コード例 #1
0
void partMover::go_click(GtkButton *button, partMover *currentPart)
{
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  int *SEQUENCE_TMP = currentPart->SEQUENCE;
  double *TIMING_TMP = currentPart->TIMING;
  double **STORED_POS_TMP = currentPart->STORED_POS;
  double **STORED_VEL_TMP = currentPart->STORED_VEL;
  GtkWidget **sliderAry = currentPart->sliderArray;
  GtkWidget **sliderVelAry = currentPart->sliderVelArray;

  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);
		
  //get the current row index
  int i = get_index_selection(currentPart);
  if (i != -1)
    {
      if (TIMING_TMP[i]>0)
	{
	  ipos->setRefSpeeds(STORED_VEL_TMP[i]);
	  ipos->positionMove(STORED_POS_TMP[i]);
	  for (int k =0; k < NUMBER_OF_JOINTS; k++)
	    {
	      gtk_range_set_value ((GtkRange *) (sliderAry[k]),  STORED_POS_TMP[i][k]);
	      gtk_range_set_value ((GtkRange *) (sliderVelAry[k]), STORED_VEL_TMP[i][k]);
	    }
	}
    }
		
  return;
}
コード例 #2
0
bool partMover::sequence_iterator(partMover* currP)
{
  //fprintf(stderr, "calling sequence iterator \n");
  IPositionControl *ipos = currP->pos;
  IEncoders *iiencs = currP->iencs;
  IAmplifierControl *iamp = currP->amp;
  IPidControl *ipid = currP->pid;
  int *SEQUENCE_TMP = currP->SEQUENCE;
  double *TIMING_TMP = currP->TIMING;
  double **STORED_POS_TMP = currP->STORED_POS;
  double **STORED_VEL_TMP = currP->STORED_VEL;
  int *INV_SEQUENCE_TMP = currP->INV_SEQUENCE;
  GtkWidget **sliderAry = currP->sliderArray;
  GtkWidget **sliderVelAry = currP->sliderVelArray;
  GtkWidget *tree_view = currP->treeview;
  guint32* timeout_seqeunce_rate_tmp = currP->timeout_seqeunce_rate;
  guint* timeout_seqeunce_id_tmp = currP->timeout_seqeunce_id;
  int *SEQUENCE_ITERATOR_TMP = currP->SEQUENCE_ITERATOR;

  int j = (*SEQUENCE_ITERATOR_TMP);
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  if (INV_SEQUENCE_TMP[j]!=-1)
    {
      ipos->setRefSpeeds(STORED_VEL_TMP[INV_SEQUENCE_TMP[j]]);
      ipos->positionMove(STORED_POS_TMP[INV_SEQUENCE_TMP[j]]);
      for (int k =0; k < NUMBER_OF_JOINTS; k++)
	{
	  gtk_range_set_value ((GtkRange *) (sliderAry[k]),    STORED_POS_TMP[INV_SEQUENCE_TMP[j]][k]);
	  gtk_range_set_value ((GtkRange *) (sliderVelAry[k]), STORED_VEL_TMP[INV_SEQUENCE_TMP[j]][k]);
	}
      (*SEQUENCE_ITERATOR_TMP)++;
      *timeout_seqeunce_rate_tmp = (unsigned int) (TIMING_TMP[j]*1000);
      gtk_timeout_remove(*timeout_seqeunce_id_tmp);
      *timeout_seqeunce_id_tmp = gtk_timeout_add(*timeout_seqeunce_rate_tmp, (GtkFunction) sequence_iterator, currP);
    }
  else
    {
      //restart the sequence if finished
      *SEQUENCE_ITERATOR_TMP = 0;
      j = 0;
      ipos->setRefSpeeds(STORED_VEL_TMP[INV_SEQUENCE_TMP[j]]);
      ipos->positionMove(STORED_POS_TMP[INV_SEQUENCE_TMP[j]]);
      for (int k =0; k < NUMBER_OF_JOINTS; k++)
	{
	  gtk_range_set_value ((GtkRange *) (sliderAry[k]),    STORED_POS_TMP[INV_SEQUENCE_TMP[j]][k]);
	  gtk_range_set_value ((GtkRange *) (sliderVelAry[k]), STORED_VEL_TMP[INV_SEQUENCE_TMP[j]][k]);
	}
      (*SEQUENCE_ITERATOR_TMP)++;
      *timeout_seqeunce_rate_tmp = (unsigned int) (TIMING_TMP[j]*1000);
      gtk_timeout_remove(*timeout_seqeunce_id_tmp);
      *timeout_seqeunce_id_tmp = gtk_timeout_add(*timeout_seqeunce_rate_tmp, (GtkFunction) sequence_iterator, currP);
    }

