Exemplo n.º 1
0
    bool configure(ResourceFinder &rf)
    {
        string name=rf.check("name",Value("imuFilter")).asString();
        string robot=rf.check("robot",Value("icub")).asString();
        size_t gyro_order=(size_t)rf.check("gyro-order",Value(5)).asInt();
        size_t mag_order=(size_t)rf.check("mag-order",Value(51)).asInt();
        mag_vel_thres_up=rf.check("mag-vel-thres-up",Value(0.04)).asDouble();
        mag_vel_thres_down=rf.check("mag-vel-thres-down",Value(0.02)).asDouble();
        bias_gain=rf.check("bias-gain",Value(0.001)).asDouble();
        verbose=rf.check("verbose");
        
        gyroFilt.setOrder(gyro_order);
        magFilt.setOrder(mag_order);
        biasInt.setTs(bias_gain);
        gyroBias.resize(3,0.0);
        adaptGyroBias=false;

        iPort.open("/"+name+"/inertial:i");
        oPort.open("/"+name+"/inertial:o");
        bPort.open("/"+name+"/bias:o");

        string imuPortName=("/"+robot+"/inertial");
        if (!Network::connect(imuPortName,iPort.getName()))
            yWarning("Unable to connect to %s",imuPortName.c_str());

        return true;
    }
Exemplo n.º 2
0
int main(int argc, char *argv[])
{
    Network yarp;
    int c=0;

    BufferedPort<ImageOf<PixelRgb> > right;
    BufferedPort<ImageOf<PixelRgb> > left;

    BufferedPort<ImageOf<PixelRgb> > out;

    right.open("/teststereomatch/right");
    left.open("/teststereomatch/left");

    out.open("/teststereomatch/o");

    while(true)
    {
        ImageOf< PixelRgb> *imgR=right.read(true);
        ImageOf< PixelRgb> *imgL=left.read(true);

        ImageOf< PixelRgb> &outImg=out.prepare();

        if (imgR!=0 && imgL!=0)
                {
                    merge(*imgR, *imgL, outImg);

                    out.write();
                    c++;
                }
        printFrame(outImg.height(), outImg.width(), c);
    }
    return 0;
}
Exemplo n.º 3
0
	virtual bool threadInit()
	{

		name=rf.check("name",Value("randObjSeg")).asString().c_str();
		trate = rf.check("rate",Value(50)).asInt();
		this->setRate(trate);

		portImgIn=new BufferedPort<ImageOf<PixelFloat> >;
		string portInName="/"+name+"/img:i";
		portImgIn->open(portInName.c_str());

		portRefIn=new BufferedPort<ImageOf<PixelRgb> >;
		string portRefName="/"+name+"/ref:i";
		portRefIn->open(portRefName.c_str());

		portImgOut=new BufferedPort<ImageOf<PixelRgb> >;
		string portOutName="/"+name+"/img:o";
		portImgOut->open(portOutName.c_str());

		portObjOut=new BufferedPort<yarp::sig::Matrix>;
		string portObjName="/"+name+"/obj:o";
		portObjOut->open(portObjName.c_str());

		srand(time(NULL));

		return true;

	}
Exemplo n.º 4
0
	void SamInit(void)
	{
	
		
		RecognisePort("TTSIn");				// name the port to be shown in the gui
			
		RecognisePort("EmoIn");				// name the port to be shown in the gui
	
		RecognisePort("TrackIn");				// name the port to be shown in the gui

	

		StartModule("/EMYS");	
		bTTS.open("/EMYS_TTSIn");		// open the port
		bEmo.open("/EMYS_EmoIn");		// open the port
		bTrack.open("/EMYS_TrackIn");		// open the port
	

		//bTrack.setStrict(true);
		//bEmo.setStrict(true);
		//bTTS.setStrict(true);
		
	
	
		bTrack.setReporter(myPortStatus);	// set reporter, this is important
		bEmo.setReporter(myPortStatus);	// set reporter, this is important
		bTTS.setReporter(myPortStatus);	// set reporter, this is important
	
	
		bTalking=false;
    		
		puts("started EMYS rcv");
	}
Exemplo n.º 5
0
    virtual void testRecentReader() {
        report(0,"check recent reader...");
        BufferedPort<Bottle> in;
        BufferedPort<Bottle> out;
        in.setStrict(false);
        in.open("/in");
        out.open("/out");
        
