forked from OSchip/llvm-project
322 lines
11 KiB
C++
322 lines
11 KiB
C++
//===- ParentMapContext.cpp - Map of parents using DynTypedNode -*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Similar to ParentMap.cpp, but generalizes to non-Stmt nodes, which can have
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// multiple parents.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/AST/ParentMapContext.h"
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#include "clang/AST/RecursiveASTVisitor.h"
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#include "clang/AST/Decl.h"
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#include "clang/AST/Expr.h"
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#include "clang/AST/TemplateBase.h"
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using namespace clang;
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ParentMapContext::ParentMapContext(ASTContext &Ctx) : ASTCtx(Ctx) {}
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ParentMapContext::~ParentMapContext() = default;
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void ParentMapContext::clear() { Parents.reset(); }
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const Expr *ParentMapContext::traverseIgnored(const Expr *E) const {
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return traverseIgnored(const_cast<Expr *>(E));
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}
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Expr *ParentMapContext::traverseIgnored(Expr *E) const {
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if (!E)
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return nullptr;
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switch (Traversal) {
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case TK_AsIs:
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return E;
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case TK_IgnoreImplicitCastsAndParentheses:
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return E->IgnoreParenImpCasts();
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case TK_IgnoreUnlessSpelledInSource:
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return E->IgnoreUnlessSpelledInSource();
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}
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llvm_unreachable("Invalid Traversal type!");
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}
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DynTypedNode ParentMapContext::traverseIgnored(const DynTypedNode &N) const {
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if (const auto *E = N.get<Expr>()) {
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return DynTypedNode::create(*traverseIgnored(E));
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}
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return N;
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}
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class ParentMapContext::ParentMap {
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/// Contains parents of a node.
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using ParentVector = llvm::SmallVector<DynTypedNode, 2>;
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/// Maps from a node to its parents. This is used for nodes that have
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/// pointer identity only, which are more common and we can save space by
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/// only storing a unique pointer to them.
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using ParentMapPointers =
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llvm::DenseMap<const void *,
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llvm::PointerUnion<const Decl *, const Stmt *,
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DynTypedNode *, ParentVector *>>;
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/// Parent map for nodes without pointer identity. We store a full
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/// DynTypedNode for all keys.
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using ParentMapOtherNodes =
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llvm::DenseMap<DynTypedNode,
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llvm::PointerUnion<const Decl *, const Stmt *,
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DynTypedNode *, ParentVector *>>;
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ParentMapPointers PointerParents;
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ParentMapOtherNodes OtherParents;
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class ASTVisitor;
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static DynTypedNode
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getSingleDynTypedNodeFromParentMap(ParentMapPointers::mapped_type U) {
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if (const auto *D = U.dyn_cast<const Decl *>())
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return DynTypedNode::create(*D);
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if (const auto *S = U.dyn_cast<const Stmt *>())
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return DynTypedNode::create(*S);
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return *U.get<DynTypedNode *>();
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}
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template <typename NodeTy, typename MapTy>
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static DynTypedNodeList getDynNodeFromMap(const NodeTy &Node,
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const MapTy &Map) {
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auto I = Map.find(Node);
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if (I == Map.end()) {
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return llvm::ArrayRef<DynTypedNode>();
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}
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if (const auto *V = I->second.template dyn_cast<ParentVector *>()) {
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return llvm::makeArrayRef(*V);
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}
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return getSingleDynTypedNodeFromParentMap(I->second);
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}
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public:
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ParentMap(ASTContext &Ctx);
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~ParentMap() {
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for (const auto &Entry : PointerParents) {
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if (Entry.second.is<DynTypedNode *>()) {
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delete Entry.second.get<DynTypedNode *>();
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} else if (Entry.second.is<ParentVector *>()) {
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delete Entry.second.get<ParentVector *>();
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}
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}
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for (const auto &Entry : OtherParents) {
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if (Entry.second.is<DynTypedNode *>()) {
