447 lines
17 KiB
C++
447 lines
17 KiB
C++
//===--- Transformer.cpp - Transformer library implementation ---*- 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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#include "clang/Tooling/Transformer/RewriteRule.h"
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#include "clang/AST/ASTTypeTraits.h"
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#include "clang/AST/Stmt.h"
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#include "clang/ASTMatchers/ASTMatchFinder.h"
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#include "clang/ASTMatchers/ASTMatchers.h"
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#include "clang/Basic/SourceLocation.h"
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#include "clang/Tooling/Transformer/SourceCode.h"
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Support/Errc.h"
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#include "llvm/Support/Error.h"
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#include <map>
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#include <string>
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#include <utility>
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#include <vector>
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using namespace clang;
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using namespace transformer;
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using ast_matchers::MatchFinder;
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using ast_matchers::internal::DynTypedMatcher;
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using MatchResult = MatchFinder::MatchResult;
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const char transformer::RootID[] = "___root___";
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static Expected<SmallVector<transformer::Edit, 1>>
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translateEdits(const MatchResult &Result, ArrayRef<ASTEdit> ASTEdits) {
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SmallVector<transformer::Edit, 1> Edits;
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for (const auto &E : ASTEdits) {
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Expected<CharSourceRange> Range = E.TargetRange(Result);
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if (!Range)
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return Range.takeError();
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llvm::Optional<CharSourceRange> EditRange =
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tooling::getRangeForEdit(*Range, *Result.Context);
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// FIXME: let user specify whether to treat this case as an error or ignore
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// it as is currently done. This behavior is problematic in that it hides
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// failures from bad ranges. Also, the behavior here differs from
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// `flatten`. Here, we abort (without error), whereas flatten, if it hits an
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// empty list, does not abort. As a result, `editList({A,B})` is not
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// equivalent to `flatten(edit(A), edit(B))`. The former will abort if `A`
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// produces a bad range, whereas the latter will simply ignore A.
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if (!EditRange)
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return SmallVector<Edit, 0>();
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auto Replacement = E.Replacement->eval(Result);
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if (!Replacement)
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return Replacement.takeError();
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auto Metadata = E.Metadata(Result);
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if (!Metadata)
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return Metadata.takeError();
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transformer::Edit T;
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T.Kind = E.Kind;
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T.Range = *EditRange;
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T.Replacement = std::move(*Replacement);
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T.Metadata = std::move(*Metadata);
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Edits.push_back(std::move(T));
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}
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return Edits;
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}
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EditGenerator transformer::editList(SmallVector<ASTEdit, 1> Edits) {
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return [Edits = std::move(Edits)](const MatchResult &Result) {
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return translateEdits(Result, Edits);
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};
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}
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EditGenerator transformer::edit(ASTEdit Edit) {
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return [Edit = std::move(Edit)](const MatchResult &Result) {
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return translateEdits(Result, {Edit});
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};
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}
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EditGenerator transformer::noopEdit(RangeSelector Anchor) {
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return [Anchor = std::move(Anchor)](const MatchResult &Result)
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-> Expected<SmallVector<transformer::Edit, 1>> {
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Expected<CharSourceRange> Range = Anchor(Result);
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if (!Range)
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return Range.takeError();
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// In case the range is inside a macro expansion, map the location back to a
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// "real" source location.
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SourceLocation Begin =
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Result.SourceManager->getSpellingLoc(Range->getBegin());
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Edit E;
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// Implicitly, leave `E.Replacement` as the empty string.
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E.Kind = EditKind::Range;
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E.Range = CharSourceRange::getCharRange(Begin, Begin);
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return SmallVector<Edit, 1>{E};
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};
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}
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EditGenerator
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transformer::flattenVector(SmallVector<EditGenerator, 2> Generators) {
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if (Generators.size() == 1)
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return std::move(Generators[0]);
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return
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[Gs = std::move(Generators)](
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const MatchResult &Result) -> llvm::Expected<SmallVector<Edit, 1>> {
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SmallVector<Edit, 1> AllEdits;
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for (const auto &G : Gs) {
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llvm::Expected<SmallVector<Edit, 1>> Edits = G(Result);
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if (!Edits)
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return Edits.takeError();
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AllEdits.append(Edits->begin(), Edits->end());
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}
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return AllEdits;
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};
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}
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ASTEdit transformer::changeTo(RangeSelector Target, TextGenerator Replacement) {
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ASTEdit E;
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E.TargetRange = std::move(Target);
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E.Replacement = std::move(Replacement);
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return E;
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}
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namespace {
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/// A \c TextGenerator that always returns a fixed string.