        Network::connect("/out","/in");
        
        Bottle& outBot1 = out.prepare();
        outBot1.fromString("hello world");
        printf("Writing bottle 1: %s\n", outBot1.toString().c_str());
        out.write(true);
        
        Bottle& outBot2 = out.prepare();
        outBot2.fromString("2 3 5 7 11");
        printf("Writing bottle 2: %s\n", outBot2.toString().c_str());
        out.write(true);

        Time::delay(0.25);

        Bottle *inBot2 = in.read();
        checkTrue(inBot2!=NULL,"got 2 of 2 items");
        if (inBot2!=NULL) {
            printf("Bottle 2 is: %s\n", inBot2->toString().c_str());
            checkEqual(inBot2->size(),5,"match for item 1");
        }
    }
Exemplo n.º 6
0
 WorkingThread(int period=5): RateThread(period)
 {
     enable_execute_joint_command = true;
     //*** open the output port
     port_command_out.open("/trajectoryPlayer/port_command_out:o");
     port_command_joints.open("/trajectoryPlayer/port_joints:o");
 }
Exemplo n.º 7
0
    bool threadInit()
    {
        fprintf(stdout,"init \n");
        port_in0.open(string("/simCOM0:i").c_str());
        port_in1.open(string("/simCOM1:i").c_str());
        port_in2.open(string("/simCOM2:i").c_str());
        port_in3.open(string("/simCOM3:i").c_str());
        port_in4.open(string("/simCOM4:i").c_str());
        port_in5.open(string("/simCOM5:i").c_str());
        port_in6.open(string("/simCOM6:i").c_str());
        port_in7.open(string("/simCOM7:i").c_str());
        port_in8.open(string("/simCOM8:i").c_str());
        port_out.open(string("/simCOM:o").c_str());
        yarp::os::Network::connect("/wholeBodyDynamics/com:o","/simCOM0:i");
        yarp::os::Network::connect("/wholeBodyDynamics/left_leg/com:o","/simCOM1:i");
        yarp::os::Network::connect("/wholeBodyDynamics/left_arm/com:o","/simCOM2:i");
        yarp::os::Network::connect("/wholeBodyDynamics/right_leg/com:o","/simCOM3:i");
        yarp::os::Network::connect("/wholeBodyDynamics/right_arm/com:o","/simCOM4:i");
        yarp::os::Network::connect("/wholeBodyDynamics/head/com:o","/simCOM5:i");
        yarp::os::Network::connect("/wholeBodyDynamics/torso/com:o","/simCOM6:i");
        yarp::os::Network::connect("/wholeBodyDynamics/upper_body/com:o","/simCOM7:i");
        yarp::os::Network::connect("/wholeBodyDynamics/lower_body/com:o","/simCOM8:i");
        yarp::os::Network::connect("/simCOM:o","/iCubGui/objects");

        Bottle a;
        a.clear();
        a.addString("reset");
        port_out.prepare() = a;
        port_out.write();

        return true;
    }
Exemplo n.º 8
0
    virtual bool threadInit()
    {
        string name=rf.check("name",Value("faceTracker")).asString().c_str();
        string robot=rf.check("robot",Value("icub")).asString().c_str();
        int period=rf.check("period",Value(50)).asInt();
        eye=rf.check("eye",Value("left")).asString().c_str();
        arm=rf.check("arm",Value("right")).asString().c_str();
        eyeDist=rf.check("eyeDist",Value(1.0)).asDouble();
        holdoff=rf.check("holdoff",Value(3.0)).asDouble();

        Property optGaze("(device gazecontrollerclient)");
        optGaze.put("remote","/iKinGazeCtrl");
        optGaze.put("local",("/"+name+"/gaze_client").c_str());

        if (!clientGaze.open(optGaze))
            return false;

        clientGaze.view(igaze);
        igaze->storeContext(&startup_gazeContext_id);
        igaze->blockNeckRoll(0.0);

        if (arm!="none")
        {
            Property optArm("(device cartesiancontrollerclient)");
            optArm.put("remote",("/"+robot+"/cartesianController/"+arm+"_arm").c_str());
            optArm.put("local",("/"+name+"/arm_client").c_str());
    
            if (!clientArm.open(optArm))
                return false;
    
            clientArm.view(iarm);
            iarm->storeContext(&startup_armContext_id);
        }

        portImgIn.open(("/"+name+"/img:i").c_str());
        portImgOut.open(("/"+name+"/img:o").c_str());
        portTopDown.open(("/"+name+"/topdown:i").c_str());
        portSetFace.open(("/"+name+"/setFace:rpc").c_str());

        if (!fd.init(rf.findFile("descriptor").c_str()))
        {
            fprintf(stdout,"Cannot load descriptor!\n");
            return false;
        }

