// Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "paddle/infrt/dialect/infrt_base.h" #include "paddle/infrt/dialect/basic_kernels.h" #include "paddle/infrt/dialect/dense_tensor.h" #include "paddle/infrt/dialect/test_kernels.h" namespace infrt { namespace dialect { // ----INFRTDialect definition begin---- void INFRTDialect::initialize() { allowUnknownTypes(); allowUnknownOperations(); addTypes(); addTypes(); addTypes(); addOperations< #define GET_OP_LIST #include "paddle/infrt/dialect/basic_kernels.cpp.inc" >(); addOperations< #define GET_OP_LIST #include "paddle/infrt/dialect/test_kernels.cpp.inc" >(); } mlir::Type INFRTDialect::parseType(mlir::DialectAsmParser &parser) const { llvm::StringRef keyword; if (parser.parseKeyword(&keyword)) return mlir::Type(); // parse TensorType, for example: !infrt.tensor if (keyword == "tensor") { llvm::StringRef target; llvm::StringRef layout; llvm::StringRef precision; // parse "<" if (parser.parseLess()) return mlir::Type(); // parse target if (parser.parseKeyword(&target)) return mlir::Type(); auto targetType = infrt::dt::GetTargetType(target); if (!targetType) { parser.emitError(parser.getCurrentLocation(), "unknown target type: ") << target; return mlir::Type(); } // parse "," if (parser.parseComma()) return mlir::Type(); // parse layout if (parser.parseKeyword(&layout)) return mlir::Type(); auto layoutType = infrt::dt::GetLayoutType(layout); if (!layoutType) { parser.emitError(parser.getCurrentLocation(), "unknown layout type: ") << layout; return mlir::Type(); } // parse "," if (parser.parseComma()) return mlir::Type(); // parse precision if (parser.parseKeyword(&precision)) return mlir::Type(); auto precisionType = infrt::dt::GetPrecisionType(precision); if (!precisionType) { parser.emitError(parser.getCurrentLocation(), "unknown precision type: ") << precision; return mlir::Type(); } // parse ">" if (parser.parseGreater()) return mlir::Type(); return infrt::dt::TensorType::get(*targetType, *layoutType, *precisionType); } // parse TensorMapType, for example: !infrt.tensor_map if (keyword == "tensor_map") { return infrt::dt::TensorMapType::get(); } // parse StringType, for example: !infrt.string if (keyword == "string") { return infrt::dt::StringType::get(); } parser.emitError(parser.getCurrentLocation(), "unknown infrt type: ") << keyword; return mlir::Type(); } void INFRTDialect::printType(mlir::Type type, mlir::DialectAsmPrinter &printer) const { // print TensorType, for example: !infrt.tensor if (type.isa()) { auto tensorType = type.cast(); printer << "tensor<" << tensorType.target() << ", " << tensorType.layout() << ", " << tensorType.precision() << ">"; return; } // print TensorMapType, for example: !infrt.tensor_map if (type.isa()) { printer << "tensor_map"; return; } // print StringType, for example: !infrt.string if (type.isa()) { printer << "string"; return; } llvm_unreachable("unknown infrt type."); } // ----INFRTDialect definition end---- } // namespace dialect } // namespace infrt