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class SimpleTextGenerator : public MatchComputation<std::string> {
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std::string S;
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public:
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SimpleTextGenerator(std::string S) : S(std::move(S)) {}
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llvm::Error eval(const ast_matchers::MatchFinder::MatchResult &,
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std::string *Result) const override {
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Result->append(S);
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return llvm::Error::success();
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}
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std::string toString() const override {
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return (llvm::Twine("text(\"") + S + "\")").str();
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}
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};
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} // namespace
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static TextGenerator makeText(std::string S) {
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return std::make_shared<SimpleTextGenerator>(std::move(S));
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}
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ASTEdit transformer::remove(RangeSelector S) {
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return change(std::move(S), makeText(""));
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}
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static std::string formatHeaderPath(StringRef Header, IncludeFormat Format) {
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switch (Format) {
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case transformer::IncludeFormat::Quoted:
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return Header.str();
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case transformer::IncludeFormat::Angled:
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return ("<" + Header + ">").str();
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}
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llvm_unreachable("Unknown transformer::IncludeFormat enum");
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}
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ASTEdit transformer::addInclude(RangeSelector Target, StringRef Header,
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IncludeFormat Format) {
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ASTEdit E;
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E.Kind = EditKind::AddInclude;
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E.TargetRange = Target;
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E.Replacement = makeText(formatHeaderPath(Header, Format));
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return E;
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}
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RewriteRule transformer::makeRule(DynTypedMatcher M, EditGenerator Edits,
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TextGenerator Explanation) {
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return RewriteRule{{RewriteRule::Case{std::move(M), std::move(Edits),
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std::move(Explanation)}}};
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}
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namespace {
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/// Unconditionally binds the given node set before trying `InnerMatcher` and
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/// keeps the bound nodes on a successful match.
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template <typename T>
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class BindingsMatcher : public ast_matchers::internal::MatcherInterface<T> {
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ast_matchers::BoundNodes Nodes;
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const ast_matchers::internal::Matcher<T> InnerMatcher;
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public:
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explicit BindingsMatcher(ast_matchers::BoundNodes Nodes,
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ast_matchers::internal::Matcher<T> InnerMatcher)
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: Nodes(std::move(Nodes)), InnerMatcher(std::move(InnerMatcher)) {}
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bool matches(
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const T &Node, ast_matchers::internal::ASTMatchFinder *Finder,
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ast_matchers::internal::BoundNodesTreeBuilder *Builder) const override {
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ast_matchers::internal::BoundNodesTreeBuilder Result(*Builder);
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for (const auto &N : Nodes.getMap())
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Result.setBinding(N.first, N.second);
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if (InnerMatcher.matches(Node, Finder, &Result)) {
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*Builder = std::move(Result);
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return true;
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}
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return false;
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}
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};
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/// Matches nodes of type T that have at least one descendant node for which the
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/// given inner matcher matches. Will match for each descendant node that
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/// matches. Based on ForEachDescendantMatcher, but takes a dynamic matcher,
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/// instead of a static one, because it is used by RewriteRule, which carries
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/// (only top-level) dynamic matchers.
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template <typename T>
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class DynamicForEachDescendantMatcher
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: public ast_matchers::internal::MatcherInterface<T> {
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const DynTypedMatcher DescendantMatcher;
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public:
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explicit DynamicForEachDescendantMatcher(DynTypedMatcher DescendantMatcher)
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: DescendantMatcher(std::move(DescendantMatcher)) {}
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bool matches(
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const T &Node, ast_matchers::internal::ASTMatchFinder *Finder,
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ast_matchers::internal::BoundNodesTreeBuilder *Builder) const override {
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return Finder->matchesDescendantOf(
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Node, this->DescendantMatcher, Builder,
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ast_matchers::internal::ASTMatchFinder::BK_All);
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}
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};
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template <typename T>
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ast_matchers::internal::Matcher<T>
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forEachDescendantDynamically(ast_matchers::BoundNodes Nodes,
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DynTypedMatcher M) {
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return ast_matchers::internal::makeMatcher(new BindingsMatcher<T>(
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std::move(Nodes),
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ast_matchers::internal::makeMatcher(
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new DynamicForEachDescendantMatcher<T>(std::move(M)))));
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}
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class ApplyRuleCallback : public MatchFinder::MatchCallback {
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public:
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ApplyRuleCallback(RewriteRule Rule) : Rule(std::move(Rule)) {}
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template <typename T>
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void registerMatchers(const ast_matchers::BoundNodes &Nodes,
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MatchFinder *MF) {
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for (auto &Matcher : transformer::detail::buildMatchers(Rule))
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MF->addMatcher(forEachDescendantDynamically<T>(Nodes, Matcher), this);
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}
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void run(const MatchFinder::MatchResult &Result) override {
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if (!Edits)
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return;
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transformer::RewriteRule::Case Case =
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transformer::detail::findSelectedCase(Result, Rule);
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auto Transformations = Case.Edits(Result);
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if (!Transformations) {
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Edits = Transformations.takeError();
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return;
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}
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Edits->append(Transformations->begin(), Transformations->end());
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}
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RewriteRule Rule;
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// Initialize to a non-error state.
