mlir/tools/mlir-tblgen/EnumsGen.cpp - llvm-project - Git at Google

 //===- EnumsGen.cpp - MLIR enum utility generator -------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // EnumsGen generates common utility functions for enums.
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/TableGen/Attribute.h"
 #include "mlir/TableGen/GenInfo.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/ADT/StringExtras.h"
 #include "llvm/Support/FormatVariadic.h"
 #include "llvm/Support/raw_ostream.h"
 #include "llvm/TableGen/Error.h"
 #include "llvm/TableGen/Record.h"
 #include "llvm/TableGen/TableGenBackend.h"

 using llvm::formatv;
 using llvm::isDigit;
 using llvm::raw_ostream;
 using llvm::Record;
 using llvm::RecordKeeper;
 using llvm::StringRef;
 using mlir::tblgen::EnumAttr;
 using mlir::tblgen::EnumAttrCase;

 static std::string makeIdentifier(StringRef str) {
   if (!str.empty() && isDigit(static_cast<unsigned char>(str.front()))) {
     std::string newStr = std::string("_") + str.str();
     return newStr;
   }
   return str.str();
 }

 static void emitEnumClass(const Record &enumDef, StringRef enumName,
                           StringRef underlyingType, StringRef description,
                           const std::vector<EnumAttrCase> &enumerants,
                           raw_ostream &os) {
   os << "// " << description << "\n";
   os << "enum class " << enumName;

   if (!underlyingType.empty())
     os << " : " << underlyingType;
   os << " {\n";

   for (const auto &enumerant : enumerants) {
     auto symbol = makeIdentifier(enumerant.getSymbol());
     auto value = enumerant.getValue();
     if (value >= 0) {
       os << formatv("  {0} = {1},\n", symbol, value);
     } else {
       os << formatv("  {0},\n", symbol);
     }
   }
   os << "};\n\n";
 }

 static void emitDenseMapInfo(StringRef enumName, std::string underlyingType,
                              StringRef cppNamespace, raw_ostream &os) {
   std::string qualName =
       std::string(formatv("{0}::{1}", cppNamespace, enumName));
   if (underlyingType.empty())
     underlyingType =
         std::string(formatv("std::underlying_type<{0}>::type", qualName));

   const char *const mapInfo = R"(
 namespace llvm {
 template<> struct DenseMapInfo<{0}> {{
   using StorageInfo = ::llvm::DenseMapInfo<{1}>;

   static inline {0} getEmptyKey() {{
     return static_cast<{0}>(StorageInfo::getEmptyKey());
   }

   static inline {0} getTombstoneKey() {{
     return static_cast<{0}>(StorageInfo::getTombstoneKey());
   }

   static unsigned getHashValue(const {0} &val) {{
     return StorageInfo::getHashValue(static_cast<{1}>(val));
   }

   static bool isEqual(const {0} &lhs, const {0} &rhs) {{
     return lhs == rhs;
   }
 };
 })";
   os << formatv(mapInfo, qualName, underlyingType);
   os << "\n\n";
 }

 static void emitMaxValueFn(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef maxEnumValFnName = enumAttr.getMaxEnumValFnName();
   auto enumerants = enumAttr.getAllCases();

   unsigned maxEnumVal = 0;
   for (const auto &enumerant : enumerants) {
     int64_t value = enumerant.getValue();
     // Avoid generating the max value function if there is an enumerant without
     // explicit value.
     if (value < 0)
       return;

     maxEnumVal = std::max(maxEnumVal, static_cast<unsigned>(value));
   }

   // Emit the function to return the max enum value
   os << formatv("inline constexpr unsigned {0}() {{\n", maxEnumValFnName);
   os << formatv("  return {0};\n", maxEnumVal);
   os << "}\n\n";
 }

 // Returns the EnumAttrCase whose value is zero if exists; returns llvm::None
 // otherwise.
 static llvm::Optional<EnumAttrCase>
 getAllBitsUnsetCase(llvm::ArrayRef<EnumAttrCase> cases) {
   for (auto attrCase : cases) {
     if (attrCase.getValue() == 0)
       return attrCase;
   }
   return llvm::None;
 }

