//===- SearchableTableEmitter.cpp - Generate efficiently searchable tables -==// // // 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 tablegen backend emits a generic array initialized by specified fields, // together with companion index tables and lookup functions (binary search, // currently). // //===----------------------------------------------------------------------===// #include "CodeGenIntrinsics.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/StringExtras.h" #include "llvm/TableGen/Error.h" #include "llvm/TableGen/Record.h" #include #include #include #include using namespace llvm; #define DEBUG_TYPE "searchable-table-emitter" namespace { int getAsInt(Init *B) { return cast(B->convertInitializerTo(IntRecTy::get()))->getValue(); } int getInt(Record *R, StringRef Field) { return getAsInt(R->getValueInit(Field)); } struct GenericEnum { using Entry = std::pair; std::string Name; Record *Class = nullptr; std::string PreprocessorGuard; std::vector> Entries; DenseMap EntryMap; }; struct GenericField { std::string Name; RecTy *RecType = nullptr; bool IsCode = false; bool IsIntrinsic = false; bool IsInstruction = false; GenericEnum *Enum = nullptr; GenericField(StringRef Name) : Name(std::string(Name)) {} }; struct SearchIndex { std::string Name; SMLoc Loc; // Source location of PrimaryKey or Key field definition. SmallVector Fields; bool EarlyOut = false; }; struct GenericTable { std::string Name; ArrayRef Locs; // Source locations from the Record instance. std::string PreprocessorGuard; std::string CppTypeName; SmallVector Fields; std::vector Entries; std::unique_ptr PrimaryKey; SmallVector, 2> Indices; const GenericField *getFieldByName(StringRef Name) const { for (const auto &Field : Fields) { if (Name == Field.Name) return &Field; } return nullptr; } }; class SearchableTableEmitter { RecordKeeper &Records; DenseMap> Intrinsics; std::vector> Enums; DenseMap EnumMap; std::set PreprocessorGuards; public: SearchableTableEmitter(RecordKeeper &R) : Records(R) {} void run(raw_ostream &OS); private: typedef std::pair SearchTableEntry; enum TypeContext { TypeInStaticStruct, TypeInTempStruct, TypeInArgument, }; std::string primaryRepresentation(SMLoc Loc, const GenericField &Field, Init *I) { if (StringInit *SI = dyn_cast(I)) { if (Field.IsCode || SI->hasCodeFormat()) return std::string(SI->getValue()); else return SI->getAsString(); } else if (BitsInit *BI = dyn_cast(I)) return "0x" + utohexstr(getAsInt(BI)); else if (BitInit *BI = dyn_cast(I)) return BI->getValue() ? "true" : "false"; else if (Field.IsIntrinsic) return "Intrinsic::" + getIntrinsic(I).EnumName; else if (Field.IsInstruction) return I->getAsString(); else if (Field.Enum) { auto *Entry = Field.Enum->EntryMap[cast(I)->getDef()]; if (!Entry) PrintFatalError(Loc, Twine("Entry for field '") + Field.Name + "' is null"); return std::string(Entry->first); } PrintFatalError(Loc, Twine("invalid field type for field '") + Field.Name + "'; expected: bit, bits, string, or code"); } bool isIntrinsic(Init *I) { if (DefInit *DI = dyn_cast(I)) return DI->getDef()->isSubClassOf("Intrinsic"); return false; } CodeGenIntrinsic &getIntrinsic(Init *I) { std::unique_ptr &Intr = Intrinsics[I]; if (!Intr) Intr = std::make_unique(cast(I)->getDef(), std::vector()); return *Intr; } bool compareBy(Record *LHS, Record *RHS, const SearchIndex &Index); std::string searchableFieldType(const GenericTable &Table, const SearchIndex &Index, const GenericField &Field, TypeContext Ctx) { if (isa(Field.RecType)) { if (Ctx == TypeInStaticStruct) return "const char *"; if (Ctx == TypeInTempStruct) return "std::string"; return "StringRef"; } else if (BitsRecTy *BI = dyn_cast(Field.RecType)) { unsigned NumBits = BI->getNumBits(); if (NumBits <= 8) return "uint8_t"; if (NumBits <= 16) return "uint16_t"; if (NumBits <= 32) return "uint32_t"; if (NumBits <= 64) return "uint64_t"; PrintFatalError(Index.Loc, Twine("In table '") + Table.Name + "' lookup method '" + Index.Name + "', key field '" + Field.Name + "' of type bits is too large"); } else if (Field.Enum || Field.IsIntrinsic || Field.IsInstruction) return "unsigned"; PrintFatalError(Index.Loc, Twine("In table '") + Table.Name + "' lookup method '" + Index.Name + "', key field '" + Field.Name + "' has invalid type: " + Field.RecType->getAsString()); } void emitGenericTable(const GenericTable &Table, raw_ostream &OS); void emitGenericEnum(const GenericEnum &Enum, raw_ostream &OS); void emitLookupDeclaration(const GenericTable &Table, const SearchIndex &Index, raw_ostream &OS); void emitLookupFunction(const GenericTable &Table, const SearchIndex &Index, bool IsPrimary, raw_ostream &OS); void emitIfdef(StringRef Guard, raw_ostream &OS); bool parseFieldType(GenericField &Field, Init *II); std::unique_ptr parseSearchIndex(GenericTable &Table, const RecordVal *RecVal, StringRef Name, const std::vector &Key, bool EarlyOut); void collectEnumEntries(GenericEnum &Enum, StringRef NameField, StringRef ValueField, const std::vector &Items); void collectTableEntries(GenericTable &Table, const std::vector &Items); }; } // End anonymous namespace. // For search indices that consists of a single field whose numeric value is // known, return that numeric value. static int64_t getNumericKey(const SearchIndex &Index, Record *Rec) { assert(Index.Fields.size() == 1); if (Index.Fields[0].Enum) { Record *EnumEntry = Rec->getValueAsDef(Index.Fields[0].Name); return Index.Fields[0].Enum->EntryMap[EnumEntry]->second; } return getInt(Rec, Index.Fields[0].Name); } /// Less-than style comparison between \p LHS and \p RHS according to the /// key of \p Index. bool SearchableTableEmitter::compareBy(Record *LHS, Record *RHS, const SearchIndex &Index) { for (const auto &Field : Index.Fields) { Init *LHSI = LHS->getValueInit(Field.Name); Init *RHSI = RHS->getValueInit(Field.Name); if (isa(Field.RecType) || isa(Field.RecType)) { int64_t LHSi = getAsInt(LHSI); int64_t RHSi = getAsInt(RHSI); if (LHSi < RHSi) return true; if (LHSi > RHSi) return false; } else if (Field.IsIntrinsic) { CodeGenIntrinsic &LHSi = getIntrinsic(LHSI); CodeGenIntrinsic &RHSi = getIntrinsic(RHSI); if (std::tie(LHSi.TargetPrefix, LHSi.Name) < std::tie(RHSi.TargetPrefix, RHSi.Name)) return true; if (std::tie(LHSi.TargetPrefix, LHSi.Name) > std::tie(RHSi.TargetPrefix, RHSi.Name)) return false; } else if (Field.IsInstruction) { // This does not correctly compare the predefined instructions! Record *LHSr = cast(LHSI)->getDef(); Record *RHSr = cast(RHSI)->getDef(); bool LHSpseudo = LHSr->getValueAsBit("isPseudo"); bool RHSpseudo = RHSr->getValueAsBit("isPseudo"); if (LHSpseudo && !RHSpseudo) return true; if (!LHSpseudo && RHSpseudo) return false; int comp = LHSr->getName().compare(RHSr->getName()); if (comp < 0) return true; if (comp > 0) return false; } else if (Field.Enum) { auto LHSr = cast(LHSI)->getDef(); auto RHSr = cast(RHSI)->getDef(); int64_t LHSv = Field.Enum->EntryMap[LHSr]->second; int64_t RHSv = Field.Enum->EntryMap[RHSr]->second; if (LHSv < RHSv) return true; if (LHSv > RHSv) return false; } else { std::string LHSs = primaryRepresentation(Index.Loc, Field, LHSI); std::string RHSs = primaryRepresentation(Index.Loc, Field, RHSI); if (isa(Field.RecType)) { LHSs = StringRef(LHSs).upper(); RHSs = StringRef(RHSs).upper(); } int comp = LHSs.compare(RHSs); if (comp < 0) return true; if (comp > 0) return false; } } return false; } void SearchableTableEmitter::emitIfdef(StringRef Guard, raw_ostream &OS) { OS << "#ifdef " << Guard << "\n"; PreprocessorGuards.insert(std::string(Guard)); } /// Emit a generic enum. void SearchableTableEmitter::emitGenericEnum(const GenericEnum &Enum, raw_ostream &OS) { emitIfdef((Twine("GET_") + Enum.PreprocessorGuard + "_DECL").str(), OS); OS << "enum " << Enum.Name << " {\n"; for (const auto &Entry : Enum.Entries) OS << " " << Entry->first << " = " << Entry->second << ",\n"; OS << "};\n"; OS << "#endif\n\n"; } void SearchableTableEmitter::emitLookupFunction(const GenericTable &Table, const SearchIndex &Index, bool IsPrimary, raw_ostream &OS) { OS << "\n"; emitLookupDeclaration(Table, Index, OS); OS << " {\n"; std::vector IndexRowsStorage; ArrayRef IndexRows; StringRef IndexTypeName; StringRef IndexName; if (IsPrimary) { IndexTypeName = Table.CppTypeName; IndexName = Table.Name; IndexRows = Table.Entries; } else { OS << " struct IndexType {\n"; for (const auto &Field : Index.Fields) { OS << " " << searchableFieldType(Table, Index, Field, TypeInStaticStruct) << " " << Field.Name << ";\n"; } OS << " unsigned _index;\n"; OS << " };\n"; OS << " static const struct IndexType Index[] = {\n"; std::vector> Entries; Entries.reserve(Table.Entries.size()); for (unsigned i = 0; i < Table.Entries.size(); ++i) Entries.emplace_back(Table.Entries[i], i); llvm::stable_sort(Entries, [&](const std::pair &LHS, const std::pair &RHS) { return compareBy(LHS.first, RHS.first, Index); }); IndexRowsStorage.reserve(Entries.size()); for (const auto &Entry : Entries) { IndexRowsStorage.push_back(Entry.first); OS << " { "; ListSeparator LS; for (const auto &Field : Index.Fields) { std::string Repr = primaryRepresentation( Index.Loc, Field, Entry.first->getValueInit(Field.Name)); if (isa(Field.RecType)) Repr = StringRef(Repr).upper(); OS << LS << Repr; } OS << ", " << Entry.second << " },\n"; } OS << " };\n\n"; IndexTypeName = "IndexType"; IndexName = "Index"; IndexRows = IndexRowsStorage; } bool IsContiguous = false; if (Index.Fields.size() == 1 && (Index.Fields[0].Enum || isa(Index.Fields[0].RecType))) { IsContiguous = true; for (unsigned i = 0; i < IndexRows.size(); ++i) { if (getNumericKey(Index, IndexRows[i]) != i) { IsContiguous = false; break; } } } if (IsContiguous) { OS << " auto Table = makeArrayRef(" << IndexName << ");\n"; OS << " size_t Idx = " << Index.Fields[0].Name << ";\n"; OS << " return Idx >= Table.size() ? nullptr : "; if (IsPrimary) OS << "&Table[Idx]"; else OS << "&" << Table.Name << "[Table[Idx]._index]"; OS << ";\n"; OS << "}\n"; return; } if (Index.EarlyOut) { const GenericField &Field = Index.Fields[0]; std::string FirstRepr = primaryRepresentation( Index.Loc, Field, IndexRows[0]->getValueInit(Field.Name)); std::string LastRepr = primaryRepresentation( Index.Loc, Field, IndexRows.back()->getValueInit(Field.Name)); OS << " if ((" << Field.Name << " < " << FirstRepr << ") ||\n"; OS << " (" << Field.Name << " > " << LastRepr << "))\n"; OS << " return nullptr;\n\n"; } OS << " struct KeyType {\n"; for (const auto &Field : Index.Fields) { OS << " " << searchableFieldType(Table, Index, Field, TypeInTempStruct) << " " << Field.Name << ";\n"; } OS << " };\n"; OS << " KeyType Key = {"; ListSeparator LS; for (const auto &Field : Index.Fields) { OS << LS << Field.Name; if (isa(Field.RecType)) { OS << ".upper()"; if (IsPrimary) PrintFatalError(Index.Loc, Twine("In table '") + Table.Name + "', use a secondary lookup method for " "case-insensitive comparison of field '" + Field.Name + "'"); } } OS << "};\n"; OS << " auto Table = makeArrayRef(" << IndexName << ");\n"; OS << " auto Idx = std::lower_bound(Table.begin(), Table.end(), Key,\n"; OS << " [](const " << IndexTypeName << " &LHS, const KeyType &RHS) {\n"; for (const auto &Field : Index.Fields) { if (isa(Field.RecType)) { OS << " int Cmp" << Field.Name << " = StringRef(LHS." << Field.Name << ").compare(RHS." << Field.Name << ");\n"; OS << " if (Cmp" << Field.Name << " < 0) return true;\n"; OS << " if (Cmp" << Field.Name << " > 0) return false;\n"; } else if (Field.Enum) { // Explicitly cast to unsigned, because the signedness of enums is // compiler-dependent. OS << " if ((unsigned)LHS." << Field.Name << " < (unsigned)RHS." << Field.Name << ")\n"; OS << " return true;\n"; OS << " if ((unsigned)LHS." << Field.Name << " > (unsigned)RHS." << Field.Name << ")\n"; OS << " return false;\n"; } else { OS << " if (LHS." << Field.Name << " < RHS." << Field.Name << ")\n"; OS << " return true;\n"; OS << " if (LHS." << Field.Name << " > RHS." << Field.Name << ")\n"; OS << " return false;\n"; } } OS << " return false;\n"; OS << " });\n\n"; OS << " if (Idx == Table.end()"; for (const auto &Field : Index.Fields) OS << " ||\n Key." << Field.Name << " != Idx->" << Field.Name; OS << ")\n return nullptr;\n"; if (IsPrimary) OS << " return &*Idx;\n"; else OS << " return &" << Table.Name << "[Idx->_index];\n"; OS << "}\n"; } void SearchableTableEmitter::emitLookupDeclaration(const GenericTable &Table, const SearchIndex &Index, raw_ostream &OS) { OS << "const " << Table.CppTypeName << " *" << Index.Name << "("; ListSeparator LS; for (const auto &Field : Index.Fields) OS << LS << searchableFieldType(Table, Index, Field, TypeInArgument) << " " << Field.Name; OS << ")"; } void SearchableTableEmitter::emitGenericTable(const GenericTable &Table, raw_ostream &OS) { emitIfdef((Twine("GET_") + Table.PreprocessorGuard + "_DECL").str(), OS); // Emit the declarations for the functions that will perform lookup. if (Table.PrimaryKey) { emitLookupDeclaration(Table, *Table.PrimaryKey, OS); OS << ";\n"; } for (const auto &Index : Table.Indices) { emitLookupDeclaration(Table, *Index, OS); OS << ";\n"; } OS << "#endif\n\n"; emitIfdef((Twine("GET_") + Table.PreprocessorGuard + "_IMPL").str(), OS); // The primary data table contains all the fields defined