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989 lines
35 KiB
989 lines
35 KiB
//===--- ASTMatchFinder.cpp - Structural query framework ------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Implements an algorithm to efficiently search for matches on AST nodes.
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// Uses memoization to support recursive matches like HasDescendant.
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//
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// The general idea is to visit all AST nodes with a RecursiveASTVisitor,
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// calling the Matches(...) method of each matcher we are running on each
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// AST node. The matcher can recurse via the ASTMatchFinder interface.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/ASTMatchers/ASTMatchFinder.h"
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#include "clang/AST/ASTConsumer.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/RecursiveASTVisitor.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/Support/Timer.h"
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#include <deque>
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#include <memory>
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#include <set>
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namespace clang {
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namespace ast_matchers {
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namespace internal {
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namespace {
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typedef MatchFinder::MatchCallback MatchCallback;
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// The maximum number of memoization entries to store.
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// 10k has been experimentally found to give a good trade-off
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// of performance vs. memory consumption by running matcher
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// that match on every statement over a very large codebase.
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//
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// FIXME: Do some performance optimization in general and
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// revisit this number; also, put up micro-benchmarks that we can
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// optimize this on.
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static const unsigned MaxMemoizationEntries = 10000;
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// We use memoization to avoid running the same matcher on the same
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// AST node twice. This struct is the key for looking up match
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// result. It consists of an ID of the MatcherInterface (for
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// identifying the matcher), a pointer to the AST node and the
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// bound nodes before the matcher was executed.
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//
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// We currently only memoize on nodes whose pointers identify the
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// nodes (\c Stmt and \c Decl, but not \c QualType or \c TypeLoc).
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// For \c QualType and \c TypeLoc it is possible to implement
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// generation of keys for each type.
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// FIXME: Benchmark whether memoization of non-pointer typed nodes
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// provides enough benefit for the additional amount of code.
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struct MatchKey {
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DynTypedMatcher::MatcherIDType MatcherID;
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ast_type_traits::DynTypedNode Node;
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BoundNodesTreeBuilder BoundNodes;
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bool operator<(const MatchKey &Other) const {
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return std::tie(MatcherID, Node, BoundNodes) <
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std::tie(Other.MatcherID, Other.Node, Other.BoundNodes);
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}
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};
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// Used to store the result of a match and possibly bound nodes.
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struct MemoizedMatchResult {
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bool ResultOfMatch;
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BoundNodesTreeBuilder Nodes;
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};
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// A RecursiveASTVisitor that traverses all children or all descendants of
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// a node.
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class MatchChildASTVisitor
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: public RecursiveASTVisitor<MatchChildASTVisitor> {
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public:
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typedef RecursiveASTVisitor<MatchChildASTVisitor> VisitorBase;
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// Creates an AST visitor that matches 'matcher' on all children or
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// descendants of a traversed node. max_depth is the maximum depth
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// to traverse: use 1 for matching the children and INT_MAX for
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// matching the descendants.
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MatchChildASTVisitor(const DynTypedMatcher *Matcher,
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ASTMatchFinder *Finder,
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BoundNodesTreeBuilder *Builder,
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int MaxDepth,
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ASTMatchFinder::TraversalKind Traversal,
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ASTMatchFinder::BindKind Bind)
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: Matcher(Matcher),
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Finder(Finder),
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Builder(Builder),
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CurrentDepth(0),
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MaxDepth(MaxDepth),
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Traversal(Traversal),
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Bind(Bind),
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Matches(false) {}
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// Returns true if a match is found in the subtree rooted at the
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// given AST node. This is done via a set of mutually recursive
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// functions. Here's how the recursion is done (the *wildcard can
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// actually be Decl, Stmt, or Type):
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//
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// - Traverse(node) calls BaseTraverse(node) when it needs
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// to visit the descendants of node.
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// - BaseTraverse(node) then calls (via VisitorBase::Traverse*(node))
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// Traverse*(c) for each child c of 'node'.
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// - Traverse*(c) in turn calls Traverse(c), completing the
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// recursion.
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bool findMatch(const ast_type_traits::DynTypedNode &DynNode) {
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reset();
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if (const Decl *D = DynNode.get<Decl>())
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traverse(*D);
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else if (const Stmt *S = DynNode.get<Stmt>())
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traverse(*S);
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else if (const NestedNameSpecifier *NNS =
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DynNode.get<NestedNameSpecifier>())
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traverse(*NNS);
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else if (const NestedNameSpecifierLoc *NNSLoc =
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DynNode.get<NestedNameSpecifierLoc>())
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traverse(*NNSLoc);
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else if (const QualType *Q = DynNode.get<QualType>())
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traverse(*Q);
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else if (const TypeLoc *T = DynNode.get<TypeLoc>())
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traverse(*T);
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// FIXME: Add other base types after adding tests.
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// It's OK to always overwrite the bound nodes, as if there was
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// no match in this recursive branch, the result set is empty
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// anyway.
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*Builder = ResultBindings;
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return Matches;
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}
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// The following are overriding methods from the base visitor class.
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// They are public only to allow CRTP to work. They are *not *part
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// of the public API of this class.
