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https://github.com/bulletphysics/bullet3
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ab8f16961e
Apply clang-format-all.sh using the _clang-format file through all the cpp/.h files. make sure not to apply it to certain serialization structures, since some parser expects the * as part of the name, instead of type. This commit contains no other changes aside from adding and applying clang-format-all.sh
299 lines
8.7 KiB
C++
299 lines
8.7 KiB
C++
///PyBullet / BulletRobotics GRPC server.
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///works as standalone GRPC server as as a GRPC server bridge,
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///connecting to a local physics server using shared memory
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#include <stdio.h>
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#include "../../CommonInterfaces/CommonGUIHelperInterface.h"
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#include "Bullet3Common/b3CommandLineArgs.h"
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#include "PhysicsClientC_API.h"
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#ifdef NO_SHARED_MEMORY
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#include "PhysicsServerCommandProcessor.h"
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typedef PhysicsServerCommandProcessor MyCommandProcessor;
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#else
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#include "SharedMemoryCommandProcessor.h"
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typedef SharedMemoryCommandProcessor MyCommandProcessor;
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#endif //NO_SHARED_MEMORY
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#include "SharedMemoryCommands.h"
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#include "Bullet3Common/b3AlignedObjectArray.h"
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#include "PhysicsServerCommandProcessor.h"
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#include "../Utils/b3Clock.h"
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#include <memory>
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#include <iostream>
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#include <string>
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#include <thread>
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#include <grpc++/grpc++.h>
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#include <grpc/support/log.h>
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#include "SharedMemory/grpc/proto/pybullet.grpc.pb.h"
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using grpc::Server;
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using grpc::ServerAsyncResponseWriter;
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using grpc::ServerBuilder;
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using grpc::ServerCompletionQueue;
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using grpc::ServerContext;
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using grpc::Status;
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using pybullet_grpc::PyBulletAPI;
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using pybullet_grpc::PyBulletCommand;
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using pybullet_grpc::PyBulletStatus;
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bool gVerboseNetworkMessagesServer = true;
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#include "ConvertGRPCBullet.h"
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class ServerImpl final
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{
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public:
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~ServerImpl()
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{
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server_->Shutdown();
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// Always shutdown the completion queue after the server.
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cq_->Shutdown();
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}
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void Run(MyCommandProcessor* comProc, const std::string& hostNamePort)
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{
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ServerBuilder builder;
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// Listen on the given address without any authentication mechanism.
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builder.AddListeningPort(hostNamePort, grpc::InsecureServerCredentials());
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// Register "service_" as the instance through which we'll communicate with
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// clients. In this case it corresponds to an *asynchronous* service.
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builder.RegisterService(&service_);
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// Get hold of the completion queue used for the asynchronous communication
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// with the gRPC runtime.
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cq_ = builder.AddCompletionQueue();
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// Finally assemble the server.
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server_ = builder.BuildAndStart();
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std::cout << "Standalone Bullet Physics GRPC server listening on " << hostNamePort << std::endl;
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// Proceed to the server's main loop.
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HandleRpcs(comProc);
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}
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private:
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// Class encompasing the state and logic needed to serve a request.
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class CallData
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{
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public:
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// Take in the "service" instance (in this case representing an asynchronous
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// server) and the completion queue "cq" used for asynchronous communication
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// with the gRPC runtime.
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CallData(PyBulletAPI::AsyncService* service, ServerCompletionQueue* cq, MyCommandProcessor* comProc)
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: service_(service), cq_(cq), responder_(&ctx_), status_(CREATE), m_finished(false), m_comProc(comProc)
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{
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// Invoke the serving logic right away.
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Proceed();
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}
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enum CallStatus
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{
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CREATE,
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PROCESS,
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FINISH,
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TERMINATE
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};
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CallStatus Proceed()
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{
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if (status_ == CREATE)
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{
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// Make this instance progress to the PROCESS state.
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status_ = PROCESS;
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// As part of the initial CREATE state, we *request* that the system
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// start processing SayHello requests. In this request, "this" acts are
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// the tag uniquely identifying the request (so that different CallData
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// instances can serve different requests concurrently), in this case
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// the memory address of this CallData instance.
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service_->RequestSubmitCommand(&ctx_, &m_command, &responder_, cq_, cq_,
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this);
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}
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else if (status_ == PROCESS)
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{
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// Spawn a new CallData instance to serve new clients while we process
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// the one for this CallData. The instance will deallocate itself as
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// part of its FINISH state.
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new CallData(service_, cq_, m_comProc);
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status_ = FINISH;
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std::string replyString;
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// The actual processing.