 // Emits the following inline function for bit enums:
 //
 // inline <enum-type> operator|(<enum-type> a, <enum-type> b);
 // inline <enum-type> operator&(<enum-type> a, <enum-type> b);
 // inline <enum-type> bitEnumContains(<enum-type> a, <enum-type> b);
 static void emitOperators(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   std::string underlyingType = std::string(enumAttr.getUnderlyingType());
   os << formatv("inline {0} operator|({0} lhs, {0} rhs) {{\n", enumName)
      << formatv("  return static_cast<{0}>("
                 "static_cast<{1}>(lhs) | static_cast<{1}>(rhs));\n",
                 enumName, underlyingType)
      << "}\n";
   os << formatv("inline {0} operator&({0} lhs, {0} rhs) {{\n", enumName)
      << formatv("  return static_cast<{0}>("
                 "static_cast<{1}>(lhs) & static_cast<{1}>(rhs));\n",
                 enumName, underlyingType)
      << "}\n";
   os << formatv(
             "inline bool bitEnumContains({0} bits, {0} bit) {{\n"
             "  return (static_cast<{1}>(bits) & static_cast<{1}>(bit)) != 0;\n",
             enumName, underlyingType)
      << "}\n";
 }

 static void emitSymToStrFnForIntEnum(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   StringRef symToStrFnName = enumAttr.getSymbolToStringFnName();
   StringRef symToStrFnRetType = enumAttr.getSymbolToStringFnRetType();
   auto enumerants = enumAttr.getAllCases();

   os << formatv("{2} {1}({0} val) {{\n", enumName, symToStrFnName,
                 symToStrFnRetType);
   os << "  switch (val) {\n";
   for (const auto &enumerant : enumerants) {
     auto symbol = enumerant.getSymbol();
     auto str = enumerant.getStr();
     os << formatv("    case {0}::{1}: return \"{2}\";\n", enumName,
                   makeIdentifier(symbol), str);
   }
   os << "  }\n";
   os << "  return \"\";\n";
   os << "}\n\n";
 }

 static void emitSymToStrFnForBitEnum(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   StringRef symToStrFnName = enumAttr.getSymbolToStringFnName();
   StringRef symToStrFnRetType = enumAttr.getSymbolToStringFnRetType();
   StringRef separator = enumDef.getValueAsString("separator");
   auto enumerants = enumAttr.getAllCases();
   auto allBitsUnsetCase = getAllBitsUnsetCase(enumerants);

   os << formatv("{2} {1}({0} symbol) {{\n", enumName, symToStrFnName,
                 symToStrFnRetType);

   os << formatv("  auto val = static_cast<{0}>(symbol);\n",
                 enumAttr.getUnderlyingType());
   if (allBitsUnsetCase) {
     os << "  // Special case for all bits unset.\n";
     os << formatv("  if (val == 0) return \"{0}\";\n\n",
                   allBitsUnsetCase->getSymbol());
   }
   os << "  ::llvm::SmallVector<::llvm::StringRef, 2> strs;\n";
   for (const auto &enumerant : enumerants) {
     // Skip the special enumerant for None.
     if (auto val = enumerant.getValue())
       os << formatv("  if ({0}u & val) {{ strs.push_back(\"{1}\"); "
                     "val &= ~{0}u; }\n",
                     val, enumerant.getSymbol());
   }
   // If we have unknown bit set, return an empty string to signal errors.
   os << "\n  if (val) return \"\";\n";
   os << formatv("  return ::llvm::join(strs, \"{0}\");\n", separator);

   os << "}\n\n";
 }

 static void emitStrToSymFnForIntEnum(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   StringRef strToSymFnName = enumAttr.getStringToSymbolFnName();
   auto enumerants = enumAttr.getAllCases();

   os << formatv("::llvm::Optional<{0}> {1}(::llvm::StringRef str) {{\n",
                 enumName, strToSymFnName);
   os << formatv("  return ::llvm::StringSwitch<::llvm::Optional<{0}>>(str)\n",
                 enumName);
   for (const auto &enumerant : enumerants) {
     auto symbol = enumerant.getSymbol();
     auto str = enumerant.getStr();
     os << formatv("      .Case(\"{1}\", {0}::{2})\n", enumName, str,
                   makeIdentifier(symbol));
   }
   os << "      .Default(::llvm::None);\n";
   os << "}\n";
 }

 static void emitStrToSymFnForBitEnum(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   std::string underlyingType = std::string(enumAttr.getUnderlyingType());
   StringRef strToSymFnName = enumAttr.getStringToSymbolFnName();
   StringRef separator = enumDef.getValueAsString("separator");
   auto enumerants = enumAttr.getAllCases();
   auto allBitsUnsetCase = getAllBitsUnsetCase(enumerants);

   os << formatv("::llvm::Optional<{0}> {1}(::llvm::StringRef str) {{\n",
                 enumName, strToSymFnName);

   if (allBitsUnsetCase) {
     os << "  // Special case for all bits unset.\n";
     StringRef caseSymbol = allBitsUnsetCase->getSymbol();
     os << formatv("  if (str == \"{1}\") return {0}::{2};\n\n", enumName,
                   caseSymbol, makeIdentifier(caseSymbol));
   }

