コード例 #1
0
ファイル: ServiceI.cpp プロジェクト: pelletierts/orocos-rtt
// Implementation skeleton constructor
RTT_corba_CService_i::RTT_corba_CService_i ( RTT::Service::shared_ptr service, PortableServer::POA_ptr poa)
    : RTT_corba_CConfigurationInterface_i( service.get(), PortableServer::POA::_duplicate( poa) ), 
      RTT_corba_COperationInterface_i( service.get(), PortableServer::POA::_duplicate( poa) ),
      RTT::corba::CDataFlowInterface_i( service.get(), PortableServer::POA::_duplicate( poa) ),
      mpoa(poa), mservice(service)
{
}
コード例 #2
0
ファイル: TaskContextProxy.cpp プロジェクト: konradb3/rtt
    // Fetch remote ports and create local proxies
    void TaskContextProxy::fetchPorts(RTT::Service::shared_ptr parent, CDataFlowInterface_ptr dfact)
    {
        log(Debug) << "Fetching Ports for service "<<parent->getName()<<"."<<endlog();
        TypeInfoRepository::shared_ptr type_repo = TypeInfoRepository::Instance();
        if (dfact) {
            CDataFlowInterface::CPortDescriptions_var objs = dfact->getPortDescriptions();
            for ( size_t i=0; i < objs->length(); ++i) {
                CPortDescription port = objs[i];
                if (parent->getPort( port.name.in() ))
                    continue; // already added.

                TypeInfo const* type_info = type_repo->type(port.type_name.in());
                if (!type_info)
                {
                    log(Warning) << "remote port " << port.name
                        << " has a type that cannot be marshalled over CORBA: " << port.type_name << ". "
                        << "It is ignored by TaskContextProxy" << endlog();
                }
                else
                {
                    PortInterface* new_port;
                    if (port.type == RTT::corba::CInput)
                        new_port = new RemoteInputPort( type_info, dfact, port.name.in(), ProxyPOA() );
                    else
                        new_port = new RemoteOutputPort( type_info, dfact, port.name.in(), ProxyPOA() );

                    parent->addPort(*new_port);
                    port_proxies.push_back(new_port); // see comment in definition of port_proxies
                }
            }
        }
    }
コード例 #3
0
 bool loadOperators()
 {
     RTT::Service::shared_ptr gs = RTT::internal::GlobalService::Instance();
     gs->provides("KDL")->addOperation("TwistToMsg",&tf::TwistKDLToMsg);
     gs->provides("KDL")->addOperation("MsgToTwist",&tf::TwistMsgToKDL);
     gs->provides("KDL")->addOperation("FrameToMsg",&tf::PoseKDLToMsg);
     gs->provides("KDL")->addOperation("MsgToFrame",&tf::PoseKDLToMsg);
     return true;
 }
コード例 #4
0
    bool KDLTypekitPlugin::loadConstructors()
    {
        TypeInfoRepository::shared_ptr ti = TypeInfoRepository::Instance();

        ti->type("KDL.Vector")->addConstructor( newConstructor(&vectorxyz) );
        ti->type("KDL.Rotation")->addConstructor( newConstructor( ptr_fun( Rotation::RPY )) );
        ti->type("KDL.Rotation")->addConstructor( newConstructor(&rotationAngleAxis) );
        ti->type("KDL.Frame")->addConstructor( newConstructor(&framerv) );
        ti->type("KDL.Frame")->addConstructor( newConstructor(&framevr) );
        ti->type("KDL.Wrench")->addConstructor( newConstructor(&wrenchft) );
        ti->type("KDL.Twist")->addConstructor( newConstructor(&twistvw) );

        RTT::Service::shared_ptr gs = RTT::internal::GlobalService::Instance();

        gs->provides("KDL")->provides("Rotation")->addOperation("RotX",&Rotation::RotX).doc("");
        gs->provides("KDL")->provides("Rotation")->addOperation("RotY",&Rotation::RotY).doc("");
        gs->provides("KDL")->provides("Rotation")->addOperation("RotZ",&Rotation::RotZ).doc("");
        gs->provides("KDL")->provides("Rotation")->addOperation("RPY",&Rotation::RPY).doc("");
        gs->provides("KDL")->provides("Rotation")->addOperation("EulerZYX",&Rotation::EulerZYX).doc("");
        gs->provides("KDL")->provides("Rotation")->addOperation("EulerZYZ",&Rotation::EulerZYZ).doc("");
        gs->provides("KDL")->provides("Rotation")->addOperation("Quaternion",&Rotation::Quaternion).doc("");
        
        //ti->type("Frame[]")->addConstructor(newConstructor(stdvector_ctor<Frame>() ) );
        //ti->type("Frame[]")->addConstructor(newConstructor(stdvector_ctor2<Frame>() ) );
        //ti->type("Frame[]")->addConstructor(new StdVectorBuilder<Frame>() );

        //ti->type("Vector[]")->addConstructor(newConstructor(stdvector_ctor<Vector>() ) );
        //ti->type("Vector[]")->addConstructor(newConstructor(stdvector_ctor2<Vector>() ) );
        //ti->type("Vector[]")->addConstructor(new StdVectorBuilder<Vector>() );

        //ti->type("Rotation[]")->addConstructor(newConstructor(stdvector_ctor<Rotation>() ) );
        //ti->type("Rotation[]")->addConstructor(newConstructor(stdvector_ctor2<Rotation>() ) );
        //ti->type("Rotation[]")->addConstructor(new StdVectorBuilder<Rotation>() );

