//===--- ReservedIdentifierCheck.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 "ReservedIdentifierCheck.h" #include "../utils/Matchers.h" #include "../utils/OptionsUtils.h" #include "clang/AST/ASTContext.h" #include "clang/ASTMatchers/ASTMatchFinder.h" #include "clang/Lex/Token.h" #include #include // FixItHint using namespace clang::ast_matchers; namespace clang { namespace tidy { namespace bugprone { static const char DoubleUnderscoreTag[] = "du"; static const char UnderscoreCapitalTag[] = "uc"; static const char GlobalUnderscoreTag[] = "global-under"; static const char NonReservedTag[] = "non-reserved"; static const char Message[] = "declaration uses identifier '%0', which is %select{a reserved " "identifier|not a reserved identifier|reserved in the global namespace}1"; static int getMessageSelectIndex(StringRef Tag) { if (Tag == NonReservedTag) return 1; if (Tag == GlobalUnderscoreTag) return 2; return 0; } ReservedIdentifierCheck::ReservedIdentifierCheck(StringRef Name, ClangTidyContext *Context) : RenamerClangTidyCheck(Name, Context), Invert(Options.get("Invert", false)), AllowedIdentifiers(utils::options::parseStringList( Options.get("AllowedIdentifiers", ""))) {} void ReservedIdentifierCheck::storeOptions(ClangTidyOptions::OptionMap &Opts) { RenamerClangTidyCheck::storeOptions(Opts); Options.store(Opts, "Invert", Invert); Options.store(Opts, "AllowedIdentifiers", utils::options::serializeStringList(AllowedIdentifiers)); } static std::string collapseConsecutive(StringRef Str, char C) { std::string Result; std::unique_copy(Str.begin(), Str.end(), std::back_inserter(Result), [C](char A, char B) { return A == C && B == C; }); return Result; } static bool hasReservedDoubleUnderscore(StringRef Name, const LangOptions &LangOpts) { if (LangOpts.CPlusPlus) return Name.find("__") != StringRef::npos; return Name.startswith("__"); } static Optional getDoubleUnderscoreFixup(StringRef Name, const LangOptions &LangOpts) { if (hasReservedDoubleUnderscore(Name, LangOpts)) return collapseConsecutive(Name, '_'); return None; } static bool startsWithUnderscoreCapital(StringRef Name) { return Name.size() >= 2 && Name[0] == '_' && std::isupper(Name[1]); } static Optional getUnderscoreCapitalFixup(StringRef Name) { if (startsWithUnderscoreCapital(Name)) return std::string(Name.drop_front(1)); return None; } static bool startsWithUnderscoreInGlobalNamespace(StringRef Name, bool IsInGlobalNamespace) { return IsInGlobalNamespace && Name.size() >= 1 && Name[0] == '_'; } static Optional getUnderscoreGlobalNamespaceFixup(StringRef Name, bool IsInGlobalNamespace) { if (startsWithUnderscoreInGlobalNamespace(Name, IsInGlobalNamespace)) return std::string(Name.drop_front(1)); return None; } static std::string getNonReservedFixup(std::string Name) { assert(!Name.empty()); if (Name[0] == '_' || std::isupper(Name[0])) Name.insert(Name.begin(), '_'); else Name.insert(Name.begin(), 2, '_'); return Name; } static Optional getFailureInfoImpl(StringRef Name, bool IsInGlobalNamespace, const LangOptions &LangOpts, bool Invert, ArrayRef AllowedIdentifiers) { assert(!Name.empty()); if (llvm::is_contained(AllowedIdentifiers, Name)) return None; // TODO: Check for names identical to language keywords, and other names // specifically reserved by language standards, e.g. C++ 'zombie names' and C // future library directions using FailureInfo = RenamerClangTidyCheck::FailureInfo; if (!Invert) { Optional Info; auto AppendFailure = [&](StringRef Kind, std::string &&Fixup) { if (!Info) { Info = FailureInfo{std::string(Kind), std::move(Fixup)}; } else { Info->KindName += Kind; Info->Fixup = std::move(Fixup); } }; auto InProgressFixup = [&] { return Info .map([](const FailureInfo &Info) { return StringRef(Info.Fixup); }) .getValueOr(Name); }; if (auto Fixup = getDoubleUnderscoreFixup(InProgressFixup(), LangOpts)) AppendFailure(DoubleUnderscoreTag, std::move(*Fixup)); if (auto Fixup = getUnderscoreCapitalFixup(InProgressFixup())) AppendFailure(UnderscoreCapitalTag, std::move(*Fixup)); if (auto Fixup = getUnderscoreGlobalNamespaceFixup(InProgressFixup(), IsInGlobalNamespace)) AppendFailure(GlobalUnderscoreTag, std::move(*Fixup)); return Info; } if (!(hasReservedDoubleUnderscore(Name, LangOpts) || startsWithUnderscoreCapital(Name) || startsWithUnderscoreInGlobalNamespace(Name, IsInGlobalNamespace))) return FailureInfo{NonReservedTag, getNonReservedFixup(std::string(Name))}; return None; } Optional ReservedIdentifierCheck::GetDeclFailureInfo(const NamedDecl *Decl, const SourceManager &) const { assert(Decl && Decl->getIdentifier() && !Decl->getName().empty() && !Decl->isImplicit() && "Decl must be an explicit identifier with a name."); return getFailureInfoImpl(Decl->getName(), isa(Decl->getDeclContext()), getLangOpts(), Invert, AllowedIdentifiers); } Optional ReservedIdentifierCheck::GetMacroFailureInfo(const Token &MacroNameTok, const SourceManager &) const { return getFailureInfoImpl(MacroNameTok.getIdentifierInfo()->getName(), true, getLangOpts(), Invert, AllowedIdentifiers); } RenamerClangTidyCheck::DiagInfo ReservedIdentifierCheck::GetDiagInfo(const NamingCheckId &ID, const NamingCheckFailure &Failure) const { return DiagInfo{Message, [&](DiagnosticBuilder &diag) { diag << ID.second << getMessageSelectIndex(Failure.Info.KindName); }}; } } // namespace bugprone } // namespace tidy } // namespace clang