//===- LLVMIRConversionGen.cpp - MLIR LLVM IR builder 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 // //===----------------------------------------------------------------------===// // // This file uses tablegen definitions of the LLVM IR Dialect operations to // generate the code building the LLVM IR from it. // //===----------------------------------------------------------------------===// #include "mlir/Support/LogicalResult.h" #include "mlir/TableGen/Attribute.h" #include "mlir/TableGen/GenInfo.h" #include "mlir/TableGen/Operator.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/Twine.h" #include "llvm/Support/FormatVariadic.h" #include "llvm/Support/raw_ostream.h" #include "llvm/TableGen/Record.h" #include "llvm/TableGen/TableGenBackend.h" using namespace llvm; using namespace mlir; static bool emitError(const Twine &message) { llvm::errs() << message << "\n"; return false; } namespace { // Helper structure to return a position of the substring in a string. struct StringLoc { size_t pos; size_t length; // Take a substring identified by this location in the given string. StringRef in(StringRef str) const { return str.substr(pos, length); } // A location is invalid if its position is outside the string. explicit operator bool() { return pos != std::string::npos; } }; } // namespace // Find the next TableGen variable in the given pattern. These variables start // with a `$` character and can contain alphanumeric characters or underscores. // Return the position of the variable in the pattern and its length, including // the `$` character. The escape syntax `$$` is also detected and returned. static StringLoc findNextVariable(StringRef str) { size_t startPos = str.find('$'); if (startPos == std::string::npos) return {startPos, 0}; // If we see "$$", return immediately. if (startPos != str.size() - 1 && str[startPos + 1] == '$') return {startPos, 2}; // Otherwise, the symbol spans until the first character that is not // alphanumeric or '_'. size_t endPos = str.find_if_not([](char c) { return isAlnum(c) || c == '_'; }, startPos + 1); if (endPos == std::string::npos) endPos = str.size(); return {startPos, endPos - startPos}; } // Check if `name` is the name of the variadic operand of `op`. The variadic // operand can only appear at the last position in the list of operands. static bool isVariadicOperandName(const tblgen::Operator &op, StringRef name) { unsigned numOperands = op.getNumOperands(); if (numOperands == 0) return false; const auto &operand = op.getOperand(numOperands - 1); return operand.isVariableLength() && operand.name == name; } // Check if `result` is a known name of a result of `op`. static bool isResultName(const tblgen::Operator &op, StringRef name) { for (int i = 0, e = op.getNumResults(); i < e; ++i) if (op.getResultName(i) == name) return true; return false; } // Check if `name` is a known name of an attribute of `op`. static bool isAttributeName(const tblgen::Operator &op, StringRef name) { return llvm::any_of( op.getAttributes(), [name](const tblgen::NamedAttribute &attr) { return attr.name == name; }); } // Check if `name` is a known name of an operand of `op`. static bool isOperandName(const tblgen::Operator &op, StringRef name) { for (int i = 0, e = op.getNumOperands(); i < e; ++i) if (op.getOperand(i).name == name) return true; return false; } // Emit to `os` the operator-name driven check and the call to LLVM IRBuilder // for one definition of an LLVM IR Dialect operation. Return true on success. static bool emitOneBuilder(const Record &record, raw_ostream &os) { auto op = tblgen::Operator(record); if (!record.getValue("llvmBuilder")) return emitError("no 'llvmBuilder' field for op " + op.getOperationName()); // Return early if there is no builder specified. auto builderStrRef = record.getValueAsString("llvmBuilder"); if (builderStrRef.empty()) return true; // Progressively create the builder string by replacing $-variables with // value lookups. Keep only the not-yet-traversed part of the builder pattern // to avoid re-traversing the string multiple times. std::string builder; llvm::raw_string_ostream bs(builder); while (auto loc = findNextVariable(builderStrRef)) { auto name = loc.in(builderStrRef).drop_front(); // First, insert the non-matched part as is. bs << builderStrRef.substr(0, loc.pos); // Then, rewrite the name based on its kind. bool isVariadicOperand = isVariadicOperandName(op, name); if (isOperandName(op, name)) { auto result = isVariadicOperand ? formatv("lookupValues(op.{0}())", name) : formatv("valueMapping.lookup(op.{0}())", name); bs << result; } else if (isAttributeName(op, name)) { bs << formatv("op.{0}()", name); } else if (isResultName(op, name)) { bs << formatv("valueMapping[op.