        Rand::init();

        resetState();
        armCmdState=0;
        queuedFaceExprFlag=false;

        setRate(period);
        cvSetNumThreads(1);

        t0=Time::now();

        return true;
    }
Exemplo n.º 9
0
    bool configure(ResourceFinder &rf)
    {
        iPort.open("/tracker:i");
        oPort.open("/tracker:o");
        rpcPort.open("/tracker:rpc");
        attach(rpcPort);

        state=idle;
        return true;
    }
 int main() {
 Network yarp; // set up yarp
 BufferedPort<ImageOf<PixelRgb> > imagePort;  // make a port for reading images
 BufferedPort<Vector> targetPort;
 imagePort.open("/tutorial/image/in");  // give the port a name
 targetPort.open("/tutorial/target/out");
 Network::connect("/icubSim/cam/left","/tutorial/image/in");
 

 while (1) { // repeat forever
   ImageOf<PixelRgb> *image = imagePort.read();  // read an image
   ImageOf<PixelRgb> *image_cropped;
   if (image!=NULL) { // check we actually got something
      printf("We got an image of size %dx%d\n", image->width(), image->height());
      double xMean = 0;
      double yMean = 0;
      int ct = 0;
      for (int x=0; x<image->width(); x++) {
        for (int y=0; y<image->height(); y++) {
          PixelRgb& pixel = image->pixel(x,y);
          /* very simple test for blueishness */
          /* make sure blue level exceeds red and green by a factor of 2 */
          if (pixel.b>pixel.r*1.2+10 && pixel.b>pixel.g*1.2+10) {
           /* there's a blueish pixel at (x,y)! */
           /* let's find the average location of these pixels */
           xMean += x;
           yMean += y;
           ct++;
          }
        }
      }
      if (ct>0) {
        xMean /= ct;
        yMean /= ct;
      }
      if (ct>(image->width()/20)*(image->height()/20)) {
        printf("Best guess at blue target: %g %g\n", xMean, yMean);
        Vector& target = targetPort.prepare();
        target.resize(3);
        target[0] = xMean;
        target[1] = yMean;
        target[2] = 1;
        targetPort.write();
      } else {
        Vector& target = targetPort.prepare();
        target.resize(3);
        target[0] = 0;
        target[1] = 0;
        target[2] = 0;
        targetPort.write();
      }
   }
 }
 return 0;
}
Exemplo n.º 11
0
        bool configure(ResourceFinder &rf)
        {
            Property config;
            config.fromConfigFile(rf.getContext() + "config.ini");
            
            Bottle &bGeneral = config.findGroup("host_computer");

            ip_address = bGeneral.find("ip_address").asString().c_str();
            cout << "Host computer ip address: " << ip_address << endl;

            gtw_contactTactileLeftInputPort = gtw_contactTactileLeftInputPort.addName("/gtw/telepresence/tactile/left:i");
            gtw_contactTactileLeftInputPort = gtw_contactTactileLeftInputPort.addCarrier("tcp");
            gtw_contactTactileLeftInputPort = gtw_contactTactileLeftInputPort.addHost(ip_address);
            gtw_contactTactileLeftInputPort = gtw_contactTactileLeftInputPort.addPort(80005);

            gtw_contactTactileRightInputPort = gtw_contactTactileRightInputPort.addName("/gtw/telepresence/tactile/right:i");
            gtw_contactTactileRightInputPort = gtw_contactTactileRightInputPort.addCarrier("tcp");
            gtw_contactTactileRightInputPort = gtw_contactTactileRightInputPort.addHost(ip_address);
            gtw_contactTactileRightInputPort = gtw_contactTactileRightInputPort.addPort(80006);