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Expected<SmallVector<Edit, 1>> Edits = SmallVector<Edit, 1>();
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};
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} // namespace
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template <typename T>
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llvm::Expected<SmallVector<clang::transformer::Edit, 1>>
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rewriteDescendantsImpl(const T &Node, RewriteRule Rule,
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const MatchResult &Result) {
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ApplyRuleCallback Callback(std::move(Rule));
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MatchFinder Finder;
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Callback.registerMatchers<T>(Result.Nodes, &Finder);
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Finder.match(Node, *Result.Context);
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return std::move(Callback.Edits);
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}
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llvm::Expected<SmallVector<clang::transformer::Edit, 1>>
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transformer::detail::rewriteDescendants(const Decl &Node, RewriteRule Rule,
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const MatchResult &Result) {
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return rewriteDescendantsImpl(Node, std::move(Rule), Result);
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}
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llvm::Expected<SmallVector<clang::transformer::Edit, 1>>
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transformer::detail::rewriteDescendants(const Stmt &Node, RewriteRule Rule,
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const MatchResult &Result) {
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return rewriteDescendantsImpl(Node, std::move(Rule), Result);
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}
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llvm::Expected<SmallVector<clang::transformer::Edit, 1>>
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transformer::detail::rewriteDescendants(const TypeLoc &Node, RewriteRule Rule,
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const MatchResult &Result) {
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return rewriteDescendantsImpl(Node, std::move(Rule), Result);
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}
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llvm::Expected<SmallVector<clang::transformer::Edit, 1>>
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transformer::detail::rewriteDescendants(const DynTypedNode &DNode,
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RewriteRule Rule,
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const MatchResult &Result) {
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if (const auto *Node = DNode.get<Decl>())
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return rewriteDescendantsImpl(*Node, std::move(Rule), Result);
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if (const auto *Node = DNode.get<Stmt>())
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return rewriteDescendantsImpl(*Node, std::move(Rule), Result);
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if (const auto *Node = DNode.get<TypeLoc>())
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return rewriteDescendantsImpl(*Node, std::move(Rule), Result);
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return llvm::make_error<llvm::StringError>(
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llvm::errc::invalid_argument,
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"type unsupported for recursive rewriting, Kind=" +
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DNode.getNodeKind().asStringRef());
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}
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EditGenerator transformer::rewriteDescendants(std::string NodeId,
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RewriteRule Rule) {
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return [NodeId = std::move(NodeId),
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Rule = std::move(Rule)](const MatchResult &Result)
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-> llvm::Expected<SmallVector<clang::transformer::Edit, 1>> {
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const ast_matchers::BoundNodes::IDToNodeMap &NodesMap =
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Result.Nodes.getMap();
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auto It = NodesMap.find(NodeId);
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if (It == NodesMap.end())
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return llvm::make_error<llvm::StringError>(llvm::errc::invalid_argument,
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"ID not bound: " + NodeId);
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return detail::rewriteDescendants(It->second, std::move(Rule), Result);
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};
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}
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void transformer::addInclude(RewriteRule &Rule, StringRef Header,
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IncludeFormat Format) {
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for (auto &Case : Rule.Cases)
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Case.Edits = flatten(std::move(Case.Edits), addInclude(Header, Format));
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}
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#ifndef NDEBUG
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// Filters for supported matcher kinds. FIXME: Explicitly list the allowed kinds
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// (all node matcher types except for `QualType` and `Type`), rather than just
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// banning `QualType` and `Type`.
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static bool hasValidKind(const DynTypedMatcher &M) {
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return !M.canConvertTo<QualType>();
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}
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#endif
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// Binds each rule's matcher to a unique (and deterministic) tag based on
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// `TagBase` and the id paired with the case. All of the returned matchers have
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// their traversal kind explicitly set, either based on a pre-set kind or to the
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// provided `DefaultTraversalKind`.