   // Split the string to get symbols for all the bits.
   os << "  ::llvm::SmallVector<::llvm::StringRef, 2> symbols;\n";
   os << formatv("  str.split(symbols, \"{0}\");\n\n", separator);

   os << formatv("  {0} val = 0;\n", underlyingType);
   os << "  for (auto symbol : symbols) {\n";

   // Convert each symbol to the bit ordinal and set the corresponding bit.
   os << formatv(
       "    auto bit = llvm::StringSwitch<::llvm::Optional<{0}>>(symbol)\n",
       underlyingType);
   for (const auto &enumerant : enumerants) {
     // Skip the special enumerant for None.
     if (auto val = enumerant.getValue())
       os.indent(6) << formatv(".Case(\"{0}\", {1})\n", enumerant.getSymbol(),
                               val);
   }
   os.indent(6) << ".Default(::llvm::None);\n";

   os << "    if (bit) { val |= *bit; } else { return ::llvm::None; }\n";
   os << "  }\n";

   os << formatv("  return static_cast<{0}>(val);\n", enumName);
   os << "}\n\n";
 }

 static void emitUnderlyingToSymFnForIntEnum(const Record &enumDef,
                                             raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   std::string underlyingType = std::string(enumAttr.getUnderlyingType());
   StringRef underlyingToSymFnName = enumAttr.getUnderlyingToSymbolFnName();
   auto enumerants = enumAttr.getAllCases();

   // Avoid generating the underlying value to symbol conversion function if
   // there is an enumerant without explicit value.
   if (llvm::any_of(enumerants, [](EnumAttrCase enumerant) {
         return enumerant.getValue() < 0;
       }))
     return;

   os << formatv("::llvm::Optional<{0}> {1}({2} value) {{\n", enumName,
                 underlyingToSymFnName,
                 underlyingType.empty() ? std::string("unsigned")
                                        : underlyingType)
      << "  switch (value) {\n";
   for (const auto &enumerant : enumerants) {
     auto symbol = enumerant.getSymbol();
     auto value = enumerant.getValue();
     os << formatv("  case {0}: return {1}::{2};\n", value, enumName,
                   makeIdentifier(symbol));
   }
   os << "  default: return ::llvm::None;\n"
      << "  }\n"
      << "}\n\n";
 }

 static void emitUnderlyingToSymFnForBitEnum(const Record &enumDef,
                                             raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   std::string underlyingType = std::string(enumAttr.getUnderlyingType());
   StringRef underlyingToSymFnName = enumAttr.getUnderlyingToSymbolFnName();
   auto enumerants = enumAttr.getAllCases();
   auto allBitsUnsetCase = getAllBitsUnsetCase(enumerants);

   os << formatv("::llvm::Optional<{0}> {1}({2} value) {{\n", enumName,
                 underlyingToSymFnName, underlyingType);
   if (allBitsUnsetCase) {
     os << "  // Special case for all bits unset.\n";
     os << formatv("  if (value == 0) return {0}::{1};\n\n", enumName,
                   makeIdentifier(allBitsUnsetCase->getSymbol()));
   }
   llvm::SmallVector<std::string, 8> values;
   for (const auto &enumerant : enumerants) {
     if (auto val = enumerant.getValue())
       values.push_back(std::string(formatv("{0}u", val)));
   }
   os << formatv("  if (value & ~({0})) return llvm::None;\n",
                 llvm::join(values, " | "));
   os << formatv("  return static_cast<{0}>(value);\n", enumName);
   os << "}\n";
 }

 static void emitEnumDecl(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef enumName = enumAttr.getEnumClassName();
   StringRef cppNamespace = enumAttr.getCppNamespace();
   std::string underlyingType = std::string(enumAttr.getUnderlyingType());
   StringRef description = enumAttr.getSummary();
   StringRef strToSymFnName = enumAttr.getStringToSymbolFnName();
   StringRef symToStrFnName = enumAttr.getSymbolToStringFnName();
   StringRef symToStrFnRetType = enumAttr.getSymbolToStringFnRetType();
   StringRef underlyingToSymFnName = enumAttr.getUnderlyingToSymbolFnName();
   auto enumerants = enumAttr.getAllCases();

   llvm::SmallVector<StringRef, 2> namespaces;
   llvm::SplitString(cppNamespace, namespaces, "::");

   for (auto ns : namespaces)
     os << "namespace " << ns << " {\n";

