//===- DirectiveEmitter.cpp - Directive Language Emitter ------------------===// // // 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 // //===----------------------------------------------------------------------===// // // DirectiveEmitter uses the descriptions of directives and clauses to construct // common code declarations to be used in Frontends. // //===----------------------------------------------------------------------===// #include "llvm/TableGen/DirectiveEmitter.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringSet.h" #include "llvm/TableGen/Error.h" #include "llvm/TableGen/Record.h" #include "llvm/TableGen/TableGenBackend.h" using namespace llvm; namespace { // Simple RAII helper for defining ifdef-undef-endif scopes. class IfDefScope { public: IfDefScope(StringRef Name, raw_ostream &OS) : Name(Name), OS(OS) { OS << "#ifdef " << Name << "\n" << "#undef " << Name << "\n"; } ~IfDefScope() { OS << "\n#endif // " << Name << "\n\n"; } private: StringRef Name; raw_ostream &OS; }; } // end anonymous namespace namespace llvm { // Generate enum class void GenerateEnumClass(const std::vector &Records, raw_ostream &OS, StringRef Enum, StringRef Prefix, const DirectiveLanguage &DirLang) { OS << "\n"; OS << "enum class " << Enum << " {\n"; for (const auto &R : Records) { BaseRecord Rec{R}; OS << " " << Prefix << Rec.getFormattedName() << ",\n"; } OS << "};\n"; OS << "\n"; OS << "static constexpr std::size_t " << Enum << "_enumSize = " << Records.size() << ";\n"; // Make the enum values available in the defined namespace. This allows us to // write something like Enum_X if we have a `using namespace `. // At the same time we do not loose the strong type guarantees of the enum // class, that is we cannot pass an unsigned as Directive without an explicit // cast. if (DirLang.hasMakeEnumAvailableInNamespace()) { OS << "\n"; for (const auto &R : Records) { BaseRecord Rec{R}; OS << "constexpr auto " << Prefix << Rec.getFormattedName() << " = " << "llvm::" << DirLang.getCppNamespace() << "::" << Enum << "::" << Prefix << Rec.getFormattedName() << ";\n"; } } } // Generate enums for values that clauses can take. // Also generate function declarations for getName(StringRef Str). void GenerateEnumClauseVal(const std::vector &Records, raw_ostream &OS, const DirectiveLanguage &DirLang, std::string &EnumHelperFuncs) { for (const auto &R : Records) { Clause C{R}; const auto &ClauseVals = C.getClauseVals(); if (ClauseVals.size() <= 0) continue; const auto &EnumName = C.getEnumName(); if (EnumName.size() == 0) { PrintError("enumClauseValue field not set in Clause" + C.getFormattedName() + "."); return; } OS << "\n"; OS << "enum class " << EnumName << " {\n"; for (const auto &CV : ClauseVals) { ClauseVal CVal{CV}; OS << " " << CV->getName() << "=" << CVal.getValue() << ",\n"; } OS << "};\n"; if (DirLang.hasMakeEnumAvailableInNamespace()) { OS << "\n"; for (const auto &CV : ClauseVals) { OS << "constexpr auto " << CV->getName() << " = " << "llvm::" << DirLang.getCppNamespace() << "::" << EnumName << "::" << CV->getName() << ";\n"; } EnumHelperFuncs += (llvm::Twine(EnumName) + llvm::Twine(" get") + llvm::Twine(EnumName) + llvm::Twine("(StringRef);\n")) .str(); EnumHelperFuncs += (llvm::Twine("llvm::StringRef get") + llvm::Twine(DirLang.getName()) + llvm::Twine(EnumName) + llvm::Twine("Name(") + llvm::Twine(EnumName) + llvm::Twine(");\n")) .str(); } } } bool