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static std::vector<DynTypedMatcher> taggedMatchers(
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StringRef TagBase,
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const SmallVectorImpl<std::pair<size_t, RewriteRule::Case>> &Cases,
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TraversalKind DefaultTraversalKind) {
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std::vector<DynTypedMatcher> Matchers;
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Matchers.reserve(Cases.size());
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for (const auto &Case : Cases) {
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std::string Tag = (TagBase + Twine(Case.first)).str();
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// HACK: Many matchers are not bindable, so ensure that tryBind will work.
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DynTypedMatcher BoundMatcher(Case.second.Matcher);
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BoundMatcher.setAllowBind(true);
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auto M = *BoundMatcher.tryBind(Tag);
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Matchers.push_back(!M.getTraversalKind()
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? M.withTraversalKind(DefaultTraversalKind)
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: std::move(M));
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}
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return Matchers;
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}
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// Simply gathers the contents of the various rules into a single rule. The
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// actual work to combine these into an ordered choice is deferred to matcher
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// registration.
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RewriteRule transformer::applyFirst(ArrayRef<RewriteRule> Rules) {
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RewriteRule R;
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for (auto &Rule : Rules)
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R.Cases.append(Rule.Cases.begin(), Rule.Cases.end());
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return R;
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}
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std::vector<DynTypedMatcher>
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transformer::detail::buildMatchers(const RewriteRule &Rule) {
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// Map the cases into buckets of matchers -- one for each "root" AST kind,
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// which guarantees that they can be combined in a single anyOf matcher. Each
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// case is paired with an identifying number that is converted to a string id
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// in `taggedMatchers`.
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std::map<ASTNodeKind, SmallVector<std::pair<size_t, RewriteRule::Case>, 1>>
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Buckets;
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const SmallVectorImpl<RewriteRule::Case> &Cases = Rule.Cases;
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for (int I = 0, N = Cases.size(); I < N; ++I) {
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assert(hasValidKind(Cases[I].Matcher) &&
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"Matcher must be non-(Qual)Type node matcher");
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Buckets[Cases[I].Matcher.getSupportedKind()].emplace_back(I, Cases[I]);
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}
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// Each anyOf explicitly controls the traversal kind. The anyOf itself is set
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// to `TK_AsIs` to ensure no nodes are skipped, thereby deferring to the kind
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// of the branches. Then, each branch is either left as is, if the kind is
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// already set, or explicitly set to `TK_AsIs`. We choose this setting because
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// it is the default interpretation of matchers.
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std::vector<DynTypedMatcher> Matchers;
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for (const auto &Bucket : Buckets) {
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DynTypedMatcher M = DynTypedMatcher::constructVariadic(
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DynTypedMatcher::VO_AnyOf, Bucket.first,
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taggedMatchers("Tag", Bucket.second, TK_AsIs));
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M.setAllowBind(true);
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// `tryBind` is guaranteed to succeed, because `AllowBind` was set to true.
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Matchers.push_back(M.tryBind(RootID)->withTraversalKind(TK_AsIs));
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}
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return Matchers;
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}
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DynTypedMatcher transformer::detail::buildMatcher(const RewriteRule &Rule) {
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std::vector<DynTypedMatcher> Ms = buildMatchers(Rule);
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assert(Ms.size() == 1 && "Cases must have compatible matchers.");
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return Ms[0];
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}
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SourceLocation transformer::detail::getRuleMatchLoc(const MatchResult &Result) {
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auto &NodesMap = Result.Nodes.getMap();
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auto Root = NodesMap.find(RootID);
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assert(Root != NodesMap.end() && "Transformation failed: missing root node.");
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llvm::Optional<CharSourceRange> RootRange = tooling::getRangeForEdit(
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CharSourceRange::getTokenRange(Root->second.getSourceRange()),
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*Result.Context);
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if (RootRange)
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return RootRange->getBegin();
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// The match doesn't have a coherent range, so fall back to the expansion
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// location as the "beginning" of the match.
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return Result.SourceManager->getExpansionLoc(
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Root->second.getSourceRange().getBegin());
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}
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// Finds the case that was "selected" -- that is, whose matcher triggered the
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// `MatchResult`.
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const RewriteRule::Case &
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transformer::detail::findSelectedCase(const MatchResult &Result,
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const RewriteRule &Rule) {
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if (Rule.Cases.size() == 1)
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return Rule.Cases[0];
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auto &NodesMap = Result.Nodes.getMap();
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for (size_t i = 0, N = Rule.Cases.size(); i < N; ++i) {
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std::string Tag = ("Tag" + Twine(i)).str();
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if (NodesMap.find(Tag) != NodesMap.end())
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return Rule.Cases[i];
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}
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llvm_unreachable("No tag found for this rule.");
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}
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const llvm::StringRef RewriteRule::RootID = ::clang::transformer::RootID;
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