19b3f38f9SIlya Biryukov //===- BuildTree.cpp ------------------------------------------*- C++ -*-=====// 29b3f38f9SIlya Biryukov // 39b3f38f9SIlya Biryukov // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 49b3f38f9SIlya Biryukov // See https://llvm.org/LICENSE.txt for license information. 59b3f38f9SIlya Biryukov // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 69b3f38f9SIlya Biryukov // 79b3f38f9SIlya Biryukov //===----------------------------------------------------------------------===// 89b3f38f9SIlya Biryukov #include "clang/Tooling/Syntax/BuildTree.h" 97d382dcdSMarcel Hlopko #include "clang/AST/ASTFwd.h" 10e702bdb8SIlya Biryukov #include "clang/AST/Decl.h" 11e702bdb8SIlya Biryukov #include "clang/AST/DeclBase.h" 127d382dcdSMarcel Hlopko #include "clang/AST/DeclCXX.h" 137d382dcdSMarcel Hlopko #include "clang/AST/DeclarationName.h" 143785eb83SEduardo Caldas #include "clang/AST/Expr.h" 15ea8bba7eSEduardo Caldas #include "clang/AST/ExprCXX.h" 169b3f38f9SIlya Biryukov #include "clang/AST/RecursiveASTVisitor.h" 179b3f38f9SIlya Biryukov #include "clang/AST/Stmt.h" 187d382dcdSMarcel Hlopko #include "clang/AST/TypeLoc.h" 197d382dcdSMarcel Hlopko #include "clang/AST/TypeLocVisitor.h" 209b3f38f9SIlya Biryukov #include "clang/Basic/LLVM.h" 219b3f38f9SIlya Biryukov #include "clang/Basic/SourceLocation.h" 229b3f38f9SIlya Biryukov #include "clang/Basic/SourceManager.h" 2388bf9b3dSMarcel Hlopko #include "clang/Basic/Specifiers.h" 249b3f38f9SIlya Biryukov #include "clang/Basic/TokenKinds.h" 259b3f38f9SIlya Biryukov #include "clang/Lex/Lexer.h" 261db5b348SEduardo Caldas #include "clang/Lex/LiteralSupport.h" 279b3f38f9SIlya Biryukov #include "clang/Tooling/Syntax/Nodes.h" 289b3f38f9SIlya Biryukov #include "clang/Tooling/Syntax/Tokens.h" 299b3f38f9SIlya Biryukov #include "clang/Tooling/Syntax/Tree.h" 309b3f38f9SIlya Biryukov #include "llvm/ADT/ArrayRef.h" 31a711a3a4SMarcel Hlopko #include "llvm/ADT/DenseMap.h" 32a711a3a4SMarcel Hlopko #include "llvm/ADT/PointerUnion.h" 339b3f38f9SIlya Biryukov #include "llvm/ADT/STLExtras.h" 347d382dcdSMarcel Hlopko #include "llvm/ADT/ScopeExit.h" 359b3f38f9SIlya Biryukov #include "llvm/ADT/SmallVector.h" 369b3f38f9SIlya Biryukov #include "llvm/Support/Allocator.h" 379b3f38f9SIlya Biryukov #include "llvm/Support/Casting.h" 3896065cf7SIlya Biryukov #include "llvm/Support/Compiler.h" 399b3f38f9SIlya Biryukov #include "llvm/Support/FormatVariadic.h" 401ad15046SIlya Biryukov #include "llvm/Support/MemoryBuffer.h" 419b3f38f9SIlya Biryukov #include "llvm/Support/raw_ostream.h" 42a711a3a4SMarcel Hlopko #include <cstddef> 439b3f38f9SIlya Biryukov #include <map> 449b3f38f9SIlya Biryukov 459b3f38f9SIlya Biryukov using namespace clang; 469b3f38f9SIlya Biryukov 4796065cf7SIlya Biryukov LLVM_ATTRIBUTE_UNUSED 48ba41a0f7SEduardo Caldas static bool isImplicitExpr(Expr *E) { return E->IgnoreImplicit() != E; } 4958fa50f4SIlya Biryukov 507d382dcdSMarcel Hlopko namespace { 517d382dcdSMarcel Hlopko /// Get start location of the Declarator from the TypeLoc. 527d382dcdSMarcel Hlopko /// E.g.: 537d382dcdSMarcel Hlopko /// loc of `(` in `int (a)` 547d382dcdSMarcel Hlopko /// loc of `*` in `int *(a)` 557d382dcdSMarcel Hlopko /// loc of the first `(` in `int (*a)(int)` 567d382dcdSMarcel Hlopko /// loc of the `*` in `int *(a)(int)` 577d382dcdSMarcel Hlopko /// loc of the first `*` in `const int *const *volatile a;` 587d382dcdSMarcel Hlopko /// 597d382dcdSMarcel Hlopko /// It is non-trivial to get the start location because TypeLocs are stored 607d382dcdSMarcel Hlopko /// inside out. In the example above `*volatile` is the TypeLoc returned 617d382dcdSMarcel Hlopko /// by `Decl.getTypeSourceInfo()`, and `*const` is what `.getPointeeLoc()` 627d382dcdSMarcel Hlopko /// returns. 637d382dcdSMarcel Hlopko struct GetStartLoc : TypeLocVisitor<GetStartLoc, SourceLocation> { 647d382dcdSMarcel Hlopko SourceLocation VisitParenTypeLoc(ParenTypeLoc T) { 657d382dcdSMarcel Hlopko auto L = Visit(T.getInnerLoc()); 667d382dcdSMarcel Hlopko if (L.isValid()) 677d382dcdSMarcel Hlopko return L; 687d382dcdSMarcel Hlopko return T.getLParenLoc(); 697d382dcdSMarcel Hlopko } 707d382dcdSMarcel Hlopko 717d382dcdSMarcel Hlopko // Types spelled in the prefix part of the declarator. 727d382dcdSMarcel Hlopko SourceLocation VisitPointerTypeLoc(PointerTypeLoc T) { 737d382dcdSMarcel Hlopko return HandlePointer(T); 747d382dcdSMarcel Hlopko } 757d382dcdSMarcel Hlopko 767d382dcdSMarcel Hlopko SourceLocation VisitMemberPointerTypeLoc(MemberPointerTypeLoc T) { 777d382dcdSMarcel Hlopko return HandlePointer(T); 787d382dcdSMarcel Hlopko } 797d382dcdSMarcel Hlopko 807d382dcdSMarcel Hlopko SourceLocation VisitBlockPointerTypeLoc(BlockPointerTypeLoc T) { 817d382dcdSMarcel Hlopko return HandlePointer(T); 827d382dcdSMarcel Hlopko } 837d382dcdSMarcel Hlopko 847d382dcdSMarcel Hlopko SourceLocation VisitReferenceTypeLoc(ReferenceTypeLoc T) { 857d382dcdSMarcel Hlopko return HandlePointer(T); 867d382dcdSMarcel Hlopko } 877d382dcdSMarcel Hlopko 887d382dcdSMarcel Hlopko SourceLocation VisitObjCObjectPointerTypeLoc(ObjCObjectPointerTypeLoc T) { 897d382dcdSMarcel Hlopko return HandlePointer(T); 907d382dcdSMarcel Hlopko } 917d382dcdSMarcel Hlopko 927d382dcdSMarcel Hlopko // All other cases are not important, as they are either part of declaration 937d382dcdSMarcel Hlopko // specifiers (e.g. inheritors of TypeSpecTypeLoc) or introduce modifiers on 947d382dcdSMarcel Hlopko // existing declarators (e.g. QualifiedTypeLoc). They cannot start the 957d382dcdSMarcel Hlopko // declarator themselves, but their underlying type can. 967d382dcdSMarcel Hlopko SourceLocation VisitTypeLoc(TypeLoc T) { 977d382dcdSMarcel Hlopko auto N = T.getNextTypeLoc(); 987d382dcdSMarcel Hlopko if (!N) 997d382dcdSMarcel Hlopko return SourceLocation(); 1007d382dcdSMarcel Hlopko return Visit(N); 1017d382dcdSMarcel Hlopko } 1027d382dcdSMarcel Hlopko 1037d382dcdSMarcel Hlopko SourceLocation VisitFunctionProtoTypeLoc(FunctionProtoTypeLoc T) { 1047d382dcdSMarcel Hlopko if (T.getTypePtr()->hasTrailingReturn()) 1057d382dcdSMarcel Hlopko return SourceLocation(); // avoid recursing into the suffix of declarator. 1067d382dcdSMarcel Hlopko return VisitTypeLoc(T); 1077d382dcdSMarcel Hlopko } 1087d382dcdSMarcel Hlopko 1097d382dcdSMarcel Hlopko private: 1107d382dcdSMarcel Hlopko template <class PtrLoc> SourceLocation HandlePointer(PtrLoc T) { 1117d382dcdSMarcel Hlopko auto L = Visit(T.getPointeeLoc()); 1127d382dcdSMarcel Hlopko if (L.isValid()) 1137d382dcdSMarcel Hlopko return L; 1147d382dcdSMarcel Hlopko return T.getLocalSourceRange().getBegin(); 1157d382dcdSMarcel Hlopko } 1167d382dcdSMarcel Hlopko }; 1177d382dcdSMarcel Hlopko } // namespace 1187d382dcdSMarcel Hlopko 119ea8bba7eSEduardo Caldas static syntax::NodeKind getOperatorNodeKind(const CXXOperatorCallExpr &E) { 120ea8bba7eSEduardo Caldas switch (E.getOperator()) { 121ea8bba7eSEduardo Caldas // Comparison 122ea8bba7eSEduardo Caldas case OO_EqualEqual: 123ea8bba7eSEduardo Caldas case OO_ExclaimEqual: 124ea8bba7eSEduardo Caldas case OO_Greater: 125ea8bba7eSEduardo Caldas case OO_GreaterEqual: 126ea8bba7eSEduardo Caldas case OO_Less: 127ea8bba7eSEduardo Caldas case OO_LessEqual: 128ea8bba7eSEduardo Caldas case OO_Spaceship: 129ea8bba7eSEduardo Caldas // Assignment 130ea8bba7eSEduardo Caldas case OO_Equal: 131ea8bba7eSEduardo Caldas case OO_SlashEqual: 132ea8bba7eSEduardo Caldas case OO_PercentEqual: 133ea8bba7eSEduardo Caldas case OO_CaretEqual: 134ea8bba7eSEduardo Caldas case OO_PipeEqual: 135ea8bba7eSEduardo Caldas case OO_LessLessEqual: 136ea8bba7eSEduardo Caldas case OO_GreaterGreaterEqual: 137ea8bba7eSEduardo Caldas case OO_PlusEqual: 138ea8bba7eSEduardo Caldas case OO_MinusEqual: 139ea8bba7eSEduardo Caldas case OO_StarEqual: 140ea8bba7eSEduardo Caldas case OO_AmpEqual: 141ea8bba7eSEduardo Caldas // Binary computation 142ea8bba7eSEduardo Caldas case OO_Slash: 143ea8bba7eSEduardo Caldas case OO_Percent: 144ea8bba7eSEduardo Caldas case OO_Caret: 145ea8bba7eSEduardo Caldas case OO_Pipe: 146ea8bba7eSEduardo Caldas case OO_LessLess: 147ea8bba7eSEduardo Caldas case OO_GreaterGreater: 148ea8bba7eSEduardo Caldas case OO_AmpAmp: 149ea8bba7eSEduardo Caldas case OO_PipePipe: 150ea8bba7eSEduardo Caldas case OO_ArrowStar: 151ea8bba7eSEduardo Caldas case OO_Comma: 152ea8bba7eSEduardo Caldas return syntax::NodeKind::BinaryOperatorExpression; 153ea8bba7eSEduardo Caldas case OO_Tilde: 154ea8bba7eSEduardo Caldas case OO_Exclaim: 155ea8bba7eSEduardo Caldas return syntax::NodeKind::PrefixUnaryOperatorExpression; 156ea8bba7eSEduardo Caldas // Prefix/Postfix increment/decrement 157ea8bba7eSEduardo Caldas case OO_PlusPlus: 158ea8bba7eSEduardo Caldas case OO_MinusMinus: 159ea8bba7eSEduardo Caldas switch (E.getNumArgs()) { 160ea8bba7eSEduardo Caldas case 1: 161ea8bba7eSEduardo Caldas return syntax::NodeKind::PrefixUnaryOperatorExpression; 162ea8bba7eSEduardo Caldas case 2: 163ea8bba7eSEduardo Caldas return syntax::NodeKind::PostfixUnaryOperatorExpression; 164ea8bba7eSEduardo Caldas default: 165ea8bba7eSEduardo Caldas llvm_unreachable("Invalid number of arguments for operator"); 166ea8bba7eSEduardo Caldas } 167ea8bba7eSEduardo Caldas // Operators that can be unary or binary 168ea8bba7eSEduardo Caldas case OO_Plus: 169ea8bba7eSEduardo Caldas case OO_Minus: 170ea8bba7eSEduardo Caldas case OO_Star: 171ea8bba7eSEduardo Caldas case OO_Amp: 172ea8bba7eSEduardo Caldas switch (E.getNumArgs()) { 173ea8bba7eSEduardo Caldas case 1: 174ea8bba7eSEduardo Caldas return syntax::NodeKind::PrefixUnaryOperatorExpression; 175ea8bba7eSEduardo Caldas case 2: 176ea8bba7eSEduardo Caldas return syntax::NodeKind::BinaryOperatorExpression; 177ea8bba7eSEduardo Caldas default: 178ea8bba7eSEduardo Caldas llvm_unreachable("Invalid number of arguments for operator"); 179ea8bba7eSEduardo Caldas } 180ea8bba7eSEduardo Caldas return syntax::NodeKind::BinaryOperatorExpression; 181ea8bba7eSEduardo Caldas // Not yet supported by SyntaxTree 182ea8bba7eSEduardo Caldas case OO_New: 183ea8bba7eSEduardo Caldas case OO_Delete: 184ea8bba7eSEduardo Caldas case OO_Array_New: 185ea8bba7eSEduardo Caldas case OO_Array_Delete: 186ea8bba7eSEduardo Caldas case OO_Coawait: 187ea8bba7eSEduardo Caldas case OO_Call: 188ea8bba7eSEduardo Caldas case OO_Subscript: 189ea8bba7eSEduardo Caldas case OO_Arrow: 190ea8bba7eSEduardo Caldas return syntax::NodeKind::UnknownExpression; 191ea8bba7eSEduardo Caldas case OO_Conditional: // not overloadable 192ea8bba7eSEduardo Caldas case NUM_OVERLOADED_OPERATORS: 193ea8bba7eSEduardo Caldas case OO_None: 194ea8bba7eSEduardo Caldas llvm_unreachable("Not an overloadable operator"); 195ea8bba7eSEduardo Caldas } 196397c6820SSimon Pilgrim llvm_unreachable("Unknown OverloadedOperatorKind enum"); 197ea8bba7eSEduardo Caldas } 198ea8bba7eSEduardo Caldas 1997d382dcdSMarcel Hlopko /// Gets the range of declarator as defined by the C++ grammar. E.g. 2007d382dcdSMarcel Hlopko /// `int a;` -> range of `a`, 2017d382dcdSMarcel Hlopko /// `int *a;` -> range of `*a`, 2027d382dcdSMarcel Hlopko /// `int a[10];` -> range of `a[10]`, 2037d382dcdSMarcel Hlopko /// `int a[1][2][3];` -> range of `a[1][2][3]`, 2047d382dcdSMarcel Hlopko /// `int *a = nullptr` -> range of `*a = nullptr`. 2057d382dcdSMarcel Hlopko /// FIMXE: \p Name must be a source range, e.g. for `operator+`. 