HasDuplicateClauses(const std::vector &Clauses, const Directive &Directive, llvm::StringSet<> &CrtClauses) { bool HasError = false; for (const auto &C : Clauses) { VersionedClause VerClause{C}; const auto insRes = CrtClauses.insert(VerClause.getClause().getName()); if (!insRes.second) { PrintError("Clause " + VerClause.getClause().getRecordName() + " already defined on directive " + Directive.getRecordName()); HasError = true; } } return HasError; } // Check for duplicate clauses in lists. Clauses cannot appear twice in the // three allowed list. Also, since required implies allowed, clauses cannot // appear in both the allowedClauses and requiredClauses lists. bool HasDuplicateClausesInDirectives(const std::vector &Directives) { bool HasDuplicate = false; for (const auto &D : Directives) { Directive Dir{D}; llvm::StringSet<> Clauses; // Check for duplicates in the three allowed lists. if (HasDuplicateClauses(Dir.getAllowedClauses(), Dir, Clauses) || HasDuplicateClauses(Dir.getAllowedOnceClauses(), Dir, Clauses) || HasDuplicateClauses(Dir.getAllowedExclusiveClauses(), Dir, Clauses)) { HasDuplicate = true; } // Check for duplicate between allowedClauses and required Clauses.clear(); if (HasDuplicateClauses(Dir.getAllowedClauses(), Dir, Clauses) || HasDuplicateClauses(Dir.getRequiredClauses(), Dir, Clauses)) { HasDuplicate = true; } if (HasDuplicate) PrintFatalError("One or more clauses are defined multiple times on" " directive " + Dir.getRecordName()); } return HasDuplicate; } // Check consitency of records. Return true if an error has been detected. // Return false if the records are valid. bool DirectiveLanguage::HasValidityErrors() const { if (getDirectiveLanguages().size() != 1) { PrintFatalError("A single definition of DirectiveLanguage is needed."); return true; } return HasDuplicateClausesInDirectives(getDirectives()); } // Generate the declaration section for the enumeration in the directive // language void EmitDirectivesDecl(RecordKeeper &Records, raw_ostream &OS) { const auto DirLang = DirectiveLanguage{Records}; if (DirLang.HasValidityErrors()) return; OS << "#ifndef LLVM_" << DirLang.getName() << "_INC\n"; OS << "#define LLVM_" << DirLang.getName() << "_INC\n"; if (DirLang.hasEnableBitmaskEnumInNamespace()) OS << "\n#include \"llvm/ADT/BitmaskEnum.h\"\n"; OS << "\n"; OS << "namespace llvm {\n"; OS << "class StringRef;\n"; // Open namespaces defined in the directive language llvm::SmallVector Namespaces; llvm::SplitString(DirLang.getCppNamespace(), Namespaces, "::"); for (auto Ns : Namespaces) OS << "namespace " << Ns << " {\n"; if (DirLang.hasEnableBitmaskEnumInNamespace()) OS << "\nLLVM_ENABLE_BITMASK_ENUMS_IN_NAMESPACE();\n"; // Emit Directive enumeration GenerateEnumClass(DirLang.getDirectives(), OS, "Directive", DirLang.getDirectivePrefix(), DirLang); // Emit Clause enumeration GenerateEnumClass(DirLang.getClauses(), OS, "Clause", DirLang.getClausePrefix(), DirLang); // Emit ClauseVal enumeration std::string EnumHelperFuncs; GenerateEnumClauseVal(DirLang.getClauses(), OS, DirLang, EnumHelperFuncs); // Generic function signatures OS << "\n"; OS << "// Enumeration helper functions\n"; OS << "Directive get" << DirLang.getName() << "DirectiveKind(llvm::StringRef Str);\n"; OS << "\n"; OS << "llvm::StringRef get" << DirLang.getName() << "DirectiveName(Directive D);\n"; OS << "\n"; OS << "Clause get" << DirLang.getName() << "ClauseKind(llvm::StringRef Str);\n"; OS << "\n"; OS << "llvm::StringRef get" << DirLang.getName() << "ClauseName(Clause C);\n"; OS << "\n"; OS << "/// Return true if \\p C is a valid clause for \\p D in version \\p " << "Version.