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//===--- RenamerClangTidyCheck.cpp - clang-tidy ---------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "RenamerClangTidyCheck.h"
#include "ASTUtils.h"
#include "clang/AST/CXXInheritance.h"
#include "clang/ASTMatchers/ASTMatchFinder.h"
#include "clang/Basic/CharInfo.h"
#include "clang/Frontend/CompilerInstance.h"
#include "clang/Lex/PPCallbacks.h"
#include "clang/Lex/Preprocessor.h"
#include "llvm/ADT/DenseMapInfo.h"
#include "llvm/ADT/PointerIntPair.h"
#define DEBUG_TYPE "clang-tidy"
using namespace clang::ast_matchers;
namespace llvm {
/// Specialization of DenseMapInfo to allow NamingCheckId objects in DenseMaps
template <>
struct DenseMapInfo<clang::tidy::RenamerClangTidyCheck::NamingCheckId> {
using NamingCheckId = clang::tidy::RenamerClangTidyCheck::NamingCheckId;
static inline NamingCheckId getEmptyKey() {
return NamingCheckId(DenseMapInfo<clang::SourceLocation>::getEmptyKey(),
"EMPTY");
}
static inline NamingCheckId getTombstoneKey() {
return NamingCheckId(DenseMapInfo<clang::SourceLocation>::getTombstoneKey(),
"TOMBSTONE");
}
static unsigned getHashValue(NamingCheckId Val) {
assert(Val != getEmptyKey() && "Cannot hash the empty key!");
assert(Val != getTombstoneKey() && "Cannot hash the tombstone key!");
std::hash<NamingCheckId::second_type> SecondHash;
return DenseMapInfo<clang::SourceLocation>::getHashValue(Val.first) +
SecondHash(Val.second);
}
static bool isEqual(const NamingCheckId &LHS, const NamingCheckId &RHS) {
if (RHS == getEmptyKey())
return LHS == getEmptyKey();
if (RHS == getTombstoneKey())
return LHS == getTombstoneKey();
return LHS == RHS;
}
};
} // namespace llvm
namespace clang {
namespace tidy {
namespace {
/// Callback supplies macros to RenamerClangTidyCheck::checkMacro
class RenamerClangTidyCheckPPCallbacks : public PPCallbacks {
public:
RenamerClangTidyCheckPPCallbacks(Preprocessor *PP,
RenamerClangTidyCheck *Check)
: PP(PP), Check(Check) {}
/// MacroDefined calls checkMacro for macros in the main file
void MacroDefined(const Token &MacroNameTok,
const MacroDirective *MD) override {
if (MD->getMacroInfo()->isBuiltinMacro())
return;
if (PP->getSourceManager().isWrittenInBuiltinFile(
MacroNameTok.getLocation()))
return;
if (PP->getSourceManager().isWrittenInCommandLineFile(
MacroNameTok.getLocation()))
return;
Check->checkMacro(PP->getSourceManager(), MacroNameTok, MD->getMacroInfo());
}
/// MacroExpands calls expandMacro for macros in the main file
void MacroExpands(const Token &MacroNameTok, const MacroDefinition &MD,
SourceRange /*Range*/,
const MacroArgs * /*Args*/) override {
Check->expandMacro(MacroNameTok, MD.getMacroInfo());
}
private:
Preprocessor *PP;
RenamerClangTidyCheck *Check;
};
} // namespace
RenamerClangTidyCheck::RenamerClangTidyCheck(StringRef CheckName,
ClangTidyContext *Context)
: ClangTidyCheck(CheckName, Context),
AggressiveDependentMemberLookup(
Options.getLocalOrGlobal("AggressiveDependentMemberLookup", false)) {}
RenamerClangTidyCheck::~RenamerClangTidyCheck() = default;
void RenamerClangTidyCheck::storeOptions(ClangTidyOptions::OptionMap &Opts) {
Options.store(Opts, "AggressiveDependentMemberLookup",
AggressiveDependentMemberLookup);
}
void RenamerClangTidyCheck::registerMatchers(MatchFinder *Finder) {
Finder->addMatcher(namedDecl().bind("decl"), this);
Finder->addMatcher(usingDecl().bind("using"), this);
Finder->addMatcher(declRefExpr().bind("declRef"), this);
Finder->addMatcher(cxxConstructorDecl(unless(isImplicit())).bind("classRef"),
this);
Finder->addMatcher(cxxDestructorDecl(unless(isImplicit())).bind("classRef"),
this);
Finder->addMatcher(typeLoc().bind("typeLoc"), this);
Finder->addMatcher(nestedNameSpecifierLoc().bind("nestedNameLoc"), this);
auto MemberRestrictions =
unless(forFunction(anyOf(isDefaulted(), isImplicit())));
Finder->addMatcher(memberExpr(MemberRestrictions).bind("memberExpr"), this);
Finder->addMatcher(
cxxDependentScopeMemberExpr(MemberRestrictions).bind("depMemberExpr"),
this);
}
void RenamerClangTidyCheck::registerPPCallbacks(
const SourceManager &SM, Preprocessor *PP, Preprocessor *ModuleExpanderPP) {
ModuleExpanderPP->addPPCallbacks(
std::make_unique<RenamerClangTidyCheckPPCallbacks>(ModuleExpanderPP,
this));
}
/// Returns the function that \p Method is overridding. If There are none or
/// multiple overrides it returns nullptr. If the overridden function itself is
/// overridding then it will recurse up to find the first decl of the function.