            gtw_contactTactileLeftOutputPort = gtw_contactTactileLeftOutputPort.addName("/gtw/telepresence/tactile/left:o");
            gtw_contactTactileLeftOutputPort = gtw_contactTactileLeftOutputPort.addCarrier("tcp");
            gtw_contactTactileLeftOutputPort = gtw_contactTactileLeftOutputPort.addHost(ip_address);
            gtw_contactTactileLeftOutputPort = gtw_contactTactileLeftOutputPort.addPort(80007);

            gtw_contactTactileRightOutputPort = gtw_contactTactileRightOutputPort.addName("/gtw/telepresence/tactile/right:o");
            gtw_contactTactileRightOutputPort = gtw_contactTactileRightOutputPort.addCarrier("tcp");
            gtw_contactTactileRightOutputPort = gtw_contactTactileRightOutputPort.addHost(ip_address);
            gtw_contactTactileRightOutputPort = gtw_contactTactileRightOutputPort.addPort(80008);


            Network::registerContact(gtw_contactTactileLeftInputPort);
            Network::registerContact(gtw_contactTactileRightInputPort);
            Network::registerContact(gtw_contactTactileLeftOutputPort);
            Network::registerContact(gtw_contactTactileRightOutputPort);

            gtw_tactileLeftInputPort.open(gtw_contactTactileLeftInputPort, true); // give the port a name
            gtw_tactileRightInputPort.open(gtw_contactTactileRightInputPort, true); // give the port a name
            gtw_tactileLeftOutputPort.open(gtw_contactTactileLeftOutputPort, true); // give the port a name
            gtw_tactileRightOutputPort.open(gtw_contactTactileRightOutputPort, true); // give the port a name


            cout << "Waiting for connection: /icub/skin/left_hand_comp -> /gtw/telepresence/tactile/left:i" << endl;
            while( !Network::isConnected("/icub/skin/left_hand_comp", "/gtw/telepresence/tactile/left:i") )
            {}
            cout << "Connection ready: /icub/skin/left_hand_comp -> /gtw/telepresence/tactile/left:i" << endl;

            cout << "Waiting for connection: /icub/skin/right_hand_comp -> /gtw/telepresence/tactile/right:i" << endl;
            while( !Network::isConnected("/icub/skin/right_hand_comp", "/gtw/telepresence/tactile/right:i") )
            {}
            cout << "Connection ready: /icub/skin/right_hand_comp -> /gtw/telepresence/tactile/right:i" << endl;

            return true;
        }
Exemplo n.º 12
0
int main() {
    // Initialize YARP - some OSes need network and time service initialization
    Network yarp;

    // Work locally - don't rely on name server (just for this example).
    // If you have a YARP name server running, you can remove this line.
    Network::setLocalMode(true);

    // Create two ports that we'll be using to transmit "Bottle" objects.
    // The ports are buffered, so that sending and receiving can happen
    // in the background.
    BufferedPort<Bottle> in;
    BufferedPort<Bottle> out;

    // we will want to read every message, with no skipping of "old" messages
    // when new ones come in
    in.setStrict();

    // Name the ports
    in.open("/in");
    out.open("/out");

    // Connect the ports so that anything written from /out arrives to /in
    Network::connect("/out","/in");

    // Send one "Bottle" object.  The port is responsible for creating
    // and reusing/destroying that object, since it needs to be sure
    // it exists until communication to all recipients (just one in
    // this case) is complete.
    Bottle& outBot1 = out.prepare();   // Get the object
    outBot1.fromString("hello world"); // Set it up the way we want
    printf("Writing bottle 1 (%s)\n", outBot1.toString().c_str());
    out.write();                       // Now send it on its way

    // Send another "Bottle" object
    Bottle& outBot2 = out.prepare();
    outBot2.fromString("2 3 5 7 11");
    printf("Writing bottle 2 (%s)\n", outBot2.toString().c_str());
    out.writeStrict();                 // writeStrict() will wait for any
                                       // previous communication to finish;
                                       // write() would skip sending if
                                       // there was something being sent

    // Read the first object
    Bottle *inBot1 = in.read();
    printf("Bottle 1 is: %s\n", inBot1->toString().c_str());

