/******************************************************************************** * Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH * * * * This software is distributed under the terms of the * * GNU Lesser General Public Licence version 3 (LGPL) version 3, * * copied verbatim in the file "LICENSE" * ********************************************************************************/ /* * File: GenericProcessor.h * Author: winckler * * Created on December 1, 2014, 10:22 PM */ #ifndef GENERICPROCESSOR_H #define GENERICPROCESSOR_H #include "FairMQDevice.h" /********************************************************************* * -------------- NOTES ----------------------- * All policies must have a default constructor * Function to define in (parent) policy classes : * * -------- INPUT POLICY -------- * InputPolicy::InitContainer(...) * CONTAINER_TYPE InputPolicy::DeSerializeMsg(FairMQMessage* msg) * InputPolicy::InitContainer(...) // if GenericProcessor::InitInputContainer(...) is used * * * -------- OUTPUT POLICY -------- * OutputPolicy::SerializeMsg(CONTAINER_TYPE) * OutputPolicy::SetMessage(FairMQMessage* msg) * OutputPolicy::InitContainer(...) // if GenericProcessor::InitOutputContainer(...) is used * * -------- TASK POLICY -------- * CONTAINER_TYPE TaskPolicy::GetOutputData() * TaskPolicy::ExecuteTask(CONTAINER_TYPE container) * TaskPolicy::InitTask(...) // if GenericProcessor::InitTask(...) is used * **********************************************************************/ template class GenericProcessor : public FairMQDevice, public InputPolicy, public OutputPolicy, public TaskPolicy { public: GenericProcessor() : InputPolicy() , OutputPolicy() , TaskPolicy() {} virtual ~GenericProcessor() {} // the four following methods ensure // that the correct policy method is called void SetTransport(FairMQTransportFactory* transport) { FairMQDevice::SetTransport(transport); } template void InitTask(Args... args) { TaskPolicy::InitTask(std::forward(args)...); } template void InitInputContainer(Args... args) { InputPolicy::InitContainer(std::forward(args)...); } template void InitOutputContainer(Args... args) { OutputPolicy::InitContainer(std::forward(args)...); } /* * // *********************** TODO: implement multipart features void SendPart() { fChannels["data-out"].at(0).Send(OutputPolicy::SerializeMsg(TaskPolicy::GetData()), "snd-more"); OutputPolicy::CloseMessage(); } // void SendPart(); // bool ReceivePart(); bool ReceivePart() { if (fChannels["data-in"].at(0).ExpectsAnotherPart()) { InputPolicy::CloseMessage(); // fProcessorTask->GetPayload()->CloseMessage(); fProcessorTask->SetPayload(fTransportFactory->CreateMessage()); return fChannels["data-in"].at(0).Receive(fProcessorTask->GetPayload()); } else { return false; } } */ protected: virtual void InitTask() { // TODO: implement multipart features // fProcessorTask->InitTask(); // fProcessorTask->SetSendPart(boost::bind(&FairMQProcessor::SendPart, this)); // fProcessorTask->SetReceivePart(boost::bind(&FairMQProcessor::ReceivePart, this)); } virtual void Run() { int receivedMsgs = 0; int sentMsgs = 0; while (CheckCurrentState(RUNNING)) { FairMQMessage* msg = fTransportFactory->CreateMessage(); ++receivedMsgs; if (fChannels["data-in"].at(0).Receive(msg) > 0) { // InputPolicy::DeSerializeMsg(msg) --> deserialize data of msg and fill output container // TaskPolicy::ExecuteTask( ... ) --> process output container TaskPolicy::ExecuteTask(InputPolicy::DeSerializeMsg(msg)); // OutputPolicy::fMessage point to msg OutputPolicy::SetMessage(msg); // TaskPolicy::GetOutputData() --> Get processed output container // OutputPolicy::message(...) --> Serialize output container and fill fMessage fChannels["data-out"].at(0).Send(OutputPolicy::SerializeMsg(TaskPolicy::GetOutputData())); sentMsgs++; } if (msg) { msg->CloseMessage(); } } MQLOG(INFO) << "Received " << receivedMsgs << " and sent " << sentMsgs << " messages!"; } }; #endif /* GENERICPROCESSOR_H */