static const CXXMethodDecl *getOverrideMethod(const CXXMethodDecl *Method) {
if (Method->size_overridden_methods() != 1)
return nullptr;
while (true) {
Method = *Method->begin_overridden_methods();
assert(Method && "Overridden method shouldn't be null");
unsigned NumOverrides = Method->size_overridden_methods();
if (NumOverrides == 0)
return Method;
if (NumOverrides > 1)
return nullptr;
}
}
void RenamerClangTidyCheck::addUsage(
const RenamerClangTidyCheck::NamingCheckId &Decl, SourceRange Range,
SourceManager *SourceMgr) {
// Do nothing if the provided range is invalid.
if (Range.isInvalid())
return;
// If we have a source manager, use it to convert to the spelling location for
// performing the fix. This is necessary because macros can map the same
// spelling location to different source locations, and we only want to fix
// the token once, before it is expanded by the macro.
SourceLocation FixLocation = Range.getBegin();
if (SourceMgr)
FixLocation = SourceMgr->getSpellingLoc(FixLocation);
if (FixLocation.isInvalid())
return;
// Try to insert the identifier location in the Usages map, and bail out if it
// is already in there
RenamerClangTidyCheck::NamingCheckFailure &Failure =
NamingCheckFailures[Decl];
if (!Failure.RawUsageLocs.insert(FixLocation).second)
return;
if (!Failure.shouldFix())
return;
if (SourceMgr && SourceMgr->isWrittenInScratchSpace(FixLocation))
Failure.FixStatus = RenamerClangTidyCheck::ShouldFixStatus::InsideMacro;
if (!utils::rangeCanBeFixed(Range, SourceMgr))
Failure.FixStatus = RenamerClangTidyCheck::ShouldFixStatus::InsideMacro;
}
void RenamerClangTidyCheck::addUsage(const NamedDecl *Decl, SourceRange Range,
SourceManager *SourceMgr) {
if (const auto *Method = dyn_cast<CXXMethodDecl>(Decl)) {
if (const CXXMethodDecl *Overridden = getOverrideMethod(Method))
Decl = Overridden;
}
Decl = cast<NamedDecl>(Decl->getCanonicalDecl());
return addUsage(RenamerClangTidyCheck::NamingCheckId(Decl->getLocation(),
Decl->getNameAsString()),
Range, SourceMgr);
}
const NamedDecl *findDecl(const RecordDecl &RecDecl, StringRef DeclName) {
for (const Decl *D : RecDecl.decls()) {
if (const auto *ND = dyn_cast<NamedDecl>(D)) {
if (ND->getDeclName().isIdentifier() && ND->getName().equals(DeclName))
return ND;
}
}
return nullptr;
}
namespace {
class NameLookup {
llvm::PointerIntPair<const NamedDecl *, 1, bool> Data;
public:
explicit NameLookup(const NamedDecl *ND) : Data(ND, false) {}
explicit NameLookup(llvm::NoneType) : Data(nullptr, true) {}
explicit NameLookup(std::nullptr_t) : Data(nullptr, false) {}
NameLookup() : NameLookup(nullptr) {}
bool hasMultipleResolutions() const { return Data.getInt(); }
const NamedDecl *getDecl() const {
assert(!hasMultipleResolutions() && "Found multiple decls");
return Data.getPointer();
}
operator bool() const { return !hasMultipleResolutions(); }
const NamedDecl *operator*() const { return getDecl(); }
};
} // namespace
/// Returns a decl matching the \p DeclName in \p Parent or one of its base
/// classes. If \p AggressiveTemplateLookup is `true` then it will check
/// template dependent base classes as well.