    // Read the second object
    Bottle *inBot2 = in.read();
    printf("Bottle 2 is: %s\n", inBot2->toString().c_str());

    return 0;
}
Exemplo n.º 13
0
    bool configure(ResourceFinder &rf)
    {
        string name=rf.check("name",Value("cmt")).asString().c_str();

        imgInPort.open(("/"+name+"/img:i").c_str());
        imgOutPort.open(("/"+name+"/img:o").c_str());
        dataOutPort.open(("/"+name+"/data:o").c_str());
        rpcPort.open(("/"+name+"/rpc").c_str());
        attach(rpcPort);

        initBoundingBox=doCMT=false;
        return true;
    }
Exemplo n.º 14
0
    virtual void testAcquire() {
        report(0, "checking acquire/release...");

        BufferedPort<Bottle> in;
        BufferedPort<Bottle> out;
        in.setStrict();
        out.setStrict();
        in.open("/in");
        out.open("/out");
        Network::connect("/out","/in");

        out.prepare().fromString("1");
        out.write(true);
        
        Bottle *bot = in.read();
        checkTrue(bot!=NULL,"Inserted message received");
        if (bot!=NULL) {
            checkEqual(bot->size(),1,"right length");
        }

        out.prepare().fromString("1 2");
        out.write(true);

        void *key = in.acquire();
        Bottle *bot2 = in.read();
        checkTrue(bot2!=NULL,"Inserted message received");
        if (bot2!=NULL) {
            checkEqual(bot2->size(),2,"right length");
        }

        out.prepare().fromString("1 2 3");
        out.write(true);
        
        void *key2 = in.acquire();
        Bottle *bot3 = in.read();
        checkTrue(bot3!=NULL,"Inserted message received");
        if (bot3!=NULL) {
            checkEqual(bot3->size(),3,"right length");
        }
        if (bot2!=NULL) {
            checkEqual(bot2->size(),2,"original (2) still ok");
        }
        if (bot!=NULL) {
            checkEqual(bot->size(),1,"original (1) still ok");
        }

        in.release(key);
        in.release(key2);
    }
Exemplo n.º 15
0
int main(int argc, char *argv[]) {
    // Open the network
    Network yarp;
    BufferedPort<Sound> p;
    p.open("/receiver");
    Network::connect("/sender", "/receiver");
    // Get an audio write device.
    Property conf;
    conf.put("device","portaudio");
    conf.put("samples", "4096");
    conf.put("write", "1");
    PolyDriver poly(conf);
    IAudioRender *put;
    // Check it can write the sound
    poly.view(put);
    if (put==NULL) {
        printf("cannot open interface\n");
        return 1;
    }
    //Receive and render the sound
    Sound *s;
    while (true)
      {
    s = p.read(false);
    if (s!=NULL)
        put->renderSound(*s);
      }
    return 0;
}
Exemplo n.º 16
0
    bool threadInit()
    {
        string name=rf.find("name").asString().c_str();
        double period=rf.find("period").asDouble();
        setRate(int(1000.0*period));

        // open a client interface to connect to the gaze server
        // we suppose that:
        // 1 - the iCub simulator (icubSim) is running
        // 2 - the gaze server iKinGazeCtrl is running and
        //     launched with the following options:
        //     --robot icubSim --context cameraCalibration/conf --config icubSimEyes.ini
        Property optGaze("(device gazecontrollerclient)");
        optGaze.put("remote","/iKinGazeCtrl");
        optGaze.put("local",("/"+name+"/gaze").c_str());

        if (!clientGaze.open(optGaze))
            return false;

        // open the view
        clientGaze.view(igaze);

        // latch the controller context in order to preserve
        // it after closing the module
        // the context contains the tracking mode, the neck limits and so on.
        igaze->storeContext(&startup_context_id);

        // set trajectory time:
        igaze->setNeckTrajTime(0.8);
        igaze->setEyesTrajTime(0.4);

        port.open(("/"+name+"/target:i").c_str());

        return true;
    }
Exemplo n.º 17
0
 bool open(Searchable& config) {
     ct = 0;
     port.open(getName());
     cmdPort.open(getName("cmd")); // optional command port
     attach(cmdPort); // cmdPort will work just like terminal
     return true;
 }
Exemplo n.º 18
0
    void testUnbufferedSubscriber() {
        report(0,"Unbuffereded Subscriber test");

        Node n("/node");
        BufferedPort<Bottle> pout;
        pout.setWriteOnly();
        pout.open("very_interesting_topic");

        {
            Node n2("/node2");
            Subscriber<Bottle> pin("/very_interesting_topic");

            waitForOutput(pout,10);

            Bottle& b = pout.prepare();
            b.clear();
            b.addInt(42);
            pout.write();