  return false;
}
コード例 #3
0
ファイル: fake_motor.cpp プロジェクト: CV-IP/yarp
void testMotor(PolyDriver& driver) {
    IPositionControl *pos;
    if (driver.view(pos)) {
        int ct = 0;
        pos->getAxes(&ct);
        printf("  number of axes is: %d\n", ct);
    } else {
        printf("  could not find IPositionControl interface\n");
    }
}
コード例 #4
0
void partMover::home_click(GtkButton *button, gtkClassData* currentClassData)
{
  partMover *currentPart = currentClassData->partPointer;
  int * joint = currentClassData->indexPointer;
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  IControlCalibration2 *ical = currentPart->cal;
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  //fprintf(stderr, "Retrieving finder \n");
  ResourceFinder *fnd = currentPart->finder;
  //fprintf(stderr, "Retrieved finder: %p \n", fnd);
  char buffer1[800];
  char buffer2[800];

  strcpy(buffer1, currentPart->partLabel);
  strcpy(buffer2, strcat(buffer1, "_zero"));
  //fprintf(stderr, "Finder retrieved %s\n", buffer2);

  if (!fnd->findGroup(buffer2).isNull() && !fnd->isNull())
    {
      //fprintf(stderr, "Home group was not empty \n");
      bool ok = true;
      Bottle xtmp;
      xtmp = fnd->findGroup(buffer2).findGroup("PositionZero");
      ok = ok && (xtmp.size() == NUMBER_OF_JOINTS+1);
      double positionZero = xtmp.get(*joint+1).asDouble();
      //fprintf(stderr, "%f\n", positionZero);

      xtmp = fnd->findGroup(buffer2).findGroup("VelocityZero");
      //fprintf(stderr, "VALUE VEL is %d \n", fnd->findGroup(buffer2).find("VelocityZero").toString().c_str());
      ok = ok && (xtmp.size() == NUMBER_OF_JOINTS+1);
      double velocityZero = xtmp.get(*joint+1).asDouble();
      //fprintf(stderr, "%f\n", velocityZero);

      if(!ok)
    dialog_message(GTK_MESSAGE_ERROR,(char *) "Check the number of entries in the group",  buffer2, true);
      else
    {
      ipos->setRefSpeed(*joint, velocityZero);
      ipos->positionMove(*joint, positionZero);
    }
    }
  else
    {
      //        currentPart->dialog_message(GTK_MESSAGE_ERROR,"No calib file found", strcat("Define a suitable ", strcat(currentPart->partLabel, "Calib")), true);        
      dialog_message(GTK_MESSAGE_ERROR,(char *) "No zero group found in the supplied file. Define a suitable",  buffer2, true);   
    }
  return;
}
コード例 #5
0
void partMover::home_all(GtkButton *button, partMover* currentPart)
{
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  IControlCalibration2 *ical = currentPart->cal;
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  //fprintf(stderr, "Retrieving finder \n");
  ResourceFinder *fnd = currentPart->finder;
  //fprintf(stderr, "Retrieved finder: %p \n", fnd);
  char buffer1[800];
  char buffer2[800];

  strcpy(buffer1, currentPart->partLabel);
  strcpy(buffer2, strcat(buffer1, "_zero"));
  //fprintf(stderr, "Finder retrieved %s\n", buffer2);


  if (!fnd->findGroup(buffer2).isNull() && !fnd->isNull())
    {
      bool ok = true;
      Bottle xtmp, ytmp;
      xtmp = fnd->findGroup(buffer2).findGroup("PositionZero");
      ok = ok && (xtmp.size() == NUMBER_OF_JOINTS+1);
      ytmp = fnd->findGroup(buffer2).findGroup("VelocityZero");
      ok = ok && (ytmp.size() == NUMBER_OF_JOINTS+1);
      if(ok)
	{
	  for (int joint = 0; joint < NUMBER_OF_JOINTS; joint++)
	    {
	      double positionZero = xtmp.get(joint+1).asDouble();
	      //fprintf(stderr, "%f ", positionZero);