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bool TraverseDecl(Decl *DeclNode) {
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ScopedIncrement ScopedDepth(&CurrentDepth);
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return (DeclNode == nullptr) || traverse(*DeclNode);
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}
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bool TraverseStmt(Stmt *StmtNode) {
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ScopedIncrement ScopedDepth(&CurrentDepth);
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const Stmt *StmtToTraverse = StmtNode;
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if (Traversal ==
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ASTMatchFinder::TK_IgnoreImplicitCastsAndParentheses) {
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const Expr *ExprNode = dyn_cast_or_null<Expr>(StmtNode);
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if (ExprNode) {
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StmtToTraverse = ExprNode->IgnoreParenImpCasts();
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}
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}
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return (StmtToTraverse == nullptr) || traverse(*StmtToTraverse);
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}
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// We assume that the QualType and the contained type are on the same
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// hierarchy level. Thus, we try to match either of them.
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bool TraverseType(QualType TypeNode) {
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if (TypeNode.isNull())
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return true;
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ScopedIncrement ScopedDepth(&CurrentDepth);
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// Match the Type.
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if (!match(*TypeNode))
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return false;
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// The QualType is matched inside traverse.
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return traverse(TypeNode);
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}
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// We assume that the TypeLoc, contained QualType and contained Type all are
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// on the same hierarchy level. Thus, we try to match all of them.
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bool TraverseTypeLoc(TypeLoc TypeLocNode) {
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if (TypeLocNode.isNull())
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return true;
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ScopedIncrement ScopedDepth(&CurrentDepth);
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// Match the Type.
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if (!match(*TypeLocNode.getType()))
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return false;
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// Match the QualType.
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if (!match(TypeLocNode.getType()))
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return false;
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// The TypeLoc is matched inside traverse.
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return traverse(TypeLocNode);
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}
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bool TraverseNestedNameSpecifier(NestedNameSpecifier *NNS) {
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ScopedIncrement ScopedDepth(&CurrentDepth);
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return (NNS == nullptr) || traverse(*NNS);
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}
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bool TraverseNestedNameSpecifierLoc(NestedNameSpecifierLoc NNS) {
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if (!NNS)
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return true;
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ScopedIncrement ScopedDepth(&CurrentDepth);
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if (!match(*NNS.getNestedNameSpecifier()))
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return false;
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return traverse(NNS);
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}
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bool shouldVisitTemplateInstantiations() const { return true; }
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bool shouldVisitImplicitCode() const { return true; }
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private:
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// Used for updating the depth during traversal.
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struct ScopedIncrement {
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explicit ScopedIncrement(int *Depth) : Depth(Depth) { ++(*Depth); }
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~ScopedIncrement() { --(*Depth); }
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private:
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int *Depth;
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};
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// Resets the state of this object.
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void reset() {
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Matches = false;
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CurrentDepth = 0;
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}
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// Forwards the call to the corresponding Traverse*() method in the
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// base visitor class.
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bool baseTraverse(const Decl &DeclNode) {
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return VisitorBase::TraverseDecl(const_cast<Decl*>(&DeclNode));
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}
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bool baseTraverse(const Stmt &StmtNode) {
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return VisitorBase::TraverseStmt(const_cast<Stmt*>(&StmtNode));
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}
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bool baseTraverse(QualType TypeNode) {
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return VisitorBase::TraverseType(TypeNode);
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}
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bool baseTraverse(TypeLoc TypeLocNode) {
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return VisitorBase::TraverseTypeLoc(TypeLocNode);
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}
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bool baseTraverse(const NestedNameSpecifier &NNS) {
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return VisitorBase::TraverseNestedNameSpecifier(
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const_cast<NestedNameSpecifier*>(&NNS));
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}
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bool baseTraverse(NestedNameSpecifierLoc NNS) {
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return VisitorBase::TraverseNestedNameSpecifierLoc(NNS);
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}
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// Sets 'Matched' to true if 'Matcher' matches 'Node' and:
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// 0 < CurrentDepth <= MaxDepth.
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//
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// Returns 'true' if traversal should continue after this function
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// returns, i.e. if no match is found or 'Bind' is 'BK_All'.
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template <typename T>
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bool match(const T &Node) {
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if (CurrentDepth == 0 || CurrentDepth > MaxDepth) {
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return true;
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}
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if (Bind != ASTMatchFinder::BK_All) {
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BoundNodesTreeBuilder RecursiveBuilder(*Builder);
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if (Matcher->matches(ast_type_traits::DynTypedNode::create(Node), Finder,
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&RecursiveBuilder)) {
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Matches = true;
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ResultBindings.addMatch(RecursiveBuilder);
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return false; // Abort as soon as a match is found.
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}
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} else {
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BoundNodesTreeBuilder RecursiveBuilder(*Builder);
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if (Matcher->matches(ast_type_traits::DynTypedNode::create(Node), Finder,
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&RecursiveBuilder)) {
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// After the first match the matcher succeeds.
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Matches = true;
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ResultBindings.addMatch(RecursiveBuilder);
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}
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}
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return true;
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}
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// Traverses the subtree rooted at 'Node'; returns true if the
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// traversal should continue after this function returns.
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template <typename T>
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bool traverse(const T &Node) {
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static_assert(IsBaseType<T>::value,
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"traverse can only be instantiated with base type");
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if (!match(Node))
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return false;
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return baseTraverse(Node);
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}
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const DynTypedMatcher *const Matcher;
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ASTMatchFinder *const Finder;
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BoundNodesTreeBuilder *const Builder;
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BoundNodesTreeBuilder ResultBindings;
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int CurrentDepth;
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const int MaxDepth;
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const ASTMatchFinder::TraversalKind Traversal;
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const ASTMatchFinder::BindKind Bind;
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bool Matches;
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};
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// Controls the outermost traversal of the AST and allows to match multiple
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// matchers.