   // Emit the enum class definition
   emitEnumClass(enumDef, enumName, underlyingType, description, enumerants, os);

   // Emit conversion function declarations
   if (llvm::all_of(enumerants, [](EnumAttrCase enumerant) {
         return enumerant.getValue() >= 0;
       })) {
     os << formatv(
         "::llvm::Optional<{0}> {1}({2});\n", enumName, underlyingToSymFnName,
         underlyingType.empty() ? std::string("unsigned") : underlyingType);
   }
   os << formatv("{2} {1}({0});\n", enumName, symToStrFnName, symToStrFnRetType);
   os << formatv("::llvm::Optional<{0}> {1}(::llvm::StringRef);\n", enumName,
                 strToSymFnName);

   if (enumAttr.isBitEnum()) {
     emitOperators(enumDef, os);
   } else {
     emitMaxValueFn(enumDef, os);
   }

   // Generate a generic `stringifyEnum` function that forwards to the method
   // specified by the user.
   const char *const stringifyEnumStr = R"(
 inline {0} stringifyEnum({1} enumValue) {{
   return {2}(enumValue);
 }
 )";
   os << formatv(stringifyEnumStr, symToStrFnRetType, enumName, symToStrFnName);

   // Generate a generic `symbolizeEnum` function that forwards to the method
   // specified by the user.
   const char *const symbolizeEnumStr = R"(
 template <typename EnumType>
 ::llvm::Optional<EnumType> symbolizeEnum(::llvm::StringRef);

 template <>
 inline ::llvm::Optional<{0}> symbolizeEnum<{0}>(::llvm::StringRef str) {
   return {1}(str);
 }
 )";
   os << formatv(symbolizeEnumStr, enumName, strToSymFnName);

   for (auto ns : llvm::reverse(namespaces))
     os << "} // namespace " << ns << "\n";

   // Emit DenseMapInfo for this enum class
   emitDenseMapInfo(enumName, underlyingType, cppNamespace, os);
 }

 static bool emitEnumDecls(const RecordKeeper &recordKeeper, raw_ostream &os) {
   llvm::emitSourceFileHeader("Enum Utility Declarations", os);

   auto defs = recordKeeper.getAllDerivedDefinitions("EnumAttrInfo");
   for (const auto *def : defs)
     emitEnumDecl(*def, os);

   return false;
 }

 static void emitEnumDef(const Record &enumDef, raw_ostream &os) {
   EnumAttr enumAttr(enumDef);
   StringRef cppNamespace = enumAttr.getCppNamespace();

   llvm::SmallVector<StringRef, 2> namespaces;
   llvm::SplitString(cppNamespace, namespaces, "::");

   for (auto ns : namespaces)
     os << "namespace " << ns << " {\n";

   if (enumAttr.isBitEnum()) {
     emitSymToStrFnForBitEnum(enumDef, os);
     emitStrToSymFnForBitEnum(enumDef, os);
     emitUnderlyingToSymFnForBitEnum(enumDef, os);
   } else {
     emitSymToStrFnForIntEnum(enumDef, os);
     emitStrToSymFnForIntEnum(enumDef, os);
     emitUnderlyingToSymFnForIntEnum(enumDef, os);
   }

   for (auto ns : llvm::reverse(namespaces))
     os << "} // namespace " << ns << "\n";
   os << "\n";
 }

 static bool emitEnumDefs(const RecordKeeper &recordKeeper, raw_ostream &os) {
   llvm::emitSourceFileHeader("Enum Utility Definitions", os);

   auto defs = recordKeeper.getAllDerivedDefinitions("EnumAttrInfo");
   for (const auto *def : defs)
     emitEnumDef(*def, os);

   return false;
 }

 // Registers the enum utility generator to mlir-tblgen.
 static mlir::GenRegistration
     genEnumDecls("gen-enum-decls", "Generate enum utility declarations",
                  [](const RecordKeeper &records, raw_ostream &os) {
                    return emitEnumDecls(records, os);
                  });