{0}()]", name); } else if (name == "_resultType") { bs << "convertType(op.getResult().getType().cast())"; } else if (name == "_hasResult") { bs << "opInst.getNumResults() == 1"; } else if (name == "_location") { bs << "opInst.getLoc()"; } else if (name == "_numOperands") { bs << "opInst.getNumOperands()"; } else if (name == "$") { bs << '$'; } else { return emitError(name + " is neither an argument nor a result of " + op.getOperationName()); } // Finally, only keep the untraversed part of the string. builderStrRef = builderStrRef.substr(loc.pos + loc.length); } // Output the check and the rewritten builder string. os << "if (auto op = dyn_cast<" << op.getQualCppClassName() << ">(opInst)) {\n"; os << bs.str() << builderStrRef << "\n"; os << " return success();\n"; os << "}\n"; return true; } // Emit all builders. Returns false on success because of the generator // registration requirements. static bool emitBuilders(const RecordKeeper &recordKeeper, raw_ostream &os) { for (const auto *def : recordKeeper.getAllDerivedDefinitions("LLVM_OpBase")) { if (!emitOneBuilder(*def, os)) return true; } return false; } namespace { // Wrapper class around a Tablegen definition of an LLVM enum attribute case. class LLVMEnumAttrCase : public tblgen::EnumAttrCase { public: using tblgen::EnumAttrCase::EnumAttrCase; // Constructs a case from a non LLVM-specific enum attribute case. explicit LLVMEnumAttrCase(const tblgen::EnumAttrCase &other) : tblgen::EnumAttrCase(&other.getDef()) {} // Returns the C++ enumerant for the LLVM API. StringRef getLLVMEnumerant() const { return def->getValueAsString("llvmEnumerant"); } }; // Wraper class around a Tablegen definition of an LLVM enum attribute. class LLVMEnumAttr : public tblgen::EnumAttr { public: using tblgen::EnumAttr::EnumAttr; // Returns the C++ enum name for the LLVM API. StringRef getLLVMClassName() const { return def->getValueAsString("llvmClassName"); } // Returns all associated cases viewed as LLVM-specific enum cases. std::vector getAllCases() const { std::vector cases; for (auto &c : tblgen::EnumAttr::getAllCases()) cases.push_back(LLVMEnumAttrCase(c)); return cases; } }; } // namespace // Emits conversion function "LLVMClass convertEnumToLLVM(Enum)" and containing // switch-based logic to convert from the MLIR LLVM dialect enum attribute case // (Enum) to the corresponding LLVM API enumerant static void emitOneEnumToConversion(const llvm::Record *record, raw_ostream &os) { LLVMEnumAttr enumAttr(record); StringRef llvmClass = enumAttr.getLLVMClassName(); StringRef cppClassName = enumAttr.getEnumClassName(); StringRef cppNamespace = enumAttr.getCppNamespace(); // Emit the function converting the enum attribute to its LLVM counterpart. os << formatv("static {0} convert{1}ToLLVM({2}::{1} value) {{\n", llvmClass, cppClassName, cppNamespace); os << " switch (value) {\n"; for (const auto &enumerant : enumAttr.getAllCases()) { StringRef llvmEnumerant = enumerant.getLLVMEnumerant(); StringRef cppEnumerant = enumerant.getSymbol(); os << formatv(" case {0}::{1}::{2}:\n", cppNamespace, cppClassName, cppEnumerant); os << formatv(" return {0}::{1};\n", llvmClass, llvmEnumerant); } os << " }\n"; os << formatv(" llvm_unreachable(\"unknown {0} type\");\n", enumAttr.getEnumClassName()); os << "}\n\n"; } // Emits conversion function "Enum convertEnumFromLLVM(LLVMClass)" and // containing switch-based logic to convert from the LLVM API enumerant to MLIR // LLVM dialect enum attribute (Enum). static void emitOneEnumFromConversion(const llvm::Record *record, raw_ostream &os) { LLVMEnumAttr enumAttr(record); StringRef llvmClass = enumAttr.getLLVMClassName(); StringRef cppClassName = enumAttr.getEnumClassName(); StringRef cppNamespace = enumAttr.getCppNamespace(); // Emit the function converting the enum attribute from its LLVM counterpart. os << formatv("inline {0}::{1} convert{1}FromLLVM({2} value) {{\n", cppNamespace, cppClassName, llvmClass); os << " switch (value) {\n"; for (const auto &enumerant : enumAttr.getAllCases()) { StringRef llvmEnumerant = enumerant.getLLVMEnumerant(); StringRef cppEnumerant = enumerant.getSymbol(); os << formatv(" case {0}::{1}:\n", llvmClass, llvmEnumerant); os << formatv(" return {0}::{1}::{2};\n", cppNamespace, cppClassName, cppEnumerant); } os << " }\n"; os << formatv(" llvm_unreachable(\"unknown {0} type\");", enumAttr.getLLVMClassName()); os << "}\n\n"; } // Emits conversion functions between MLIR enum attribute case and corresponding // LLVM API enumerants for all registered LLVM dialect enum attributes. template static bool emitEnumConversionDefs(const RecordKeeper &recordKeeper, raw_ostream &os) { for (const auto *def : recordKeeper.getAllDerivedDefinitions("LLVM_EnumAttr")) if (ConvertTo) emitOneEnumToConversion(def, os); else emitOneEnumFromConversion(def, os); return false; } static mlir::GenRegistration genLLVMIRConversions("gen-llvmir-conversions", "Generate LLVM IR conversions", emitBuilders); static mlir::GenRegistration genEnumToLLVMConversion("gen-enum-to-llvmir-conversions", "Generate conversions of EnumAttrs to LLVM IR", emitEnumConversionDefs); static mlir::GenRegistration genEnumFromLLVMConversion("gen-enum-from-llvmir-conversions", "Generate conversions of EnumAttrs from LLVM IR", emitEnumConversionDefs);