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class MatchASTVisitor : public RecursiveASTVisitor<MatchASTVisitor>,
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public ASTMatchFinder {
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public:
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MatchASTVisitor(const MatchFinder::MatchersByType *Matchers,
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const MatchFinder::MatchFinderOptions &Options)
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: Matchers(Matchers), Options(Options), ActiveASTContext(nullptr) {}
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~MatchASTVisitor() override {
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if (Options.CheckProfiling) {
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Options.CheckProfiling->Records = std::move(TimeByBucket);
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}
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}
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void onStartOfTranslationUnit() {
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const bool EnableCheckProfiling = Options.CheckProfiling.hasValue();
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TimeBucketRegion Timer;
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for (MatchCallback *MC : Matchers->AllCallbacks) {
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if (EnableCheckProfiling)
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Timer.setBucket(&TimeByBucket[MC->getID()]);
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MC->onStartOfTranslationUnit();
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}
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}
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void onEndOfTranslationUnit() {
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const bool EnableCheckProfiling = Options.CheckProfiling.hasValue();
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TimeBucketRegion Timer;
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for (MatchCallback *MC : Matchers->AllCallbacks) {
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if (EnableCheckProfiling)
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Timer.setBucket(&TimeByBucket[MC->getID()]);
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MC->onEndOfTranslationUnit();
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}
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}
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void set_active_ast_context(ASTContext *NewActiveASTContext) {
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ActiveASTContext = NewActiveASTContext;
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}
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// The following Visit*() and Traverse*() functions "override"
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// methods in RecursiveASTVisitor.
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bool VisitTypedefNameDecl(TypedefNameDecl *DeclNode) {
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// When we see 'typedef A B', we add name 'B' to the set of names
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// A's canonical type maps to. This is necessary for implementing
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// isDerivedFrom(x) properly, where x can be the name of the base
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// class or any of its aliases.
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//
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// In general, the is-alias-of (as defined by typedefs) relation
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// is tree-shaped, as you can typedef a type more than once. For
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// example,
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//
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// typedef A B;
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// typedef A C;
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// typedef C D;
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// typedef C E;
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//
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// gives you
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//
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// A
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// |- B
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// `- C
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// |- D
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// `- E
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//
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// It is wrong to assume that the relation is a chain. A correct
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// implementation of isDerivedFrom() needs to recognize that B and
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// E are aliases, even though neither is a typedef of the other.
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// Therefore, we cannot simply walk through one typedef chain to
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// find out whether the type name matches.
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const Type *TypeNode = DeclNode->getUnderlyingType().getTypePtr();
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const Type *CanonicalType = // root of the typedef tree
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ActiveASTContext->getCanonicalType(TypeNode);
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TypeAliases[CanonicalType].insert(DeclNode);
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return true;
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}
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bool TraverseDecl(Decl *DeclNode);
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bool TraverseStmt(Stmt *StmtNode);
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bool TraverseType(QualType TypeNode);
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bool TraverseTypeLoc(TypeLoc TypeNode);
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bool TraverseNestedNameSpecifier(NestedNameSpecifier *NNS);
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bool TraverseNestedNameSpecifierLoc(NestedNameSpecifierLoc NNS);
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// Matches children or descendants of 'Node' with 'BaseMatcher'.
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bool memoizedMatchesRecursively(const ast_type_traits::DynTypedNode &Node,
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const DynTypedMatcher &Matcher,
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BoundNodesTreeBuilder *Builder, int MaxDepth,
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TraversalKind Traversal, BindKind Bind) {
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// For AST-nodes that don't have an identity, we can't memoize.
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if (!Node.getMemoizationData() || !Builder->isComparable())
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return matchesRecursively(Node, Matcher, Builder, MaxDepth, Traversal,
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Bind);
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MatchKey Key;
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Key.MatcherID = Matcher.getID();
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Key.Node = Node;
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// Note that we key on the bindings *before* the match.
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Key.BoundNodes = *Builder;
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MemoizationMap::iterator I = ResultCache.find(Key);
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if (I != ResultCache.end()) {
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*Builder = I->second.Nodes;
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return I->second.ResultOfMatch;
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}
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MemoizedMatchResult Result;
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Result.Nodes = *Builder;
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Result.ResultOfMatch = matchesRecursively(Node, Matcher, &Result.Nodes,
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MaxDepth, Traversal, Bind);
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MemoizedMatchResult &CachedResult = ResultCache[Key];
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CachedResult = std::move(Result);
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*Builder = CachedResult.Nodes;
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return CachedResult.ResultOfMatch;
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}
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// Matches children or descendants of 'Node' with 'BaseMatcher'.
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bool matchesRecursively(const ast_type_traits::DynTypedNode &Node,
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const DynTypedMatcher &Matcher,
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BoundNodesTreeBuilder *Builder, int MaxDepth,
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TraversalKind Traversal, BindKind Bind) {
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MatchChildASTVisitor Visitor(
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&Matcher, this, Builder, MaxDepth, Traversal, Bind);
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return Visitor.findMatch(Node);
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}
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bool classIsDerivedFrom(const CXXRecordDecl *Declaration,
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const Matcher<NamedDecl> &Base,
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BoundNodesTreeBuilder *Builder) override;
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// Implements ASTMatchFinder::matchesChildOf.