\n"; OS << "bool isAllowedClauseForDirective(Directive D, " << "Clause C, unsigned Version);\n"; OS << "\n"; if (EnumHelperFuncs.length() > 0) { OS << EnumHelperFuncs; OS << "\n"; } // Closing namespaces for (auto Ns : llvm::reverse(Namespaces)) OS << "} // namespace " << Ns << "\n"; OS << "} // namespace llvm\n"; OS << "#endif // LLVM_" << DirLang.getName() << "_INC\n"; } // Generate function implementation for getName(StringRef Str) void GenerateGetName(const std::vector &Records, raw_ostream &OS, StringRef Enum, const DirectiveLanguage &DirLang, StringRef Prefix) { OS << "\n"; OS << "llvm::StringRef llvm::" << DirLang.getCppNamespace() << "::get" << DirLang.getName() << Enum << "Name(" << Enum << " Kind) {\n"; OS << " switch (Kind) {\n"; for (const auto &R : Records) { BaseRecord Rec{R}; OS << " case " << Prefix << Rec.getFormattedName() << ":\n"; OS << " return \""; if (Rec.getAlternativeName().empty()) OS << Rec.getName(); else OS << Rec.getAlternativeName(); OS << "\";\n"; } OS << " }\n"; // switch OS << " llvm_unreachable(\"Invalid " << DirLang.getName() << " " << Enum << " kind\");\n"; OS << "}\n"; } // Generate function implementation for getKind(StringRef Str) void GenerateGetKind(const std::vector &Records, raw_ostream &OS, StringRef Enum, const DirectiveLanguage &DirLang, StringRef Prefix, bool ImplicitAsUnknown) { auto DefaultIt = llvm::find_if( Records, [](Record *R) { return R->getValueAsBit("isDefault") == true; }); if (DefaultIt == Records.end()) { PrintError("At least one " + Enum + " must be defined as default."); return; } BaseRecord DefaultRec{(*DefaultIt)}; OS << "\n"; OS << Enum << " llvm::" << DirLang.getCppNamespace() << "::get" << DirLang.getName() << Enum << "Kind(llvm::StringRef Str) {\n"; OS << " return llvm::StringSwitch<" << Enum << ">(Str)\n"; for (const auto &R : Records) { BaseRecord Rec{R}; if (ImplicitAsUnknown && R->getValueAsBit("isImplicit")) { OS << " .Case(\"" << Rec.getName() << "\"," << Prefix << DefaultRec.getFormattedName() << ")\n"; } else { OS << " .Case(\"" << Rec.getName() << "\"," << Prefix << Rec.getFormattedName() << ")\n"; } } OS << " .Default(" << Prefix << DefaultRec.getFormattedName() << ");\n"; OS << "}\n"; } // Generate function implementation for getKind(StringRef Str) void GenerateGetKindClauseVal(const DirectiveLanguage &DirLang, raw_ostream &OS) { for (const auto &R : DirLang.getClauses()) { Clause C{R}; const auto &ClauseVals = C.getClauseVals(); if (ClauseVals.size() <= 0) continue; auto DefaultIt = llvm::find_if(ClauseVals, [](Record *CV) { return CV->getValueAsBit("isDefault") == true; }); if (DefaultIt == ClauseVals.end()) { PrintError("At least one val in Clause " + C.getFormattedName() + " must be defined as default."); return; } const auto DefaultName = (*DefaultIt)->getName(); const auto &EnumName = C.getEnumName(); if (EnumName.size() == 0) { PrintError("enumClauseValue field not set in Clause" + C.getFormattedName() + "."); return; } OS << "\n"; OS << EnumName << " llvm::" << DirLang.getCppNamespace() << "::get" << EnumName << "(llvm::StringRef Str) {\n"; OS << " return llvm::StringSwitch<" << EnumName << ">(Str)\n"; for (const auto &CV : ClauseVals) { ClauseVal CVal{CV}; OS << " .Case(\"" << CVal.getFormattedName() << "\"," << CV->getName() << ")\n"; } OS << " .Default(" << DefaultName << ");\n"; OS << "}\n"; OS << "\n"; OS << "llvm::StringRef llvm::" << DirLang.getCppNamespace() << "::get" << DirLang.getName() << EnumName << "Name(llvm::" << DirLang.getCppNamespace() << "::" << EnumName << " x) {\n"; OS << " switch (x) {\n"; for (const auto &CV : ClauseVals) { ClauseVal CVal{CV}; OS << " case " << CV->getName() << ":\n"; OS << " return \"" << CVal.getFormattedName() << "\";\n"; } OS << " }\n"; // switch OS << " llvm_unreachable(\"Invalid " << DirLang.getName() << " " << EnumName << " kind\");\n"; OS << "}\n"; } } void GenerateCaseForVersionedClauses(const std::vector &Clauses, raw_ostream &OS, StringRef DirectiveName, const DirectiveLanguage &DirLang, llvm::StringSet<> &Cases) { for (const auto &C : Clauses) { VersionedClause VerClause{C}; const auto ClauseFormattedName = VerClause.getClause().getFormattedName(); if (Cases.find(ClauseFormattedName) == Cases.end()) { Cases.insert(ClauseFormattedName); OS << " case " << DirLang.getClausePrefix() << ClauseFormattedName << ":\n"; OS << " return " << VerClause.getMinVersion() << " <= Version && " << VerClause.getMaxVersion() << " >= Version;\n"; } } } // Generate the isAllowedClauseForDirective function implementation. void GenerateIsAllowedClause(const DirectiveLanguage &DirLang, raw_ostream &OS) { OS << "\n"; OS << "bool llvm::" << DirLang.getCppNamespace() << "::isAllowedClauseForDirective(" << "Directive D, Clause C, unsigned Version) {\n"; OS << " assert(unsigned(D) <= llvm::" << DirLang.getCppNamespace() << "::Directive_enumSize);\n"; OS << " assert(unsigned(C) <= llvm::" << DirLang.getCppNamespace() << "::Clause_enumSize);\n"; OS << " switch (D) {\n"; for (const auto &D : DirLang.getDirectives()) { Directive Dir{D}; OS << " case " << DirLang.getDirectivePrefix() << Dir.getFormattedName() << ":\n"; if (Dir.getAllowedClauses().size() == 0 && Dir.getAllowedOnceClauses().size() == 0 && Dir.getAllowedExclusiveClauses().size() == 0 && Dir.getRequiredClauses().size() == 0) { OS << " return false;\n"; } else { OS << " switch (C) {\n"; llvm::StringSet<> Cases; GenerateCaseForVersionedClauses(Dir.getAllowedClauses(), OS, Dir.getName(), DirLang, Cases); GenerateCaseForVersionedClauses(Dir.getAllowedOnceClauses(), OS, Dir.getName(), DirLang, Cases); GenerateCaseForVersionedClauses(Dir.getAllowedExclusiveClauses(), OS, Dir.getName(), DirLang, Cases); GenerateCaseForVersionedClauses(Dir.getRequiredClauses(), OS, Dir.getName(), DirLang, Cases); OS << " default:\n"; OS << " return false;\n"; OS << " }\n"; // End of clauses switch } OS << " break;\n"; } OS << " }\n"; // End of directives switch OS << " llvm_unreachable(\"Invalid " << DirLang.getName() << " Directive kind\");\n"; OS << "}\n"; // End of function isAllowedClauseForDirective } // Generate a simple enum set with the give clauses. void GenerateClauseSet(const std::vector &Clauses, raw_ostream &OS, StringRef ClauseSetPrefix, Directive &Dir, const DirectiveLanguage &DirLang) { OS << "\n"; OS << " static " << DirLang.getClauseEnumSetClass() << " " << ClauseSetPrefix << DirLang.getDirectivePrefix() << Dir.getFormattedName() << " {\n"; for (const auto &C : Clauses) { VersionedClause VerClause{C}; OS << " llvm::" << DirLang.getCppNamespace() << "::Clause::" << DirLang.getClausePrefix() << VerClause.getClause().getFormattedName() << ",\n"; } OS << " };\n"; } // Generate an enum set for the 4 kinds of clauses linked to a directive. void GenerateDirectiveClauseSets(const DirectiveLanguage &DirLang, raw_ostream &OS) { IfDefScope Scope("GEN_FLANG_DIRECTIVE_CLAUSE_SETS", OS); OS << "\n"; OS << "namespace llvm {\n"; // Open namespaces defined in the directive language. llvm::SmallVector Namespaces; llvm::SplitString(DirLang.getCppNamespace(), Namespaces, "::"); for (auto Ns : Namespaces) OS << "namespace " << Ns << " {\n"; for (const auto &D : DirLang.getDirectives()) { Directive Dir{D}; OS << "\n"; OS << " // Sets for " << Dir.getName() << "\n"; GenerateClauseSet(Dir.getAllowedClauses(), OS, "allowedClauses_", Dir, DirLang); GenerateClauseSet(Dir.getAllowedOnceClauses(), OS, "allowedOnceClauses_", Dir, DirLang); GenerateClauseSet(Dir.getAllowedExclusiveClauses(), OS, "allowedExclusiveClauses_", Dir, DirLang); GenerateClauseSet(Dir.getRequiredClauses(), OS, "requiredClauses_", Dir, DirLang); } // Closing namespaces for (auto Ns : llvm::reverse(Namespaces)) OS << "} // namespace " << Ns << "\n"; OS << "} // namespace llvm\n"; } // Generate a map of directive (key) with DirectiveClauses struct as values. // The struct holds the 4 sets of enumeration for the 4 kinds of clauses // allowances (allowed, allowed once, allowed exclusive and required). void GenerateDirectiveClauseMap(const DirectiveLanguage &DirLang, raw_ostream &OS) { IfDefScope Scope("GEN_FLANG_DIRECTIVE_CLAUSE_MAP", OS); OS << "\n"; OS << "{\n"; for (const auto &D : DirLang.getDirectives()) { Directive Dir{D}; OS << " {llvm::" << DirLang.getCppNamespace() << "::Directive::" << DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n"; OS << " {\n"; OS << " llvm::" << DirLang.getCppNamespace() << "::allowedClauses_" << DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n"; OS << " llvm::" << DirLang.getCppNamespace() << "::allowedOnceClauses_" << DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n"; OS << " llvm::" << DirLang.getCppNamespace() << "::allowedExclusiveClauses_" << DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n"; OS << " llvm::" << DirLang.getCppNamespace() << "::requiredClauses_" << DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n"; OS << " }\n"; OS << " },\n"; } OS << "}\n"; } // Generate classes entry for Flang clauses in the Flang parse-tree // If the clause as a non-generic class, no entry is generated. // If the clause does not hold a value, an EMPTY_CLASS is used. // If the clause class is generic then a WRAPPER_CLASS is used. When the value // is optional, the value class is wrapped into a std::optional. void GenerateFlangClauseParserClass(const DirectiveLanguage &DirLang, raw_ostream &OS) { IfDefScope Scope("GEN_FLANG_CLAUSE_PARSER_CLASSES", OS); OS << "\n"; for (const auto &C : DirLang.getClauses()) { Clause Clause{C}; if (!Clause.getFlangClass().empty()) { OS << "WRAPPER_CLASS(" << Clause.getFormattedParserClassName() << ", "; if (Clause.isValueOptional() && Clause.isValueList()) { OS << "std::optional>"; } else if (Clause.isValueOptional()) { OS << "std::optional<" << Clause.getFlangClass() << ">"; } else if (Clause.isValueList()) { OS << "std::list<" << Clause.getFlangClass() << ">"; } else { OS << Clause.getFlangClass(); } } else { OS << "EMPTY_CLASS(" << Clause.getFormattedParserClassName(); } OS << ");\n"; } } // Generate a list of the different clause classes for Flang. void