            Bottle bin;
            bin.addInt(99);
            pin.read(bin);
            pout.waitForWrite();
            checkEqual(bin.get(0).asInt(),42,"message is correct");
        }
    }
Exemplo n.º 19
0
    void testPublisherToBufferedPort() {
        report(0,"Publisher to BufferedPort test");

        Node n("/node");
        Publisher<Bottle> p("/very_interesting_topic");

        {
            Node n2("/node2");
            BufferedPort<Bottle> pin;
            pin.setReadOnly();
            pin.setStrict();
            pin.open("very_interesting_topic");

            waitForOutput(p,10);

            Bottle& b = p.prepare();
            b.clear();
            b.addInt(42);
            p.write();
            p.waitForWrite();

            Bottle *bin = pin.read();
            checkTrue(bin!=NULL,"message arrived");
            if (!bin) return;
            checkEqual(bin->get(0).asInt(),42,"message is correct");
        }
    }
Exemplo n.º 20
0
    void testBufferedPortToSubscriber() {
        report(0,"BufferedPort to Subscriber test");

        Node n("/node");
        BufferedPort<Bottle> pout;
        pout.setWriteOnly();
        pout.open("very_interesting_topic");

        {
            Node n2("/node2");
            Subscriber<Bottle> pin("/very_interesting_topic");
            pin.read(false); // make sure we are in buffered mode

            waitForOutput(pout,10);

            Bottle& b = pout.prepare();
            b.clear();
            b.addInt(42);
            pout.write();
            pout.waitForWrite();

            Bottle *bin = pin.read();
            checkTrue(bin!=NULL,"message arrived");
            if (!bin) return;
            checkEqual(bin->get(0).asInt(),42,"message is correct");
        }
    }
Exemplo n.º 21
0
int main(int argc, char *argv[]) {
    Network yarp;
    BufferedPort<Bottle> inPort;

    ResourceFinder parameters;
    parameters.configure(argc, argv);

    int delay=0;
    string portname="/consumer";

    if (parameters.check("name"))
        portname=parameters.find("name").asString().c_str();

    if (parameters.check("delay"))
    {
        delay=parameters.find("delay").asInt();
        printf("Setting delay to %d[ms]\n", delay);
    }

    inPort.open(portname.c_str());

    while (true) {
        Bottle *message=inPort.read();
        if (message==0)
            continue;

        int counter=message->get(0).asInt();
        string msg=message->get(1).asString().c_str();

        printf("Received: %d %s\n", counter, msg.c_str());

        Time::delay(delay/1000.0);
    }
    return 0;
}
Exemplo n.º 22
0
    bool configure(ResourceFinder &rf)
    {
        string name="demoActionRecognition";
        string rpcName="/"+name+"/rpc";
        string outExecName="/"+name+"/exec:o";
        string inName="/"+name+"/scores:i";
        string outGestRecModName="/"+name+"/gestRec:o";
        rpc.open(rpcName.c_str());
        attach(rpc);
        outExecModule.open(outExecName.c_str());
        inSequence.open(inName.c_str());
        string outspeakname="/"+name+"/outspeak";
        outspeak.open(outspeakname.c_str());
        outGestRecModule.open(outGestRecModName.c_str());

        string filename=rf.findFile("actions").c_str();
        Property config; config.fromConfigFile(filename.c_str());

        Bottle& bgeneral=config.findGroup("general");
        numActions=bgeneral.find("numActions").asInt();

        sequence="";
        currentSequence="";
        myturn=false;
        yourturn=false;
        gameEnding=true;
        count=0;
        temp=0;

        return true;
    }
Exemplo n.º 23
0
 void checkCallback() {
     report(0, "checking callback...");
     BufferedPort<Bottle> out;
     PortReaderBufferTestHelper in;
     out.open("/out");
     in.open("/in");
     in.useCallback();
     Network::connect("/out","/in");
     Network::sync("/out");
     Network::sync("/in");
     out.prepare().fromString("1 2 3");
     out.write();
     int rep = 0;
     while (in.count==0 && rep<50) {
         Time::delay(0.1);
         rep++;
     }
     checkEqual(in.count,3,"got message #1");
     in.disableCallback();
     out.prepare().fromString("1 2 3 4");
     out.write(true);
     Bottle *datum = in.read();
     checkTrue(datum!=NULL, "got message #2");
     checkEqual(datum->size(),4,"message is ok");
     in.useCallback();
     in.count = 0;
     out.prepare().fromString("1 2 3 4 5");
     out.write(true);
     rep = 0;
     while (in.count==0 && rep<50) {
         Time::delay(0.1);
         rep++;
     }
     checkEqual(in.count,5,"got message #3");
 }
Exemplo n.º 24
0
    bool configure(ResourceFinder &rf)
    {
        rf1=rf;