        //ti->type("Wrench[]")->addConstructor(newConstructor(stdvector_ctor<Wrench>() ) );
        //ti->type("Wrench[]")->addConstructor(newConstructor(stdvector_ctor2<Wrench>() ) );
        //ti->type("Wrench[]")->addConstructor(new StdVectorBuilder<Wrench>() );

        //ti->type("Twist[]")->addConstructor(newConstructor(stdvector_ctor<Twist>() ) );
        //ti->type("Twist[]")->addConstructor(newConstructor(stdvector_ctor2<Twist>() ) );
        //ti->type("Twist[]")->addConstructor(new StdVectorBuilder<Twist>() );

        return true;
    }
コード例 #5
0
  bool KDLTypekitPlugin::loadOperators()
  {
    OperatorRepository::shared_ptr oreg = OperatorRepository::Instance();

    oreg->add( newBinaryOperator( "==", std::equal_to<Frame>() ) );
    oreg->add( newBinaryOperator( "!=", std::not_equal_to<Frame>() ) );
    oreg->add( newBinaryOperator( "==", std::equal_to<Vector>() ) );
    oreg->add( newBinaryOperator( "!=", std::not_equal_to<Vector>() ) );
    oreg->add( newBinaryOperator( "==", std::equal_to<Rotation>() ) );
    oreg->add( newBinaryOperator( "!=", std::not_equal_to<Rotation>() ) );
    oreg->add( newBinaryOperator( "==", std::equal_to<Wrench>() ) );
    oreg->add( newBinaryOperator( "!=", std::not_equal_to<Wrench>() ) );
    oreg->add( newBinaryOperator( "==", std::equal_to<Twist>() ) );
    oreg->add( newBinaryOperator( "!=", std::not_equal_to<Twist>() ) );
    oreg->add( newUnaryOperator( "-", std::negate<Vector>() ) );
    oreg->add( newBinaryOperator( "*", std::multiplies<Vector>() ) );
    oreg->add( newBinaryOperator( "*", std::multiplies<Frame>() ) );
    oreg->add( newBinaryOperator( "*", std::multiplies<Rotation>() ) );
    oreg->add( newBinaryOperator( "+", std::plus<Vector>() ) );
    oreg->add( newBinaryOperator( "-", std::minus<Vector>() ) );
    oreg->add( newBinaryOperator( "+", std::plus<Wrench>() ) );
    oreg->add( newBinaryOperator( "-", std::minus<Wrench>() ) );
    oreg->add( newBinaryOperator( "+", std::plus<Twist>() ) );
    oreg->add( newBinaryOperator( "-", std::minus<Twist>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Vector,int, Vector>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Vector,Vector, int>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Vector,double, Vector>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Vector,Vector, double>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Wrench, Frame, Wrench>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Twist, Frame, Twist>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Vector, Frame, Vector>() ) );
    oreg->add( newBinaryOperator( "*", multiplies3<Vector, Rotation, Vector>() ) );
    oreg->add( newBinaryOperator( "/", divides3<Vector, Vector, double>() ) );
    oreg->add( newBinaryOperator( "/", divides3<Wrench, Wrench, double>() ) );
    oreg->add( newBinaryOperator( "/", divides3<Twist, Twist, double>() ) );

    RTT::Service::shared_ptr gs = RTT::internal::GlobalService::Instance();

    gs->provides("KDL")->provides("Vector")->addOperation("diff",(Vector (*) (const Vector&, const Vector&, double)) &diff).doc("");
    gs->provides("KDL")->provides("Vector")->addOperation("addDelta",(Vector (*) (const Vector&, const Vector&, double)) &addDelta).doc("");

    gs->provides("KDL")->provides("Rotation")->addOperation("diff",(Vector (*) (const Rotation&, const Rotation&, double)) &diff).doc("");
    gs->provides("KDL")->provides("Rotation")->addOperation("addDelta",(Rotation (*) (const Rotation&, const Vector&, double)) &addDelta).doc("");
    gs->provides("KDL")->provides("Rotation")->addOperation("Inverse",(Rotation (*) (const Rotation&)) &Inverse).doc("");
    gs->provides("KDL")->provides("Rotation")->addOperation("GetQuaternion",(void (*)(const Rotation&, double&, double&, double&, double&)) &GetQuaternion).doc("");
    
    gs->provides("KDL")->provides("Twist")->addOperation("diff",(Twist (*) (const Twist&, const Twist&, double)) &diff).doc("");
    gs->provides("KDL")->provides("Wrench")->addOperation("diff",(Wrench (*) (const Wrench&, const Wrench&, double)) &diff).doc("");

    gs->provides("KDL")->provides("Frame")->addOperation("diff",(Twist (*) (const Frame&, const Frame&, double)) &diff)
	    .doc("Returns the twist that is needed to move from frame f1 to frame f2 in a time d. The resulting twist is represented in the same reference frame as f1 and f2, and has reference point at the origin of f1");
    gs->provides("KDL")->provides("Frame")->addOperation("addDelta", (Frame (*) (const Frame&, const Twist&, double)) &addDelta)
	    .doc("Constructs a frame that is obtained by: starting from frame f, apply twist t, during time d");
    gs->provides("KDL")->provides("Frame")->addOperation("Inverse",(Frame (*) (const Frame&)) &Inverse).doc("");
    return true;
  }