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bool matchesChildOf(const ast_type_traits::DynTypedNode &Node,
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const DynTypedMatcher &Matcher,
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BoundNodesTreeBuilder *Builder,
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TraversalKind Traversal,
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BindKind Bind) override {
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if (ResultCache.size() > MaxMemoizationEntries)
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ResultCache.clear();
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return memoizedMatchesRecursively(Node, Matcher, Builder, 1, Traversal,
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Bind);
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}
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// Implements ASTMatchFinder::matchesDescendantOf.
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bool matchesDescendantOf(const ast_type_traits::DynTypedNode &Node,
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const DynTypedMatcher &Matcher,
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BoundNodesTreeBuilder *Builder,
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BindKind Bind) override {
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if (ResultCache.size() > MaxMemoizationEntries)
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ResultCache.clear();
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return memoizedMatchesRecursively(Node, Matcher, Builder, INT_MAX,
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TK_AsIs, Bind);
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}
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// Implements ASTMatchFinder::matchesAncestorOf.
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bool matchesAncestorOf(const ast_type_traits::DynTypedNode &Node,
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const DynTypedMatcher &Matcher,
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BoundNodesTreeBuilder *Builder,
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AncestorMatchMode MatchMode) override {
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// Reset the cache outside of the recursive call to make sure we
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// don't invalidate any iterators.
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if (ResultCache.size() > MaxMemoizationEntries)
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ResultCache.clear();
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return memoizedMatchesAncestorOfRecursively(Node, Matcher, Builder,
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MatchMode);
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}
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// Matches all registered matchers on the given node and calls the
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// result callback for every node that matches.
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void match(const ast_type_traits::DynTypedNode &Node) {
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// FIXME: Improve this with a switch or a visitor pattern.
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if (auto *N = Node.get<Decl>()) {
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match(*N);
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} else if (auto *N = Node.get<Stmt>()) {
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match(*N);
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} else if (auto *N = Node.get<Type>()) {
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match(*N);
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} else if (auto *N = Node.get<QualType>()) {
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match(*N);
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} else if (auto *N = Node.get<NestedNameSpecifier>()) {
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match(*N);
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} else if (auto *N = Node.get<NestedNameSpecifierLoc>()) {
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match(*N);
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} else if (auto *N = Node.get<TypeLoc>()) {
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match(*N);
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}
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}
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template <typename T> void match(const T &Node) {
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matchDispatch(&Node);
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}
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// Implements ASTMatchFinder::getASTContext.
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ASTContext &getASTContext() const override { return *ActiveASTContext; }
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bool shouldVisitTemplateInstantiations() const { return true; }
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bool shouldVisitImplicitCode() const { return true; }
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private:
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class TimeBucketRegion {
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public:
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TimeBucketRegion() : Bucket(nullptr) {}
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~TimeBucketRegion() { setBucket(nullptr); }
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|
|
|
/// \brief Start timing for \p NewBucket.
|
|
///
|
|
/// If there was a bucket already set, it will finish the timing for that
|
|
/// other bucket.
|
|
/// \p NewBucket will be timed until the next call to \c setBucket() or
|
|
/// until the \c TimeBucketRegion is destroyed.
|
|
/// If \p NewBucket is the same as the currently timed bucket, this call
|
|
/// does nothing.
|
|
void setBucket(llvm::TimeRecord *NewBucket) {
|
|
if (Bucket != NewBucket) {
|
|
auto Now = llvm::TimeRecord::getCurrentTime(true);
|
|
if (Bucket)
|
|
*Bucket += Now;
|
|
if (NewBucket)
|
|
*NewBucket -= Now;
|
|
Bucket = NewBucket;
|
|
}
|
|
}
|
|
|
|
private:
|
|
llvm::TimeRecord *Bucket;
|
|
};
|
|
|
|
/// \brief Runs all the \p Matchers on \p Node.
|
|
///
|
|
/// Used by \c matchDispatch() below.
|
|
template <typename T, typename MC>
|
|
void matchWithoutFilter(const T &Node, const MC &Matchers) {
|
|
const bool EnableCheckProfiling = Options.CheckProfiling.hasValue();
|
|
TimeBucketRegion Timer;
|
|
for (const auto &MP : Matchers) {
|
|
if (EnableCheckProfiling)
|
|
Timer.setBucket(&TimeByBucket[MP.second->getID()]);
|
|
BoundNodesTreeBuilder Builder;
|
|
if (MP.first.matches(Node, this, &Builder)) {
|
|
MatchVisitor Visitor(ActiveASTContext, MP.second);
|
|
Builder.visitMatches(&Visitor);
|
|
}
|
|
}
|
|
}
|
|
|
|
void matchWithFilter(const ast_type_traits::DynTypedNode &DynNode) {
|
|
auto Kind = DynNode.getNodeKind();
|
|
auto it = MatcherFiltersMap.find(Kind);
|
|
const auto &Filter =
|
|
it != MatcherFiltersMap.end() ? it->second : getFilterForKind(Kind);
|
|
|
|
if (Filter.empty())
|
|
return;
|
|
|
|
const bool EnableCheckProfiling = Options.CheckProfiling.hasValue();
|
|
TimeBucketRegion Timer;
|
|
auto &Matchers = this->Matchers->DeclOrStmt;
|
|
for (unsigned short I : Filter) {
|
|
auto &MP = Matchers[I];
|
|
if (EnableCheckProfiling)
|
|
Timer.setBucket(&TimeByBucket[MP.second->getID()]);
|
|
BoundNodesTreeBuilder Builder;
|
|
if (MP.first.matchesNoKindCheck(DynNode, this, &Builder)) {
|
|
MatchVisitor Visitor(ActiveASTContext, MP.second);
|
|
Builder.visitMatches(&Visitor);
|
|
}
|
|
}
|
|
}
|
|
|
|
const std::vector<unsigned short> &
|
|
getFilterForKind(ast_type_traits::ASTNodeKind Kind) {
|
|
auto &Filter = MatcherFiltersMap[Kind];
|
|
auto &Matchers = this->Matchers->DeclOrStmt;
|
|
assert((Matchers.size() < USHRT_MAX) && "Too many matchers.");
|
|
for (unsigned I = 0, E = Matchers.size(); I != E; ++I) {
|
|
if (Matchers[I].first.canMatchNodesOfKind(Kind)) {
|
|
Filter.push_back(I);
|
|
}
|
|
}
|
|
return Filter;
|
|
}
|
|
|
|
/// @{
|
|
/// \brief Overloads to pair the different node types to their matchers.
