMT(OMPTargetTeamsDirective, 2699 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2700 2701 DEF_TRAVERSE_STMT(OMPTargetTeamsDistributeDirective, 2702 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2703 2704 DEF_TRAVERSE_STMT(OMPTargetTeamsDistributeParallelForDirective, 2705 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2706 2707 DEF_TRAVERSE_STMT(OMPTargetTeamsDistributeParallelForSimdDirective, 2708 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2709 2710 DEF_TRAVERSE_STMT(OMPTargetTeamsDistributeSimdDirective, 2711 { TRY_TO(TraverseOMPExecutableDirective(S)); }) 2712 2713 // OpenMP clauses. 2714 template <typename Derived> 2715 bool RecursiveASTVisitor<Derived>::TraverseOMPClause(OMPClause *C) { 2716 if (!C) 2717 return true; 2718 switch (C->getClauseKind()) { 2719 #define OPENMP_CLAUSE(Name, Class) \ 2720 case OMPC_##Name: \ 2721 TRY_TO(Visit##Class(static_cast<Class *>(C))); \ 2722 break; 2723 #include "clang/Basic/OpenMPKinds.def" 2724 case OMPC_threadprivate: 2725 case OMPC_uniform: 2726 case OMPC_unknown: 2727 break; 2728 } 2729 return true; 2730 } 2731 2732 template <typename Derived> 2733 bool RecursiveASTVisitor<Derived>::VisitOMPClauseWithPreInit( 2734 OMPClauseWithPreInit *Node) { 2735 TRY_TO(TraverseStmt(Node->getPreInitStmt())); 2736 return true; 2737 } 2738 2739 template <typename Derived> 2740 bool RecursiveASTVisitor<Derived>::VisitOMPClauseWithPostUpdate( 2741 OMPClauseWithPostUpdate *Node) { 2742 TRY_TO(VisitOMPClauseWithPreInit(Node)); 2743 TRY_TO(TraverseStmt(Node->getPostUpdateExpr())); 2744 return true; 2745 } 2746 2747 template <typename Derived> 2748 bool RecursiveASTVisitor<Derived>::VisitOMPIfClause(OMPIfClause *C) { 2749 TRY_TO(VisitOMPClauseWithPreInit(C)); 2750 TRY_TO(TraverseStmt(C->getCondition())); 2751 return true; 2752 } 2753 2754 template <typename Derived> 2755 bool RecursiveASTVisitor<Derived>::VisitOMPFinalClause(OMPFinalClause *C) { 2756 TRY_TO(TraverseStmt(C->getCondition())); 2757 return true; 2758 } 2759 2760 template <typename Derived> 2761 bool 2762 RecursiveASTVisitor<Derived>::VisitOMPNumThreadsClause(OMPNumThreadsClause *C) { 2763 TRY_TO(VisitOMPClauseWithPreInit(C)); 2764 TRY_TO(TraverseStmt(C->getNumThreads())); 2765 return true; 2766 } 2767 2768 template <typename Derived> 2769 bool RecursiveASTVisitor<Derived>::VisitOMPSafelenClause(OMPSafelenClause *C) { 2770 TRY_TO(TraverseStmt(C->getSafelen())); 2771 return true; 2772 } 2773 2774 template <typename Derived> 2775 bool RecursiveASTVisitor<Derived>::VisitOMPSimdlenClause(OMPSimdlenClause *C) { 2776 TRY_TO(TraverseStmt(C->getSimdlen())); 2777 return true; 2778 } 2779 2780 template <typename Derived> 2781 bool 2782 RecursiveASTVisitor<Derived>::VisitOMPCollapseClause(OMPCollapseClause *C) { 2783 TRY_TO(TraverseStmt(C->getNumForLoops())); 2784 return true; 2785 } 2786 2787 template <typename Derived> 2788 bool RecursiveASTVisitor<Derived>::VisitOMPDefaultClause(OMPDefaultClause *) { 2789 return true; 2790 } 2791 2792 template <typename Derived> 2793 bool RecursiveASTVisitor<Derived>::VisitOMPProcBindClause(OMPProcBindClause *) { 2794 return true; 2795 } 2796 2797 template <typename Derived> 2798 bool 2799 RecursiveASTVisitor<Derived>::VisitOMPScheduleClause(OMPScheduleClause *C) { 2800 TRY_TO(VisitOMPClauseWithPreInit(C)); 2801 TRY_TO(TraverseStmt(C->getChunkSize())); 2802 return