/// If a matching decl is found in multiple base classes then it will return a
/// flag indicating the multiple resolutions.
NameLookup findDeclInBases(const CXXRecordDecl &Parent, StringRef DeclName,
bool AggressiveTemplateLookup) {
if (!Parent.hasDefinition())
return NameLookup(nullptr);
if (const NamedDecl *InClassRef = findDecl(Parent, DeclName))
return NameLookup(InClassRef);
const NamedDecl *Found = nullptr;
for (CXXBaseSpecifier Base : Parent.bases()) {
const auto *Record = Base.getType()->getAsCXXRecordDecl();
if (!Record && AggressiveTemplateLookup) {
if (const auto *TST =
Base.getType()->getAs<TemplateSpecializationType>()) {
if (const auto *TD = llvm::dyn_cast_or_null<ClassTemplateDecl>(
TST->getTemplateName().getAsTemplateDecl()))
Record = TD->getTemplatedDecl();
}
}
if (!Record)
continue;
if (auto Search =
findDeclInBases(*Record, DeclName, AggressiveTemplateLookup)) {
if (*Search) {
if (Found)
return NameLookup(
llvm::None); // Multiple decls found in different base classes.
Found = *Search;
continue;
}
} else
return NameLookup(llvm::None); // Propagate multiple resolution back up.
}
return NameLookup(Found); // If nullptr, decl wasn't found.
}
void RenamerClangTidyCheck::check(const MatchFinder::MatchResult &Result) {
if (const auto *Decl =
Result.Nodes.getNodeAs<CXXConstructorDecl>("classRef")) {
addUsage(Decl->getParent(), Decl->getNameInfo().getSourceRange(),
Result.SourceManager);
for (const auto *Init : Decl->inits()) {
if (!Init->isWritten() || Init->isInClassMemberInitializer())
continue;
if (const FieldDecl *FD = Init->getAnyMember())
addUsage(FD, SourceRange(Init->getMemberLocation()),
Result.SourceManager);
// Note: delegating constructors and base class initializers are handled
// via the "typeLoc" matcher.
}
return;
}
if (const auto *Decl =
Result.Nodes.getNodeAs<CXXDestructorDecl>("classRef")) {
SourceRange Range = Decl->getNameInfo().getSourceRange();
if (Range.getBegin().isInvalid())
return;
// The first token that will be found is the ~ (or the equivalent trigraph),
// we want instead to replace the next token, that will be the identifier.
Range.setBegin(CharSourceRange::getTokenRange(Range).getEnd());
addUsage(Decl->getParent(), Range, Result.SourceManager);
return;
}
if (const auto *Loc = Result.Nodes.getNodeAs<TypeLoc>("typeLoc")) {
UnqualTypeLoc Unqual = Loc->getUnqualifiedLoc();
NamedDecl *Decl = nullptr;
if (const auto &Ref = Unqual.getAs<TagTypeLoc>())
Decl = Ref.getDecl();
else if (const auto &Ref = Unqual.getAs<InjectedClassNameTypeLoc>())
Decl = Ref.getDecl();
else if (const auto &Ref = Unqual.getAs<UnresolvedUsingTypeLoc>())
Decl = Ref.getDecl();
else if (const auto &Ref = Unqual.getAs<TemplateTypeParmTypeLoc>())
Decl = Ref.getDecl();
// further TypeLocs handled below
if (Decl) {
addUsage(Decl, Loc->getSourceRange(), Result.SourceManager);
return;
}
if (const auto &Ref = Loc->getAs<TemplateSpecializationTypeLoc>()) {
const TemplateDecl *Decl =
Ref.getTypePtr()->getTemplateName().getAsTemplateDecl();
SourceRange Range(Ref.getTemplateNameLoc(), Ref.getTemplateNameLoc());
if (const auto *ClassDecl = dyn_cast<TemplateDecl>(Decl)) {
if (const NamedDecl *TemplDecl = ClassDecl->getTemplatedDecl())
addUsage(TemplDecl, Range, Result.SourceManager);
return;
}
}
if (const auto &Ref =
Loc->getAs<DependentTemplateSpecializationTypeLoc>()) {
if (const TagDecl *Decl = Ref.getTypePtr()->getAsTagDecl())