 // Registers the enum utility generator to mlir-tblgen.
 static mlir::GenRegistration
     genEnumDefs("gen-enum-defs", "Generate enum utility definitions",
                 [](const RecordKeeper &records, raw_ostream &os) {
                   return emitEnumDefs(records, os);
                 });
	//===- EnumsGen.cpp - MLIR enum utility generator -------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// EnumsGen generates common utility functions for enums.
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/TableGen/Attribute.h"
	#include "mlir/TableGen/GenInfo.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/ADT/StringExtras.h"
	#include "llvm/Support/FormatVariadic.h"
	#include "llvm/Support/raw_ostream.h"
	#include "llvm/TableGen/Error.h"
	#include "llvm/TableGen/Record.h"
	#include "llvm/TableGen/TableGenBackend.h"

	using llvm::formatv;
	using llvm::isDigit;
	using llvm::raw_ostream;
	using llvm::Record;
	using llvm::RecordKeeper;
	using llvm::StringRef;
	using mlir::tblgen::EnumAttr;
	using mlir::tblgen::EnumAttrCase;

	static std::string makeIdentifier(StringRef str) {
	if (!str.empty() && isDigit(static_cast<unsigned char>(str.front()))) {
	std::string newStr = std::string("_") + str.str();
	return newStr;
	}
	return str.str();
	}

	static void emitEnumClass(const Record &enumDef, StringRef enumName,
	StringRef underlyingType, StringRef description,
	const std::vector<EnumAttrCase> &enumerants,
	raw_ostream &os) {
	os << "// " << description << "\n";
	os << "enum class " << enumName;

	if (!underlyingType.empty())
	os << " : " << underlyingType;
	os << " {\n";

	for (const auto &enumerant : enumerants) {
	auto symbol = makeIdentifier(enumerant.getSymbol());
	auto value = enumerant.getValue();
	if (value >= 0) {
	os << formatv(" {0} = {1},\n", symbol, value);
	} else {
	os << formatv(" {0},\n", symbol);
	}
	}
	os << "};\n\n";
	}

	static void emitDenseMapInfo(StringRef enumName, std::string underlyingType,
	StringRef cppNamespace, raw_ostream &os) {
	std::string qualName =
	std::string(formatv("{0}::{1}", cppNamespace, enumName));
	if (underlyingType.empty())
	underlyingType =
	std::string(formatv("std::underlying_type<{0}>::type", qualName));

	const char *const mapInfo = R"(
	namespace llvm {
	template<> struct DenseMapInfo<{0}> {{
	using StorageInfo = ::llvm::DenseMapInfo<{1}>;

	static inline {0} getEmptyKey() {{
	return static_cast<{0}>(StorageInfo::getEmptyKey());
	}

	static inline {0} getTombstoneKey() {{
	return static_cast<{0}>(StorageInfo::getTombstoneKey());
	}

	static unsigned getHashValue(const {0} &val) {{
	return StorageInfo::getHashValue(static_cast<{1}>(val));
	}

	static bool isEqual(const {0} &lhs, const {0} &rhs) {{
	return lhs == rhs;
	}
	};
	})";
	os << formatv(mapInfo, qualName, underlyingType);
	os << "\n\n";
	}

	static void emitMaxValueFn(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef maxEnumValFnName = enumAttr.getMaxEnumValFnName();
	auto enumerants = enumAttr.getAllCases();

	unsigned maxEnumVal = 0;
	for (const auto &enumerant : enumerants) {
	int64_t value = enumerant.getValue();
	// Avoid generating the max value function if there is an enumerant without
	// explicit value.
	if (value < 0)
	return;

	maxEnumVal = std::max(maxEnumVal, static_cast<unsigned>(value));
	}

	// Emit the function to return the max enum value
	os << formatv("inline constexpr unsigned {0}() {{\n", maxEnumValFnName);
	os << formatv(" return {0};\n", maxEnumVal);
	os << "}\n\n";
	}

	// Returns the EnumAttrCase whose value is zero if exists; returns llvm::None
	// otherwise.
	static llvm::Optional<EnumAttrCase>
	getAllBitsUnsetCase(llvm::ArrayRef<EnumAttrCase> cases) {
	for (auto attrCase : cases) {
	if (attrCase.getValue() == 0)
	return attrCase;
	}
	return llvm::None;
	}