	      double velocityZero = ytmp.get(joint+1).asDouble();
	      //fprintf(stderr, "%f ", velocityZero);

	      ipos->setRefSpeed(joint, velocityZero);
	      ipos->positionMove(joint, positionZero);
	    }
	}
      else
	dialog_message(GTK_MESSAGE_ERROR,(char *) "Check the number of entries in the group",  buffer2, true);
    }
  else
    {
      //		currentPart->dialog_message(GTK_MESSAGE_ERROR,"No calib file found", strcat("Define a suitable ", strcat(currentPart->partLabel, "Calib")), true);        
      dialog_message(GTK_MESSAGE_ERROR,(char *) "No zero group found in the supplied file. Define a suitable",  buffer2, true);   
    }
  return;
}
コード例 #6
0
void partMover::sequence_click(GtkButton *button, partMover* currentPart)
{

  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  int *SEQUENCE_TMP = currentPart->SEQUENCE;
  double *TIMING_TMP = currentPart->TIMING;
  double **STORED_POS_TMP = currentPart->STORED_POS;
  double **STORED_VEL_TMP = currentPart->STORED_VEL;
  GtkWidget **sliderAry = currentPart->sliderArray;
  GtkWidget **sliderVelAry = currentPart->sliderVelArray;

  int j;
	
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);
	
  int invSequence[NUMBER_OF_STORED];

  for (j = 0; j < NUMBER_OF_STORED; j++)
    invSequence[j] = -1;

  for (j = 0; j < NUMBER_OF_STORED; j++)
    {
      if (SEQUENCE_TMP[j]>-1 && (SEQUENCE_TMP[j]<NUMBER_OF_STORED))
	invSequence[SEQUENCE_TMP[j]] = j;
    }
  for (j = 0; j < NUMBER_OF_STORED; j++)
    if (invSequence[j]!=-1)
      {
	if (TIMING_TMP[invSequence[j]] > 0)
	  {
	    ipos->setRefSpeeds(STORED_VEL_TMP[invSequence[j]]);
	    ipos->positionMove(STORED_POS_TMP[invSequence[j]]);
	    for (int k =0; k < NUMBER_OF_JOINTS; k++)
	      {
		gtk_range_set_value ((GtkRange *) (sliderAry[k]),    STORED_POS_TMP[invSequence[j]][k]);
		gtk_range_set_value ((GtkRange *) (sliderVelAry[k]), STORED_VEL_TMP[invSequence[j]][k]);
	      }
	    Time::delay(TIMING_TMP[invSequence[j]]);
	  }
      }
    else
      break;
  return;
}
コード例 #7
0
ファイル: reachManager.cpp プロジェクト: xufango/contrib_bk
void ReachManager::InitPositionControl(string partName)
{
    Property options;
    options.put("device", "remote_controlboard");
    options.put("local", ("/reach_manager/position_control/" + partName).c_str());   //local port names

    string remotePortName = "/" + (string)parameters["robot"]->asString() + "/" + partName + "_arm";
    options.put("remote", remotePortName.c_str());         //where we connect to

    // create a device
    polydrivers[partName] = new PolyDriver(options);
    if (!polydrivers[partName]->isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return;
    }

    IPositionControl *pos;
    IEncoders *encs;

    if (!(polydrivers[partName]->view(pos) && polydrivers[partName]->view(encs))) {
        printf("Problems acquiring interfaces\n");
        return;
    }

    pos->getAxes(&nbJoints[partName]);
    Vector encoders;
    Vector tmp;
    encoders.resize(nbJoints[partName]);
    tmp.resize(nbJoints[partName]);


    for (int i = 0; i < nbJoints[partName]; i++)
    {
        tmp[i] = 5.0;
    }
    pos->setRefAccelerations(tmp.data());

    for (int i = 0; i < nbJoints[partName]; i++)
    {
        tmp[i] = 3.0;
        pos->setRefSpeed(i, tmp[i]);
    }
}
コード例 #8
0
void partMover::sequence_stop(GtkButton *button,partMover* currP)
{
  //fprintf(stderr, "calling sequence time stop\n");
  guint* timeout_seqeunce_id_tmp = currP->timeout_seqeunce_id;
  GtkWidget **sliderAry = currP->sliderArray;
  GtkWidget **sliderVelAry = currP->sliderVelArray;
  IPositionControl *ipos = currP->pos;

