// Copyright (c) 2019 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. #pragma once #include // bvar::LatencyRecorder #include #include "core/predictor/common/inner_common.h" #include "core/predictor/framework/channel.h" #include "core/predictor/framework/op_repository.h" #include "core/predictor/framework/predictor_metric.h" // PredictorMetric namespace baidu { namespace paddle_serving { namespace predictor { class Dag; class Op { public: Op() : _bus(NULL), _dag(NULL), _has_calc(false), _has_init(false), _timer(NULL) {} virtual ~Op() {} // ------Getters for Channel/Data/Message of dependent OP----- // Get the Channel object of dependent OP Channel* mutable_depend_channel(const std::string& op); // Get the Channel object of dependent OP const Channel* get_depend_channel(const std::string& op) const; template T* mutable_depend_argument(const std::string& op) { Channel* channel = mutable_depend_channel(op); if (channel == NULL) { LOG(WARNING) << "cannot mutable channel of " << op << " in " << _name; return NULL; } OpChannel* op_channel = dynamic_cast*>(channel); if (!op_channel) { LOG(ERROR) << "Cannot dynamic cast channel of op:" << this->name() << " to type: " << typeid(T).name(); return NULL; } return op_channel->data(); } template const T* get_depend_argument(const std::string& op) const { const Channel* channel = get_depend_channel(op); if (channel == NULL) { LOG(WARNING) << "cannot get read-only channel of " << op << " in " << _name; return NULL; } const OpChannel* op_channel = dynamic_cast*>(channel); if (!op_channel) { LOG(ERROR) << "Cannot dynamic cast channel of op:" << this->name() << " to type: " << typeid(T).name(); return NULL; } return op_channel->data(); } // -----Getters for Channel/Data/Message of current OP---- // Get pointer to the progobuf message of current OP google::protobuf::Message* mutable_message(); // Get pointer to the protobuf message of current OP const google::protobuf::Message* get_message() const; // Get the template class data object of current OP template T* mutable_data() { Channel* channel = mutable_channel(); return (dynamic_cast*>(channel))->data(); } // Get the template class data object of current OP template const T* get_data() const { const Channel* channel = get_channel(); return (dynamic_cast*>(channel))->data(); } // ---------------- Other base class members ---------------- int init(Bus* bus, Dag* dag, uint32_t id, const std::string& name, const std::string& type, void* conf); int deinit(); int check_time(const char* tag); int process(bool debug); std::string time_info(); // Get the input object const google::protobuf::Message* get_request_message(); bool has_calc(); const char* name() const; const std::string& full_name() const { return _full_name; } void set_full_name(const std::string full_name) { _full_name = full_name; } const std::string& type() const; uint32_t id() const; // --------------- Default implements ---------------- virtual int custom_init() { return 0; } virtual int custom_deinit() { return 0; } virtual const std::string debug_string(); // ------------------ OP Interface ------------------- // Get the derived Channel object of current OP virtual Channel* mutable_channel() = 0; // Get the derived Channel object of current OP virtual const Channel* get_channel() const = 0; // Release the derived Channel object of current OP virtual int release_channel() = 0; // Inference interface virtual int inference() = 0; // ------------------ Conf Interface ------------------- virtual void* create_config(const configure::DAGNode& conf) { return NULL; } virtual void delete_config(void* conf) {} virtual void set_config(void* conf) { return; } // ------------------ Metric Interface ------------------- virtual void regist_metric() { return; } private: bool is_mutable(const std::string& op); bool is_mutable(const std::string& op) const; bool is_readable(const std::string& op); bool is_readable(const std::string& op) const; private: Bus* _bus; Dag* _dag; uint32_t _id; std::string _name; std::string _full_name; // service_workflow_stageindex_opname std::string _type; bool _has_calc; bool _has_init; TimerFlow* _timer; }; template class OpWithChannel : public Op { public: typedef T DataType; typedef OpChannel ChannelType; OpWithChannel() : _channel(NULL) {} virtual ~OpWithChannel() {} // ---------- Implements ---------- Channel* mutable_channel() { if (_channel != NULL) { return _channel; } _channel = butil::get_object(); if (!_channel) { LOG(ERROR) << "Failed mutable channel of type:" << typeid(T).name(); return NULL; } _channel->init(this->id(), this->name()); return _channel; } const Channel* get_channel() const { return _channel; } int release_channel() { if (_channel) { _channel->deinit(); butil::return_object(_channel); } _channel = NULL; return 0; } // ------------- Interface ------------- // Inference interface virtual int inference() = 0; private: ChannelType* _channel; }; template class OpWithChannelAndConf : public OpWithChannel { public: void set_config(void* conf) { _conf = static_cast(conf); } C* get_self_config() { return _conf; } virtual void delete_config(void* conf) { delete static_cast(conf); } private: C* _conf; }; #define DECLARE_OP(OP_TYPE) \ OP_TYPE() { REGISTER_OP(OP_TYPE); } \ static OP_TYPE _s_##OP_TYPE #define DEFINE_OP(OP_TYPE) OP_TYPE OP_TYPE::_s_##OP_TYPE } // namespace predictor } // namespace paddle_serving } // namespace baidu