2067d382dcdSMarcel Hlopko static SourceRange getDeclaratorRange(const SourceManager &SM, TypeLoc T, 2077d382dcdSMarcel Hlopko SourceLocation Name, 2087d382dcdSMarcel Hlopko SourceRange Initializer) { 2097d382dcdSMarcel Hlopko SourceLocation Start = GetStartLoc().Visit(T); 2107d382dcdSMarcel Hlopko SourceLocation End = T.getSourceRange().getEnd(); 2117d382dcdSMarcel Hlopko assert(End.isValid()); 2127d382dcdSMarcel Hlopko if (Name.isValid()) { 2137d382dcdSMarcel Hlopko if (Start.isInvalid()) 2147d382dcdSMarcel Hlopko Start = Name; 2157d382dcdSMarcel Hlopko if (SM.isBeforeInTranslationUnit(End, Name)) 2167d382dcdSMarcel Hlopko End = Name; 2177d382dcdSMarcel Hlopko } 2187d382dcdSMarcel Hlopko if (Initializer.isValid()) { 219cdce2fe5SMarcel Hlopko auto InitializerEnd = Initializer.getEnd(); 220f33c2c27SEduardo Caldas assert(SM.isBeforeInTranslationUnit(End, InitializerEnd) || 221f33c2c27SEduardo Caldas End == InitializerEnd); 222cdce2fe5SMarcel Hlopko End = InitializerEnd; 2237d382dcdSMarcel Hlopko } 2247d382dcdSMarcel Hlopko return SourceRange(Start, End); 2257d382dcdSMarcel Hlopko } 2267d382dcdSMarcel Hlopko 227a711a3a4SMarcel Hlopko namespace { 228a711a3a4SMarcel Hlopko /// All AST hierarchy roots that can be represented as pointers. 229a711a3a4SMarcel Hlopko using ASTPtr = llvm::PointerUnion<Stmt *, Decl *>; 230a711a3a4SMarcel Hlopko /// Maintains a mapping from AST to syntax tree nodes. This class will get more 231a711a3a4SMarcel Hlopko /// complicated as we support more kinds of AST nodes, e.g. TypeLocs. 232a711a3a4SMarcel Hlopko /// FIXME: expose this as public API. 233a711a3a4SMarcel Hlopko class ASTToSyntaxMapping { 234a711a3a4SMarcel Hlopko public: 235a711a3a4SMarcel Hlopko void add(ASTPtr From, syntax::Tree *To) { 236a711a3a4SMarcel Hlopko assert(To != nullptr); 237a711a3a4SMarcel Hlopko assert(!From.isNull()); 238a711a3a4SMarcel Hlopko 239a711a3a4SMarcel Hlopko bool Added = Nodes.insert({From, To}).second; 240a711a3a4SMarcel Hlopko (void)Added; 241a711a3a4SMarcel Hlopko assert(Added && "mapping added twice"); 242a711a3a4SMarcel Hlopko } 243a711a3a4SMarcel Hlopko 244f9500cc4SEduardo Caldas void add(NestedNameSpecifierLoc From, syntax::Tree *To) { 245f9500cc4SEduardo Caldas assert(To != nullptr); 246f9500cc4SEduardo Caldas assert(From.hasQualifier()); 247f9500cc4SEduardo Caldas 248f9500cc4SEduardo Caldas bool Added = NNSNodes.insert({From, To}).second; 249f9500cc4SEduardo Caldas (void)Added; 250f9500cc4SEduardo Caldas assert(Added && "mapping added twice"); 251f9500cc4SEduardo Caldas } 252f9500cc4SEduardo Caldas 253a711a3a4SMarcel Hlopko syntax::Tree *find(ASTPtr P) const { return Nodes.lookup(P); } 254a711a3a4SMarcel Hlopko 255f9500cc4SEduardo Caldas syntax::Tree *find(NestedNameSpecifierLoc P) const { 256f9500cc4SEduardo Caldas return NNSNodes.lookup(P); 257f9500cc4SEduardo Caldas } 258f9500cc4SEduardo Caldas 259a711a3a4SMarcel Hlopko private: 260a711a3a4SMarcel Hlopko llvm::DenseMap<ASTPtr, syntax::Tree *> Nodes; 261f9500cc4SEduardo Caldas llvm::DenseMap<NestedNameSpecifierLoc, syntax::Tree *> NNSNodes; 262a711a3a4SMarcel Hlopko }; 263a711a3a4SMarcel Hlopko } // namespace 264a711a3a4SMarcel Hlopko 2659b3f38f9SIlya Biryukov /// A helper class for constructing the syntax tree while traversing a clang 2669b3f38f9SIlya Biryukov /// AST. 2679b3f38f9SIlya Biryukov /// 2689b3f38f9SIlya Biryukov /// At each point of the traversal we maintain a list of pending nodes. 2699b3f38f9SIlya Biryukov /// Initially all tokens are added as pending nodes. When processing a clang AST 2709b3f38f9SIlya Biryukov /// node, the clients need to: 2719b3f38f9SIlya Biryukov /// - create a corresponding syntax node, 2729b3f38f9SIlya Biryukov /// - assign roles to all pending child nodes with 'markChild' and 2739b3f38f9SIlya Biryukov /// 'markChildToken', 2749b3f38f9SIlya Biryukov /// - replace the child nodes with the new syntax node in the pending list 2759b3f38f9SIlya Biryukov /// with 'foldNode'. 2769b3f38f9SIlya Biryukov /// 2779b3f38f9SIlya Biryukov /// Note that all children are expected to be processed when building a node. 2789b3f38f9SIlya Biryukov /// 2799b3f38f9SIlya Biryukov /// Call finalize() to finish building the tree and consume the root node. 2809b3f38f9SIlya Biryukov class syntax::TreeBuilder { 2819b3f38f9SIlya Biryukov public: 282c1bbefefSIlya Biryukov TreeBuilder(syntax::Arena &Arena) : Arena(Arena), Pending(Arena) { 283c1bbefefSIlya Biryukov for (const auto &T : Arena.tokenBuffer().expandedTokens()) 284c1bbefefSIlya Biryukov LocationToToken.insert({T.location().getRawEncoding(), &T}); 285c1bbefefSIlya Biryukov } 2869b3f38f9SIlya Biryukov 2879b3f38f9SIlya Biryukov llvm::BumpPtrAllocator &allocator() { return Arena.allocator(); } 2887d382dcdSMarcel Hlopko const SourceManager &sourceManager() const { return Arena.sourceManager(); } 2899b3f38f9SIlya Biryukov 2909b3f38f9SIlya Biryukov /// Populate children for \p New node, assuming it covers tokens from \p 2919b3f38f9SIlya Biryukov /// Range. 292ba41a0f7SEduardo Caldas void foldNode(ArrayRef<syntax::Token> Range, syntax::Tree *New, ASTPtr From) { 293a711a3a4SMarcel Hlopko assert(New); 294a711a3a4SMarcel Hlopko Pending.foldChildren(Arena, Range, New); 295a711a3a4SMarcel Hlopko if (From) 296a711a3a4SMarcel Hlopko Mapping.add(From, New); 297a711a3a4SMarcel Hlopko } 298f9500cc4SEduardo Caldas 299ba41a0f7SEduardo Caldas void foldNode(ArrayRef<syntax::Token> Range, syntax::Tree *New, TypeLoc L) { 300a711a3a4SMarcel Hlopko // FIXME: add mapping for TypeLocs 301a711a3a4SMarcel Hlopko foldNode(Range, New, nullptr); 302a711a3a4SMarcel Hlopko } 3039b3f38f9SIlya Biryukov 304f9500cc4SEduardo Caldas void foldNode(llvm::ArrayRef<syntax::Token> Range, syntax::Tree *New, 305f9500cc4SEduardo Caldas NestedNameSpecifierLoc From) { 306f9500cc4SEduardo Caldas assert(New); 307f9500cc4SEduardo Caldas Pending.foldChildren(Arena, Range, New); 308f9500cc4SEduardo Caldas if (From) 309f9500cc4SEduardo Caldas Mapping.add(From, New); 3108abb5fb6SEduardo Caldas } 311f9500cc4SEduardo Caldas 312e702bdb8SIlya Biryukov /// Notifies that we should not consume trailing semicolon when computing 313e702bdb8SIlya Biryukov /// token range of \p D. 3147d382dcdSMarcel Hlopko void noticeDeclWithoutSemicolon(Decl *D); 315e702bdb8SIlya Biryukov 31658fa50f4SIlya Biryukov /// Mark the \p Child node with a corresponding \p Role. All marked children 31758fa50f4SIlya Biryukov /// should be consumed by foldNode. 3187d382dcdSMarcel Hlopko /// When called on expressions (clang::Expr is derived from clang::Stmt), 31958fa50f4SIlya Biryukov /// wraps expressions into expression statement. 32058fa50f4SIlya Biryukov void markStmtChild(Stmt *Child, NodeRole Role); 32158fa50f4SIlya Biryukov /// Should be called for expressions in non-statement position to avoid 32258fa50f4SIlya Biryukov /// wrapping into expression statement. 32358fa50f4SIlya Biryukov void markExprChild(Expr *Child, NodeRole Role); 3249b3f38f9SIlya Biryukov /// Set role for a token starting at \p Loc. 325def65bb4SIlya Biryukov void markChildToken(SourceLocation Loc, NodeRole R); 3267d382dcdSMarcel Hlopko /// Set role for \p T. 3277d382dcdSMarcel Hlopko void markChildToken(const syntax::Token *T, NodeRole R); 3287d382dcdSMarcel Hlopko 329a711a3a4SMarcel Hlopko /// Set role for \p N. 330a711a3a4SMarcel Hlopko void markChild(syntax::Node *N, NodeRole R); 331a711a3a4SMarcel Hlopko /// Set role for the syntax node matching \p N. 332a711a3a4SMarcel Hlopko void markChild(ASTPtr N, NodeRole R); 333f9500cc4SEduardo Caldas /// Set role for the syntax node matching \p N. 334f9500cc4SEduardo Caldas void markChild(NestedNameSpecifierLoc N, NodeRole R); 3359b3f38f9SIlya Biryukov 3369b3f38f9SIlya Biryukov /// Finish building the tree and consume the root node. 3379b3f38f9SIlya Biryukov syntax::TranslationUnit *finalize() && { 3389b3f38f9SIlya Biryukov auto Tokens = Arena.tokenBuffer().expandedTokens(); 339bfbf6b6cSIlya Biryukov assert(!Tokens.empty()); 340bfbf6b6cSIlya Biryukov assert(Tokens.back().kind() == tok::eof); 341bfbf6b6cSIlya Biryukov 3429b3f38f9SIlya Biryukov // Build the root of the tree, consuming all the children. 3431ad15046SIlya Biryukov Pending.foldChildren(Arena, Tokens.drop_back(), 3449b3f38f9SIlya Biryukov new (Arena.allocator()) syntax::TranslationUnit); 3459b3f38f9SIlya Biryukov 3463b929fe7SIlya Biryukov auto *TU = cast<syntax::TranslationUnit>(std::move(Pending).finalize()); 3473b929fe7SIlya Biryukov TU->assertInvariantsRecursive(); 3483b929fe7SIlya Biryukov return TU; 3499b3f38f9SIlya Biryukov } 3509b3f38f9SIlya Biryukov 35188bf9b3dSMarcel Hlopko /// Finds a token starting at \p L. The token must exist if \p L is valid. 35288bf9b3dSMarcel Hlopko const syntax::Token *findToken(SourceLocation L) const; 35388bf9b3dSMarcel Hlopko 354a711a3a4SMarcel Hlopko /// Finds the syntax tokens corresponding to the \p SourceRange. 355ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> getRange(SourceRange Range) const { 356a711a3a4SMarcel Hlopko assert(Range.isValid()); 357a711a3a4SMarcel Hlopko return getRange(Range.getBegin(), Range.getEnd()); 358a711a3a4SMarcel Hlopko } 359a711a3a4SMarcel Hlopko 360a711a3a4SMarcel Hlopko /// Finds the syntax tokens corresponding to the passed source locations. 3619b3f38f9SIlya Biryukov /// \p First is the start position of the first token and \p Last is the start 3629b3f38f9SIlya Biryukov /// position of the last token. 363ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> getRange(SourceLocation First, 3649b3f38f9SIlya Biryukov SourceLocation Last) const { 3659b3f38f9SIlya Biryukov assert(First.isValid()); 3669b3f38f9SIlya Biryukov assert(Last.isValid()); 3679b3f38f9SIlya Biryukov assert(First == Last || 3689b3f38f9SIlya Biryukov Arena.sourceManager().isBeforeInTranslationUnit(First, Last)); 3699b3f38f9SIlya Biryukov return llvm::makeArrayRef(findToken(First), std::next(findToken(Last))); 3709b3f38f9SIlya Biryukov } 37188bf9b3dSMarcel Hlopko 372ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> 37388bf9b3dSMarcel Hlopko getTemplateRange(const ClassTemplateSpecializationDecl *D) const { 374a711a3a4SMarcel Hlopko auto Tokens = getRange(D->getSourceRange()); 37588bf9b3dSMarcel Hlopko return maybeAppendSemicolon(Tokens, D); 37688bf9b3dSMarcel Hlopko } 37788bf9b3dSMarcel Hlopko 378cdce2fe5SMarcel Hlopko /// Returns true if \p D is the last declarator in a chain and is thus 379cdce2fe5SMarcel Hlopko /// reponsible for creating SimpleDeclaration for the whole chain. 380cdce2fe5SMarcel Hlopko template <class T> 381cdce2fe5SMarcel Hlopko bool isResponsibleForCreatingDeclaration(const T *D) const { 382cdce2fe5SMarcel Hlopko static_assert((std::is_base_of<DeclaratorDecl, T>::value || 383cdce2fe5SMarcel Hlopko std::is_base_of<TypedefNameDecl, T>::value), 384cdce2fe5SMarcel Hlopko "only DeclaratorDecl and TypedefNameDecl are supported."); 385cdce2fe5SMarcel Hlopko 386cdce2fe5SMarcel Hlopko const Decl *Next = D->getNextDeclInContext(); 387cdce2fe5SMarcel Hlopko 388cdce2fe5SMarcel Hlopko // There's no next sibling, this one is responsible. 389cdce2fe5SMarcel Hlopko if (Next == nullptr) { 390cdce2fe5SMarcel Hlopko return true; 391cdce2fe5SMarcel Hlopko } 392ba41a0f7SEduardo Caldas const auto *NextT = dyn_cast<T>(Next); 393cdce2fe5SMarcel Hlopko 394cdce2fe5SMarcel Hlopko // Next sibling is not the same type, this one is responsible. 395cdce2fe5SMarcel Hlopko if (NextT == nullptr) { 396cdce2fe5SMarcel Hlopko return true; 397cdce2fe5SMarcel Hlopko } 398cdce2fe5SMarcel Hlopko // Next sibling doesn't begin at the same loc, it must be a different 399cdce2fe5SMarcel Hlopko // declaration, so this declarator is responsible. 400cdce2fe5SMarcel Hlopko if (NextT->getBeginLoc() != D->getBeginLoc()) { 401cdce2fe5SMarcel Hlopko return true; 402cdce2fe5SMarcel Hlopko } 403cdce2fe5SMarcel Hlopko 404cdce2fe5SMarcel Hlopko // NextT is a member of the same declaration, and we need the last member to 405cdce2fe5SMarcel Hlopko // create declaration. This one is not responsible. 