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delete Entry.second.get<DynTypedNode *>();
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} else if (Entry.second.is<ParentVector *>()) {
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delete Entry.second.get<ParentVector *>();
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}
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}
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}
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DynTypedNodeList getParents(TraversalKind TK, const DynTypedNode &Node) {
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if (Node.getNodeKind().hasPointerIdentity()) {
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auto ParentList =
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getDynNodeFromMap(Node.getMemoizationData(), PointerParents);
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if (ParentList.size() == 1 && TK == TK_IgnoreUnlessSpelledInSource) {
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const auto *E = ParentList[0].get<Expr>();
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const auto *Child = Node.get<Expr>();
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if (E && Child)
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return AscendIgnoreUnlessSpelledInSource(E, Child);
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}
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return ParentList;
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}
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return getDynNodeFromMap(Node, OtherParents);
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}
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DynTypedNodeList AscendIgnoreUnlessSpelledInSource(const Expr *E,
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const Expr *Child) {
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auto ShouldSkip = [](const Expr *E, const Expr *Child) {
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if (isa<ImplicitCastExpr>(E))
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return true;
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if (isa<FullExpr>(E))
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return true;
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if (isa<MaterializeTemporaryExpr>(E))
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return true;
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if (isa<CXXBindTemporaryExpr>(E))
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return true;
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if (isa<ParenExpr>(E))
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return true;
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if (isa<ExprWithCleanups>(E))
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return true;
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auto SR = Child->getSourceRange();
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if (const auto *C = dyn_cast<CXXConstructExpr>(E)) {
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if (C->getSourceRange() == SR || !isa<CXXTemporaryObjectExpr>(C))
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return true;
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}
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if (const auto *C = dyn_cast<CXXMemberCallExpr>(E)) {
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if (C->getSourceRange() == SR)
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return true;
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}
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if (const auto *C = dyn_cast<MemberExpr>(E)) {
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if (C->getSourceRange() == SR)
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return true;
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}
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return false;
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};
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while (ShouldSkip(E, Child)) {
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auto It = PointerParents.find(E);
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if (It == PointerParents.end())
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break;
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const auto *S = It->second.dyn_cast<const Stmt *>();
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if (!S) {
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if (auto *Vec = It->second.dyn_cast<ParentVector *>())
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return llvm::makeArrayRef(*Vec);
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return getSingleDynTypedNodeFromParentMap(It->second);
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}
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const auto *P = dyn_cast<Expr>(S);
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if (!P)
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return DynTypedNode::create(*S);
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Child = E;
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E = P;
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}
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return DynTypedNode::create(*E);
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}
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};
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/// Template specializations to abstract away from pointers and TypeLocs.
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/// @{
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template <typename T> static DynTypedNode createDynTypedNode(const T &Node) {
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return DynTypedNode::create(*Node);
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}
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template <> DynTypedNode createDynTypedNode(const TypeLoc &Node) {
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return DynTypedNode::create(Node);
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}
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template <>
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DynTypedNode createDynTypedNode(const NestedNameSpecifierLoc &Node) {
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return DynTypedNode::create(Node);
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}
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/// @}
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/// A \c RecursiveASTVisitor that builds a map from nodes to their
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/// parents as defined by the \c RecursiveASTVisitor.
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///
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/// Note that the relationship described here is purely in terms of AST
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/// traversal - there are other relationships (for example declaration context)
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/// in the AST that are better modeled by special matchers.
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///
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/// FIXME: Currently only builds up the map using \c Stmt and \c Decl nodes.