|
|
void matchDispatch(const Decl *Node) {
|
|
return matchWithFilter(ast_type_traits::DynTypedNode::create(*Node));
|
|
}
|
|
void matchDispatch(const Stmt *Node) {
|
|
return matchWithFilter(ast_type_traits::DynTypedNode::create(*Node));
|
|
}
|
|
|
|
void matchDispatch(const Type *Node) {
|
|
matchWithoutFilter(QualType(Node, 0), Matchers->Type);
|
|
}
|
|
void matchDispatch(const TypeLoc *Node) {
|
|
matchWithoutFilter(*Node, Matchers->TypeLoc);
|
|
}
|
|
void matchDispatch(const QualType *Node) {
|
|
matchWithoutFilter(*Node, Matchers->Type);
|
|
}
|
|
void matchDispatch(const NestedNameSpecifier *Node) {
|
|
matchWithoutFilter(*Node, Matchers->NestedNameSpecifier);
|
|
}
|
|
void matchDispatch(const NestedNameSpecifierLoc *Node) {
|
|
matchWithoutFilter(*Node, Matchers->NestedNameSpecifierLoc);
|
|
}
|
|
void matchDispatch(const void *) { /* Do nothing. */ }
|
|
/// @}
|
|
|
|
// Returns whether an ancestor of \p Node matches \p Matcher.
|
|
//
|
|
// The order of matching ((which can lead to different nodes being bound in
|
|
// case there are multiple matches) is breadth first search.
|
|
//
|
|
// To allow memoization in the very common case of having deeply nested
|
|
// expressions inside a template function, we first walk up the AST, memoizing
|
|
// the result of the match along the way, as long as there is only a single
|
|
// parent.
|
|
//
|
|
// Once there are multiple parents, the breadth first search order does not
|
|
// allow simple memoization on the ancestors. Thus, we only memoize as long
|
|
// as there is a single parent.
|
|
bool memoizedMatchesAncestorOfRecursively(
|
|
const ast_type_traits::DynTypedNode &Node, const DynTypedMatcher &Matcher,
|
|
BoundNodesTreeBuilder *Builder, AncestorMatchMode MatchMode) {
|
|
if (Node.get<TranslationUnitDecl>() ==
|
|
ActiveASTContext->getTranslationUnitDecl())
|
|
return false;
|
|
|
|
// For AST-nodes that don't have an identity, we can't memoize.
|
|
if (!Builder->isComparable())
|
|
return matchesAncestorOfRecursively(Node, Matcher, Builder, MatchMode);
|
|
|
|
MatchKey Key;
|
|
Key.MatcherID = Matcher.getID();
|
|
Key.Node = Node;
|
|
Key.BoundNodes = *Builder;
|
|
|
|
// Note that we cannot use insert and reuse the iterator, as recursive
|
|
// calls to match might invalidate the result cache iterators.
|
|
MemoizationMap::iterator I = ResultCache.find(Key);
|
|
if (I != ResultCache.end()) {
|
|
*Builder = I->second.Nodes;
|
|
return I->second.ResultOfMatch;
|
|
}
|
|
|
|
MemoizedMatchResult Result;
|
|
Result.Nodes = *Builder;
|
|
Result.ResultOfMatch =
|
|
matchesAncestorOfRecursively(Node, Matcher, &Result.Nodes, MatchMode);
|
|
|
|
MemoizedMatchResult &CachedResult = ResultCache[Key];
|
|
CachedResult = std::move(Result);
|
|
|
|
*Builder = CachedResult.Nodes;
|
|
return CachedResult.ResultOfMatch;
|
|
}
|
|
|
|
bool matchesAncestorOfRecursively(const ast_type_traits::DynTypedNode &Node,
|
|
const DynTypedMatcher &Matcher,
|
|
BoundNodesTreeBuilder *Builder,
|
|
AncestorMatchMode MatchMode) {
|
|
const auto &Parents = ActiveASTContext->getParents(Node);
|
|
assert(!Parents.empty() && "Found node that is not in the parent map.");
|
|
if (Parents.size() == 1) {
|
|
// Only one parent - do recursive memoization.