406cdce2fe5SMarcel Hlopko return false; 407cdce2fe5SMarcel Hlopko } 408cdce2fe5SMarcel Hlopko 409ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> getDeclarationRange(Decl *D) { 410ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> Tokens; 41188bf9b3dSMarcel Hlopko // We want to drop the template parameters for specializations. 412ba41a0f7SEduardo Caldas if (const auto *S = dyn_cast<TagDecl>(D)) 41388bf9b3dSMarcel Hlopko Tokens = getRange(S->TypeDecl::getBeginLoc(), S->getEndLoc()); 41488bf9b3dSMarcel Hlopko else 415a711a3a4SMarcel Hlopko Tokens = getRange(D->getSourceRange()); 41688bf9b3dSMarcel Hlopko return maybeAppendSemicolon(Tokens, D); 4179b3f38f9SIlya Biryukov } 418cdce2fe5SMarcel Hlopko 419ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> getExprRange(const Expr *E) const { 420a711a3a4SMarcel Hlopko return getRange(E->getSourceRange()); 42158fa50f4SIlya Biryukov } 422cdce2fe5SMarcel Hlopko 42358fa50f4SIlya Biryukov /// Find the adjusted range for the statement, consuming the trailing 42458fa50f4SIlya Biryukov /// semicolon when needed. 425ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> getStmtRange(const Stmt *S) const { 426a711a3a4SMarcel Hlopko auto Tokens = getRange(S->getSourceRange()); 42758fa50f4SIlya Biryukov if (isa<CompoundStmt>(S)) 42858fa50f4SIlya Biryukov return Tokens; 42958fa50f4SIlya Biryukov 43058fa50f4SIlya Biryukov // Some statements miss a trailing semicolon, e.g. 'return', 'continue' and 43158fa50f4SIlya Biryukov // all statements that end with those. Consume this semicolon here. 432e702bdb8SIlya Biryukov if (Tokens.back().kind() == tok::semi) 433e702bdb8SIlya Biryukov return Tokens; 434e702bdb8SIlya Biryukov return withTrailingSemicolon(Tokens); 435e702bdb8SIlya Biryukov } 436e702bdb8SIlya Biryukov 437e702bdb8SIlya Biryukov private: 438ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> maybeAppendSemicolon(ArrayRef<syntax::Token> Tokens, 43988bf9b3dSMarcel Hlopko const Decl *D) const { 440ba41a0f7SEduardo Caldas if (isa<NamespaceDecl>(D)) 44188bf9b3dSMarcel Hlopko return Tokens; 44288bf9b3dSMarcel Hlopko if (DeclsWithoutSemicolons.count(D)) 44388bf9b3dSMarcel Hlopko return Tokens; 44488bf9b3dSMarcel Hlopko // FIXME: do not consume trailing semicolon on function definitions. 44588bf9b3dSMarcel Hlopko // Most declarations own a semicolon in syntax trees, but not in clang AST. 44688bf9b3dSMarcel Hlopko return withTrailingSemicolon(Tokens); 44788bf9b3dSMarcel Hlopko } 44888bf9b3dSMarcel Hlopko 449ba41a0f7SEduardo Caldas ArrayRef<syntax::Token> 450ba41a0f7SEduardo Caldas withTrailingSemicolon(ArrayRef<syntax::Token> Tokens) const { 451e702bdb8SIlya Biryukov assert(!Tokens.empty()); 452e702bdb8SIlya Biryukov assert(Tokens.back().kind() != tok::eof); 4537d382dcdSMarcel Hlopko // We never consume 'eof', so looking at the next token is ok. 45458fa50f4SIlya Biryukov if (Tokens.back().kind() != tok::semi && Tokens.end()->kind() == tok::semi) 45558fa50f4SIlya Biryukov return llvm::makeArrayRef(Tokens.begin(), Tokens.end() + 1); 45658fa50f4SIlya Biryukov return Tokens; 4579b3f38f9SIlya Biryukov } 4589b3f38f9SIlya Biryukov 459a711a3a4SMarcel Hlopko void setRole(syntax::Node *N, NodeRole R) { 460a711a3a4SMarcel Hlopko assert(N->role() == NodeRole::Detached); 461a711a3a4SMarcel Hlopko N->setRole(R); 462a711a3a4SMarcel Hlopko } 463a711a3a4SMarcel Hlopko 4649b3f38f9SIlya Biryukov /// A collection of trees covering the input tokens. 4659b3f38f9SIlya Biryukov /// When created, each tree corresponds to a single token in the file. 4669b3f38f9SIlya Biryukov /// Clients call 'foldChildren' to attach one or more subtrees to a parent 4679b3f38f9SIlya Biryukov /// node and update the list of trees accordingly. 4689b3f38f9SIlya Biryukov /// 4699b3f38f9SIlya Biryukov /// Ensures that added nodes properly nest and cover the whole token stream. 4709b3f38f9SIlya Biryukov struct Forest { 4719b3f38f9SIlya Biryukov Forest(syntax::Arena &A) { 472bfbf6b6cSIlya Biryukov assert(!A.tokenBuffer().expandedTokens().empty()); 473bfbf6b6cSIlya Biryukov assert(A.tokenBuffer().expandedTokens().back().kind() == tok::eof); 4749b3f38f9SIlya Biryukov // Create all leaf nodes. 475bfbf6b6cSIlya Biryukov // Note that we do not have 'eof' in the tree. 4761ad15046SIlya Biryukov for (auto &T : A.tokenBuffer().expandedTokens().drop_back()) { 4771ad15046SIlya Biryukov auto *L = new (A.allocator()) syntax::Leaf(&T); 4781ad15046SIlya Biryukov L->Original = true; 4791ad15046SIlya Biryukov L->CanModify = A.tokenBuffer().spelledForExpanded(T).hasValue(); 480a711a3a4SMarcel Hlopko Trees.insert(Trees.end(), {&T, L}); 4811ad15046SIlya Biryukov } 4829b3f38f9SIlya Biryukov } 4839b3f38f9SIlya Biryukov 484ba41a0f7SEduardo Caldas void assignRole(ArrayRef<syntax::Token> Range, syntax::NodeRole Role) { 4859b3f38f9SIlya Biryukov assert(!Range.empty()); 4869b3f38f9SIlya Biryukov auto It = Trees.lower_bound(Range.begin()); 4879b3f38f9SIlya Biryukov assert(It != Trees.end() && "no node found"); 4889b3f38f9SIlya Biryukov assert(It->first == Range.begin() && "no child with the specified range"); 4899b3f38f9SIlya Biryukov assert((std::next(It) == Trees.end() || 4909b3f38f9SIlya Biryukov std::next(It)->first == Range.end()) && 4919b3f38f9SIlya Biryukov "no child with the specified range"); 492a711a3a4SMarcel Hlopko assert(It->second->role() == NodeRole::Detached && 493a711a3a4SMarcel Hlopko "re-assigning role for a child"); 494a711a3a4SMarcel Hlopko It->second->setRole(Role); 4959b3f38f9SIlya Biryukov } 4969b3f38f9SIlya Biryukov 497e702bdb8SIlya Biryukov /// Add \p Node to the forest and attach child nodes based on \p Tokens. 498ba41a0f7SEduardo Caldas void foldChildren(const syntax::Arena &A, ArrayRef<syntax::Token> Tokens, 4999b3f38f9SIlya Biryukov syntax::Tree *Node) { 500e702bdb8SIlya Biryukov // Attach children to `Node`. 501cdce2fe5SMarcel Hlopko assert(Node->firstChild() == nullptr && "node already has children"); 502cdce2fe5SMarcel Hlopko 503cdce2fe5SMarcel Hlopko auto *FirstToken = Tokens.begin(); 504cdce2fe5SMarcel Hlopko auto BeginChildren = Trees.lower_bound(FirstToken); 505cdce2fe5SMarcel Hlopko 506cdce2fe5SMarcel Hlopko assert((BeginChildren == Trees.end() || 507cdce2fe5SMarcel Hlopko BeginChildren->first == FirstToken) && 508cdce2fe5SMarcel Hlopko "fold crosses boundaries of existing subtrees"); 509cdce2fe5SMarcel Hlopko auto EndChildren = Trees.lower_bound(Tokens.end()); 510cdce2fe5SMarcel Hlopko assert( 511cdce2fe5SMarcel Hlopko (EndChildren == Trees.end() || EndChildren->first == Tokens.end()) && 512cdce2fe5SMarcel Hlopko "fold crosses boundaries of existing subtrees"); 513cdce2fe5SMarcel Hlopko 514cdce2fe5SMarcel Hlopko // We need to go in reverse order, because we can only prepend. 515cdce2fe5SMarcel Hlopko for (auto It = EndChildren; It != BeginChildren; --It) { 516cdce2fe5SMarcel Hlopko auto *C = std::prev(It)->second; 517cdce2fe5SMarcel Hlopko if (C->role() == NodeRole::Detached) 518cdce2fe5SMarcel Hlopko C->setRole(NodeRole::Unknown); 519cdce2fe5SMarcel Hlopko Node->prependChildLowLevel(C); 520e702bdb8SIlya Biryukov } 5219b3f38f9SIlya Biryukov 522cdce2fe5SMarcel Hlopko // Mark that this node came from the AST and is backed by the source code. 523cdce2fe5SMarcel Hlopko Node->Original = true; 524cdce2fe5SMarcel Hlopko Node->CanModify = A.tokenBuffer().spelledForExpanded(Tokens).hasValue(); 5259b3f38f9SIlya Biryukov 526cdce2fe5SMarcel Hlopko Trees.erase(BeginChildren, EndChildren); 527cdce2fe5SMarcel Hlopko Trees.insert({FirstToken, Node}); 5289b3f38f9SIlya Biryukov } 5299b3f38f9SIlya Biryukov 5309b3f38f9SIlya Biryukov // EXPECTS: all tokens were consumed and are owned by a single root node. 5319b3f38f9SIlya Biryukov syntax::Node *finalize() && { 5329b3f38f9SIlya Biryukov assert(Trees.size() == 1); 533a711a3a4SMarcel Hlopko auto *Root = Trees.begin()->second; 5349b3f38f9SIlya Biryukov Trees = {}; 5359b3f38f9SIlya Biryukov return Root; 5369b3f38f9SIlya Biryukov } 5379b3f38f9SIlya Biryukov 5389b3f38f9SIlya Biryukov std::string str(const syntax::Arena &A) const { 5399b3f38f9SIlya Biryukov std::string R; 5409b3f38f9SIlya Biryukov for (auto It = Trees.begin(); It != Trees.end(); ++It) { 5419b3f38f9SIlya Biryukov unsigned CoveredTokens = 5429b3f38f9SIlya Biryukov It != Trees.end() 5439b3f38f9SIlya Biryukov ? (std::next(It)->first - It->first) 5449b3f38f9SIlya Biryukov : A.tokenBuffer().expandedTokens().end() - It->first; 5459b3f38f9SIlya Biryukov 546ba41a0f7SEduardo Caldas R += std::string( 547ba41a0f7SEduardo Caldas formatv("- '{0}' covers '{1}'+{2} tokens\n", It->second->kind(), 548adcd0268SBenjamin Kramer It->first->text(A.sourceManager()), CoveredTokens)); 549*c655d808SEduardo Caldas R += It->second->dump(A.sourceManager()); 5509b3f38f9SIlya Biryukov } 5519b3f38f9SIlya Biryukov return R; 5529b3f38f9SIlya Biryukov } 5539b3f38f9SIlya Biryukov 5549b3f38f9SIlya Biryukov private: 5559b3f38f9SIlya Biryukov /// Maps from the start token to a subtree starting at that token. 556302cb3bcSIlya Biryukov /// Keys in the map are pointers into the array of expanded tokens, so 557302cb3bcSIlya Biryukov /// pointer order corresponds to the order of preprocessor tokens. 558a711a3a4SMarcel Hlopko std::map<const syntax::Token *, syntax::Node *> Trees; 5599b3f38f9SIlya Biryukov }; 5609b3f38f9SIlya Biryukov 5619b3f38f9SIlya Biryukov /// For debugging purposes. 5629b3f38f9SIlya Biryukov std::string str() { return Pending.str(Arena); } 5639b3f38f9SIlya Biryukov 5649b3f38f9SIlya Biryukov syntax::Arena &Arena; 565c1bbefefSIlya Biryukov /// To quickly find tokens by their start location. 566c1bbefefSIlya Biryukov llvm::DenseMap</*SourceLocation*/ unsigned, const syntax::Token *> 567c1bbefefSIlya Biryukov LocationToToken; 5689b3f38f9SIlya Biryukov Forest Pending; 569e702bdb8SIlya Biryukov llvm::DenseSet<Decl *> DeclsWithoutSemicolons; 570a711a3a4SMarcel Hlopko ASTToSyntaxMapping Mapping; 5719b3f38f9SIlya Biryukov }; 5729b3f38f9SIlya Biryukov 5739b3f38f9SIlya Biryukov namespace { 5749b3f38f9SIlya Biryukov class BuildTreeVisitor : public RecursiveASTVisitor<BuildTreeVisitor> { 5759b3f38f9SIlya Biryukov public: 5761db5b348SEduardo Caldas explicit BuildTreeVisitor(ASTContext &Context, syntax::TreeBuilder &Builder) 5771db5b348SEduardo Caldas : Builder(Builder), Context(Context) {} 5789b3f38f9SIlya Biryukov 5799b3f38f9SIlya Biryukov bool shouldTraversePostOrder() const { return true; } 5809b3f38f9SIlya Biryukov 5817d382dcdSMarcel Hlopko bool WalkUpFromDeclaratorDecl(DeclaratorDecl *DD) { 582cdce2fe5SMarcel Hlopko return processDeclaratorAndDeclaration(DD); 5837d382dcdSMarcel Hlopko } 5847d382dcdSMarcel Hlopko 585cdce2fe5SMarcel Hlopko bool WalkUpFromTypedefNameDecl(TypedefNameDecl *TD) { 586cdce2fe5SMarcel Hlopko return processDeclaratorAndDeclaration(TD); 5879b3f38f9SIlya Biryukov } 5889b3f38f9SIlya Biryukov 5899b3f38f9SIlya Biryukov bool VisitDecl(Decl *D) { 5909b3f38f9SIlya Biryukov assert(!D->isImplicit()); 591cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(D), 592a711a3a4SMarcel Hlopko new (allocator()) syntax::UnknownDeclaration(), D); 593e702bdb8SIlya Biryukov return true; 594e702bdb8SIlya Biryukov } 595e702bdb8SIlya Biryukov 59688bf9b3dSMarcel Hlopko // RAV does not call WalkUpFrom* on explicit instantiations, so we have to 59788bf9b3dSMarcel Hlopko // override Traverse. 59888bf9b3dSMarcel Hlopko // FIXME: make RAV call WalkUpFrom* instead. 