  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  //deactivate all buttons
  int k;
  for (k =0; k < NUMBER_OF_JOINTS; k++)
    {
      gtk_widget_set_sensitive(sliderVelAry[k], true);
      gtk_widget_set_sensitive(sliderAry[k], true);
    }

  //fprintf(stderr, "Enabling bottons...");
  if (currP->button1 != NULL)
    //fprintf(stderr, "botton is sensitive...");
    gtk_widget_set_sensitive(currP->button1, true);
    //fprintf(stderr, "disabled...");     
  if (currP->button2 != NULL)
    gtk_widget_set_sensitive(currP->button2, true);
  if (currP->button3 != NULL)
    gtk_widget_set_sensitive(currP->button3, true);
  if (currP->button4 != NULL)
    gtk_widget_set_sensitive(currP->button4, true);
  if (currP->button5 != NULL)
    gtk_widget_set_sensitive(currP->button5, true);
  if (currP->button6 != NULL)
    gtk_widget_set_sensitive(currP->button6, true);
  if (currP->button7 != NULL)
    gtk_widget_set_sensitive(currP->button7, true);
  if (currP->button8 != NULL)
    gtk_widget_set_sensitive(currP->button8, true);
  //fprintf(stderr, "done!\n");

  gtk_timeout_remove(*timeout_seqeunce_id_tmp);
  return;
}
コード例 #9
0
void partMover::idle_all(GtkButton *button, partMover* currentPart)
{
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  GtkWidget **sliderAry = currentPart->sliderArray;
	 
  double posJoint;
  int joint;
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);
  
  for (joint=0; joint < NUMBER_OF_JOINTS; joint++)
  {
    iiencs->getEncoder(joint, &posJoint);
    iamp->disableAmp(joint);
    ipid->disablePid(joint);
    gtk_range_set_value ((GtkRange *) (sliderAry[joint]), posJoint);
  }
  return;
}
コード例 #10
0
void partMover::sequence_time(GtkButton *button, partMover* currentPart)
{

  IPositionControl *ipos = currentPart->pos;
  int *SEQUENCE_TMP = currentPart->SEQUENCE;
  double *TIMING_TMP = currentPart->TIMING;
  double **STORED_POS_TMP = currentPart->STORED_POS;
  double **STORED_VEL_TMP = currentPart->STORED_VEL;
  int invSequence[NUMBER_OF_STORED];
  int NUMBER_OF_JOINTS;
  int j;
	
  ipos->getAxes(&NUMBER_OF_JOINTS);	


  for (j = 0; j < NUMBER_OF_STORED; j++)
    invSequence[j] = -1;

  for (j = 0; j < NUMBER_OF_STORED; j++)
    {
      if (SEQUENCE_TMP[j]>-1 && (SEQUENCE_TMP[j]<NUMBER_OF_STORED))
	invSequence[SEQUENCE_TMP[j]] = j;
    }
  for (j = 0; j < NUMBER_OF_STORED; j++)
    if (invSequence[j]!=-1)
      {
	if (TIMING_TMP[invSequence[j]] > 0)
	  { 	    
	    fixed_time_move(STORED_POS_TMP[invSequence[j]],
			    TIMING_TMP[invSequence[j]],
			    currentPart);
	    Time::delay(TIMING_TMP[invSequence[j]]);
	  }
      }
    else
      break;
  return;
}
コード例 #11
0
bool partMover::entry_update(partMover *currentPart)
{
  GdkColor color_black;
  GdkColor color_grey;
  GdkColor color_yellow;
  GdkColor color_green;
  GdkColor color_green_blue;
  GdkColor color_dark_green;
  GdkColor color_red;
  GdkColor color_fault_red;
  GdkColor color_pink;
  GdkColor color_indaco;
  GdkColor color_white;
  GdkColor color_blue;
  
  color_pink.red=219*255;
  color_pink.green=166*255;
  color_pink.blue=171*255;

  color_fault_red.red=255*255;
  color_fault_red.green=10*255;
  color_fault_red.blue=10*255;

  color_black.red=10*255;
  color_black.green=10*255;
  color_black.blue=10*255;

  color_red.red=255*255;
  color_red.green=100*255;
  color_red.blue=100*255;

  color_grey.red=220*255;
  color_grey.green=220*255;
  color_grey.blue=220*255;