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class ParentMapContext::ParentMap::ASTVisitor
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: public RecursiveASTVisitor<ASTVisitor> {
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public:
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ASTVisitor(ParentMap &Map) : Map(Map) {}
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private:
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friend class RecursiveASTVisitor<ASTVisitor>;
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using VisitorBase = RecursiveASTVisitor<ASTVisitor>;
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bool shouldVisitTemplateInstantiations() const { return true; }
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bool shouldVisitImplicitCode() const { return true; }
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template <typename T, typename MapNodeTy, typename BaseTraverseFn,
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typename MapTy>
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bool TraverseNode(T Node, MapNodeTy MapNode, BaseTraverseFn BaseTraverse,
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MapTy *Parents) {
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if (!Node)
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return true;
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if (ParentStack.size() > 0) {
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// FIXME: Currently we add the same parent multiple times, but only
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// when no memoization data is available for the type.
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// For example when we visit all subexpressions of template
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// instantiations; this is suboptimal, but benign: the only way to
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// visit those is with hasAncestor / hasParent, and those do not create
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// new matches.
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// The plan is to enable DynTypedNode to be storable in a map or hash
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// map. The main problem there is to implement hash functions /
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// comparison operators for all types that DynTypedNode supports that
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// do not have pointer identity.
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auto &NodeOrVector = (*Parents)[MapNode];
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if (NodeOrVector.isNull()) {
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if (const auto *D = ParentStack.back().get<Decl>())
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NodeOrVector = D;
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else if (const auto *S = ParentStack.back().get<Stmt>())
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NodeOrVector = S;
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else
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NodeOrVector = new DynTypedNode(ParentStack.back());
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} else {
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if (!NodeOrVector.template is<ParentVector *>()) {
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auto *Vector = new ParentVector(
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1, getSingleDynTypedNodeFromParentMap(NodeOrVector));
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delete NodeOrVector.template dyn_cast<DynTypedNode *>();
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NodeOrVector = Vector;
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}
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auto *Vector = NodeOrVector.template get<ParentVector *>();
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// Skip duplicates for types that have memoization data.
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// We must check that the type has memoization data before calling
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// std::find() because DynTypedNode::operator== can't compare all
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// types.
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bool Found = ParentStack.back().getMemoizationData() &&
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std::find(Vector->begin(), Vector->end(),
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ParentStack.back()) != Vector->end();
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if (!Found)
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Vector->push_back(ParentStack.back());
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}
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}
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ParentStack.push_back(createDynTypedNode(Node));
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bool Result = BaseTraverse();
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ParentStack.pop_back();
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return Result;
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}
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bool TraverseDecl(Decl *DeclNode) {
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return TraverseNode(
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DeclNode, DeclNode, [&] { return VisitorBase::TraverseDecl(DeclNode); },
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&Map.PointerParents);
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}
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bool TraverseStmt(Stmt *StmtNode) {
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return TraverseNode(StmtNode, StmtNode,
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[&] { return VisitorBase::TraverseStmt(StmtNode); },
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&Map.PointerParents);
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}
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bool TraverseTypeLoc(TypeLoc TypeLocNode) {
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return TraverseNode(
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TypeLocNode, DynTypedNode::create(TypeLocNode),
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[&] { return VisitorBase::TraverseTypeLoc(TypeLocNode); },
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&Map.OtherParents);
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}
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bool TraverseNestedNameSpecifierLoc(NestedNameSpecifierLoc NNSLocNode) {
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return TraverseNode(
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NNSLocNode, DynTypedNode::create(NNSLocNode),
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[&] { return VisitorBase::TraverseNestedNameSpecifierLoc(NNSLocNode); },
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&Map.OtherParents);
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}
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ParentMap ⤅
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llvm::SmallVector<DynTypedNode, 16> ParentStack;
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};
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ParentMapContext::ParentMap::ParentMap(ASTContext &Ctx) {
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ASTVisitor(*this).TraverseAST(Ctx);
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}
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DynTypedNodeList ParentMapContext::getParents(const DynTypedNode &Node) {
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if (!Parents)
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// We build the parent map for the traversal scope (usually whole TU), as
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// hasAncestor can escape any subtree.
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Parents = std::make_unique<ParentMap>(ASTCtx);
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return Parents->getParents(getTraversalKind(), Node);
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}
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