|
|
const ast_type_traits::DynTypedNode Parent = Parents[0];
|
|
BoundNodesTreeBuilder BuilderCopy = *Builder;
|
|
if (Matcher.matches(Parent, this, &BuilderCopy)) {
|
|
*Builder = std::move(BuilderCopy);
|
|
return true;
|
|
}
|
|
if (MatchMode != ASTMatchFinder::AMM_ParentOnly) {
|
|
return memoizedMatchesAncestorOfRecursively(Parent, Matcher, Builder,
|
|
MatchMode);
|
|
// Once we get back from the recursive call, the result will be the
|
|
// same as the parent's result.
|
|
}
|
|
} else {
|
|
// Multiple parents - BFS over the rest of the nodes.
|
|
llvm::DenseSet<const void *> Visited;
|
|
std::deque<ast_type_traits::DynTypedNode> Queue(Parents.begin(),
|
|
Parents.end());
|
|
while (!Queue.empty()) {
|
|
BoundNodesTreeBuilder BuilderCopy = *Builder;
|
|
if (Matcher.matches(Queue.front(), this, &BuilderCopy)) {
|
|
*Builder = std::move(BuilderCopy);
|
|
return true;
|
|
}
|
|
if (MatchMode != ASTMatchFinder::AMM_ParentOnly) {
|
|
for (const auto &Parent :
|
|
ActiveASTContext->getParents(Queue.front())) {
|
|
// Make sure we do not visit the same node twice.
|
|
// Otherwise, we'll visit the common ancestors as often as there
|
|
// are splits on the way down.
|
|
if (Visited.insert(Parent.getMemoizationData()).second)
|
|
Queue.push_back(Parent);
|
|
}
|
|
}
|
|
Queue.pop_front();
|
|
}
|
|
}
|
|
return false;
|
|
}
|
|
|
|
// Implements a BoundNodesTree::Visitor that calls a MatchCallback with
|
|
// the aggregated bound nodes for each match.
|
|
class MatchVisitor : public BoundNodesTreeBuilder::Visitor {
|
|
public:
|
|
MatchVisitor(ASTContext* Context,
|
|
MatchFinder::MatchCallback* Callback)
|
|
: Context(Context),
|
|
Callback(Callback) {}
|
|
|
|
void visitMatch(const BoundNodes& BoundNodesView) override {
|
|
Callback->run(MatchFinder::MatchResult(BoundNodesView, Context));
|
|
}
|
|
|
|
private:
|
|
ASTContext* Context;
|
|
MatchFinder::MatchCallback* Callback;
|
|
};
|
|
|
|
// Returns true if 'TypeNode' has an alias that matches the given matcher.
|
|
bool typeHasMatchingAlias(const Type *TypeNode,
|
|
const Matcher<NamedDecl> &Matcher,
|
|
BoundNodesTreeBuilder *Builder) {
|
|
const Type *const CanonicalType =
|
|
ActiveASTContext->getCanonicalType(TypeNode);
|
|
for (const TypedefNameDecl *Alias : TypeAliases.lookup(CanonicalType)) {
|
|
BoundNodesTreeBuilder Result(*Builder);
|
|
if (Matcher.matches(*Alias, this, &Result)) {
|
|
*Builder = std::move(Result);
|
|
return true;
|
|
}
|
|
}
|
|
return false;
|
|
}
|
|
|
|
/// \brief Bucket to record map.
|
|
///
|
|
/// Used to get the appropriate bucket for each matcher.
|
|
llvm::StringMap<llvm::TimeRecord> TimeByBucket;
|
|
|
|
const MatchFinder::MatchersByType *Matchers;
|
|
|
|
/// \brief Filtered list of matcher indices for each matcher kind.
|
|
///
|
|
/// \c Decl and \c Stmt toplevel matchers usually apply to a specific node
|
|
/// kind (and derived kinds) so it is a waste to try every matcher on every
|
|
/// node.
|
|
/// We precalculate a list of matchers that pass the toplevel restrict check.
|
|
/// This also allows us to skip the restrict check at matching time. See
|
|
/// use \c matchesNoKindCheck() above.
|
|
llvm::DenseMap<ast_type_traits::ASTNodeKind, std::vector<unsigned short>>
|
|
MatcherFiltersMap;
|
|
|
|
const MatchFinder::MatchFinderOptions &Options;
|
|
ASTContext *ActiveASTContext;
|
|
|
|
// Maps a canonical type to its TypedefDecls.
|
|
llvm::DenseMap<const Type*, std::set<const TypedefNameDecl*> > TypeAliases;
|
|
|
|
// Maps (matcher, node) -> the match result for memoization.
|
|
typedef std::map<MatchKey, MemoizedMatchResult> MemoizationMap;
|
|
MemoizationMap ResultCache;
|
|
};
|
|
|
|
static CXXRecordDecl *
|
|
getAsCXXRecordDeclOrPrimaryTemplate(const Type *TypeNode) {
|
|
if (auto *RD = TypeNode->getAsCXXRecordDecl())
|
|
return RD;
|
|
|
|
// Find the innermost TemplateSpecializationType that isn't an alias template.
|
|
auto *TemplateType = TypeNode->getAs<TemplateSpecializationType>();
|
|
while (TemplateType && TemplateType->isTypeAlias())
|
|
TemplateType =
|
|
TemplateType->getAliasedType()->getAs<TemplateSpecializationType>();
|
|
|
|
// If this is the name of a (dependent) template specialization, use the
|
|
// definition of the template, even though it might be specialized later.