	// Emits the following inline function for bit enums:
	//
	// inline <enum-type> operator\|(<enum-type> a, <enum-type> b);
	// inline <enum-type> operator&(<enum-type> a, <enum-type> b);
	// inline <enum-type> bitEnumContains(<enum-type> a, <enum-type> b);
	static void emitOperators(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	std::string underlyingType = std::string(enumAttr.getUnderlyingType());
	os << formatv("inline {0} operator\|({0} lhs, {0} rhs) {{\n", enumName)
	<< formatv(" return static_cast<{0}>("
	"static_cast<{1}>(lhs) \| static_cast<{1}>(rhs));\n",
	enumName, underlyingType)
	<< "}\n";
	os << formatv("inline {0} operator&({0} lhs, {0} rhs) {{\n", enumName)
	<< formatv(" return static_cast<{0}>("
	"static_cast<{1}>(lhs) & static_cast<{1}>(rhs));\n",
	enumName, underlyingType)
	<< "}\n";
	os << formatv(
	"inline bool bitEnumContains({0} bits, {0} bit) {{\n"
	" return (static_cast<{1}>(bits) & static_cast<{1}>(bit)) != 0;\n",
	enumName, underlyingType)
	<< "}\n";
	}

	static void emitSymToStrFnForIntEnum(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	StringRef symToStrFnName = enumAttr.getSymbolToStringFnName();
	StringRef symToStrFnRetType = enumAttr.getSymbolToStringFnRetType();
	auto enumerants = enumAttr.getAllCases();

	os << formatv("{2} {1}({0} val) {{\n", enumName, symToStrFnName,
	symToStrFnRetType);
	os << " switch (val) {\n";
	for (const auto &enumerant : enumerants) {
	auto symbol = enumerant.getSymbol();
	auto str = enumerant.getStr();
	os << formatv(" case {0}::{1}: return \"{2}\";\n", enumName,
	makeIdentifier(symbol), str);
	}
	os << " }\n";
	os << " return \"\";\n";
	os << "}\n\n";
	}

	static void emitSymToStrFnForBitEnum(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	StringRef symToStrFnName = enumAttr.getSymbolToStringFnName();
	StringRef symToStrFnRetType = enumAttr.getSymbolToStringFnRetType();
	StringRef separator = enumDef.getValueAsString("separator");
	auto enumerants = enumAttr.getAllCases();
	auto allBitsUnsetCase = getAllBitsUnsetCase(enumerants);

	os << formatv("{2} {1}({0} symbol) {{\n", enumName, symToStrFnName,
	symToStrFnRetType);

	os << formatv(" auto val = static_cast<{0}>(symbol);\n",
	enumAttr.getUnderlyingType());
	if (allBitsUnsetCase) {
	os << " // Special case for all bits unset.\n";
	os << formatv(" if (val == 0) return \"{0}\";\n\n",
	allBitsUnsetCase->getSymbol());
	}
	os << " ::llvm::SmallVector<::llvm::StringRef, 2> strs;\n";
	for (const auto &enumerant : enumerants) {
	// Skip the special enumerant for None.
	if (auto val = enumerant.getValue())
	os << formatv(" if ({0}u & val) {{ strs.push_back(\"{1}\"); "
	"val &= ~{0}u; }\n",
	val, enumerant.getSymbol());
	}
	// If we have unknown bit set, return an empty string to signal errors.
	os << "\n if (val) return \"\";\n";
	os << formatv(" return ::llvm::join(strs, \"{0}\");\n", separator);

	os << "}\n\n";
	}

	static void emitStrToSymFnForIntEnum(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	StringRef strToSymFnName = enumAttr.getStringToSymbolFnName();
	auto enumerants = enumAttr.getAllCases();

	os << formatv("::llvm::Optional<{0}> {1}(::llvm::StringRef str) {{\n",
	enumName, strToSymFnName);
	os << formatv(" return ::llvm::StringSwitch<::llvm::Optional<{0}>>(str)\n",
	enumName);
	for (const auto &enumerant : enumerants) {
	auto symbol = enumerant.getSymbol();
	auto str = enumerant.getStr();
	os << formatv(" .Case(\"{1}\", {0}::{2})\n", enumName, str,
	makeIdentifier(symbol));
	}
	os << " .Default(::llvm::None);\n";
	os << "}\n";
	}

	static void emitStrToSymFnForBitEnum(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	std::string underlyingType = std::string(enumAttr.getUnderlyingType());
	StringRef strToSymFnName = enumAttr.getStringToSymbolFnName();
	StringRef separator = enumDef.getValueAsString("separator");
	auto enumerants = enumAttr.getAllCases();
	auto allBitsUnsetCase = getAllBitsUnsetCase(enumerants);

	os << formatv("::llvm::Optional<{0}> {1}(::llvm::StringRef str) {{\n",
	enumName, strToSymFnName);

	if (allBitsUnsetCase) {
	os << " // Special case for all bits unset.\n";
	StringRef caseSymbol = allBitsUnsetCase->getSymbol();
	os << formatv(" if (str == \"{1}\") return {0}::{2};\n\n", enumName,
	caseSymbol, makeIdentifier(caseSymbol));
	}