59988bf9b3dSMarcel Hlopko bool 60088bf9b3dSMarcel Hlopko TraverseClassTemplateSpecializationDecl(ClassTemplateSpecializationDecl *C) { 60188bf9b3dSMarcel Hlopko if (!RecursiveASTVisitor::TraverseClassTemplateSpecializationDecl(C)) 60288bf9b3dSMarcel Hlopko return false; 60388bf9b3dSMarcel Hlopko if (C->isExplicitSpecialization()) 60488bf9b3dSMarcel Hlopko return true; // we are only interested in explicit instantiations. 605a711a3a4SMarcel Hlopko auto *Declaration = 606a711a3a4SMarcel Hlopko cast<syntax::SimpleDeclaration>(handleFreeStandingTagDecl(C)); 60788bf9b3dSMarcel Hlopko foldExplicitTemplateInstantiation( 60888bf9b3dSMarcel Hlopko Builder.getTemplateRange(C), Builder.findToken(C->getExternLoc()), 609a711a3a4SMarcel Hlopko Builder.findToken(C->getTemplateKeywordLoc()), Declaration, C); 61088bf9b3dSMarcel Hlopko return true; 61188bf9b3dSMarcel Hlopko } 61288bf9b3dSMarcel Hlopko 61388bf9b3dSMarcel Hlopko bool WalkUpFromTemplateDecl(TemplateDecl *S) { 61488bf9b3dSMarcel Hlopko foldTemplateDeclaration( 615cdce2fe5SMarcel Hlopko Builder.getDeclarationRange(S), 61688bf9b3dSMarcel Hlopko Builder.findToken(S->getTemplateParameters()->getTemplateLoc()), 617cdce2fe5SMarcel Hlopko Builder.getDeclarationRange(S->getTemplatedDecl()), S); 61888bf9b3dSMarcel Hlopko return true; 61988bf9b3dSMarcel Hlopko } 62088bf9b3dSMarcel Hlopko 621e702bdb8SIlya Biryukov bool WalkUpFromTagDecl(TagDecl *C) { 62204f627f6SIlya Biryukov // FIXME: build the ClassSpecifier node. 62388bf9b3dSMarcel Hlopko if (!C->isFreeStanding()) { 62488bf9b3dSMarcel Hlopko assert(C->getNumTemplateParameterLists() == 0); 62504f627f6SIlya Biryukov return true; 62604f627f6SIlya Biryukov } 627a711a3a4SMarcel Hlopko handleFreeStandingTagDecl(C); 628a711a3a4SMarcel Hlopko return true; 629a711a3a4SMarcel Hlopko } 630a711a3a4SMarcel Hlopko 631a711a3a4SMarcel Hlopko syntax::Declaration *handleFreeStandingTagDecl(TagDecl *C) { 632a711a3a4SMarcel Hlopko assert(C->isFreeStanding()); 63388bf9b3dSMarcel Hlopko // Class is a declaration specifier and needs a spanning declaration node. 634cdce2fe5SMarcel Hlopko auto DeclarationRange = Builder.getDeclarationRange(C); 635a711a3a4SMarcel Hlopko syntax::Declaration *Result = new (allocator()) syntax::SimpleDeclaration; 636a711a3a4SMarcel Hlopko Builder.foldNode(DeclarationRange, Result, nullptr); 63788bf9b3dSMarcel Hlopko 63888bf9b3dSMarcel Hlopko // Build TemplateDeclaration nodes if we had template parameters. 63988bf9b3dSMarcel Hlopko auto ConsumeTemplateParameters = [&](const TemplateParameterList &L) { 64088bf9b3dSMarcel Hlopko const auto *TemplateKW = Builder.findToken(L.getTemplateLoc()); 64188bf9b3dSMarcel Hlopko auto R = llvm::makeArrayRef(TemplateKW, DeclarationRange.end()); 642a711a3a4SMarcel Hlopko Result = 643a711a3a4SMarcel Hlopko foldTemplateDeclaration(R, TemplateKW, DeclarationRange, nullptr); 64488bf9b3dSMarcel Hlopko DeclarationRange = R; 64588bf9b3dSMarcel Hlopko }; 646ba41a0f7SEduardo Caldas if (auto *S = dyn_cast<ClassTemplatePartialSpecializationDecl>(C)) 64788bf9b3dSMarcel Hlopko ConsumeTemplateParameters(*S->getTemplateParameters()); 64888bf9b3dSMarcel Hlopko for (unsigned I = C->getNumTemplateParameterLists(); 0 < I; --I) 64988bf9b3dSMarcel Hlopko ConsumeTemplateParameters(*C->getTemplateParameterList(I - 1)); 650a711a3a4SMarcel Hlopko return Result; 6519b3f38f9SIlya Biryukov } 6529b3f38f9SIlya Biryukov 6539b3f38f9SIlya Biryukov bool WalkUpFromTranslationUnitDecl(TranslationUnitDecl *TU) { 6547d382dcdSMarcel Hlopko // We do not want to call VisitDecl(), the declaration for translation 6559b3f38f9SIlya Biryukov // unit is built by finalize(). 6569b3f38f9SIlya Biryukov return true; 6579b3f38f9SIlya Biryukov } 6589b3f38f9SIlya Biryukov 6599b3f38f9SIlya Biryukov bool WalkUpFromCompoundStmt(CompoundStmt *S) { 66051dad419SIlya Biryukov using NodeRole = syntax::NodeRole; 6619b3f38f9SIlya Biryukov 662def65bb4SIlya Biryukov Builder.markChildToken(S->getLBracLoc(), NodeRole::OpenParen); 66358fa50f4SIlya Biryukov for (auto *Child : S->body()) 66458fa50f4SIlya Biryukov Builder.markStmtChild(Child, NodeRole::CompoundStatement_statement); 665def65bb4SIlya Biryukov Builder.markChildToken(S->getRBracLoc(), NodeRole::CloseParen); 6669b3f38f9SIlya Biryukov 66758fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 668a711a3a4SMarcel Hlopko new (allocator()) syntax::CompoundStatement, S); 6699b3f38f9SIlya Biryukov return true; 6709b3f38f9SIlya Biryukov } 6719b3f38f9SIlya Biryukov 67258fa50f4SIlya Biryukov // Some statements are not yet handled by syntax trees. 67358fa50f4SIlya Biryukov bool WalkUpFromStmt(Stmt *S) { 67458fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 675a711a3a4SMarcel Hlopko new (allocator()) syntax::UnknownStatement, S); 67658fa50f4SIlya Biryukov return true; 67758fa50f4SIlya Biryukov } 67858fa50f4SIlya Biryukov 67958fa50f4SIlya Biryukov bool TraverseCXXForRangeStmt(CXXForRangeStmt *S) { 68058fa50f4SIlya Biryukov // We override to traverse range initializer as VarDecl. 68158fa50f4SIlya Biryukov // RAV traverses it as a statement, we produce invalid node kinds in that 68258fa50f4SIlya Biryukov // case. 68358fa50f4SIlya Biryukov // FIXME: should do this in RAV instead? 6847349479fSDmitri Gribenko bool Result = [&, this]() { 68558fa50f4SIlya Biryukov if (S->getInit() && !TraverseStmt(S->getInit())) 68658fa50f4SIlya Biryukov return false; 68758fa50f4SIlya Biryukov if (S->getLoopVariable() && !TraverseDecl(S->getLoopVariable())) 68858fa50f4SIlya Biryukov return false; 68958fa50f4SIlya Biryukov if (S->getRangeInit() && !TraverseStmt(S->getRangeInit())) 69058fa50f4SIlya Biryukov return false; 69158fa50f4SIlya Biryukov if (S->getBody() && !TraverseStmt(S->getBody())) 69258fa50f4SIlya Biryukov return false; 69358fa50f4SIlya Biryukov return true; 6947349479fSDmitri Gribenko }(); 6957349479fSDmitri Gribenko WalkUpFromCXXForRangeStmt(S); 6967349479fSDmitri Gribenko return Result; 69758fa50f4SIlya Biryukov } 69858fa50f4SIlya Biryukov 69958fa50f4SIlya Biryukov bool TraverseStmt(Stmt *S) { 700ba41a0f7SEduardo Caldas if (auto *DS = dyn_cast_or_null<DeclStmt>(S)) { 701e702bdb8SIlya Biryukov // We want to consume the semicolon, make sure SimpleDeclaration does not. 702e702bdb8SIlya Biryukov for (auto *D : DS->decls()) 7037d382dcdSMarcel Hlopko Builder.noticeDeclWithoutSemicolon(D); 704ba41a0f7SEduardo Caldas } else if (auto *E = dyn_cast_or_null<Expr>(S)) { 7053785eb83SEduardo Caldas return RecursiveASTVisitor::TraverseStmt(E->IgnoreImplicit()); 70658fa50f4SIlya Biryukov } 70758fa50f4SIlya Biryukov return RecursiveASTVisitor::TraverseStmt(S); 70858fa50f4SIlya Biryukov } 70958fa50f4SIlya Biryukov 71058fa50f4SIlya Biryukov // Some expressions are not yet handled by syntax trees. 71158fa50f4SIlya Biryukov bool WalkUpFromExpr(Expr *E) { 71258fa50f4SIlya Biryukov assert(!isImplicitExpr(E) && "should be handled by TraverseStmt"); 71358fa50f4SIlya Biryukov Builder.foldNode(Builder.getExprRange(E), 714a711a3a4SMarcel Hlopko new (allocator()) syntax::UnknownExpression, E); 71558fa50f4SIlya Biryukov return true; 71658fa50f4SIlya Biryukov } 71758fa50f4SIlya Biryukov 718f33c2c27SEduardo Caldas bool TraverseUserDefinedLiteral(UserDefinedLiteral *S) { 719f33c2c27SEduardo Caldas // The semantic AST node `UserDefinedLiteral` (UDL) may have one child node 720f33c2c27SEduardo Caldas // referencing the location of the UDL suffix (`_w` in `1.2_w`). The 721f33c2c27SEduardo Caldas // UDL suffix location does not point to the beginning of a token, so we 722f33c2c27SEduardo Caldas // can't represent the UDL suffix as a separate syntax tree node. 723f33c2c27SEduardo Caldas 724f33c2c27SEduardo Caldas return WalkUpFromUserDefinedLiteral(S); 725f33c2c27SEduardo Caldas } 726f33c2c27SEduardo Caldas 7271db5b348SEduardo Caldas syntax::UserDefinedLiteralExpression * 7281db5b348SEduardo Caldas buildUserDefinedLiteral(UserDefinedLiteral *S) { 729f33c2c27SEduardo Caldas switch (S->getLiteralOperatorKind()) { 730ba41a0f7SEduardo Caldas case UserDefinedLiteral::LOK_Integer: 7311db5b348SEduardo Caldas return new (allocator()) syntax::IntegerUserDefinedLiteralExpression; 732ba41a0f7SEduardo Caldas case UserDefinedLiteral::LOK_Floating: 7331db5b348SEduardo Caldas return new (allocator()) syntax::FloatUserDefinedLiteralExpression; 734ba41a0f7SEduardo Caldas case UserDefinedLiteral::LOK_Character: 7351db5b348SEduardo Caldas return new (allocator()) syntax::CharUserDefinedLiteralExpression; 736ba41a0f7SEduardo Caldas case UserDefinedLiteral::LOK_String: 7371db5b348SEduardo Caldas return new (allocator()) syntax::StringUserDefinedLiteralExpression; 738ba41a0f7SEduardo Caldas case UserDefinedLiteral::LOK_Raw: 739ba41a0f7SEduardo Caldas case UserDefinedLiteral::LOK_Template: 7401db5b348SEduardo Caldas // For raw literal operator and numeric literal operator template we 7411db5b348SEduardo Caldas // cannot get the type of the operand in the semantic AST. We get this 7421db5b348SEduardo Caldas // information from the token. As integer and floating point have the same 7431db5b348SEduardo Caldas // token kind, we run `NumericLiteralParser` again to distinguish them. 7441db5b348SEduardo Caldas auto TokLoc = S->getBeginLoc(); 7451db5b348SEduardo Caldas auto TokSpelling = 746a474d5baSEduardo Caldas Builder.findToken(TokLoc)->text(Context.getSourceManager()); 7471db5b348SEduardo Caldas auto Literal = 7481db5b348SEduardo Caldas NumericLiteralParser(TokSpelling, TokLoc, Context.getSourceManager(), 7491db5b348SEduardo Caldas Context.getLangOpts(), Context.getTargetInfo(), 7501db5b348SEduardo Caldas Context.getDiagnostics()); 7511db5b348SEduardo Caldas if (Literal.isIntegerLiteral()) 7521db5b348SEduardo Caldas return new (allocator()) syntax::IntegerUserDefinedLiteralExpression; 753a474d5baSEduardo Caldas else { 754a474d5baSEduardo Caldas assert(Literal.isFloatingLiteral()); 7551db5b348SEduardo Caldas return new (allocator()) syntax::FloatUserDefinedLiteralExpression; 756f33c2c27SEduardo Caldas } 757f33c2c27SEduardo Caldas } 758b8409c03SMichael Liao llvm_unreachable("Unknown literal operator kind."); 759a474d5baSEduardo Caldas } 760f33c2c27SEduardo Caldas 761f33c2c27SEduardo Caldas bool WalkUpFromUserDefinedLiteral(UserDefinedLiteral *S) { 762f33c2c27SEduardo Caldas Builder.markChildToken(S->getBeginLoc(), syntax::NodeRole::LiteralToken); 7631db5b348SEduardo Caldas Builder.foldNode(Builder.getExprRange(S), buildUserDefinedLiteral(S), S); 764f33c2c27SEduardo Caldas return true; 765f33c2c27SEduardo Caldas } 766f33c2c27SEduardo Caldas 7678abb5fb6SEduardo Caldas // FIXME: Fix `NestedNameSpecifierLoc::getLocalSourceRange` for the 7688abb5fb6SEduardo Caldas // `DependentTemplateSpecializationType` case. 769f9500cc4SEduardo Caldas /// Given a nested-name-specifier return the range for the last name 770f9500cc4SEduardo Caldas /// specifier. 