GenerateFlangClauseParserClassList(const DirectiveLanguage &DirLang, raw_ostream &OS) { IfDefScope Scope("GEN_FLANG_CLAUSE_PARSER_CLASSES_LIST", OS); OS << "\n"; llvm::interleaveComma(DirLang.getClauses(), OS, [&](Record *C) { Clause Clause{C}; OS << Clause.getFormattedParserClassName() << "\n"; }); } // Generate dump node list for the clauses holding a generic class name. void GenerateFlangClauseDump(const DirectiveLanguage &DirLang, raw_ostream &OS) { IfDefScope Scope("GEN_FLANG_DUMP_PARSE_TREE_CLAUSES", OS); OS << "\n"; for (const auto &C : DirLang.getClauses()) { Clause Clause{C}; OS << "NODE(" << DirLang.getFlangClauseBaseClass() << ", " << Clause.getFormattedParserClassName() << ")\n"; } } // Generate Unparse functions for clauses classes in the Flang parse-tree // If the clause is a non-generic class, no entry is generated. void GenerateFlangClauseUnparse(const DirectiveLanguage &DirLang, raw_ostream &OS) { IfDefScope Scope("GEN_FLANG_CLAUSE_UNPARSE", OS); OS << "\n"; for (const auto &C : DirLang.getClauses()) { Clause Clause{C}; if (!Clause.getFlangClass().empty()) { if (Clause.isValueOptional() && Clause.getDefaultValue().empty()) { OS << "void Unparse(const " << DirLang.getFlangClauseBaseClass() << "::" << Clause.getFormattedParserClassName() << " &x) {\n"; OS << " Word(\"" << Clause.getName().upper() << "\");\n"; OS << " Walk(\"(\", x.v, \")\");\n"; OS << "}\n"; } else if (Clause.isValueOptional()) { OS << "void Unparse(const " << DirLang.getFlangClauseBaseClass() << "::" << Clause.getFormattedParserClassName() << " &x) {\n"; OS << " Word(\"" << Clause.getName().upper() << "\");\n"; OS << " Put(\"(\");\n"; OS << " if (x.v.has_value())\n"; if (Clause.isValueList()) OS << " Walk(x.v, \",\");\n"; else OS << " Walk(x.v);\n"; OS << " else\n"; OS << " Put(\"" << Clause.getDefaultValue() << "\");\n"; OS << " Put(\")\");\n"; OS << "}\n"; } else { OS << "void Unparse(const " << DirLang.getFlangClauseBaseClass() << "::" << Clause.getFormattedParserClassName() << " &x) {\n"; OS << " Word(\"" << Clause.getName().upper() << "\");\n"; OS << " Put(\"(\");\n"; if (Clause.isValueList()) OS << " Walk(x.v, \",\");\n"; else OS << " Walk(x.v);\n"; OS << " Put(\")\");\n"; OS << "}\n"; } } else { OS << "void Before(const " << DirLang.getFlangClauseBaseClass() << "::" << Clause.getFormattedParserClassName() << " &) { Word(\"" << Clause.getName().upper() << "\"); }\n"; } } } // Generate the implementation section for the enumeration in the directive // language void EmitDirectivesFlangImpl(const DirectiveLanguage &DirLang, raw_ostream &OS) { GenerateDirectiveClauseSets(DirLang, OS); GenerateDirectiveClauseMap(DirLang, OS); GenerateFlangClauseParserClass(DirLang, OS); GenerateFlangClauseParserClassList(DirLang, OS); GenerateFlangClauseDump(DirLang, OS); GenerateFlangClauseUnparse(DirLang, OS); } void GenerateClauseClassMacro(const DirectiveLanguage &DirLang, raw_ostream &OS) { // Generate macros style information for legacy code in clang IfDefScope Scope("GEN_CLANG_CLAUSE_CLASS", OS); OS << "\n"; OS << "#ifndef CLAUSE\n"; OS << "#define CLAUSE(Enum, Str, Implicit)\n"; OS << "#endif\n"; OS << "#ifndef CLAUSE_CLASS\n"; OS << "#define CLAUSE_CLASS(Enum, Str, Class)\n"; OS << "#endif\n"; OS << "#ifndef CLAUSE_NO_CLASS\n"; OS << "#define CLAUSE_NO_CLASS(Enum, Str)\n"; OS << "#endif\n"; OS << "\n"; OS << "#define __CLAUSE(Name, Class) \\\n"; OS << " CLAUSE(" << DirLang.getClausePrefix() << "##Name, #Name, /* Implicit */ false) \\\n"; OS << " CLAUSE_CLASS(" << DirLang.getClausePrefix() << "##Name, #Name, Class)\n"; OS << "#define __CLAUSE_NO_CLASS(Name) \\\n"; OS << " CLAUSE(" << DirLang.getClausePrefix() << "##Name, #Name, /* Implicit */ false) \\\n"; OS << " CLAUSE_NO_CLASS(" << DirLang.getClausePrefix() << "##Name, #Name)\n"; OS << "#define __IMPLICIT_CLAUSE_CLASS(Name, Str, Class) \\\n"; OS << " CLAUSE(" << DirLang.getClausePrefix() << "##Name, Str, /* Implicit */ true) \\\n"; OS << " CLAUSE_CLASS(" << DirLang.getClausePrefix() << "##Name, Str, Class)\n"; OS << "#define __IMPLICIT_CLAUSE_NO_CLASS(Name, Str) \\\n"; OS << " CLAUSE(" << DirLang.getClausePrefix() << "##Name, Str, /* Implicit */ true) \\\n"; OS << " CLAUSE_NO_CLASS(" << DirLang.getClausePrefix() << "##Name, Str)\n"; OS << "\n"; for (const auto &R : DirLang.getClauses()) { Clause C{R}; if (C.getClangClass().empty()) { // NO_CLASS if (C.isImplicit()) { OS << "__IMPLICIT_CLAUSE_NO_CLASS(" << C.getFormattedName() << ", \"" << C.getFormattedName() << "\")\n"; } else { OS << "__CLAUSE_NO_CLASS(" << C.getFormattedName() << ")\n"; } } else { // CLASS if (C.isImplicit()) { OS << "__IMPLICIT_CLAUSE_CLASS(" << C.getFormattedName() << ", \"" << C.getFormattedName() << "\", " << C.getClangClass() << ")\n"; } else { OS << "__CLAUSE(" << C.getFormattedName() << ", " << C.getClangClass() << ")\n"; } } } OS << "\n"; OS << "#undef __IMPLICIT_CLAUSE_NO_CLASS\n"; OS << "#undef __IMPLICIT_CLAUSE_CLASS\n"; OS << "#undef __CLAUSE\n"; OS << "#undef CLAUSE_NO_CLASS\n"; OS << "#undef CLAUSE_CLASS\n"; OS << "#undef CLAUSE\n"; } // Generate the implementation section for the enumeration in the directive // language. void EmitDirectivesGen(RecordKeeper &Records, raw_ostream &OS) { const auto DirLang = DirectiveLanguage{Records}; if (DirLang.HasValidityErrors()) return; EmitDirectivesFlangImpl(DirLang, OS); GenerateClauseClassMacro(DirLang, OS); } // Generate the implementation for the enumeration in the directive // language. This code can be included in library. void EmitDirectivesImpl(RecordKeeper &Records, raw_ostream &OS) { const auto DirLang = DirectiveLanguage{Records}; if (DirLang.HasValidityErrors()) return; if (!DirLang.getIncludeHeader().empty()) OS << "#include \"" << DirLang.getIncludeHeader() << "\"\n\n"; OS << "#include \"llvm/ADT/StringRef.h\"\n"; OS << "#include \"llvm/ADT/StringSwitch.h\"\n"; OS << "#include \"llvm/Support/ErrorHandling.h\"\n"; OS << "\n"; OS << "using namespace llvm;\n"; llvm::SmallVector Namespaces; llvm::SplitString(DirLang.getCppNamespace(), Namespaces, "::"); for (auto Ns : Namespaces) OS << "using namespace " << Ns << ";\n"; // getDirectiveKind(StringRef Str) GenerateGetKind(DirLang.getDirectives(), OS, "Directive", DirLang, DirLang.getDirectivePrefix(), /*ImplicitAsUnknown=*/false); // getDirectiveName(Directive Kind) GenerateGetName(DirLang.getDirectives(), OS, "Directive", DirLang, DirLang.getDirectivePrefix()); // getClauseKind(StringRef Str) GenerateGetKind(DirLang.getClauses(), OS, "Clause", DirLang, DirLang.getClausePrefix(), /*ImplicitAsUnknown=*/true); // getClauseName(Clause Kind) GenerateGetName(DirLang.getClauses(), OS, "Clause", DirLang, DirLang.getClausePrefix()); // getKind(StringRef Str) GenerateGetKindClauseVal(DirLang, OS); // isAllowedClauseForDirective(Directive D, Clause C, unsigned Version) GenerateIsAllowedClause(DirLang, OS); } } // namespace llvm