  color_white.red=250*255;
  color_white.green=250*255;
  color_white.blue=250*255;

  color_green.red=149*255;
  color_green.green=221*255;
  color_green.blue=186*255;

  color_dark_green.red=(149-30)*255;
  color_dark_green.green=(221-30)*255;
  color_dark_green.blue=(186-30)*255;

  color_blue.red=150*255;
  color_blue.green=190*255;
  color_blue.blue=255*255;

  color_green_blue.red=(149+150)/2*255;
  color_green_blue.green=(221+190)/2*255;
  color_green_blue.blue=(186+255)/2*255;

  color_indaco.red=220*255;
  color_indaco.green=190*255;
  color_indaco.blue=220*255;

  color_yellow.red=249*255;
  color_yellow.green=236*255;
  color_yellow.blue=141*255;
  
  GdkColor* pColor= &color_grey;

  static int slowSwitcher = 0;

  IControlMode     *ictrl = currentPart->ctrlmode2;
  IInteractionMode *iint  = currentPart->iinteract;
  IPositionControl  *ipos = currentPart->pos;
  IVelocityControl  *ivel = currentPart->iVel;
  IPositionDirect   *iDir = currentPart->iDir;
  IEncoders       *iiencs = currentPart->iencs;
  ITorqueControl    *itrq = currentPart->trq;
  IAmplifierControl *iamp = currentPart->amp;

  GtkEntry * *pos_entry   = (GtkEntry **)  currentPart->currPosArray;
  GtkEntry  **trq_entry   = (GtkEntry **)  currentPart->currTrqArray;
  GtkEntry  **speed_entry = (GtkEntry **)  currentPart->currSpeedArray;
  GtkEntry    **inEntry   = (GtkEntry **)  currentPart->inPosArray;
  GtkWidget **colorback   = (GtkWidget **) currentPart->frameColorBack;

  GtkWidget **sliderAry = currentPart->sliderArray;
  bool *POS_UPDATE = currentPart->CURRENT_POS_UPDATE;

  char buffer[40] = {'i', 'n', 'i', 't'};
  char frame_title [255];

  double positions[MAX_NUMBER_OF_JOINTS];
  double torques[MAX_NUMBER_OF_JOINTS];
  double speeds[MAX_NUMBER_OF_JOINTS];
  double max_torques[MAX_NUMBER_OF_JOINTS];
  double min_torques[MAX_NUMBER_OF_JOINTS];
  static int controlModes[MAX_NUMBER_OF_JOINTS];
  static int controlModesOld[MAX_NUMBER_OF_JOINTS];
  static yarp::dev::InteractionModeEnum interactionModes[MAX_NUMBER_OF_JOINTS];
  static yarp::dev::InteractionModeEnum interactionModesOld[MAX_NUMBER_OF_JOINTS];

  int k;
  int NUMBER_OF_JOINTS=0;
  bool done = false;
  bool ret = false;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  if (NUMBER_OF_JOINTS == 0)
  {
      fprintf(stderr,"Lost connection with iCubInterface. You should save and restart.\n" );
      Time::delay(0.1);
      pColor=&color_grey;
      strcpy(frame_title,"DISCONNECTED");
      for (k = 0; k < MAX_NUMBER_OF_JOINTS; k++)
      {   
          if (currentPart->framesArray[k]!=0)
          {
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          }
      }
      return true;
  }

  for (k = 0; k < NUMBER_OF_JOINTS; k++) 
  {
      max_torques[k]=0;
      min_torques[k]=0;
      torques[k]=0;
  }

  if (!iiencs->getEncoders(positions)) 
      return true;
  itrq->getTorques(torques);
  iiencs->getEncoderSpeeds(speeds);
  
  //update all joints positions
  for (k = 0; k < NUMBER_OF_JOINTS; k++)
    {
      sprintf(buffer, "%.1f", positions[k]);  
      gtk_entry_set_text((GtkEntry*) pos_entry[k],  buffer);
      sprintf(buffer, "%.3f", torques[k]);  
      gtk_entry_set_text((GtkEntry*) trq_entry[k],  buffer);
      sprintf(buffer, "%.1f", speeds[k]);  
      gtk_entry_set_text((GtkEntry*) speed_entry[k],  buffer);
    }
  //update all joint sliders
  for (k = 0; k < NUMBER_OF_JOINTS; k++) 
    if(POS_UPDATE[k])
      gtk_range_set_value((GtkRange*)sliderAry[k],  positions[k]);