addUsage(Decl, Loc->getSourceRange(), Result.SourceManager);
return;
}
}
if (const auto *Loc =
Result.Nodes.getNodeAs<NestedNameSpecifierLoc>("nestedNameLoc")) {
if (const NestedNameSpecifier *Spec = Loc->getNestedNameSpecifier()) {
if (const NamespaceDecl *Decl = Spec->getAsNamespace()) {
addUsage(Decl, Loc->getLocalSourceRange(), Result.SourceManager);
return;
}
}
}
if (const auto *Decl = Result.Nodes.getNodeAs<UsingDecl>("using")) {
for (const auto *Shadow : Decl->shadows())
addUsage(Shadow->getTargetDecl(), Decl->getNameInfo().getSourceRange(),
Result.SourceManager);
return;
}
if (const auto *DeclRef = Result.Nodes.getNodeAs<DeclRefExpr>("declRef")) {
SourceRange Range = DeclRef->getNameInfo().getSourceRange();
addUsage(DeclRef->getDecl(), Range, Result.SourceManager);
return;
}
if (const auto *MemberRef =
Result.Nodes.getNodeAs<MemberExpr>("memberExpr")) {
SourceRange Range = MemberRef->getMemberNameInfo().getSourceRange();
addUsage(MemberRef->getMemberDecl(), Range, Result.SourceManager);
return;
}
if (const auto *DepMemberRef =
Result.Nodes.getNodeAs<CXXDependentScopeMemberExpr>(
"depMemberExpr")) {
QualType BaseType = DepMemberRef->isArrow()
? DepMemberRef->getBaseType()->getPointeeType()
: DepMemberRef->getBaseType();
if (BaseType.isNull())
return;
const CXXRecordDecl *Base = BaseType.getTypePtr()->getAsCXXRecordDecl();
if (!Base)
return;
DeclarationName DeclName = DepMemberRef->getMemberNameInfo().getName();
if (!DeclName.isIdentifier())
return;
StringRef DependentName = DeclName.getAsIdentifierInfo()->getName();
if (NameLookup Resolved = findDeclInBases(
*Base, DependentName, AggressiveDependentMemberLookup)) {
if (*Resolved)
addUsage(*Resolved, DepMemberRef->getMemberNameInfo().getSourceRange(),
Result.SourceManager);
}
return;
}
if (const auto *Decl = Result.Nodes.getNodeAs<NamedDecl>("decl")) {
// Fix using namespace declarations.
if (const auto *UsingNS = dyn_cast<UsingDirectiveDecl>(Decl))
addUsage(UsingNS->getNominatedNamespaceAsWritten(),
UsingNS->getIdentLocation(), Result.SourceManager);
if (!Decl->getIdentifier() || Decl->getName().empty() || Decl->isImplicit())
return;
const auto *Canonical = cast<NamedDecl>(Decl->getCanonicalDecl());
if (Canonical != Decl) {
addUsage(Canonical, Decl->getLocation(), Result.SourceManager);
return;
}
// Fix type aliases in value declarations.
if (const auto *Value = Result.Nodes.getNodeAs<ValueDecl>("decl")) {
if (const Type *TypePtr = Value->getType().getTypePtrOrNull()) {
if (const auto *Typedef = TypePtr->getAs<TypedefType>())
addUsage(Typedef->getDecl(), Value->getSourceRange(),
Result.SourceManager);
}
}
// Fix type aliases in function declarations.
if (const auto *Value = Result.Nodes.getNodeAs<FunctionDecl>("decl")) {
if (const auto *Typedef =
Value->getReturnType().getTypePtr()->getAs<TypedefType>())
addUsage(Typedef->getDecl(), Value->getSourceRange(),
Result.SourceManager);
for (const ParmVarDecl *Param : Value->parameters()) {
if (const TypedefType *Typedef =
Param->getType().getTypePtr()->getAs<TypedefType>())
addUsage(Typedef->getDecl(), Value->getSourceRange(),
Result.SourceManager);
}
}
// Fix overridden methods
if (const auto *Method = Result.Nodes.getNodeAs<CXXMethodDecl>("decl")) {
if (const CXXMethodDecl *Overridden = getOverrideMethod(Method)) {
addUsage(Overridden, Method->getLocation());
return; // Don't try to add the actual decl as a Failure.