        if(algorithm==1)
            loc5=new UnscentedParticleFilter();
        else
            loc5=new ScalingSeries();

        loc5->configure(rf1);
        state=0;
        meas_given=1;

        if(loc5->measurementsString!=1)
        {
            namePorts = rf.check("namePorts", Value("visual-localization"), "Getting module name").asString();
            portIn.open("/"+namePorts+"/pnt:i");
            rpcOut.open("/"+namePorts+"/toolFeat:rpc");

            meas_given=0;
        }

        cout<<"meas_given "<<meas_given<<endl;
        error_thres=loc5->error_thres;
        cout<<"thresconf "<<error_thres<<endl;

        rpcPort.open(("/"+namePorts+"/rpc").c_str());
        attach(rpcPort);

        delete loc5;

        return true;

    }
Exemplo n.º 25
0
JNIEXPORT jboolean JNICALL Java_com_alecive_yarpdroid_yarpviewFragment_createBufferedImgPortL
  (JNIEnv *env, jobject obj, jstring _applicationName)
{
    __android_log_print(ANDROID_LOG_DEBUG, LOG_TAG, "I'm creating the image port");
    if (putenv("YARP_CONF=/data/data/com.alecive.yarpdroid/files/yarpconf"))
    {
        __android_log_print(ANDROID_LOG_ERROR, LOG_TAG, "Putenv failed %d", errno);
    }

    DataProcessorImg* processor = new DataProcessorImg(env, javaObj);
    BufferedPort<ImageOf<PixelRgb> > *ImgPortL;
    ImgPortL = new BufferedPort<ImageOf<PixelRgb> >;
    ImgPortL->useCallback(*processor);

    std::string portName=env->GetStringUTFChars(_applicationName, 0);
    portName = portName + "/cam/left:i";
    if(!ImgPortL->open(portName.c_str()))
    {
        __android_log_print(ANDROID_LOG_ERROR, LOG_TAG, "Error in opening image port!");
        delete ImgPortL;
        ImgPortL = 0;
        return (jboolean)false;
    }

    setHandle(env, javaObj, ImgPortL, "viewLeftHandle");
    return (jboolean)true;
}
Exemplo n.º 26
0
int main(int argc, char *argv[]) {

    // Initialize network
    Network yarp;

    // Make a port for reading and writing images
    BufferedPort<ImageOf<PixelRgb> > port;

    // Get command line options
    Property options;
    options.fromCommand(argc,argv);

    // Set the name of the port (use "/worker" if there is no --name option)
    std::string portName = options.check("name",Value("/worker")).asString();
    port.open(portName);
  
    int ct = 0;
    while (true) {
        // read an image from the port
        ImageOf<PixelRgb> *img = port.read();
        if (img==NULL) continue;

        // add a blue circle
        PixelRgb blue(0,0,255);
        addCircle(*img,blue,ct,50,10);
        ct = (ct+5)%img->width();

        // output the image
        port.prepare() = *img;
        port.write();
    }
  
    return 0;
}
Exemplo n.º 27
0
    bool open(Searchable& p) {
        bool dev = true;
        if (p.check("nodevice")) {
            dev = false;
        }
        if (dev) {
            poly.open(p);
            if (!poly.isValid()) {
                printf("cannot open driver\n");
                return false;
            }
            
            if (!p.check("mute")) {
                // Make sure we can write sound
                poly.view(put);
                if (put==NULL) {
                    printf("cannot open interface\n");
                    return false;
                }
            }
        }
            
        port.setStrict(true);
        if (!port.open(p.check("name",Value("/yarphear")).asString())) {
            printf("Communication problem\n");
            return false;
        }
        
        if (p.check("remote")) {
            Network::connect(p.check("remote",Value("/remote")).asString(),
                             port.getName());
        }

        return true;
    }
    bool configure(ResourceFinder &rf)
    {
        string name=rf.find("name").asString().c_str();
        setName(name.c_str());