7718abb5fb6SEduardo Caldas /// 7728abb5fb6SEduardo Caldas /// e.g. `std::T::template X<U>::` => `template X<U>::` 7738abb5fb6SEduardo Caldas SourceRange getLocalSourceRange(const NestedNameSpecifierLoc &NNSLoc) { 7748abb5fb6SEduardo Caldas auto SR = NNSLoc.getLocalSourceRange(); 7758abb5fb6SEduardo Caldas 776f9500cc4SEduardo Caldas // The method `NestedNameSpecifierLoc::getLocalSourceRange` *should* 777f9500cc4SEduardo Caldas // return the desired `SourceRange`, but there is a corner case. For a 778f9500cc4SEduardo Caldas // `DependentTemplateSpecializationType` this method returns its 7798abb5fb6SEduardo Caldas // qualifiers as well, in other words in the example above this method 7808abb5fb6SEduardo Caldas // returns `T::template X<U>::` instead of only `template X<U>::` 7818abb5fb6SEduardo Caldas if (auto TL = NNSLoc.getTypeLoc()) { 7828abb5fb6SEduardo Caldas if (auto DependentTL = 7838abb5fb6SEduardo Caldas TL.getAs<DependentTemplateSpecializationTypeLoc>()) { 7848abb5fb6SEduardo Caldas // The 'template' keyword is always present in dependent template 7858abb5fb6SEduardo Caldas // specializations. Except in the case of incorrect code 7868abb5fb6SEduardo Caldas // TODO: Treat the case of incorrect code. 7878abb5fb6SEduardo Caldas SR.setBegin(DependentTL.getTemplateKeywordLoc()); 7888abb5fb6SEduardo Caldas } 7898abb5fb6SEduardo Caldas } 7908abb5fb6SEduardo Caldas 7918abb5fb6SEduardo Caldas return SR; 7928abb5fb6SEduardo Caldas } 7938abb5fb6SEduardo Caldas 794f9500cc4SEduardo Caldas syntax::NodeKind getNameSpecifierKind(const NestedNameSpecifier &NNS) { 795f9500cc4SEduardo Caldas switch (NNS.getKind()) { 796f9500cc4SEduardo Caldas case NestedNameSpecifier::Global: 797f9500cc4SEduardo Caldas return syntax::NodeKind::GlobalNameSpecifier; 798f9500cc4SEduardo Caldas case NestedNameSpecifier::Namespace: 799f9500cc4SEduardo Caldas case NestedNameSpecifier::NamespaceAlias: 800f9500cc4SEduardo Caldas case NestedNameSpecifier::Identifier: 801f9500cc4SEduardo Caldas return syntax::NodeKind::IdentifierNameSpecifier; 802f9500cc4SEduardo Caldas case NestedNameSpecifier::TypeSpecWithTemplate: 803f9500cc4SEduardo Caldas return syntax::NodeKind::SimpleTemplateNameSpecifier; 804f9500cc4SEduardo Caldas case NestedNameSpecifier::TypeSpec: { 805f9500cc4SEduardo Caldas const auto *NNSType = NNS.getAsType(); 806f9500cc4SEduardo Caldas assert(NNSType); 807f9500cc4SEduardo Caldas if (isa<DecltypeType>(NNSType)) 808f9500cc4SEduardo Caldas return syntax::NodeKind::DecltypeNameSpecifier; 809f9500cc4SEduardo Caldas if (isa<TemplateSpecializationType, DependentTemplateSpecializationType>( 810f9500cc4SEduardo Caldas NNSType)) 811f9500cc4SEduardo Caldas return syntax::NodeKind::SimpleTemplateNameSpecifier; 812f9500cc4SEduardo Caldas return syntax::NodeKind::IdentifierNameSpecifier; 813f9500cc4SEduardo Caldas } 814f9500cc4SEduardo Caldas default: 815f9500cc4SEduardo Caldas // FIXME: Support Microsoft's __super 816f9500cc4SEduardo Caldas llvm::report_fatal_error("We don't yet support the __super specifier", 817f9500cc4SEduardo Caldas true); 818f9500cc4SEduardo Caldas } 819f9500cc4SEduardo Caldas } 820f9500cc4SEduardo Caldas 821f9500cc4SEduardo Caldas syntax::NameSpecifier * 822f9500cc4SEduardo Caldas BuildNameSpecifier(const NestedNameSpecifierLoc &NNSLoc) { 823f9500cc4SEduardo Caldas assert(NNSLoc.hasQualifier()); 824f9500cc4SEduardo Caldas auto NameSpecifierTokens = 825f9500cc4SEduardo Caldas Builder.getRange(getLocalSourceRange(NNSLoc)).drop_back(); 826f9500cc4SEduardo Caldas switch (getNameSpecifierKind(*NNSLoc.getNestedNameSpecifier())) { 827f9500cc4SEduardo Caldas case syntax::NodeKind::GlobalNameSpecifier: 828f9500cc4SEduardo Caldas return new (allocator()) syntax::GlobalNameSpecifier; 829f9500cc4SEduardo Caldas case syntax::NodeKind::IdentifierNameSpecifier: { 830f9500cc4SEduardo Caldas assert(NameSpecifierTokens.size() == 1); 831f9500cc4SEduardo Caldas Builder.markChildToken(NameSpecifierTokens.begin(), 832f9500cc4SEduardo Caldas syntax::NodeRole::Unknown); 833f9500cc4SEduardo Caldas auto *NS = new (allocator()) syntax::IdentifierNameSpecifier; 834f9500cc4SEduardo Caldas Builder.foldNode(NameSpecifierTokens, NS, nullptr); 835f9500cc4SEduardo Caldas return NS; 836f9500cc4SEduardo Caldas } 837f9500cc4SEduardo Caldas case syntax::NodeKind::SimpleTemplateNameSpecifier: { 838f9500cc4SEduardo Caldas // TODO: Build `SimpleTemplateNameSpecifier` children and implement 839f9500cc4SEduardo Caldas // accessors to them. 840f9500cc4SEduardo Caldas // Be aware, we cannot do that simply by calling `TraverseTypeLoc`, 841f9500cc4SEduardo Caldas // some `TypeLoc`s have inside them the previous name specifier and 842f9500cc4SEduardo Caldas // we want to treat them independently. 843f9500cc4SEduardo Caldas auto *NS = new (allocator()) syntax::SimpleTemplateNameSpecifier; 844f9500cc4SEduardo Caldas Builder.foldNode(NameSpecifierTokens, NS, nullptr); 845f9500cc4SEduardo Caldas return NS; 846f9500cc4SEduardo Caldas } 847f9500cc4SEduardo Caldas case syntax::NodeKind::DecltypeNameSpecifier: { 848f9500cc4SEduardo Caldas const auto TL = NNSLoc.getTypeLoc().castAs<DecltypeTypeLoc>(); 849f9500cc4SEduardo Caldas if (!RecursiveASTVisitor::TraverseDecltypeTypeLoc(TL)) 8508abb5fb6SEduardo Caldas return nullptr; 851f9500cc4SEduardo Caldas auto *NS = new (allocator()) syntax::DecltypeNameSpecifier; 852f9500cc4SEduardo Caldas // TODO: Implement accessor to `DecltypeNameSpecifier` inner 853f9500cc4SEduardo Caldas // `DecltypeTypeLoc`. 854f9500cc4SEduardo Caldas // For that add mapping from `TypeLoc` to `syntax::Node*` then: 855f9500cc4SEduardo Caldas // Builder.markChild(TypeLoc, syntax::NodeRole); 856f9500cc4SEduardo Caldas Builder.foldNode(NameSpecifierTokens, NS, nullptr); 857f9500cc4SEduardo Caldas return NS; 858f9500cc4SEduardo Caldas } 859f9500cc4SEduardo Caldas default: 860f9500cc4SEduardo Caldas llvm_unreachable("getChildKind() does not return this value"); 861f9500cc4SEduardo Caldas } 862f9500cc4SEduardo Caldas } 863f9500cc4SEduardo Caldas 864f9500cc4SEduardo Caldas // To build syntax tree nodes for NestedNameSpecifierLoc we override 865f9500cc4SEduardo Caldas // Traverse instead of WalkUpFrom because we want to traverse the children 866f9500cc4SEduardo Caldas // ourselves and build a list instead of a nested tree of name specifier 867f9500cc4SEduardo Caldas // prefixes. 868f9500cc4SEduardo Caldas bool TraverseNestedNameSpecifierLoc(NestedNameSpecifierLoc QualifierLoc) { 869f9500cc4SEduardo Caldas if (!QualifierLoc) 870f9500cc4SEduardo Caldas return true; 8718abb5fb6SEduardo Caldas for (auto it = QualifierLoc; it; it = it.getPrefix()) { 872f9500cc4SEduardo Caldas auto *NS = BuildNameSpecifier(it); 873f9500cc4SEduardo Caldas if (!NS) 874f9500cc4SEduardo Caldas return false; 875fdbd5996SEduardo Caldas Builder.markChild(NS, syntax::NodeRole::List_element); 876fdbd5996SEduardo Caldas Builder.markChildToken(it.getEndLoc(), syntax::NodeRole::List_delimiter); 8778abb5fb6SEduardo Caldas } 878f9500cc4SEduardo Caldas Builder.foldNode(Builder.getRange(QualifierLoc.getSourceRange()), 879f9500cc4SEduardo Caldas new (allocator()) syntax::NestedNameSpecifier, 8808abb5fb6SEduardo Caldas QualifierLoc); 881f9500cc4SEduardo Caldas return true; 8828abb5fb6SEduardo Caldas } 8838abb5fb6SEduardo Caldas 884a4ef9e86SEduardo Caldas syntax::IdExpression *buildIdExpression(NestedNameSpecifierLoc QualifierLoc, 885a4ef9e86SEduardo Caldas SourceLocation TemplateKeywordLoc, 886a4ef9e86SEduardo Caldas SourceRange UnqualifiedIdLoc, 887a4ef9e86SEduardo Caldas ASTPtr From) { 888a4ef9e86SEduardo Caldas if (QualifierLoc) { 889ba32915dSEduardo Caldas Builder.markChild(QualifierLoc, syntax::NodeRole::IdExpression_qualifier); 890ba32915dSEduardo Caldas if (TemplateKeywordLoc.isValid()) 891ba32915dSEduardo Caldas Builder.markChildToken(TemplateKeywordLoc, 892ba32915dSEduardo Caldas syntax::NodeRole::TemplateKeyword); 893a4ef9e86SEduardo Caldas } 894ba32915dSEduardo Caldas 895ba32915dSEduardo Caldas auto *TheUnqualifiedId = new (allocator()) syntax::UnqualifiedId; 896a4ef9e86SEduardo Caldas Builder.foldNode(Builder.getRange(UnqualifiedIdLoc), TheUnqualifiedId, 897a4ef9e86SEduardo Caldas nullptr); 898ba32915dSEduardo Caldas Builder.markChild(TheUnqualifiedId, syntax::NodeRole::IdExpression_id); 899ba32915dSEduardo Caldas 900a4ef9e86SEduardo Caldas auto IdExpressionBeginLoc = 901a4ef9e86SEduardo Caldas QualifierLoc ? QualifierLoc.getBeginLoc() : UnqualifiedIdLoc.getBegin(); 902ba32915dSEduardo Caldas 903a4ef9e86SEduardo Caldas auto *TheIdExpression = new (allocator()) syntax::IdExpression; 904a4ef9e86SEduardo Caldas Builder.foldNode( 905a4ef9e86SEduardo Caldas Builder.getRange(IdExpressionBeginLoc, UnqualifiedIdLoc.getEnd()), 906a4ef9e86SEduardo Caldas TheIdExpression, From); 907a4ef9e86SEduardo Caldas 908a4ef9e86SEduardo Caldas return TheIdExpression; 909a4ef9e86SEduardo Caldas } 910a4ef9e86SEduardo Caldas 911a4ef9e86SEduardo Caldas bool WalkUpFromMemberExpr(MemberExpr *S) { 912ba32915dSEduardo Caldas // For `MemberExpr` with implicit `this->` we generate a simple 913ba32915dSEduardo Caldas // `id-expression` syntax node, beacuse an implicit `member-expression` is 914ba32915dSEduardo Caldas // syntactically undistinguishable from an `id-expression` 915ba32915dSEduardo Caldas if (S->isImplicitAccess()) { 916a4ef9e86SEduardo Caldas buildIdExpression(S->getQualifierLoc(), S->getTemplateKeywordLoc(), 917a4ef9e86SEduardo Caldas SourceRange(S->getMemberLoc(), S->getEndLoc()), S); 918ba32915dSEduardo Caldas return true; 919ba32915dSEduardo Caldas } 920a4ef9e86SEduardo Caldas 921a4ef9e86SEduardo Caldas auto *TheIdExpression = buildIdExpression( 922a4ef9e86SEduardo Caldas S->getQualifierLoc(), S->getTemplateKeywordLoc(), 923a4ef9e86SEduardo Caldas SourceRange(S->getMemberLoc(), S->getEndLoc()), nullptr); 924ba32915dSEduardo Caldas 925ba32915dSEduardo Caldas Builder.markChild(TheIdExpression, 926ba32915dSEduardo Caldas syntax::NodeRole::MemberExpression_member); 927ba32915dSEduardo Caldas 928ba32915dSEduardo Caldas Builder.markExprChild(S->getBase(), 929ba32915dSEduardo Caldas syntax::NodeRole::MemberExpression_object); 930ba32915dSEduardo Caldas Builder.markChildToken(S->getOperatorLoc(), 931ba32915dSEduardo Caldas syntax::NodeRole::MemberExpression_accessToken); 932ba32915dSEduardo Caldas 933ba32915dSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 934ba32915dSEduardo Caldas new (allocator()) syntax::MemberExpression, S); 935ba32915dSEduardo Caldas return true; 936ba32915dSEduardo Caldas } 937ba32915dSEduardo Caldas 9381b2f6b4aSEduardo Caldas bool WalkUpFromDeclRefExpr(DeclRefExpr *S) { 939a4ef9e86SEduardo Caldas buildIdExpression(S->getQualifierLoc(), S->getTemplateKeywordLoc(), 940a4ef9e86SEduardo Caldas SourceRange(S->getLocation(), S->getEndLoc()), S); 9418abb5fb6SEduardo Caldas 9428abb5fb6SEduardo Caldas return true; 9431b2f6b4aSEduardo Caldas } 9448abb5fb6SEduardo Caldas 9458abb5fb6SEduardo Caldas // Same logic as DeclRefExpr. 