|
|
if (TemplateType)
|
|
if (auto *ClassTemplate = dyn_cast_or_null<ClassTemplateDecl>(
|
|
TemplateType->getTemplateName().getAsTemplateDecl()))
|
|
return ClassTemplate->getTemplatedDecl();
|
|
|
|
return nullptr;
|
|
}
|
|
|
|
// Returns true if the given class is directly or indirectly derived
|
|
// from a base type with the given name. A class is not considered to be
|
|
// derived from itself.
|
|
bool MatchASTVisitor::classIsDerivedFrom(const CXXRecordDecl *Declaration,
|
|
const Matcher<NamedDecl> &Base,
|
|
BoundNodesTreeBuilder *Builder) {
|
|
if (!Declaration->hasDefinition())
|
|
return false;
|
|
for (const auto &It : Declaration->bases()) {
|
|
const Type *TypeNode = It.getType().getTypePtr();
|
|
|
|
if (typeHasMatchingAlias(TypeNode, Base, Builder))
|
|
return true;
|
|
|
|
// FIXME: Going to the primary template here isn't really correct, but
|
|
// unfortunately we accept a Decl matcher for the base class not a Type
|
|
// matcher, so it's the best thing we can do with our current interface.
|
|
CXXRecordDecl *ClassDecl = getAsCXXRecordDeclOrPrimaryTemplate(TypeNode);
|
|
if (!ClassDecl)
|
|
continue;
|
|
if (ClassDecl == Declaration) {
|
|
// This can happen for recursive template definitions; if the
|
|
// current declaration did not match, we can safely return false.
|
|
return false;
|
|
}
|
|
BoundNodesTreeBuilder Result(*Builder);
|
|
if (Base.matches(*ClassDecl, this, &Result)) {
|
|
*Builder = std::move(Result);
|
|
return true;
|
|
}
|
|
if (classIsDerivedFrom(ClassDecl, Base, Builder))
|
|
return true;
|
|
}
|
|
return false;
|
|
}
|
|
|
|
bool MatchASTVisitor::TraverseDecl(Decl *DeclNode) {
|
|
if (!DeclNode) {
|
|
return true;
|
|
}
|
|
match(*DeclNode);
|
|
return RecursiveASTVisitor<MatchASTVisitor>::TraverseDecl(DeclNode);
|
|
}
|
|
|
|
bool MatchASTVisitor::TraverseStmt(Stmt *StmtNode) {
|
|
if (!StmtNode) {
|
|
return true;
|
|
}
|
|
match(*StmtNode);
|
|
return RecursiveASTVisitor<MatchASTVisitor>::TraverseStmt(StmtNode);
|
|
}
|
|
|
|
bool MatchASTVisitor::TraverseType(QualType TypeNode) {
|
|
match(TypeNode);
|
|
return RecursiveASTVisitor<MatchASTVisitor>::TraverseType(TypeNode);
|
|
}
|
|
|
|
bool MatchASTVisitor::TraverseTypeLoc(TypeLoc TypeLocNode) {
|
|
// The RecursiveASTVisitor only visits types if they're not within TypeLocs.
|
|
// We still want to find those types via matchers, so we match them here. Note
|
|
// that the TypeLocs are structurally a shadow-hierarchy to the expressed
|
|
// type, so we visit all involved parts of a compound type when matching on
|
|
// each TypeLoc.
|
|
match(TypeLocNode);
|
|
match(TypeLocNode.getType());
|
|
return RecursiveASTVisitor<MatchASTVisitor>::TraverseTypeLoc(TypeLocNode);
|
|
}
|
|
|
|
bool MatchASTVisitor::TraverseNestedNameSpecifier(NestedNameSpecifier *NNS) {
|
|
match(*NNS);
|
|
return RecursiveASTVisitor<MatchASTVisitor>::TraverseNestedNameSpecifier(NNS);
|
|
}
|
|
|
|
bool MatchASTVisitor::TraverseNestedNameSpecifierLoc(
|
|
NestedNameSpecifierLoc NNS) {
|
|
if (!NNS)
|
|
return true;
|
|
|
|
match(NNS);
|
|
|
|
// We only match the nested name specifier here (as opposed to traversing it)
|
|
// because the traversal is already done in the parallel "Loc"-hierarchy.