}
}
// Ignore ClassTemplateSpecializationDecl which are creating duplicate
// replacements with CXXRecordDecl.
if (isa<ClassTemplateSpecializationDecl>(Decl))
return;
Optional<FailureInfo> MaybeFailure =
getDeclFailureInfo(Decl, *Result.SourceManager);
if (!MaybeFailure)
return;
FailureInfo &Info = *MaybeFailure;
NamingCheckFailure &Failure = NamingCheckFailures[NamingCheckId(
Decl->getLocation(), Decl->getNameAsString())];
SourceRange Range =
DeclarationNameInfo(Decl->getDeclName(), Decl->getLocation())
.getSourceRange();
const IdentifierTable &Idents = Decl->getASTContext().Idents;
auto CheckNewIdentifier = Idents.find(Info.Fixup);
if (CheckNewIdentifier != Idents.end()) {
const IdentifierInfo *Ident = CheckNewIdentifier->second;
if (Ident->isKeyword(getLangOpts()))
Failure.FixStatus = ShouldFixStatus::ConflictsWithKeyword;
else if (Ident->hasMacroDefinition())
Failure.FixStatus = ShouldFixStatus::ConflictsWithMacroDefinition;
} else if (!isValidAsciiIdentifier(Info.Fixup)) {
Failure.FixStatus = ShouldFixStatus::FixInvalidIdentifier;
}
Failure.Info = std::move(Info);
addUsage(Decl, Range);
}
}
void RenamerClangTidyCheck::checkMacro(SourceManager &SourceMgr,
const Token &MacroNameTok,
const MacroInfo *MI) {
Optional<FailureInfo> MaybeFailure =
getMacroFailureInfo(MacroNameTok, SourceMgr);
if (!MaybeFailure)
return;
FailureInfo &Info = *MaybeFailure;
StringRef Name = MacroNameTok.getIdentifierInfo()->getName();
NamingCheckId ID(MI->getDefinitionLoc(), std::string(Name));
NamingCheckFailure &Failure = NamingCheckFailures[ID];
SourceRange Range(MacroNameTok.getLocation(), MacroNameTok.getEndLoc());
if (!isValidAsciiIdentifier(Info.Fixup))
Failure.FixStatus = ShouldFixStatus::FixInvalidIdentifier;
Failure.Info = std::move(Info);
addUsage(ID, Range);
}
void RenamerClangTidyCheck::expandMacro(const Token &MacroNameTok,
const MacroInfo *MI) {
StringRef Name = MacroNameTok.getIdentifierInfo()->getName();
NamingCheckId ID(MI->getDefinitionLoc(), std::string(Name));
auto Failure = NamingCheckFailures.find(ID);
if (Failure == NamingCheckFailures.end())
return;
SourceRange Range(MacroNameTok.getLocation(), MacroNameTok.getEndLoc());
addUsage(ID, Range);
}
static std::string
getDiagnosticSuffix(const RenamerClangTidyCheck::ShouldFixStatus FixStatus,
const std::string &Fixup) {
if (Fixup.empty() ||
FixStatus == RenamerClangTidyCheck::ShouldFixStatus::FixInvalidIdentifier)
return "; cannot be fixed automatically";
if (FixStatus == RenamerClangTidyCheck::ShouldFixStatus::ShouldFix)
return {};
if (FixStatus >=
RenamerClangTidyCheck::ShouldFixStatus::IgnoreFailureThreshold)
return {};
if (FixStatus == RenamerClangTidyCheck::ShouldFixStatus::ConflictsWithKeyword)
return "; cannot be fixed because '" + Fixup +
"' would conflict with a keyword";
if (FixStatus ==
RenamerClangTidyCheck::ShouldFixStatus::ConflictsWithMacroDefinition)
return "; cannot be fixed because '" + Fixup +
"' would conflict with a macro definition";
llvm_unreachable("invalid ShouldFixStatus");
}
void RenamerClangTidyCheck::onEndOfTranslationUnit() {
for (const auto &Pair : NamingCheckFailures) {
const NamingCheckId &Decl = Pair.first;
const NamingCheckFailure &Failure = Pair.second;
if (Failure.Info.KindName.empty())
continue;
if (Failure.shouldNotify()) {
auto DiagInfo = getDiagInfo(Decl, Failure);
auto Diag = diag(Decl.first,
DiagInfo.Text + getDiagnosticSuffix(Failure.FixStatus,
Failure.Info.Fixup));
DiagInfo.ApplyArgs(Diag);
if (Failure.shouldFix()) {
for (const auto &Loc : Failure.RawUsageLocs) {
// We assume that the identifier name is made of one token only. This
// is always the case as we ignore usages in macros that could build
// identifier names by combining multiple tokens.
//
// For destructors, we already take care of it by remembering the
// location of the start of the identifier and not the start of the
// tilde.
//
// Other multi-token identifiers, such as operators are not checked at
// all.
Diag << FixItHint::CreateReplacement(SourceRange(Loc),
Failure.Info.Fixup);
}
}
}
}
}
} // namespace tidy
} // namespace clang
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