/** * Copyright 2021 Huawei Technologies Co., Ltd * * 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. */ #ifndef MINDSPORE_LITE_MICRO_CODER_OPCODER_H_ #define MINDSPORE_LITE_MICRO_CODER_OPCODER_H_ #include #include #include #include #include "coder/context.h" #include "coder/graph.h" #include "coder/allocator/allocator.h" #include "include/errorcode.h" #include "src/lite_kernel.h" #include "securec/include/securec.h" #include "coder/opcoders/op_coder_register.h" #include "coder/log.h" namespace mindspore::lite::micro { class CoderContext; constexpr int kPrecision = 19; #define CODE_PARALLEL_FUNC(func) code << "ParallelLaunch(THREAD_POOL_DEFAULT, " << func << ", &args, thread_num);\n" class OperatorCoder { public: OperatorCoder(const std::vector &in_tensors, const std::vector &out_tensors, const Model::Node *node, size_t node_index, Target target) : input_tensors_(in_tensors), output_tensors_(out_tensors), node_(node), target_(target), node_index_(node_index) { allocator_ = MemoryAllocator::GetInstance(); // vectors checked not empty in OpCoderBuilder::build input_tensor_ = input_tensors_.at(kInputIndex); output_tensor_ = output_tensors_.at(kOutputIndex); } std::string ID() const { return node_->name_; } void set_input_tensor_indices(const std::vector &input_indices); void set_output_tensor_indices(const std::vector &output_indices); const std::vector input_tensor_indices() const; const std::vector output_tensor_indices() const; const std::vector input_tensors() const; const std::vector output_tensors() const; void AddInputOp(OperatorCoder *op) { input_ops_.push_back(op); } void AddOutputOp(OperatorCoder *op) { output_ops_.push_back(op); } const std::vector input_ops() const { return input_ops_; } const std::vector output_ops() const { return output_ops_; } size_t node_index() const; void set_parameter(OpParameter *parameter); const PrimitiveC *primitive() const { return node_->primitive_; } const Model::Node *node() const { return this->node_; } void AddInitialParameters(Tensor *parameter) { initial_parameters_.push_back(parameter); } const std::vector initial_parameters() const { return initial_parameters_; } // context virtual int Prepare(CoderContext *const context) = 0; virtual int DoCode(CoderContext *const context) = 0; virtual ~OperatorCoder(); void set_thread_num(int thread_num); protected: std::vector input_tensors_; std::vector output_tensors_; const Model::Node *node_{nullptr}; Target target_{kTargetUnknown}; Tensor *input_tensor_{nullptr}; Tensor *output_tensor_{nullptr}; OpParameter *parameter_{nullptr}; MemoryAllocator *allocator_{nullptr}; std::string thread_num_s_{"1"}; int thread_num_{1}; private: size_t node_index_{0}; std::vector input_tensor_indices_; std::vector output_tensor_indices_; std::vector input_ops_; std::vector output_ops_; std::vector initial_parameters_; }; // a template func for normal op_coder creator template std::unique_ptr CPUOpCoderCreator(const std::vector &in_tensors, const std::vector &out_tensors, const Model::Node *node, size_t node_index, Target target) { std::unique_ptr coder = std::make_unique(in_tensors, out_tensors, node, node_index, target); return coder; } } // namespace mindspore::lite::micro #endif // MINDSPORE_LITE_MICRO_CODER_OPCODER_H_