|
|
if (NNS.hasQualifier())
|
|
match(*NNS.getNestedNameSpecifier());
|
|
return
|
|
RecursiveASTVisitor<MatchASTVisitor>::TraverseNestedNameSpecifierLoc(NNS);
|
|
}
|
|
|
|
class MatchASTConsumer : public ASTConsumer {
|
|
public:
|
|
MatchASTConsumer(MatchFinder *Finder,
|
|
MatchFinder::ParsingDoneTestCallback *ParsingDone)
|
|
: Finder(Finder), ParsingDone(ParsingDone) {}
|
|
|
|
private:
|
|
void HandleTranslationUnit(ASTContext &Context) override {
|
|
if (ParsingDone != nullptr) {
|
|
ParsingDone->run();
|
|
}
|
|
Finder->matchAST(Context);
|
|
}
|
|
|
|
MatchFinder *Finder;
|
|
MatchFinder::ParsingDoneTestCallback *ParsingDone;
|
|
};
|
|
|
|
} // end namespace
|
|
} // end namespace internal
|
|
|
|
MatchFinder::MatchResult::MatchResult(const BoundNodes &Nodes,
|
|
ASTContext *Context)
|
|
: Nodes(Nodes), Context(Context),
|
|
SourceManager(&Context->getSourceManager()) {}
|
|
|
|
MatchFinder::MatchCallback::~MatchCallback() {}
|
|
MatchFinder::ParsingDoneTestCallback::~ParsingDoneTestCallback() {}
|
|
|
|
MatchFinder::MatchFinder(MatchFinderOptions Options)
|
|
: Options(std::move(Options)), ParsingDone(nullptr) {}
|
|
|
|
MatchFinder::~MatchFinder() {}
|
|
|
|
void MatchFinder::addMatcher(const DeclarationMatcher &NodeMatch,
|
|
MatchCallback *Action) {
|
|
Matchers.DeclOrStmt.emplace_back(NodeMatch, Action);
|
|
Matchers.AllCallbacks.insert(Action);
|
|
}
|
|
|
|
void MatchFinder::addMatcher(const TypeMatcher &NodeMatch,
|
|
MatchCallback *Action) {
|
|
Matchers.Type.emplace_back(NodeMatch, Action);
|
|
Matchers.AllCallbacks.insert(Action);
|
|
}
|
|
|
|
void MatchFinder::addMatcher(const StatementMatcher &NodeMatch,
|
|
MatchCallback *Action) {
|
|
Matchers.DeclOrStmt.emplace_back(NodeMatch, Action);
|
|
Matchers.AllCallbacks.insert(Action);
|
|
}
|
|
|
|
void MatchFinder::addMatcher(const NestedNameSpecifierMatcher &NodeMatch,
|
|
MatchCallback *Action) {
|
|
Matchers.NestedNameSpecifier.emplace_back(NodeMatch, Action);
|
|
Matchers.AllCallbacks.insert(Action);
|
|
}
|
|
|
|
void MatchFinder::addMatcher(const NestedNameSpecifierLocMatcher &NodeMatch,
|
|
MatchCallback *Action) {
|
|
Matchers.NestedNameSpecifierLoc.emplace_back(NodeMatch, Action);
|
|
Matchers.AllCallbacks.insert(Action);
|
|
}
|
|
|
|
void MatchFinder::addMatcher(const TypeLocMatcher &NodeMatch,
|
|
MatchCallback *Action) {
|
|
Matchers.TypeLoc.emplace_back(NodeMatch, Action);
|
|
Matchers.AllCallbacks.insert(Action);
|
|
}
|
|
|
|
bool MatchFinder::addDynamicMatcher(const internal::DynTypedMatcher &NodeMatch,
|
|
MatchCallback *Action) {
|
|
if (NodeMatch.canConvertTo<Decl>()) {
|
|
addMatcher(NodeMatch.convertTo<Decl>(), Action);
|
|
return true;
|
|
} else if (NodeMatch.canConvertTo<QualType>()) {
|
|
addMatcher(NodeMatch.convertTo<QualType>(), Action);
|
|
return true;
|
|
} else if (NodeMatch.canConvertTo<Stmt>()) {
|
|
addMatcher(NodeMatch.convertTo<Stmt>(), Action);
|
|
return true;
|
|
} else if (NodeMatch.canConvertTo<NestedNameSpecifier>()) {
|
|
addMatcher(NodeMatch.convertTo<NestedNameSpecifier>(), Action);
|
|
return true;
|
|
} else if (NodeMatch.canConvertTo<NestedNameSpecifierLoc>()) {
|
|
addMatcher(NodeMatch.convertTo<NestedNameSpecifierLoc>(), Action);
|
|
return true;
|
|
} else if (NodeMatch.canConvertTo<TypeLoc>()) {
|
|
addMatcher(NodeMatch.convertTo<TypeLoc>(), Action);
|
|
return true;
|
|
}
|
|
return false;
|
|
}
|
|
|
|
std::unique_ptr<ASTConsumer> MatchFinder::newASTConsumer() {
|
|
return llvm::make_unique<internal::MatchASTConsumer>(this, ParsingDone);
|
|
}
|
|
|
|
void MatchFinder::match(const clang::ast_type_traits::DynTypedNode &Node,
|
|
ASTContext &Context) {
|
|
internal::MatchASTVisitor Visitor(&Matchers, Options);
|
|
Visitor.set_active_ast_context(&Context);
|
|
Visitor.match(Node);
|
|
}
|
|
|
|
void MatchFinder::matchAST(ASTContext &Context) {
|
|
internal::MatchASTVisitor Visitor(&Matchers, Options);
|
|
Visitor.set_active_ast_context(&Context);
|
|
Visitor.onStartOfTranslationUnit();
|
|
Visitor.TraverseDecl(Context.getTranslationUnitDecl());
|
|
Visitor.onEndOfTranslationUnit();
|
|
}
|
|
|
|
void MatchFinder::registerTestCallbackAfterParsing(
|
|
MatchFinder::ParsingDoneTestCallback *NewParsingDone) {
|
|
ParsingDone = NewParsingDone;
|
|
}
|
|
|
|
StringRef MatchFinder::MatchCallback::getID() const { return "<unknown>"; }
|
|
|
|
} // end namespace ast_matchers
|
|
} // end namespace clang
|