//===--- Attributes.cpp ---------------------------------------------------===// // // 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 // //===----------------------------------------------------------------------===// // // This file implements the AttributeCommonInfo interface. // //===----------------------------------------------------------------------===// #include "clang/Basic/Attributes.h" #include "clang/Basic/AttrSubjectMatchRules.h" #include "clang/Basic/IdentifierTable.h" #include "clang/Basic/LangOptions.h" #include "clang/Basic/ParsedAttrInfo.h" #include "clang/Basic/TargetInfo.h" using namespace clang; static int hasAttributeImpl(AttributeCommonInfo::Syntax Syntax, StringRef Name, StringRef ScopeName, const TargetInfo &Target, const LangOptions &LangOpts) { #include "clang/Basic/AttrHasAttributeImpl.inc" return 0; } int clang::hasAttribute(AttributeCommonInfo::Syntax Syntax, const IdentifierInfo *Scope, const IdentifierInfo *Attr, const TargetInfo &Target, const LangOptions &LangOpts) { StringRef Name = Attr->getName(); // Normalize the attribute name, __foo__ becomes foo. if (Name.size() >= 4 && Name.starts_with("__") && Name.ends_with("__")) Name = Name.substr(2, Name.size() - 4); // Normalize the scope name, but only for gnu and clang attributes. StringRef ScopeName = Scope ? Scope->getName() : ""; if (ScopeName == "__gnu__") ScopeName = "gnu"; else if (ScopeName == "_Clang") ScopeName = "clang"; // As a special case, look for the omp::sequence and omp::directive // attributes. We support those, but not through the typical attribute // machinery that goes through TableGen. We support this in all OpenMP modes // so long as double square brackets are enabled. // // Other OpenMP attributes (e.g. [[omp::assume]]) are handled via the // regular attribute parsing machinery. if (LangOpts.OpenMP && ScopeName == "omp" && (Name == "directive" || Name == "sequence")) return 1; int res = hasAttributeImpl(Syntax, Name, ScopeName, Target, LangOpts); if (res) return res; // Check if any plugin provides this attribute. for (auto &Ptr : getAttributePluginInstances()) if (Ptr->hasSpelling(Syntax, Name)) return 1; return 0; } const char *attr::getSubjectMatchRuleSpelling(attr::SubjectMatchRule Rule) { switch (Rule) { #define ATTR_MATCH_RULE(NAME, SPELLING, IsAbstract) \ case attr::NAME: \ return SPELLING; #include "clang/Basic/AttrSubMatchRulesList.inc" } llvm_unreachable("Invalid subject match rule"); } static StringRef normalizeAttrScopeName(const IdentifierInfo *Scope, AttributeCommonInfo::Syntax SyntaxUsed) { if (!Scope) return ""; // Normalize the "__gnu__" scope name to be "gnu" and the "_Clang" scope name // to be "clang". StringRef ScopeName = Scope->getName(); if (SyntaxUsed == AttributeCommonInfo::AS_CXX11 || SyntaxUsed == AttributeCommonInfo::AS_C23) { if (ScopeName == "__gnu__") ScopeName = "gnu"; else if (ScopeName == "_Clang") ScopeName = "clang"; } return ScopeName; } static StringRef normalizeAttrName(const IdentifierInfo *Name, StringRef NormalizedScopeName, AttributeCommonInfo::Syntax SyntaxUsed) { // Normalize the attribute name, __foo__ becomes foo. This is only allowable // for GNU attributes, and attributes using the double square bracket syntax. bool ShouldNormalize = SyntaxUsed == AttributeCommonInfo::AS_GNU || ((SyntaxUsed == AttributeCommonInfo::AS_CXX11 || SyntaxUsed == AttributeCommonInfo::AS_C23) && (NormalizedScopeName.empty() || NormalizedScopeName == "gnu" || NormalizedScopeName == "clang")); StringRef AttrName = Name->getName(); if (ShouldNormalize && AttrName.size() >= 4 && AttrName.starts_with("__") && AttrName.ends_with("__")) AttrName = AttrName.slice(2, AttrName.size() - 2); return AttrName; } bool AttributeCommonInfo::isGNUScope() const { return ScopeName && (ScopeName->isStr("gnu") || ScopeName->isStr("__gnu__")); } bool AttributeCommonInfo::isClangScope() const { return ScopeName && (ScopeName->isStr("clang") || ScopeName->isStr("_Clang")); } #include "clang/Sema/AttrParsedAttrKinds.inc" static SmallString<64> normalizeName(const IdentifierInfo *Name, const IdentifierInfo *Scope, AttributeCommonInfo::Syntax SyntaxUsed) { StringRef ScopeName = normalizeAttrScopeName(Scope, SyntaxUsed); StringRef AttrName = normalizeAttrName(Name, ScopeName, SyntaxUsed); SmallString<64> FullName = ScopeName; if (!ScopeName.empty()) { assert(SyntaxUsed == AttributeCommonInfo::AS_CXX11 || SyntaxUsed == AttributeCommonInfo::AS_C23); FullName += "::"; } FullName += AttrName; return FullName; } AttributeCommonInfo::Kind AttributeCommonInfo::getParsedKind(const IdentifierInfo *Name, const IdentifierInfo *ScopeName, Syntax SyntaxUsed) { return ::getAttrKind(normalizeName(Name, ScopeName, SyntaxUsed), SyntaxUsed); } std::string AttributeCommonInfo::getNormalizedFullName() const { return static_cast( normalizeName(getAttrName(), getScopeName(), getSyntax())); } unsigned AttributeCommonInfo::calculateAttributeSpellingListIndex() const { // Both variables will be used in tablegen generated // attribute spell list index matching code. auto Syntax = static_cast(getSyntax()); StringRef Scope = normalizeAttrScopeName(getScopeName(), Syntax); StringRef Name = normalizeAttrName(getAttrName(), Scope, Syntax); #include "clang/Sema/AttrSpellingListIndex.inc" }