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SharedMemoryStatus serverStatus;
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b3AlignedObjectArray<char> buffer;
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buffer.resize(SHARED_MEMORY_MAX_STREAM_CHUNK_SIZE);
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SharedMemoryCommand cmd;
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SharedMemoryCommand* cmdPtr = 0;
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m_status.set_statustype(CMD_UNKNOWN_COMMAND_FLUSHED);
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if (m_command.has_checkversioncommand())
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{
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m_status.set_statustype(CMD_CLIENT_COMMAND_COMPLETED);
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m_status.mutable_checkversionstatus()->set_serverversion(SHARED_MEMORY_MAGIC_NUMBER);
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}
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else
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{
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cmdPtr = convertGRPCToBulletCommand(m_command, cmd);
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if (cmdPtr)
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{
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bool hasStatus = m_comProc->processCommand(*cmdPtr, serverStatus, &buffer[0], buffer.size());
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m_comProc->reportNotifications();
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double timeOutInSeconds = 10;
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b3Clock clock;
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double startTimeSeconds = clock.getTimeInSeconds();
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double curTimeSeconds = clock.getTimeInSeconds();
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while ((!hasStatus) && ((curTimeSeconds - startTimeSeconds) < timeOutInSeconds))
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{
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hasStatus = m_comProc->receiveStatus(serverStatus, &buffer[0], buffer.size());
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curTimeSeconds = clock.getTimeInSeconds();
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}
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if (gVerboseNetworkMessagesServer)
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{
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//printf("buffer.size = %d\n", buffer.size());
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printf("serverStatus.m_numDataStreamBytes = %d\n", serverStatus.m_numDataStreamBytes);
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}
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if (hasStatus)
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{
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b3AlignedObjectArray<unsigned char> packetData;
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unsigned char* statBytes = (unsigned char*)&serverStatus;
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convertStatusToGRPC(serverStatus, &buffer[0], buffer.size(), m_status);
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}
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}
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if (m_command.has_terminateservercommand())
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{
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status_ = TERMINATE;
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}
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}
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// And we are done! Let the gRPC runtime know we've finished, using the
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// memory address of this instance as the uniquely identifying tag for
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// the event.
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responder_.Finish(m_status, Status::OK, this);
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}
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else
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{
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GPR_ASSERT(status_ == FINISH);
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// Once in the FINISH state, deallocate ourselves (CallData).
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delete this;
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}
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return status_;
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}
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private:
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// The means of communication with the gRPC runtime for an asynchronous
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// server.
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PyBulletAPI::AsyncService* service_;
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// The producer-consumer queue where for asynchronous server notifications.
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ServerCompletionQueue* cq_;
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// Context for the rpc, allowing to tweak aspects of it such as the use
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// of compression, authentication, as well as to send metadata back to the
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// client.
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ServerContext ctx_;
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// What we get from the client.
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PyBulletCommand m_command;
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// What we send back to the client.
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PyBulletStatus m_status;
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// The means to get back to the client.
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ServerAsyncResponseWriter<PyBulletStatus> responder_;
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// Let's implement a tiny state machine with the following states.
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CallStatus status_; // The current serving state.
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bool m_finished;
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MyCommandProcessor* m_comProc; //physics server command processor
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};
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// This can be run in multiple threads if needed.
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void HandleRpcs(MyCommandProcessor* comProc)
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{
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// Spawn a new CallData instance to serve new clients.
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new CallData(&service_, cq_.get(), comProc);
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void* tag; // uniquely identifies a request.
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bool ok;
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bool finished = false;
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CallData::CallStatus status = CallData::CallStatus::CREATE;
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while (status != CallData::CallStatus::TERMINATE)
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{
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// Block waiting to read the next event from the completion queue. The
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// event is uniquely identified by its tag, which in this case is the
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// memory address of a CallData instance.
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// The return value of Next should always be checked. This return value
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// tells us whether there is any kind of event or cq_ is shutting down.
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grpc::CompletionQueue::NextStatus nextStatus = cq_->AsyncNext(&tag, &ok, gpr_now(GPR_CLOCK_MONOTONIC));
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if (nextStatus == grpc::CompletionQueue::NextStatus::GOT_EVENT)
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{
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//GPR_ASSERT(cq_->Next(&tag, &ok));
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GPR_ASSERT(ok);
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status = static_cast<CallData*>(tag)->Proceed();
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}
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}
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}
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std::unique_ptr<ServerCompletionQueue> cq_;
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PyBulletAPI::AsyncService service_;
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std::unique_ptr<Server> server_;
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};
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int main(int argc, char** argv)
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{
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b3CommandLineArgs parseArgs(argc, argv);
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b3Clock clock;
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double timeOutInSeconds = 10;
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DummyGUIHelper guiHelper;
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MyCommandProcessor* sm = new MyCommandProcessor;
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sm->setGuiHelper(&guiHelper);
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int port = 6667;
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parseArgs.GetCmdLineArgument("port", port);
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std::string hostName = "localhost";
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std::string hostNamePort = hostName;
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if (port >= 0)
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{
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hostNamePort += ":" + std::to_string(port);
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}
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gVerboseNetworkMessagesServer = parseArgs.CheckCmdLineFlag("verbose");
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#ifndef NO_SHARED_MEMORY
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int key = 0;
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if (parseArgs.GetCmdLineArgument("sharedMemoryKey", key))
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{
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sm->setSharedMemoryKey(key);
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}
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#endif //NO_SHARED_MEMORY
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bool isPhysicsClientConnected = sm->connect();
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bool exitRequested = false;
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if (isPhysicsClientConnected)
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{
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ServerImpl server;
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server.Run(sm, hostNamePort);
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}
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else
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{
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printf("Couldn't connect to physics server\n");
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}
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delete sm;
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return 0;
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}
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