        Property config; config.fromConfigFile(rf.findFile("from").c_str());
        Bottle &bGeneral=config.findGroup("general");
        if (bGeneral.isNull())
        {
            cout<<"Error: group general is missing!"<<endl;
            return false;
        }

        // parsing general config options
        Property option(bGeneral.toString().c_str());
        option.put("local",name.c_str());
        option.put("part","left_arm");
        option.put("grasp_model_type",rf.find("grasp_model_type").asString().c_str());
        option.put("grasp_model_file",rf.findFile("grasp_model_file").c_str());
        option.put("hand_sequences_file",rf.findFile("hand_sequences_file").c_str());

        // parsing arm dependent config options
        Bottle &bArm=config.findGroup("arm_dependent");
        getArmDependentOptions(bArm,graspOrien,graspDisp,dOffs,dLift,home_x);

        cout<<"***** Instantiating primitives for left arm"<<endl;
        action=new AFFACTIONPRIMITIVESLAYER(option);
        if (!action->isValid())
        {
            delete action;
            return false;
        }

        deque<string> q=action->getHandSeqList();
        cout<<"***** List of available hand sequence keys:"<<endl;
        for (size_t i=0; i<q.size(); i++)
            cout<<q[i]<<endl;

        string fwslash="/";
        inPort.open((fwslash+name+"/in").c_str());
        rpcPort.open((fwslash+name+"/rpc").c_str());
        attach(rpcPort);

        // check whether the grasp model is calibrated,
        // otherwise calibrate it
        Model *model; action->getGraspModel(model);
        if (model!=NULL)
        {
            if (!model->isCalibrated())
            {
                Property prop;
                prop.put("finger","all");
                model->calibrate(prop);
            }
        }

        return true;
    }
int main(int argc, char *argv[]) {
  Network yarp;
  //yarp::os::Node    *rosNode;
  BufferedPort<geometry_msgs_Point> xd_inputPort;
  xd_inputPort.setReadOnly();
  bool outputOk = xd_inputPort.open("/my_xd_in@/ros_tests");
  BufferedPort<geometry_msgs_Point> xd_outputPort;
  bool outputOk_3 = xd_outputPort.open("/gaze_point");

  BufferedPort<geometry_msgs_Point>  receiverBuff1Mux1;
  bool receiver1Mux1Ok = receiverBuff1Mux1.open("/my_other_port_in");
  BufferedPort<geometry_msgs_Point> outputPort;
  outputPort.setWriteOnly();
  bool outputOk_1 = outputPort.open("/my_x_out@/ros_tests");

 if(!outputOk_3)
  {
    printf("outputOk_3 failed to open\n");
    return -1;
  }

  if(!outputOk_1)
  {
    printf("outputOk_1 failed to open\n");
    return -1;
  }
  bool connectSuccess = false;
  while(!connectSuccess)
  {
    printf("\nTrying to connect to /iKinGazeCtrl/x:o ... ");
    connectSuccess = yarp.connect("/iKinGazeCtrl/x:o", receiverBuff1Mux1.getName());
    yarp::os::Time::delay(1);
  }

  connectSuccess = false;
  
  while(!connectSuccess)
  {
    printf("\nTrying to connect to /iKinGazeCtrl/xd:i ... ");
    connectSuccess = yarp.connect(xd_outputPort.getName(),"/iKinGazeCtrl/xd:i");
    yarp::os::Time::delay(1);
  }
  while(true){
    geometry_msgs_Point *reading1Mux1;
    reading1Mux1 = xd_inputPort.read();
    geometry_msgs_Point & out = xd_outputPort.prepare();
    out = *reading1Mux1;
    xd_outputPort.write();

    geometry_msgs_Point *reading1Mux;
    reading1Mux = receiverBuff1Mux1.read();

    geometry_msgs_Point & out_ = outputPort.prepare();
    out_ = *reading1Mux;
    outputPort.write();
  }
  return 0;
}
Exemplo n.º 30
0
	void SamInit(void)
	{
	
		RecognisePort("Out");				// name the port to be shown in the gui
		StartModule("/Star");	
		bStarSend.open("/Star_Out");		// open the port
		bStarSend.setReporter(myPortStatus);	// set reporter, this is important

		puts("started stargazer");
	}