9468abb5fb6SEduardo Caldas bool WalkUpFromDependentScopeDeclRefExpr(DependentScopeDeclRefExpr *S) { 947a4ef9e86SEduardo Caldas buildIdExpression(S->getQualifierLoc(), S->getTemplateKeywordLoc(), 948a4ef9e86SEduardo Caldas SourceRange(S->getLocation(), S->getEndLoc()), S); 9498abb5fb6SEduardo Caldas 9501b2f6b4aSEduardo Caldas return true; 9511b2f6b4aSEduardo Caldas } 9521b2f6b4aSEduardo Caldas 95385c15f17SEduardo Caldas bool WalkUpFromCXXThisExpr(CXXThisExpr *S) { 95485c15f17SEduardo Caldas if (!S->isImplicit()) { 95585c15f17SEduardo Caldas Builder.markChildToken(S->getLocation(), 95685c15f17SEduardo Caldas syntax::NodeRole::IntroducerKeyword); 95785c15f17SEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 95885c15f17SEduardo Caldas new (allocator()) syntax::ThisExpression, S); 95985c15f17SEduardo Caldas } 96085c15f17SEduardo Caldas return true; 96185c15f17SEduardo Caldas } 96285c15f17SEduardo Caldas 963fdbd7833SEduardo Caldas bool WalkUpFromParenExpr(ParenExpr *S) { 964fdbd7833SEduardo Caldas Builder.markChildToken(S->getLParen(), syntax::NodeRole::OpenParen); 965fdbd7833SEduardo Caldas Builder.markExprChild(S->getSubExpr(), 966fdbd7833SEduardo Caldas syntax::NodeRole::ParenExpression_subExpression); 967fdbd7833SEduardo Caldas Builder.markChildToken(S->getRParen(), syntax::NodeRole::CloseParen); 968fdbd7833SEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 969fdbd7833SEduardo Caldas new (allocator()) syntax::ParenExpression, S); 970fdbd7833SEduardo Caldas return true; 971fdbd7833SEduardo Caldas } 972fdbd7833SEduardo Caldas 9733b739690SEduardo Caldas bool WalkUpFromIntegerLiteral(IntegerLiteral *S) { 97442f6fec3SEduardo Caldas Builder.markChildToken(S->getLocation(), syntax::NodeRole::LiteralToken); 9753b739690SEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 9763b739690SEduardo Caldas new (allocator()) syntax::IntegerLiteralExpression, S); 9773b739690SEduardo Caldas return true; 9783b739690SEduardo Caldas } 9793b739690SEduardo Caldas 980221d7bbeSEduardo Caldas bool WalkUpFromCharacterLiteral(CharacterLiteral *S) { 981221d7bbeSEduardo Caldas Builder.markChildToken(S->getLocation(), syntax::NodeRole::LiteralToken); 982221d7bbeSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 983221d7bbeSEduardo Caldas new (allocator()) syntax::CharacterLiteralExpression, S); 984221d7bbeSEduardo Caldas return true; 985221d7bbeSEduardo Caldas } 9867b404b6dSEduardo Caldas 9877b404b6dSEduardo Caldas bool WalkUpFromFloatingLiteral(FloatingLiteral *S) { 9887b404b6dSEduardo Caldas Builder.markChildToken(S->getLocation(), syntax::NodeRole::LiteralToken); 9897b404b6dSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 9907b404b6dSEduardo Caldas new (allocator()) syntax::FloatingLiteralExpression, S); 9917b404b6dSEduardo Caldas return true; 9927b404b6dSEduardo Caldas } 9937b404b6dSEduardo Caldas 994466e8b7eSEduardo Caldas bool WalkUpFromStringLiteral(StringLiteral *S) { 995466e8b7eSEduardo Caldas Builder.markChildToken(S->getBeginLoc(), syntax::NodeRole::LiteralToken); 996466e8b7eSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 997466e8b7eSEduardo Caldas new (allocator()) syntax::StringLiteralExpression, S); 998466e8b7eSEduardo Caldas return true; 999466e8b7eSEduardo Caldas } 1000221d7bbeSEduardo Caldas 10017b404b6dSEduardo Caldas bool WalkUpFromCXXBoolLiteralExpr(CXXBoolLiteralExpr *S) { 10027b404b6dSEduardo Caldas Builder.markChildToken(S->getLocation(), syntax::NodeRole::LiteralToken); 10037b404b6dSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 10047b404b6dSEduardo Caldas new (allocator()) syntax::BoolLiteralExpression, S); 10057b404b6dSEduardo Caldas return true; 10067b404b6dSEduardo Caldas } 10077b404b6dSEduardo Caldas 1008007098d7SEduardo Caldas bool WalkUpFromCXXNullPtrLiteralExpr(CXXNullPtrLiteralExpr *S) { 100942f6fec3SEduardo Caldas Builder.markChildToken(S->getLocation(), syntax::NodeRole::LiteralToken); 1010007098d7SEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 1011007098d7SEduardo Caldas new (allocator()) syntax::CxxNullPtrExpression, S); 1012007098d7SEduardo Caldas return true; 1013007098d7SEduardo Caldas } 1014007098d7SEduardo Caldas 1015461af57dSEduardo Caldas bool WalkUpFromUnaryOperator(UnaryOperator *S) { 101642f6fec3SEduardo Caldas Builder.markChildToken(S->getOperatorLoc(), 101742f6fec3SEduardo Caldas syntax::NodeRole::OperatorExpression_operatorToken); 1018461af57dSEduardo Caldas Builder.markExprChild(S->getSubExpr(), 1019461af57dSEduardo Caldas syntax::NodeRole::UnaryOperatorExpression_operand); 1020461af57dSEduardo Caldas 1021461af57dSEduardo Caldas if (S->isPostfix()) 1022461af57dSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 1023461af57dSEduardo Caldas new (allocator()) syntax::PostfixUnaryOperatorExpression, 1024461af57dSEduardo Caldas S); 1025461af57dSEduardo Caldas else 1026461af57dSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 1027461af57dSEduardo Caldas new (allocator()) syntax::PrefixUnaryOperatorExpression, 1028461af57dSEduardo Caldas S); 1029461af57dSEduardo Caldas 1030461af57dSEduardo Caldas return true; 1031461af57dSEduardo Caldas } 1032461af57dSEduardo Caldas 10333785eb83SEduardo Caldas bool WalkUpFromBinaryOperator(BinaryOperator *S) { 10343785eb83SEduardo Caldas Builder.markExprChild( 10353785eb83SEduardo Caldas S->getLHS(), syntax::NodeRole::BinaryOperatorExpression_leftHandSide); 103642f6fec3SEduardo Caldas Builder.markChildToken(S->getOperatorLoc(), 103742f6fec3SEduardo Caldas syntax::NodeRole::OperatorExpression_operatorToken); 10383785eb83SEduardo Caldas Builder.markExprChild( 10393785eb83SEduardo Caldas S->getRHS(), syntax::NodeRole::BinaryOperatorExpression_rightHandSide); 10403785eb83SEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 10413785eb83SEduardo Caldas new (allocator()) syntax::BinaryOperatorExpression, S); 10423785eb83SEduardo Caldas return true; 10433785eb83SEduardo Caldas } 10443785eb83SEduardo Caldas 1045ea8bba7eSEduardo Caldas bool TraverseCXXOperatorCallExpr(CXXOperatorCallExpr *S) { 1046ac37afa6SEduardo Caldas // To construct a syntax tree of the same shape for calls to built-in and 1047ac37afa6SEduardo Caldas // user-defined operators, ignore the `DeclRefExpr` that refers to the 1048ac37afa6SEduardo Caldas // operator and treat it as a simple token. Do that by traversing 1049ac37afa6SEduardo Caldas // arguments instead of children. 1050ac37afa6SEduardo Caldas for (auto *child : S->arguments()) { 1051f33c2c27SEduardo Caldas // A postfix unary operator is declared as taking two operands. The 1052f33c2c27SEduardo Caldas // second operand is used to distinguish from its prefix counterpart. In 1053f33c2c27SEduardo Caldas // the semantic AST this "phantom" operand is represented as a 1054ea8bba7eSEduardo Caldas // `IntegerLiteral` with invalid `SourceLocation`. We skip visiting this 1055ea8bba7eSEduardo Caldas // operand because it does not correspond to anything written in source 1056ac37afa6SEduardo Caldas // code. 1057ac37afa6SEduardo Caldas if (child->getSourceRange().isInvalid()) { 1058ac37afa6SEduardo Caldas assert(getOperatorNodeKind(*S) == 1059ac37afa6SEduardo Caldas syntax::NodeKind::PostfixUnaryOperatorExpression); 1060ea8bba7eSEduardo Caldas continue; 1061ac37afa6SEduardo Caldas } 1062ea8bba7eSEduardo Caldas if (!TraverseStmt(child)) 1063ea8bba7eSEduardo Caldas return false; 1064ea8bba7eSEduardo Caldas } 1065ea8bba7eSEduardo Caldas return WalkUpFromCXXOperatorCallExpr(S); 1066ea8bba7eSEduardo Caldas } 1067ea8bba7eSEduardo Caldas 10683a574a6cSEduardo Caldas bool WalkUpFromCXXOperatorCallExpr(CXXOperatorCallExpr *S) { 1069ea8bba7eSEduardo Caldas switch (getOperatorNodeKind(*S)) { 1070ea8bba7eSEduardo Caldas case syntax::NodeKind::BinaryOperatorExpression: 10713a574a6cSEduardo Caldas Builder.markExprChild( 10723a574a6cSEduardo Caldas S->getArg(0), 10733a574a6cSEduardo Caldas syntax::NodeRole::BinaryOperatorExpression_leftHandSide); 10743a574a6cSEduardo Caldas Builder.markChildToken( 10753a574a6cSEduardo Caldas S->getOperatorLoc(), 107642f6fec3SEduardo Caldas syntax::NodeRole::OperatorExpression_operatorToken); 10773a574a6cSEduardo Caldas Builder.markExprChild( 10783a574a6cSEduardo Caldas S->getArg(1), 10793a574a6cSEduardo Caldas syntax::NodeRole::BinaryOperatorExpression_rightHandSide); 10803a574a6cSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 10813a574a6cSEduardo Caldas new (allocator()) syntax::BinaryOperatorExpression, S); 10823a574a6cSEduardo Caldas return true; 1083ea8bba7eSEduardo Caldas case syntax::NodeKind::PrefixUnaryOperatorExpression: 1084ea8bba7eSEduardo Caldas Builder.markChildToken( 1085ea8bba7eSEduardo Caldas S->getOperatorLoc(), 1086ea8bba7eSEduardo Caldas syntax::NodeRole::OperatorExpression_operatorToken); 1087ea8bba7eSEduardo Caldas Builder.markExprChild(S->getArg(0), 1088ea8bba7eSEduardo Caldas syntax::NodeRole::UnaryOperatorExpression_operand); 1089ea8bba7eSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 1090ea8bba7eSEduardo Caldas new (allocator()) syntax::PrefixUnaryOperatorExpression, 1091ea8bba7eSEduardo Caldas S); 1092ea8bba7eSEduardo Caldas return true; 1093ea8bba7eSEduardo Caldas case syntax::NodeKind::PostfixUnaryOperatorExpression: 1094ea8bba7eSEduardo Caldas Builder.markChildToken( 1095ea8bba7eSEduardo Caldas S->getOperatorLoc(), 1096ea8bba7eSEduardo Caldas syntax::NodeRole::OperatorExpression_operatorToken); 1097ea8bba7eSEduardo Caldas Builder.markExprChild(S->getArg(0), 1098ea8bba7eSEduardo Caldas syntax::NodeRole::UnaryOperatorExpression_operand); 1099ea8bba7eSEduardo Caldas Builder.foldNode(Builder.getExprRange(S), 1100ea8bba7eSEduardo Caldas new (allocator()) syntax::PostfixUnaryOperatorExpression, 1101ea8bba7eSEduardo Caldas S); 1102ea8bba7eSEduardo Caldas return true; 1103ea8bba7eSEduardo Caldas case syntax::NodeKind::UnknownExpression: 11043a574a6cSEduardo Caldas return RecursiveASTVisitor::WalkUpFromCXXOperatorCallExpr(S); 1105ea8bba7eSEduardo Caldas default: 1106ea8bba7eSEduardo Caldas llvm_unreachable("getOperatorNodeKind() does not return this value"); 1107ea8bba7eSEduardo Caldas } 11083a574a6cSEduardo Caldas } 11093a574a6cSEduardo Caldas 1110be14a22bSIlya Biryukov bool WalkUpFromNamespaceDecl(NamespaceDecl *S) { 1111cdce2fe5SMarcel Hlopko auto Tokens = Builder.getDeclarationRange(S); 1112be14a22bSIlya Biryukov if (Tokens.front().kind() == tok::coloncolon) { 1113be14a22bSIlya Biryukov // Handle nested namespace definitions. Those start at '::' token, e.g. 1114be14a22bSIlya Biryukov // namespace a^::b {} 1115be14a22bSIlya Biryukov // FIXME: build corresponding nodes for the name of this namespace. 1116be14a22bSIlya Biryukov return true; 1117be14a22bSIlya Biryukov } 1118a711a3a4SMarcel Hlopko Builder.foldNode(Tokens, new (allocator()) syntax::NamespaceDefinition, S); 1119be14a22bSIlya Biryukov return true; 1120be14a22bSIlya Biryukov } 1121be14a22bSIlya Biryukov 11228ce15f7eSEduardo Caldas // FIXME: Deleting the `TraverseParenTypeLoc` override doesn't change test 11238ce15f7eSEduardo Caldas // results. Find test coverage or remove it. 11247d382dcdSMarcel Hlopko bool TraverseParenTypeLoc(ParenTypeLoc L) { 11257d382dcdSMarcel Hlopko // We reverse order of traversal to get the proper syntax structure. 11267d382dcdSMarcel Hlopko if (!WalkUpFromParenTypeLoc(L)) 11277d382dcdSMarcel Hlopko return false; 11287d382dcdSMarcel Hlopko return TraverseTypeLoc(L.getInnerLoc()); 11297d382dcdSMarcel Hlopko } 11307d382dcdSMarcel Hlopko 11317d382dcdSMarcel Hlopko bool WalkUpFromParenTypeLoc(ParenTypeLoc L) { 11327d382dcdSMarcel Hlopko Builder.markChildToken(L.getLParenLoc(), syntax::NodeRole::OpenParen); 11337d382dcdSMarcel Hlopko Builder.markChildToken(L.getRParenLoc(), syntax::NodeRole::CloseParen); 11347d382dcdSMarcel Hlopko Builder.foldNode(Builder.getRange(L.getLParenLoc(), L.getRParenLoc()), 1135a711a3a4SMarcel Hlopko new (allocator()) syntax::ParenDeclarator, L); 11367d382dcdSMarcel Hlopko return true; 11377d382dcdSMarcel Hlopko } 11387d382dcdSMarcel Hlopko 11397d382dcdSMarcel Hlopko // Declarator chunks, they are produced by type locs and some clang::Decls. 11407d382dcdSMarcel Hlopko bool WalkUpFromArrayTypeLoc(ArrayTypeLoc L) { 11417d382dcdSMarcel Hlopko Builder.markChildToken(L.getLBracketLoc(), syntax::NodeRole::OpenParen); 11427d382dcdSMarcel Hlopko Builder.markExprChild(L.getSizeExpr(), 11437d382dcdSMarcel Hlopko syntax::NodeRole::ArraySubscript_sizeExpression); 11447d382dcdSMarcel Hlopko Builder.markChildToken(L.getRBracketLoc(), syntax::NodeRole::CloseParen); 11457d382dcdSMarcel Hlopko Builder.foldNode(Builder.getRange(L.getLBracketLoc(), L.getRBracketLoc()), 1146a711a3a4SMarcel Hlopko new (allocator()) syntax::ArraySubscript, L); 11477d382dcdSMarcel Hlopko return true; 11487d382dcdSMarcel Hlopko } 11497d382dcdSMarcel Hlopko 11507d382dcdSMarcel Hlopko bool WalkUpFromFunctionTypeLoc(FunctionTypeLoc L) { 11517d382dcdSMarcel Hlopko Builder.markChildToken(L.getLParenLoc(), syntax::NodeRole::OpenParen); 1152cdce2fe5SMarcel Hlopko for (auto *P : L.getParams()) { 1153cdce2fe5SMarcel Hlopko Builder.markChild(P, syntax::NodeRole::ParametersAndQualifiers_parameter); 1154cdce2fe5SMarcel Hlopko } 11557d382dcdSMarcel Hlopko Builder.markChildToken(L.getRParenLoc(), syntax::NodeRole::CloseParen); 11567d382dcdSMarcel Hlopko Builder.foldNode(Builder.getRange(L.getLParenLoc(), L.getEndLoc()), 1157a711a3a4SMarcel Hlopko new (allocator()) syntax::ParametersAndQualifiers, L); 11587d382dcdSMarcel Hlopko return true; 11597d382dcdSMarcel Hlopko } 11607d382dcdSMarcel Hlopko 11617d382dcdSMarcel Hlopko bool WalkUpFromFunctionProtoTypeLoc(FunctionProtoTypeLoc L) { 11627d382dcdSMarcel Hlopko if (!L.getTypePtr()->hasTrailingReturn()) 11637d382dcdSMarcel Hlopko return WalkUpFromFunctionTypeLoc(L); 11647d382dcdSMarcel Hlopko 1165cdce2fe5SMarcel Hlopko auto *TrailingReturnTokens = BuildTrailingReturn(L); 11667d382dcdSMarcel Hlopko // Finish building the node for parameters. 