	// Split the string to get symbols for all the bits.
	os << " ::llvm::SmallVector<::llvm::StringRef, 2> symbols;\n";
	os << formatv(" str.split(symbols, \"{0}\");\n\n", separator);

	os << formatv(" {0} val = 0;\n", underlyingType);
	os << " for (auto symbol : symbols) {\n";

	// Convert each symbol to the bit ordinal and set the corresponding bit.
	os << formatv(
	" auto bit = llvm::StringSwitch<::llvm::Optional<{0}>>(symbol)\n",
	underlyingType);
	for (const auto &enumerant : enumerants) {
	// Skip the special enumerant for None.
	if (auto val = enumerant.getValue())
	os.indent(6) << formatv(".Case(\"{0}\", {1})\n", enumerant.getSymbol(),
	val);
	}
	os.indent(6) << ".Default(::llvm::None);\n";

	os << " if (bit) { val \|= *bit; } else { return ::llvm::None; }\n";
	os << " }\n";

	os << formatv(" return static_cast<{0}>(val);\n", enumName);
	os << "}\n\n";
	}

	static void emitUnderlyingToSymFnForIntEnum(const Record &enumDef,
	raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	std::string underlyingType = std::string(enumAttr.getUnderlyingType());
	StringRef underlyingToSymFnName = enumAttr.getUnderlyingToSymbolFnName();
	auto enumerants = enumAttr.getAllCases();

	// Avoid generating the underlying value to symbol conversion function if
	// there is an enumerant without explicit value.
	if (llvm::any_of(enumerants, [](EnumAttrCase enumerant) {
	return enumerant.getValue() < 0;
	}))
	return;

	os << formatv("::llvm::Optional<{0}> {1}({2} value) {{\n", enumName,
	underlyingToSymFnName,
	underlyingType.empty() ? std::string("unsigned")
	: underlyingType)
	<< " switch (value) {\n";
	for (const auto &enumerant : enumerants) {
	auto symbol = enumerant.getSymbol();
	auto value = enumerant.getValue();
	os << formatv(" case {0}: return {1}::{2};\n", value, enumName,
	makeIdentifier(symbol));
	}
	os << " default: return ::llvm::None;\n"
	<< " }\n"
	<< "}\n\n";
	}

	static void emitUnderlyingToSymFnForBitEnum(const Record &enumDef,
	raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	std::string underlyingType = std::string(enumAttr.getUnderlyingType());
	StringRef underlyingToSymFnName = enumAttr.getUnderlyingToSymbolFnName();
	auto enumerants = enumAttr.getAllCases();
	auto allBitsUnsetCase = getAllBitsUnsetCase(enumerants);

	os << formatv("::llvm::Optional<{0}> {1}({2} value) {{\n", enumName,
	underlyingToSymFnName, underlyingType);
	if (allBitsUnsetCase) {
	os << " // Special case for all bits unset.\n";
	os << formatv(" if (value == 0) return {0}::{1};\n\n", enumName,
	makeIdentifier(allBitsUnsetCase->getSymbol()));
	}
	llvm::SmallVector<std::string, 8> values;
	for (const auto &enumerant : enumerants) {
	if (auto val = enumerant.getValue())
	values.push_back(std::string(formatv("{0}u", val)));
	}
	os << formatv(" if (value & ~({0})) return llvm::None;\n",
	llvm::join(values, " \| "));
	os << formatv(" return static_cast<{0}>(value);\n", enumName);
	os << "}\n";
	}

	static void emitEnumDecl(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef enumName = enumAttr.getEnumClassName();
	StringRef cppNamespace = enumAttr.getCppNamespace();
	std::string underlyingType = std::string(enumAttr.getUnderlyingType());
	StringRef description = enumAttr.getSummary();
	StringRef strToSymFnName = enumAttr.getStringToSymbolFnName();
	StringRef symToStrFnName = enumAttr.getSymbolToStringFnName();
	StringRef symToStrFnRetType = enumAttr.getSymbolToStringFnRetType();
	StringRef underlyingToSymFnName = enumAttr.getUnderlyingToSymbolFnName();
	auto enumerants = enumAttr.getAllCases();

	llvm::SmallVector<StringRef, 2> namespaces;
	llvm::SplitString(cppNamespace, namespaces, "::");

	for (auto ns : namespaces)
	os << "namespace " << ns << " {\n";