true; 2803 } 2804 2805 template <typename Derived> 2806 bool RecursiveASTVisitor<Derived>::VisitOMPOrderedClause(OMPOrderedClause *C) { 2807 TRY_TO(TraverseStmt(C->getNumForLoops())); 2808 return true; 2809 } 2810 2811 template <typename Derived> 2812 bool RecursiveASTVisitor<Derived>::VisitOMPNowaitClause(OMPNowaitClause *) { 2813 return true; 2814 } 2815 2816 template <typename Derived> 2817 bool RecursiveASTVisitor<Derived>::VisitOMPUntiedClause(OMPUntiedClause *) { 2818 return true; 2819 } 2820 2821 template <typename Derived> 2822 bool 2823 RecursiveASTVisitor<Derived>::VisitOMPMergeableClause(OMPMergeableClause *) { 2824 return true; 2825 } 2826 2827 template <typename Derived> 2828 bool RecursiveASTVisitor<Derived>::VisitOMPReadClause(OMPReadClause *) { 2829 return true; 2830 } 2831 2832 template <typename Derived> 2833 bool RecursiveASTVisitor<Derived>::VisitOMPWriteClause(OMPWriteClause *) { 2834 return true; 2835 } 2836 2837 template <typename Derived> 2838 bool RecursiveASTVisitor<Derived>::VisitOMPUpdateClause(OMPUpdateClause *) { 2839 return true; 2840 } 2841 2842 template <typename Derived> 2843 bool RecursiveASTVisitor<Derived>::VisitOMPCaptureClause(OMPCaptureClause *) { 2844 return true; 2845 } 2846 2847 template <typename Derived> 2848 bool RecursiveASTVisitor<Derived>::VisitOMPSeqCstClause(OMPSeqCstClause *) { 2849 return true; 2850 } 2851 2852 template <typename Derived> 2853 bool RecursiveASTVisitor<Derived>::VisitOMPThreadsClause(OMPThreadsClause *) { 2854 return true; 2855 } 2856 2857 template <typename Derived> 2858 bool RecursiveASTVisitor<Derived>::VisitOMPSIMDClause(OMPSIMDClause *) { 2859 return true; 2860 } 2861 2862 template <typename Derived> 2863 bool RecursiveASTVisitor<Derived>::VisitOMPNogroupClause(OMPNogroupClause *) { 2864 return true; 2865 } 2866 2867 template <typename Derived> 2868 template <typename T> 2869 bool RecursiveASTVisitor<Derived>::VisitOMPClauseList(T *Node) { 2870 for (auto *E : Node->varlists()) { 2871 TRY_TO(TraverseStmt(E)); 2872 } 2873 return true; 2874 } 2875 2876 template <typename Derived> 2877 bool RecursiveASTVisitor<Derived>::VisitOMPPrivateClause(OMPPrivateClause *C) { 2878 TRY_TO(VisitOMPClauseList(C)); 2879 for (auto *E : C->private_copies()) { 2880 TRY_TO(TraverseStmt(E)); 2881 } 2882 return true; 2883 } 2884 2885 template <typename Derived> 2886 bool RecursiveASTVisitor<Derived>::VisitOMPFirstprivateClause( 2887 OMPFirstprivateClause *C) { 2888 TRY_TO(VisitOMPClauseList(C)); 2889 TRY_TO(VisitOMPClauseWithPreInit(C)); 2890 for (auto *E : C->private_copies()) { 2891 TRY_TO(TraverseStmt(E)); 2892 } 2893 for (auto *E : C->inits()) { 2894 TRY_TO(TraverseStmt(E)); 2895 } 2896 return true; 2897 } 2898 2899 template <typename Derived> 2900 bool RecursiveASTVisitor<Derived>::VisitOMPLastprivateClause( 2901 OMPLastprivateClause *C) { 2902 TRY_TO(VisitOMPClauseList(C)); 2903 TRY_TO(VisitOMPClauseWithPostUpdate(C)); 2904 for (auto *E : C->private_copies()) { 2905 TRY_TO(TraverseStmt(E)); 2906 } 2907 for (auto *E : C->source_exprs()) { 2908 TRY_TO(TraverseStmt(E)); 2909 } 2910 for (auto *E : C->destination_exprs()) { 2911 TRY_TO(TraverseStmt(E)); 2912 } 2913 for (auto *E : C->assignment_ops()) { 2914 TRY_TO(TraverseStmt(E)); 2915 } 2916 return true; 2917 } 2918 2919 template <typename Derived> 2920 bool RecursiveASTVisitor<Derived>::VisitOMPSharedClause(OMPSharedClause *C) { 2921 TRY_TO(VisitOMPClauseList(C)); 2922 return true; 2923 } 2924 2925 template <typename Derived> 2926 bool RecursiveASTVisitor<Derived>::VisitOMPLinearClause(OMPLinearClause *C) { 2927 TRY_TO(TraverseStmt(C->getStep())); 2928 TRY_TO(TraverseStmt(C->getCalcStep())); 2929 TRY_TO(VisitOMPClauseList(C)); 2930 TRY_TO(VisitOMPClauseWithPostUpdate(C)); 2931 for (auto *E : C->privates()) { 2932 TRY_TO(TraverseStmt(E)); 2933 } 2934 for (auto *E : C->inits()) { 2935 TRY_TO(TraverseStmt(E)); 2936 } 2937 for (auto *E : C->updates()) { 2938 TRY_TO(TraverseStmt(E)); 2939 } 2940 for (auto *E : C->finals()) { 2941 TRY_TO(TraverseStmt(E)); 2942 } 2943 return true; 2944 } 2945 2946 template <typename Derived> 2947 bool RecursiveASTVisitor<Derived>::VisitOMPAlignedClause(OMPAlignedClause *C) { 2948 TRY_TO(TraverseStmt(C->getAlignment())); 2949 TRY_TO(VisitOMPClauseList(C)); 2950 return true; 2951 } 2952 2953 template <typename Derived> 2954 bool RecursiveASTVisitor<Derived>::VisitOMPCopyinClause(OMPCopyinClause *C) { 2955 TRY_TO(VisitOMPClauseList(C)); 2956 for (auto *E : C->source_exprs()) { 2957 TRY_TO(TraverseStmt(E)); 2958 } 2959 for (auto *E : C->destination_exprs()) { 2960 TRY_TO(TraverseStmt(E)); 2961 } 2962 for (auto *E : C->assignment_ops()) { 2963 TRY_TO(TraverseStmt(E)); 2964 } 2965 return true; 2966 } 2967 2968 template <typename Derived> 2969 bool RecursiveASTVisitor<Derived>::VisitOMPCopyprivateClause( 2970 OMPCopyprivateClause *C) { 2971 TRY_TO(VisitOMPClauseList(C)); 2972 for (auto *E : C->source_exprs()) { 2973 TRY_TO(TraverseStmt(E)); 2974 } 2975 for (auto *E : C->destination_exprs()) { 2976 TRY_TO(TraverseStmt(E)); 2977 } 2978 for (auto *E : C->assignment_ops()) { 2979 TRY_TO(TraverseStmt(E)); 2980 } 2981 return true; 2982 } 2983 2984 template <typename Derived> 2985 bool 2986 RecursiveASTVisitor<Derived>::VisitOMPReductionClause(OMPReductionClause *C) { 2987 TRY_TO(TraverseNestedNameSpecifierLoc(C->getQualifierLoc())); 2988 TRY_TO(TraverseDeclarationNameInfo(C->getNameInfo())); 2989 TRY_TO(VisitOMPClauseList(C)); 2990 TRY_TO(VisitOMPClauseWithPostUpdate(C)); 2991 for (auto *E : C->privates()) { 2992 TRY_TO(TraverseStmt(E)); 2993 } 2994 for (auto *E : C->lhs_exprs()) { 2995 TRY_TO(TraverseStmt(E)); 2996 } 2997 for (auto *E : C->rhs_exprs()) { 2998 TRY_TO(TraverseStmt(E)); 2999 } 3000 for (auto *E : C->reduction_ops()) { 3001 TRY_TO(TraverseStmt(E)); 3002 } 3003 return true; 3004 } 3005 3006 template <typename Derived> 3007 bool RecursiveASTVisitor<Derived>::VisitOMPFlushClause(OMPFlushClause *C) { 3008 TRY_TO(VisitOMPClauseList(C)); 3009 return true; 3010 } 3011 3012 template <typename Derived> 3013 bool RecursiveASTVisitor<Derived>::VisitOMPDependClause(OMPDependClause *C) { 3014 TRY_TO(VisitOMPClauseList(C)); 3015 return true; 3016 } 3017 3018 template <typename Derived> 3019 bool RecursiveASTVisitor<Derived>::VisitOMPDeviceClause(OMPDeviceClause *C) { 3020 TRY_TO(TraverseStmt(C->getDevice())); 3021 return true; 3022 } 3023 3024 template <typename Derived> 3025 bool RecursiveASTVisitor<Derived>::VisitOMPMapClause(OMPMapClause *C) { 3026 TRY_TO(VisitOMPClauseList(C)); 3027 return true; 3028 } 3029 3030 template <typename Derived> 3031 bool RecursiveASTVisitor<Derived>::VisitOMPNumTeamsClause( 3032 OMPNumTeamsClause *C) { 3033 TRY_TO(VisitOMPClauseWithPreInit(C)); 