11677d382dcdSMarcel Hlopko Builder.markChild(TrailingReturnTokens, 11687d382dcdSMarcel Hlopko syntax::NodeRole::ParametersAndQualifiers_trailingReturn); 11697d382dcdSMarcel Hlopko return WalkUpFromFunctionTypeLoc(L); 11707d382dcdSMarcel Hlopko } 11717d382dcdSMarcel Hlopko 11728ce15f7eSEduardo Caldas bool TraverseMemberPointerTypeLoc(MemberPointerTypeLoc L) { 11738ce15f7eSEduardo Caldas // In the source code "void (Y::*mp)()" `MemberPointerTypeLoc` corresponds 11748ce15f7eSEduardo Caldas // to "Y::*" but it points to a `ParenTypeLoc` that corresponds to 11758ce15f7eSEduardo Caldas // "(Y::*mp)" We thus reverse the order of traversal to get the proper 11768ce15f7eSEduardo Caldas // syntax structure. 11778ce15f7eSEduardo Caldas if (!WalkUpFromMemberPointerTypeLoc(L)) 11788ce15f7eSEduardo Caldas return false; 11798ce15f7eSEduardo Caldas return TraverseTypeLoc(L.getPointeeLoc()); 11808ce15f7eSEduardo Caldas } 11818ce15f7eSEduardo Caldas 11827d382dcdSMarcel Hlopko bool WalkUpFromMemberPointerTypeLoc(MemberPointerTypeLoc L) { 11837d382dcdSMarcel Hlopko auto SR = L.getLocalSourceRange(); 1184a711a3a4SMarcel Hlopko Builder.foldNode(Builder.getRange(SR), 1185a711a3a4SMarcel Hlopko new (allocator()) syntax::MemberPointer, L); 11867d382dcdSMarcel Hlopko return true; 11877d382dcdSMarcel Hlopko } 11887d382dcdSMarcel Hlopko 118958fa50f4SIlya Biryukov // The code below is very regular, it could even be generated with some 119058fa50f4SIlya Biryukov // preprocessor magic. We merely assign roles to the corresponding children 119158fa50f4SIlya Biryukov // and fold resulting nodes. 119258fa50f4SIlya Biryukov bool WalkUpFromDeclStmt(DeclStmt *S) { 119358fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1194a711a3a4SMarcel Hlopko new (allocator()) syntax::DeclarationStatement, S); 119558fa50f4SIlya Biryukov return true; 119658fa50f4SIlya Biryukov } 119758fa50f4SIlya Biryukov 119858fa50f4SIlya Biryukov bool WalkUpFromNullStmt(NullStmt *S) { 119958fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1200a711a3a4SMarcel Hlopko new (allocator()) syntax::EmptyStatement, S); 120158fa50f4SIlya Biryukov return true; 120258fa50f4SIlya Biryukov } 120358fa50f4SIlya Biryukov 120458fa50f4SIlya Biryukov bool WalkUpFromSwitchStmt(SwitchStmt *S) { 1205def65bb4SIlya Biryukov Builder.markChildToken(S->getSwitchLoc(), 120658fa50f4SIlya Biryukov syntax::NodeRole::IntroducerKeyword); 120758fa50f4SIlya Biryukov Builder.markStmtChild(S->getBody(), syntax::NodeRole::BodyStatement); 120858fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1209a711a3a4SMarcel Hlopko new (allocator()) syntax::SwitchStatement, S); 121058fa50f4SIlya Biryukov return true; 121158fa50f4SIlya Biryukov } 121258fa50f4SIlya Biryukov 121358fa50f4SIlya Biryukov bool WalkUpFromCaseStmt(CaseStmt *S) { 1214def65bb4SIlya Biryukov Builder.markChildToken(S->getKeywordLoc(), 121558fa50f4SIlya Biryukov syntax::NodeRole::IntroducerKeyword); 121658fa50f4SIlya Biryukov Builder.markExprChild(S->getLHS(), syntax::NodeRole::CaseStatement_value); 121758fa50f4SIlya Biryukov Builder.markStmtChild(S->getSubStmt(), syntax::NodeRole::BodyStatement); 121858fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1219a711a3a4SMarcel Hlopko new (allocator()) syntax::CaseStatement, S); 122058fa50f4SIlya Biryukov return true; 122158fa50f4SIlya Biryukov } 122258fa50f4SIlya Biryukov 122358fa50f4SIlya Biryukov bool WalkUpFromDefaultStmt(DefaultStmt *S) { 1224def65bb4SIlya Biryukov Builder.markChildToken(S->getKeywordLoc(), 122558fa50f4SIlya Biryukov syntax::NodeRole::IntroducerKeyword); 122658fa50f4SIlya Biryukov Builder.markStmtChild(S->getSubStmt(), syntax::NodeRole::BodyStatement); 122758fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1228a711a3a4SMarcel Hlopko new (allocator()) syntax::DefaultStatement, S); 122958fa50f4SIlya Biryukov return true; 123058fa50f4SIlya Biryukov } 123158fa50f4SIlya Biryukov 123258fa50f4SIlya Biryukov bool WalkUpFromIfStmt(IfStmt *S) { 1233def65bb4SIlya Biryukov Builder.markChildToken(S->getIfLoc(), syntax::NodeRole::IntroducerKeyword); 123458fa50f4SIlya Biryukov Builder.markStmtChild(S->getThen(), 123558fa50f4SIlya Biryukov syntax::NodeRole::IfStatement_thenStatement); 1236def65bb4SIlya Biryukov Builder.markChildToken(S->getElseLoc(), 123758fa50f4SIlya Biryukov syntax::NodeRole::IfStatement_elseKeyword); 123858fa50f4SIlya Biryukov Builder.markStmtChild(S->getElse(), 123958fa50f4SIlya Biryukov syntax::NodeRole::IfStatement_elseStatement); 124058fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1241a711a3a4SMarcel Hlopko new (allocator()) syntax::IfStatement, S); 124258fa50f4SIlya Biryukov return true; 124358fa50f4SIlya Biryukov } 124458fa50f4SIlya Biryukov 124558fa50f4SIlya Biryukov bool WalkUpFromForStmt(ForStmt *S) { 1246def65bb4SIlya Biryukov Builder.markChildToken(S->getForLoc(), syntax::NodeRole::IntroducerKeyword); 124758fa50f4SIlya Biryukov Builder.markStmtChild(S->getBody(), syntax::NodeRole::BodyStatement); 124858fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1249a711a3a4SMarcel Hlopko new (allocator()) syntax::ForStatement, S); 125058fa50f4SIlya Biryukov return true; 125158fa50f4SIlya Biryukov } 125258fa50f4SIlya Biryukov 125358fa50f4SIlya Biryukov bool WalkUpFromWhileStmt(WhileStmt *S) { 1254def65bb4SIlya Biryukov Builder.markChildToken(S->getWhileLoc(), 125558fa50f4SIlya Biryukov syntax::NodeRole::IntroducerKeyword); 125658fa50f4SIlya Biryukov Builder.markStmtChild(S->getBody(), syntax::NodeRole::BodyStatement); 125758fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1258a711a3a4SMarcel Hlopko new (allocator()) syntax::WhileStatement, S); 125958fa50f4SIlya Biryukov return true; 126058fa50f4SIlya Biryukov } 126158fa50f4SIlya Biryukov 126258fa50f4SIlya Biryukov bool WalkUpFromContinueStmt(ContinueStmt *S) { 1263def65bb4SIlya Biryukov Builder.markChildToken(S->getContinueLoc(), 126458fa50f4SIlya Biryukov syntax::NodeRole::IntroducerKeyword); 126558fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1266a711a3a4SMarcel Hlopko new (allocator()) syntax::ContinueStatement, S); 126758fa50f4SIlya Biryukov return true; 126858fa50f4SIlya Biryukov } 126958fa50f4SIlya Biryukov 127058fa50f4SIlya Biryukov bool WalkUpFromBreakStmt(BreakStmt *S) { 1271def65bb4SIlya Biryukov Builder.markChildToken(S->getBreakLoc(), 127258fa50f4SIlya Biryukov syntax::NodeRole::IntroducerKeyword); 127358fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1274a711a3a4SMarcel Hlopko new (allocator()) syntax::BreakStatement, S); 127558fa50f4SIlya Biryukov return true; 127658fa50f4SIlya Biryukov } 127758fa50f4SIlya Biryukov 127858fa50f4SIlya Biryukov bool WalkUpFromReturnStmt(ReturnStmt *S) { 1279def65bb4SIlya Biryukov Builder.markChildToken(S->getReturnLoc(), 128058fa50f4SIlya Biryukov syntax::NodeRole::IntroducerKeyword); 128158fa50f4SIlya Biryukov Builder.markExprChild(S->getRetValue(), 128258fa50f4SIlya Biryukov syntax::NodeRole::ReturnStatement_value); 128358fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1284a711a3a4SMarcel Hlopko new (allocator()) syntax::ReturnStatement, S); 128558fa50f4SIlya Biryukov return true; 128658fa50f4SIlya Biryukov } 128758fa50f4SIlya Biryukov 128858fa50f4SIlya Biryukov bool WalkUpFromCXXForRangeStmt(CXXForRangeStmt *S) { 1289def65bb4SIlya Biryukov Builder.markChildToken(S->getForLoc(), syntax::NodeRole::IntroducerKeyword); 129058fa50f4SIlya Biryukov Builder.markStmtChild(S->getBody(), syntax::NodeRole::BodyStatement); 129158fa50f4SIlya Biryukov Builder.foldNode(Builder.getStmtRange(S), 1292a711a3a4SMarcel Hlopko new (allocator()) syntax::RangeBasedForStatement, S); 129358fa50f4SIlya Biryukov return true; 129458fa50f4SIlya Biryukov } 129558fa50f4SIlya Biryukov 1296be14a22bSIlya Biryukov bool WalkUpFromEmptyDecl(EmptyDecl *S) { 1297cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1298a711a3a4SMarcel Hlopko new (allocator()) syntax::EmptyDeclaration, S); 1299be14a22bSIlya Biryukov return true; 1300be14a22bSIlya Biryukov } 1301be14a22bSIlya Biryukov 1302be14a22bSIlya Biryukov bool WalkUpFromStaticAssertDecl(StaticAssertDecl *S) { 1303be14a22bSIlya Biryukov Builder.markExprChild(S->getAssertExpr(), 1304be14a22bSIlya Biryukov syntax::NodeRole::StaticAssertDeclaration_condition); 1305be14a22bSIlya Biryukov Builder.markExprChild(S->getMessage(), 1306be14a22bSIlya Biryukov syntax::NodeRole::StaticAssertDeclaration_message); 1307cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1308a711a3a4SMarcel Hlopko new (allocator()) syntax::StaticAssertDeclaration, S); 1309be14a22bSIlya Biryukov return true; 1310be14a22bSIlya Biryukov } 1311be14a22bSIlya Biryukov 1312be14a22bSIlya Biryukov bool WalkUpFromLinkageSpecDecl(LinkageSpecDecl *S) { 1313cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1314a711a3a4SMarcel Hlopko new (allocator()) syntax::LinkageSpecificationDeclaration, 1315a711a3a4SMarcel Hlopko S); 1316be14a22bSIlya Biryukov return true; 1317be14a22bSIlya Biryukov } 1318be14a22bSIlya Biryukov 1319be14a22bSIlya Biryukov bool WalkUpFromNamespaceAliasDecl(NamespaceAliasDecl *S) { 1320cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1321a711a3a4SMarcel Hlopko new (allocator()) syntax::NamespaceAliasDefinition, S); 1322be14a22bSIlya Biryukov return true; 1323be14a22bSIlya Biryukov } 1324be14a22bSIlya Biryukov 1325be14a22bSIlya Biryukov bool WalkUpFromUsingDirectiveDecl(UsingDirectiveDecl *S) { 1326cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1327a711a3a4SMarcel Hlopko new (allocator()) syntax::UsingNamespaceDirective, S); 1328be14a22bSIlya Biryukov return true; 1329be14a22bSIlya Biryukov } 1330be14a22bSIlya Biryukov 1331be14a22bSIlya Biryukov bool WalkUpFromUsingDecl(UsingDecl *S) { 1332cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1333a711a3a4SMarcel Hlopko new (allocator()) syntax::UsingDeclaration, S); 1334be14a22bSIlya Biryukov return true; 1335be14a22bSIlya Biryukov } 1336be14a22bSIlya Biryukov 1337be14a22bSIlya Biryukov bool WalkUpFromUnresolvedUsingValueDecl(UnresolvedUsingValueDecl *S) { 1338cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1339a711a3a4SMarcel Hlopko new (allocator()) syntax::UsingDeclaration, S); 1340be14a22bSIlya Biryukov return true; 1341be14a22bSIlya Biryukov } 1342be14a22bSIlya Biryukov 1343be14a22bSIlya Biryukov bool WalkUpFromUnresolvedUsingTypenameDecl(UnresolvedUsingTypenameDecl *S) { 1344cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1345a711a3a4SMarcel Hlopko new (allocator()) syntax::UsingDeclaration, S); 1346be14a22bSIlya Biryukov return true; 1347be14a22bSIlya Biryukov } 1348be14a22bSIlya Biryukov 1349be14a22bSIlya Biryukov bool WalkUpFromTypeAliasDecl(TypeAliasDecl *S) { 1350cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(S), 1351a711a3a4SMarcel Hlopko new (allocator()) syntax::TypeAliasDeclaration, S); 1352be14a22bSIlya Biryukov return true; 