for this map. OS << "constexpr " << Table.CppTypeName << " " << Table.Name << "[] = {\n"; for (unsigned i = 0; i < Table.Entries.size(); ++i) { Record *Entry = Table.Entries[i]; OS << " { "; ListSeparator LS; for (const auto &Field : Table.Fields) OS << LS << primaryRepresentation(Table.Locs[0], Field, Entry->getValueInit(Field.Name)); OS << " }, // " << i << "\n"; } OS << " };\n"; // Indexes are sorted "{ Thing, PrimaryIdx }" arrays, so that a binary // search can be performed by "Thing". if (Table.PrimaryKey) emitLookupFunction(Table, *Table.PrimaryKey, true, OS); for (const auto &Index : Table.Indices) emitLookupFunction(Table, *Index, false, OS); OS << "#endif\n\n"; } bool SearchableTableEmitter::parseFieldType(GenericField &Field, Init *TypeOf) { if (auto Type = dyn_cast(TypeOf)) { if (Type->getValue() == "code") { Field.IsCode = true; return true; } else { if (Record *TypeRec = Records.getDef(Type->getValue())) { if (TypeRec->isSubClassOf("GenericEnum")) { Field.Enum = EnumMap[TypeRec]; Field.RecType = RecordRecTy::get(Field.Enum->Class); return true; } } } } return false; } std::unique_ptr SearchableTableEmitter::parseSearchIndex( GenericTable &Table, const RecordVal *KeyRecVal, StringRef Name, const std::vector &Key, bool EarlyOut) { auto Index = std::make_unique(); Index->Name = std::string(Name); Index->Loc = KeyRecVal->getLoc(); Index->EarlyOut = EarlyOut; for (const auto &FieldName : Key) { const GenericField *Field = Table.getFieldByName(FieldName); if (!Field) PrintFatalError( KeyRecVal, Twine("In table '") + Table.Name + "', 'PrimaryKey' or 'Key' refers to nonexistent field '" + FieldName + "'"); Index->Fields.push_back(*Field); } if (EarlyOut && isa(Index->Fields[0].RecType)) { PrintFatalError( KeyRecVal, Twine("In lookup method '") + Name + "', early-out is not " + "supported for a first key field of type string"); } return Index; } void SearchableTableEmitter::collectEnumEntries( GenericEnum &Enum, StringRef NameField, StringRef ValueField, const std::vector &Items) { for (auto EntryRec : Items) { StringRef Name; if (NameField.empty()) Name = EntryRec->getName(); else Name = EntryRec->getValueAsString(NameField); int64_t Value = 0; if (!ValueField.empty()) Value = getInt(EntryRec, ValueField); Enum.Entries.push_back(std::make_unique(Name, Value)); Enum.EntryMap.insert(std::make_pair(EntryRec, Enum.Entries.back().get())); } if (ValueField.empty()) { llvm::stable_sort(Enum.Entries, [](const std::unique_ptr &LHS, const std::unique_ptr &RHS) { return LHS->first < RHS->first; }); for (size_t i = 0; i < Enum.Entries.size(); ++i) Enum.Entries[i]->second = i; } } void SearchableTableEmitter::collectTableEntries( GenericTable &Table, const std::vector &Items) { if (Items.empty()) PrintFatalError(Table.Locs, Twine("Table '") + Table.Name + "' has no entries"); for (auto EntryRec : Items) { for (auto &Field : Table.Fields) { auto TI = dyn_cast(EntryRec->getValueInit(Field.Name)); if (!TI || !TI->isComplete()) { PrintFatalError(EntryRec, Twine("Record '") + EntryRec->getName() + "' for table '" + Table.Name + "' is missing field '" + Field.Name + "'"); } if (!Field.RecType) { Field.RecType = TI->getType(); } else { RecTy *Ty = resolveTypes(Field.RecType, TI->getType()); if (!Ty) PrintFatalError(EntryRec->getValue(Field.Name), Twine("Field '") + Field.Name + "' of table '" + Table.Name + "' entry has incompatible type: " + TI->getType()->getAsString() + " vs. " + Field.RecType->getAsString()); Field.RecType = Ty; } } Table.Entries.push_back(EntryRec); // Add record to table's record list. } Record *IntrinsicClass = Records.getClass("Intrinsic"); Record *InstructionClass = Records.getClass("Instruction"); for (auto &Field : Table.Fields) { if (!Field.RecType) PrintFatalError(Twine("Cannot determine type of field '") + Field.Name + "' in table '" + Table.Name + "'. Maybe it is not used?"); if (auto RecordTy = dyn_cast(Field.RecType)) { if (IntrinsicClass && RecordTy->isSubClassOf(IntrinsicClass)) Field.IsIntrinsic = true; else if (InstructionClass && RecordTy->isSubClassOf(InstructionClass)) Field.IsInstruction = true; } } SearchIndex Idx; std::copy(Table.Fields.begin(), Table.Fields.end(), std::back_inserter(Idx.Fields)); std::sort(Table.Entries.begin(), Table.Entries.end(), [&](Record *LHS, Record *RHS) { return compareBy(LHS, RHS, Idx); }); } void SearchableTableEmitter::run(raw_ostream &OS) { // Emit tables in a deterministic order to avoid needless rebuilds. SmallVector, 4> Tables; DenseMap TableMap; // Collect all definitions first. for (auto EnumRec : Records.getAllDerivedDefinitions("GenericEnum")) { StringRef NameField; if (!EnumRec->isValueUnset("NameField")) NameField = EnumRec->getValueAsString("NameField"); StringRef ValueField; if (!EnumRec->isValueUnset("ValueField")) ValueField = EnumRec->getValueAsString("ValueField"); auto Enum = std::make_unique(); Enum->Name = std::string(EnumRec->getName()); Enum->PreprocessorGuard = std::string(EnumRec->getName()); StringRef FilterClass = EnumRec->getValueAsString("FilterClass"); Enum->Class = Records.getClass(FilterClass); if (!Enum->Class) PrintFatalError(EnumRec->getValue("FilterClass"), Twine("Enum FilterClass '") + FilterClass + "' does not exist"); collectEnumEntries(*Enum, NameField, ValueField, Records.getAllDerivedDefinitions(FilterClass)); EnumMap.insert(std::make_pair(EnumRec, Enum.get())); Enums.emplace_back(std::move(Enum)); } for (auto TableRec : Records.getAllDerivedDefinitions("GenericTable")) { auto Table = std::make_unique(); Table->Name = std::string(TableRec->getName()); Table->Locs = TableRec->getLoc(); Table->PreprocessorGuard = std::string(TableRec->getName()); Table->CppTypeName = std::string(TableRec->getValueAsString("CppTypeName")); std::vector Fields = TableRec->getValueAsListOfStrings("Fields"); for (const auto &FieldName : Fields) { Table->Fields.emplace_back(FieldName); // Construct a GenericField. if (auto TypeOfRecordVal = TableRec->getValue(("TypeOf_" + FieldName).str())) { if (!parseFieldType(Table->Fields.back(), TypeOfRecordVal->getValue())) { PrintError(TypeOfRecordVal, Twine("Table '") + Table->Name + "' has invalid 'TypeOf_" + FieldName + "': " + TypeOfRecordVal->getValue()->getAsString()); PrintFatalNote("The 'TypeOf_xxx' field must be a string naming a " "GenericEnum record, or \"code\""); } } } StringRef FilterClass = TableRec->getValueAsString("FilterClass"); if (!Records.getClass(FilterClass)) PrintFatalError(TableRec->getValue("FilterClass"), Twine("Table FilterClass '") + FilterClass + "' does not exist"); collectTableEntries(*Table, Records.getAllDerivedDefinitions(FilterClass)); if (!TableRec->isValueUnset("PrimaryKey")) { Table->PrimaryKey = parseSearchIndex(*Table, TableRec->getValue("PrimaryKey"), TableRec->getValueAsString("PrimaryKeyName"), TableRec->getValueAsListOfStrings("PrimaryKey"), TableRec->getValueAsBit("PrimaryKeyEarlyOut")); llvm::stable_sort(Table->Entries, [&](Record *LHS, Record *RHS) { return compareBy(LHS, RHS, *Table->PrimaryKey); }); } TableMap.insert(std::make_pair(TableRec, Table.get())); Tables.emplace_back(std::move(Table)); } for (Record *IndexRec : Records.getAllDerivedDefinitions("SearchIndex")) { Record *TableRec = IndexRec->getValueAsDef("Table"); auto It = TableMap.find(TableRec); if (It == TableMap.end()) PrintFatalError(IndexRec->getValue("Table"), Twine("SearchIndex '") + IndexRec->getName() + "' refers to nonexistent table '" + TableRec->getName()); GenericTable &Table = *It->second; Table.Indices.push_back( parseSearchIndex(Table, IndexRec->getValue("Key"), IndexRec->getName(), IndexRec->getValueAsListOfStrings("Key"), IndexRec->getValueAsBit("EarlyOut"))); } // Translate legacy tables. Record *SearchableTable = Records.getClass("SearchableTable"); for (auto &NameRec : Records.getClasses()) { Record *Class = NameRec.second.get(); if (Class->getSuperClasses().size() != 1 || !Class->isSubClassOf(SearchableTable)) continue; StringRef TableName = Class->getName(); std::vector Items = Records.getAllDerivedDefinitions(TableName); if (!Class->isValueUnset("EnumNameField")) { StringRef NameField = Class->getValueAsString("EnumNameField"); StringRef ValueField; if (!Class->isValueUnset("EnumValueField")) ValueField = Class->getValueAsString("EnumValueField"); auto Enum = std::make_unique(); Enum->Name = (Twine(Class->getName()) + "Values").str(); Enum->PreprocessorGuard = Class->getName().upper(); Enum->Class = Class; collectEnumEntries(*Enum, NameField, ValueField, Items); Enums.emplace_back(std::move(Enum)); } auto Table = std::make_unique(); Table->Name = (Twine(Class->getName()) + "sList").str(); Table->Locs = Class->getLoc(); Table->PreprocessorGuard = Class->getName().upper(); Table->CppTypeName = std::string(Class->getName()); for (const RecordVal &Field : Class->getValues()) { std::string FieldName = std::string(Field.getName()); // Skip uninteresting fields: either special to us, or injected // template parameters (if they contain a ':'). if (FieldName.find(':') != std::string::npos || FieldName == "SearchableFields" || FieldName == "EnumNameField" || FieldName == "EnumValueField") continue; Table->Fields.emplace_back(FieldName); } collectTableEntries(*Table, Items); for (const auto &Field : Class->getValueAsListOfStrings("SearchableFields")) { std::string Name = (Twine("lookup") + Table->CppTypeName + "By" + Field).str(); Table->Indices.push_back(parseSearchIndex(*Table, Class->getValue(Field), Name, {Field}, false)); } Tables.emplace_back(std::move(Table)); } // Emit everything. for (const auto &Enum : Enums) emitGenericEnum(*Enum, OS); for (const auto &Table : Tables) emitGenericTable(*Table, OS); // Put all #undefs last, to allow multiple sections guarded by the same // define. for (const auto &Guard : PreprocessorGuards) OS << "#undef " << Guard << "\n"; } namespace llvm { void EmitSearchableTables(RecordKeeper &RK, raw_ostream &OS) { SearchableTableEmitter(RK).run(OS); } } // End llvm namespace.