3034 TRY_TO(TraverseStmt(C->getNumTeams())); 3035 return true; 3036 } 3037 3038 template <typename Derived> 3039 bool RecursiveASTVisitor<Derived>::VisitOMPThreadLimitClause( 3040 OMPThreadLimitClause *C) { 3041 TRY_TO(VisitOMPClauseWithPreInit(C)); 3042 TRY_TO(TraverseStmt(C->getThreadLimit())); 3043 return true; 3044 } 3045 3046 template <typename Derived> 3047 bool RecursiveASTVisitor<Derived>::VisitOMPPriorityClause( 3048 OMPPriorityClause *C) { 3049 TRY_TO(TraverseStmt(C->getPriority())); 3050 return true; 3051 } 3052 3053 template <typename Derived> 3054 bool RecursiveASTVisitor<Derived>::VisitOMPGrainsizeClause( 3055 OMPGrainsizeClause *C) { 3056 TRY_TO(TraverseStmt(C->getGrainsize())); 3057 return true; 3058 } 3059 3060 template <typename Derived> 3061 bool RecursiveASTVisitor<Derived>::VisitOMPNumTasksClause( 3062 OMPNumTasksClause *C) { 3063 TRY_TO(TraverseStmt(C->getNumTasks())); 3064 return true; 3065 } 3066 3067 template <typename Derived> 3068 bool RecursiveASTVisitor<Derived>::VisitOMPHintClause(OMPHintClause *C) { 3069 TRY_TO(TraverseStmt(C->getHint())); 3070 return true; 3071 } 3072 3073 template <typename Derived> 3074 bool RecursiveASTVisitor<Derived>::VisitOMPDistScheduleClause( 3075 OMPDistScheduleClause *C) { 3076 TRY_TO(VisitOMPClauseWithPreInit(C)); 3077 TRY_TO(TraverseStmt(C->getChunkSize())); 3078 return true; 3079 } 3080 3081 template <typename Derived> 3082 bool 3083 RecursiveASTVisitor<Derived>::VisitOMPDefaultmapClause(OMPDefaultmapClause *C) { 3084 return true; 3085 } 3086 3087 template <typename Derived> 3088 bool RecursiveASTVisitor<Derived>::VisitOMPToClause(OMPToClause *C) { 3089 TRY_TO(VisitOMPClauseList(C)); 3090 return true; 3091 } 3092 3093 template <typename Derived> 3094 bool RecursiveASTVisitor<Derived>::VisitOMPFromClause(OMPFromClause *C) { 3095 TRY_TO(VisitOMPClauseList(C)); 3096 return true; 3097 } 3098 3099 template <typename Derived> 3100 bool RecursiveASTVisitor<Derived>::VisitOMPUseDevicePtrClause( 3101 OMPUseDevicePtrClause *C) { 3102 TRY_TO(VisitOMPClauseList(C)); 3103 return true; 3104 } 3105 3106 template <typename Derived> 3107 bool RecursiveASTVisitor<Derived>::VisitOMPIsDevicePtrClause( 3108 OMPIsDevicePtrClause *C) { 3109 TRY_TO(VisitOMPClauseList(C)); 3110 return true; 3111 } 3112 3113 // FIXME: look at the following tricky-seeming exprs to see if we 3114 // need to recurse on anything. These are ones that have methods 3115 // returning decls or qualtypes or nestednamespecifier -- though I'm 3116 // not sure if they own them -- or just seemed very complicated, or 3117 // had lots of sub-types to explore. 3118 // 3119 // VisitOverloadExpr and its children: recurse on template args? etc? 3120 3121 // FIXME: go through all the stmts and exprs again, and see which of them 3122 // create new types, and recurse on the types (TypeLocs?) of those. 3123 // Candidates: 3124 // 3125 // http://clang.llvm.org/doxygen/classclang_1_1CXXTypeidExpr.html 3126 // http://clang.llvm.org/doxygen/classclang_1_1UnaryExprOrTypeTraitExpr.html 3127 // http://clang.llvm.org/doxygen/classclang_1_1TypesCompatibleExpr.html 3128 // Every class that has getQualifier. 3129 3130 #undef DEF_TRAVERSE_STMT 3131 #undef TRAVERSE_STMT 3132 #undef TRAVERSE_STMT_BASE 3133 3134 #undef TRY_TO 3135 3136 } // end namespace clang 3137 3138 #endif // LLVM_CLANG_AST_RECURSIVEASTVISITOR_H 3139