1353be14a22bSIlya Biryukov } 1354be14a22bSIlya Biryukov 13559b3f38f9SIlya Biryukov private: 1356cdce2fe5SMarcel Hlopko template <class T> SourceLocation getQualifiedNameStart(T *D) { 1357cdce2fe5SMarcel Hlopko static_assert((std::is_base_of<DeclaratorDecl, T>::value || 1358cdce2fe5SMarcel Hlopko std::is_base_of<TypedefNameDecl, T>::value), 1359cdce2fe5SMarcel Hlopko "only DeclaratorDecl and TypedefNameDecl are supported."); 1360cdce2fe5SMarcel Hlopko 1361cdce2fe5SMarcel Hlopko auto DN = D->getDeclName(); 1362cdce2fe5SMarcel Hlopko bool IsAnonymous = DN.isIdentifier() && !DN.getAsIdentifierInfo(); 1363cdce2fe5SMarcel Hlopko if (IsAnonymous) 1364cdce2fe5SMarcel Hlopko return SourceLocation(); 1365cdce2fe5SMarcel Hlopko 1366ba41a0f7SEduardo Caldas if (const auto *DD = dyn_cast<DeclaratorDecl>(D)) { 1367cdce2fe5SMarcel Hlopko if (DD->getQualifierLoc()) { 1368cdce2fe5SMarcel Hlopko return DD->getQualifierLoc().getBeginLoc(); 1369cdce2fe5SMarcel Hlopko } 1370cdce2fe5SMarcel Hlopko } 1371cdce2fe5SMarcel Hlopko 1372cdce2fe5SMarcel Hlopko return D->getLocation(); 1373cdce2fe5SMarcel Hlopko } 1374cdce2fe5SMarcel Hlopko 1375cdce2fe5SMarcel Hlopko SourceRange getInitializerRange(Decl *D) { 1376ba41a0f7SEduardo Caldas if (auto *V = dyn_cast<VarDecl>(D)) { 1377cdce2fe5SMarcel Hlopko auto *I = V->getInit(); 1378cdce2fe5SMarcel Hlopko // Initializers in range-based-for are not part of the declarator 1379cdce2fe5SMarcel Hlopko if (I && !V->isCXXForRangeDecl()) 1380cdce2fe5SMarcel Hlopko return I->getSourceRange(); 1381cdce2fe5SMarcel Hlopko } 1382cdce2fe5SMarcel Hlopko 1383cdce2fe5SMarcel Hlopko return SourceRange(); 1384cdce2fe5SMarcel Hlopko } 1385cdce2fe5SMarcel Hlopko 1386cdce2fe5SMarcel Hlopko /// Folds SimpleDeclarator node (if present) and in case this is the last 1387cdce2fe5SMarcel Hlopko /// declarator in the chain it also folds SimpleDeclaration node. 1388cdce2fe5SMarcel Hlopko template <class T> bool processDeclaratorAndDeclaration(T *D) { 1389cdce2fe5SMarcel Hlopko SourceRange Initializer = getInitializerRange(D); 1390cdce2fe5SMarcel Hlopko auto Range = getDeclaratorRange(Builder.sourceManager(), 1391cdce2fe5SMarcel Hlopko D->getTypeSourceInfo()->getTypeLoc(), 1392cdce2fe5SMarcel Hlopko getQualifiedNameStart(D), Initializer); 1393cdce2fe5SMarcel Hlopko 1394cdce2fe5SMarcel Hlopko // There doesn't have to be a declarator (e.g. `void foo(int)` only has 1395cdce2fe5SMarcel Hlopko // declaration, but no declarator). 1396cdce2fe5SMarcel Hlopko if (Range.getBegin().isValid()) { 1397cdce2fe5SMarcel Hlopko auto *N = new (allocator()) syntax::SimpleDeclarator; 1398cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getRange(Range), N, nullptr); 1399cdce2fe5SMarcel Hlopko Builder.markChild(N, syntax::NodeRole::SimpleDeclaration_declarator); 1400cdce2fe5SMarcel Hlopko } 1401cdce2fe5SMarcel Hlopko 1402cdce2fe5SMarcel Hlopko if (Builder.isResponsibleForCreatingDeclaration(D)) { 1403cdce2fe5SMarcel Hlopko Builder.foldNode(Builder.getDeclarationRange(D), 1404cdce2fe5SMarcel Hlopko new (allocator()) syntax::SimpleDeclaration, D); 1405cdce2fe5SMarcel Hlopko } 1406cdce2fe5SMarcel Hlopko return true; 1407cdce2fe5SMarcel Hlopko } 1408cdce2fe5SMarcel Hlopko 14097d382dcdSMarcel Hlopko /// Returns the range of the built node. 1410a711a3a4SMarcel Hlopko syntax::TrailingReturnType *BuildTrailingReturn(FunctionProtoTypeLoc L) { 14117d382dcdSMarcel Hlopko assert(L.getTypePtr()->hasTrailingReturn()); 14127d382dcdSMarcel Hlopko 14137d382dcdSMarcel Hlopko auto ReturnedType = L.getReturnLoc(); 14147d382dcdSMarcel Hlopko // Build node for the declarator, if any. 14157d382dcdSMarcel Hlopko auto ReturnDeclaratorRange = 14167d382dcdSMarcel Hlopko getDeclaratorRange(this->Builder.sourceManager(), ReturnedType, 14177d382dcdSMarcel Hlopko /*Name=*/SourceLocation(), 14187d382dcdSMarcel Hlopko /*Initializer=*/SourceLocation()); 1419a711a3a4SMarcel Hlopko syntax::SimpleDeclarator *ReturnDeclarator = nullptr; 14207d382dcdSMarcel Hlopko if (ReturnDeclaratorRange.isValid()) { 1421a711a3a4SMarcel Hlopko ReturnDeclarator = new (allocator()) syntax::SimpleDeclarator; 1422a711a3a4SMarcel Hlopko Builder.foldNode(Builder.getRange(ReturnDeclaratorRange), 1423a711a3a4SMarcel Hlopko ReturnDeclarator, nullptr); 14247d382dcdSMarcel Hlopko } 14257d382dcdSMarcel Hlopko 14267d382dcdSMarcel Hlopko // Build node for trailing return type. 1427a711a3a4SMarcel Hlopko auto Return = Builder.getRange(ReturnedType.getSourceRange()); 14287d382dcdSMarcel Hlopko const auto *Arrow = Return.begin() - 1; 14297d382dcdSMarcel Hlopko assert(Arrow->kind() == tok::arrow); 14307d382dcdSMarcel Hlopko auto Tokens = llvm::makeArrayRef(Arrow, Return.end()); 143142f6fec3SEduardo Caldas Builder.markChildToken(Arrow, syntax::NodeRole::ArrowToken); 1432a711a3a4SMarcel Hlopko if (ReturnDeclarator) 1433a711a3a4SMarcel Hlopko Builder.markChild(ReturnDeclarator, 14347d382dcdSMarcel Hlopko syntax::NodeRole::TrailingReturnType_declarator); 1435a711a3a4SMarcel Hlopko auto *R = new (allocator()) syntax::TrailingReturnType; 1436cdce2fe5SMarcel Hlopko Builder.foldNode(Tokens, R, L); 1437a711a3a4SMarcel Hlopko return R; 14387d382dcdSMarcel Hlopko } 143988bf9b3dSMarcel Hlopko 1440a711a3a4SMarcel Hlopko void foldExplicitTemplateInstantiation( 1441a711a3a4SMarcel Hlopko ArrayRef<syntax::Token> Range, const syntax::Token *ExternKW, 144288bf9b3dSMarcel Hlopko const syntax::Token *TemplateKW, 1443a711a3a4SMarcel Hlopko syntax::SimpleDeclaration *InnerDeclaration, Decl *From) { 144488bf9b3dSMarcel Hlopko assert(!ExternKW || ExternKW->kind() == tok::kw_extern); 144588bf9b3dSMarcel Hlopko assert(TemplateKW && TemplateKW->kind() == tok::kw_template); 144642f6fec3SEduardo Caldas Builder.markChildToken(ExternKW, syntax::NodeRole::ExternKeyword); 144788bf9b3dSMarcel Hlopko Builder.markChildToken(TemplateKW, syntax::NodeRole::IntroducerKeyword); 144888bf9b3dSMarcel Hlopko Builder.markChild( 144988bf9b3dSMarcel Hlopko InnerDeclaration, 145088bf9b3dSMarcel Hlopko syntax::NodeRole::ExplicitTemplateInstantiation_declaration); 1451a711a3a4SMarcel Hlopko Builder.foldNode( 1452a711a3a4SMarcel Hlopko Range, new (allocator()) syntax::ExplicitTemplateInstantiation, From); 145388bf9b3dSMarcel Hlopko } 145488bf9b3dSMarcel Hlopko 1455a711a3a4SMarcel Hlopko syntax::TemplateDeclaration *foldTemplateDeclaration( 1456a711a3a4SMarcel Hlopko ArrayRef<syntax::Token> Range, const syntax::Token *TemplateKW, 1457a711a3a4SMarcel Hlopko ArrayRef<syntax::Token> TemplatedDeclaration, Decl *From) { 145888bf9b3dSMarcel Hlopko assert(TemplateKW && TemplateKW->kind() == tok::kw_template); 145988bf9b3dSMarcel Hlopko Builder.markChildToken(TemplateKW, syntax::NodeRole::IntroducerKeyword); 1460a711a3a4SMarcel Hlopko 1461a711a3a4SMarcel Hlopko auto *N = new (allocator()) syntax::TemplateDeclaration; 1462a711a3a4SMarcel Hlopko Builder.foldNode(Range, N, From); 1463cdce2fe5SMarcel Hlopko Builder.markChild(N, syntax::NodeRole::TemplateDeclaration_declaration); 1464a711a3a4SMarcel Hlopko return N; 146588bf9b3dSMarcel Hlopko } 146688bf9b3dSMarcel Hlopko 14679b3f38f9SIlya Biryukov /// A small helper to save some typing. 14689b3f38f9SIlya Biryukov llvm::BumpPtrAllocator &allocator() { return Builder.allocator(); } 14699b3f38f9SIlya Biryukov 14709b3f38f9SIlya Biryukov syntax::TreeBuilder &Builder; 14711db5b348SEduardo Caldas const ASTContext &Context; 14729b3f38f9SIlya Biryukov }; 14739b3f38f9SIlya Biryukov } // namespace 14749b3f38f9SIlya Biryukov 14757d382dcdSMarcel Hlopko void syntax::TreeBuilder::noticeDeclWithoutSemicolon(Decl *D) { 1476e702bdb8SIlya Biryukov DeclsWithoutSemicolons.insert(D); 1477e702bdb8SIlya Biryukov } 1478e702bdb8SIlya Biryukov 1479def65bb4SIlya Biryukov void syntax::TreeBuilder::markChildToken(SourceLocation Loc, NodeRole Role) { 14809b3f38f9SIlya Biryukov if (Loc.isInvalid()) 14819b3f38f9SIlya Biryukov return; 14829b3f38f9SIlya Biryukov Pending.assignRole(*findToken(Loc), Role); 14839b3f38f9SIlya Biryukov } 14849b3f38f9SIlya Biryukov 14857d382dcdSMarcel Hlopko void syntax::TreeBuilder::markChildToken(const syntax::Token *T, NodeRole R) { 14867d382dcdSMarcel Hlopko if (!T) 14877d382dcdSMarcel Hlopko return; 14887d382dcdSMarcel Hlopko Pending.assignRole(*T, R); 14897d382dcdSMarcel Hlopko } 14907d382dcdSMarcel Hlopko 1491a711a3a4SMarcel Hlopko void syntax::TreeBuilder::markChild(syntax::Node *N, NodeRole R) { 1492a711a3a4SMarcel Hlopko assert(N); 1493a711a3a4SMarcel Hlopko setRole(N, R); 1494a711a3a4SMarcel Hlopko } 1495a711a3a4SMarcel Hlopko 1496a711a3a4SMarcel Hlopko void syntax::TreeBuilder::markChild(ASTPtr N, NodeRole R) { 1497a711a3a4SMarcel Hlopko auto *SN = Mapping.find(N); 1498a711a3a4SMarcel Hlopko assert(SN != nullptr); 1499a711a3a4SMarcel Hlopko setRole(SN, R); 15007d382dcdSMarcel Hlopko } 1501f9500cc4SEduardo Caldas void syntax::TreeBuilder::markChild(NestedNameSpecifierLoc NNSLoc, NodeRole R) { 1502f9500cc4SEduardo Caldas auto *SN = Mapping.find(NNSLoc); 1503f9500cc4SEduardo Caldas assert(SN != nullptr); 1504f9500cc4SEduardo Caldas setRole(SN, R); 1505f9500cc4SEduardo Caldas } 15067d382dcdSMarcel Hlopko 150758fa50f4SIlya Biryukov void syntax::TreeBuilder::markStmtChild(Stmt *Child, NodeRole Role) { 150858fa50f4SIlya Biryukov if (!Child) 150958fa50f4SIlya Biryukov return; 151058fa50f4SIlya Biryukov 1511b34b7691SDmitri Gribenko syntax::Tree *ChildNode; 1512b34b7691SDmitri Gribenko if (Expr *ChildExpr = dyn_cast<Expr>(Child)) { 151358fa50f4SIlya Biryukov // This is an expression in a statement position, consume the trailing 151458fa50f4SIlya Biryukov // semicolon and form an 'ExpressionStatement' node. 1515b34b7691SDmitri Gribenko markExprChild(ChildExpr, NodeRole::ExpressionStatement_expression); 1516a711a3a4SMarcel Hlopko ChildNode = new (allocator()) syntax::ExpressionStatement; 1517a711a3a4SMarcel Hlopko // (!) 'getStmtRange()' ensures this covers a trailing semicolon. 1518a711a3a4SMarcel Hlopko Pending.foldChildren(Arena, getStmtRange(Child), ChildNode); 1519b34b7691SDmitri Gribenko } else { 1520b34b7691SDmitri Gribenko ChildNode = Mapping.find(Child); 152158fa50f4SIlya Biryukov } 1522b34b7691SDmitri Gribenko assert(ChildNode != nullptr); 1523a711a3a4SMarcel Hlopko setRole(ChildNode, Role); 152458fa50f4SIlya Biryukov } 152558fa50f4SIlya Biryukov 152658fa50f4SIlya Biryukov void syntax::TreeBuilder::markExprChild(Expr *Child, NodeRole Role) { 1527be14a22bSIlya Biryukov if (!Child) 1528be14a22bSIlya Biryukov return; 1529a711a3a4SMarcel Hlopko Child = Child->IgnoreImplicit(); 1530be14a22bSIlya Biryukov 1531a711a3a4SMarcel Hlopko syntax::Tree *ChildNode = Mapping.find(Child); 1532a711a3a4SMarcel Hlopko assert(ChildNode != nullptr); 1533a711a3a4SMarcel Hlopko setRole(ChildNode, Role); 153458fa50f4SIlya Biryukov } 153558fa50f4SIlya Biryukov 15369b3f38f9SIlya Biryukov const syntax::Token *syntax::TreeBuilder::findToken(SourceLocation L) const { 153788bf9b3dSMarcel Hlopko if (L.isInvalid()) 153888bf9b3dSMarcel Hlopko return nullptr; 1539c1bbefefSIlya Biryukov auto It = LocationToToken.find(L.getRawEncoding()); 1540c1bbefefSIlya Biryukov assert(It != LocationToToken.end()); 1541c1bbefefSIlya Biryukov return It->second; 15429b3f38f9SIlya Biryukov } 15439b3f38f9SIlya Biryukov 15449b3f38f9SIlya Biryukov syntax::TranslationUnit * 15459b3f38f9SIlya Biryukov syntax::buildSyntaxTree(Arena &A, const TranslationUnitDecl &TU) { 15469b3f38f9SIlya Biryukov TreeBuilder Builder(A); 15479b3f38f9SIlya Biryukov BuildTreeVisitor(TU.getASTContext(), Builder).TraverseAST(TU.getASTContext()); 15489b3f38f9SIlya Biryukov return std::move(Builder).finalize(); 15499b3f38f9SIlya Biryukov } 1550