	// Emit the enum class definition
	emitEnumClass(enumDef, enumName, underlyingType, description, enumerants, os);

	// Emit conversion function declarations
	if (llvm::all_of(enumerants, [](EnumAttrCase enumerant) {
	return enumerant.getValue() >= 0;
	})) {
	os << formatv(
	"::llvm::Optional<{0}> {1}({2});\n", enumName, underlyingToSymFnName,
	underlyingType.empty() ? std::string("unsigned") : underlyingType);
	}
	os << formatv("{2} {1}({0});\n", enumName, symToStrFnName, symToStrFnRetType);
	os << formatv("::llvm::Optional<{0}> {1}(::llvm::StringRef);\n", enumName,
	strToSymFnName);

	if (enumAttr.isBitEnum()) {
	emitOperators(enumDef, os);
	} else {
	emitMaxValueFn(enumDef, os);
	}

	// Generate a generic `stringifyEnum` function that forwards to the method
	// specified by the user.
	const char *const stringifyEnumStr = R"(
	inline {0} stringifyEnum({1} enumValue) {{
	return {2}(enumValue);
	}
	)";
	os << formatv(stringifyEnumStr, symToStrFnRetType, enumName, symToStrFnName);

	// Generate a generic `symbolizeEnum` function that forwards to the method
	// specified by the user.
	const char *const symbolizeEnumStr = R"(
	template <typename EnumType>
	::llvm::Optional<EnumType> symbolizeEnum(::llvm::StringRef);

	template <>
	inline ::llvm::Optional<{0}> symbolizeEnum<{0}>(::llvm::StringRef str) {
	return {1}(str);
	}
	)";
	os << formatv(symbolizeEnumStr, enumName, strToSymFnName);

	for (auto ns : llvm::reverse(namespaces))
	os << "} // namespace " << ns << "\n";

	// Emit DenseMapInfo for this enum class
	emitDenseMapInfo(enumName, underlyingType, cppNamespace, os);
	}

	static bool emitEnumDecls(const RecordKeeper &recordKeeper, raw_ostream &os) {
	llvm::emitSourceFileHeader("Enum Utility Declarations", os);

	auto defs = recordKeeper.getAllDerivedDefinitions("EnumAttrInfo");
	for (const auto *def : defs)
	emitEnumDecl(*def, os);

	return false;
	}

	static void emitEnumDef(const Record &enumDef, raw_ostream &os) {
	EnumAttr enumAttr(enumDef);
	StringRef cppNamespace = enumAttr.getCppNamespace();

	llvm::SmallVector<StringRef, 2> namespaces;
	llvm::SplitString(cppNamespace, namespaces, "::");

	for (auto ns : namespaces)
	os << "namespace " << ns << " {\n";

	if (enumAttr.isBitEnum()) {
	emitSymToStrFnForBitEnum(enumDef, os);
	emitStrToSymFnForBitEnum(enumDef, os);
	emitUnderlyingToSymFnForBitEnum(enumDef, os);
	} else {
	emitSymToStrFnForIntEnum(enumDef, os);
	emitStrToSymFnForIntEnum(enumDef, os);
	emitUnderlyingToSymFnForIntEnum(enumDef, os);
	}

	for (auto ns : llvm::reverse(namespaces))
	os << "} // namespace " << ns << "\n";
	os << "\n";
	}

	static bool emitEnumDefs(const RecordKeeper &recordKeeper, raw_ostream &os) {
	llvm::emitSourceFileHeader("Enum Utility Definitions", os);

	auto defs = recordKeeper.getAllDerivedDefinitions("EnumAttrInfo");
	for (const auto *def : defs)
	emitEnumDef(*def, os);

	return false;
	}

	// Registers the enum utility generator to mlir-tblgen.
	static mlir::GenRegistration
	genEnumDecls("gen-enum-decls", "Generate enum utility declarations",
	[](const RecordKeeper &records, raw_ostream &os) {
	return emitEnumDecls(records, os);
	});

	// Registers the enum utility generator to mlir-tblgen.
	static mlir::GenRegistration
	genEnumDefs("gen-enum-defs", "Generate enum utility definitions",
	[](const RecordKeeper &records, raw_ostream &os) {
	return emitEnumDefs(records, os);
	});