  // *** update the checkMotionDone box section ***
  // (only one at a time in order to save badwidth)
  k = slowSwitcher%NUMBER_OF_JOINTS;
  slowSwitcher++;
#if DEBUG_GUI
  gtk_entry_set_text((GtkEntry*) inEntry[k],  "off");
#else
  ipos->checkMotionDone(k, &done);
  if (!done)
      gtk_entry_set_text((GtkEntry*) inEntry[k],  " "); 
  else
      gtk_entry_set_text((GtkEntry*) inEntry[k],  "@");
#endif

  // *** update the controlMode section ***
  // the new icubinterface does not increase the bandwidth consumption
  // ret = true; useless guys!
  ret=ictrl->getControlModes(controlModes);
  if (ret==false) fprintf(stderr,"ictrl->getControlMode failed\n" );
  ret=iint->getInteractionModes(interactionModes);
  if (ret==false) fprintf(stderr,"iint->getInteractionlMode failed\n" );

  for (k = 0; k < NUMBER_OF_JOINTS; k++)
  {
      if (currentPart->first_time==false && controlModes[k] == controlModesOld[k]) continue;
      controlModesOld[k]=controlModes[k];
      sprintf(frame_title,"Joint %d ",k );

      switch (controlModes[k])
      {
          case VOCAB_CM_IDLE:
              pColor=&color_yellow;
                strcat(frame_title," (IDLE)");
                gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_POSITION:
              pColor=&color_green;
              strcat(frame_title," (POSITION)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider1[k]),"Position:");
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider2[k]),"Velocity:");
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_POSITION_DIRECT:
              pColor=&color_dark_green;
              strcat(frame_title," (POSITION_DIRECT)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider1[k]),"Position:");
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider2[k]),"---");
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_MIXED:
              pColor=&color_green_blue;
              strcat(frame_title," (MIXED_MODE)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider1[k]),"Position:");
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider2[k]),"Velocity");
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_VELOCITY:
              pColor=&color_blue;
              strcat(frame_title," (VELOCITY)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_TORQUE:
              pColor=&color_pink;
              strcat(frame_title," (TORQUE)");
                gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider1[k]),"Torque:");
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider2[k]),"Torque2:");
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
              break;
          case VOCAB_CM_IMPEDANCE_POS:
              pColor=&color_indaco;
              strcat(frame_title," (IMPEDANCE POS)");
                gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
            case VOCAB_CM_IMPEDANCE_VEL:
              pColor=&color_indaco;
              strcat(frame_title," (IMPEDANCE VEL)");
                gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_OPENLOOP:
              pColor=&color_white;
              strcat(frame_title," (OPENLOOP)");
                gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_HW_FAULT:
              pColor=&color_fault_red;
              strcat(frame_title," (HARDWARE_FAULT)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider1[k]),"---");
              gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider2[k]),"---");
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
              break;
         case VOCAB_CM_CALIBRATING:
              pColor=&color_grey;
              strcat(frame_title," (CALIBRATING)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
         case VOCAB_CM_CALIB_DONE:
              pColor=&color_grey;
              strcat(frame_title," (CALIB DONE)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_NOT_CONFIGURED:
              pColor=&color_grey;
              strcat(frame_title," (NOT CONFIGURED)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          case VOCAB_CM_CONFIGURED:
              pColor=&color_grey;
              strcat(frame_title," (CONFIGURED)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
          default:
          case VOCAB_CM_UNKNOWN:
              pColor=&color_grey;
              strcat(frame_title," (UNKNOWN)");
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          break;
      }
  }
  for (k = 0; k < NUMBER_OF_JOINTS; k++)
  {
      if (currentPart->first_time==false && interactionModes[k] == interactionModesOld[k]) continue;
      interactionModesOld[k]=interactionModes[k];
      switch (interactionModes[k])
      {
           case VOCAB_IM_STIFF:
               gtk_widget_modify_base ((GtkWidget*)inEntry[k], GTK_STATE_NORMAL, &color_green);
           break;
           case VOCAB_IM_COMPLIANT:
               gtk_widget_modify_base ((GtkWidget*)inEntry[k], GTK_STATE_NORMAL, &color_fault_red);
           break;
           default:
           case VOCAB_CM_UNKNOWN:
               gtk_widget_modify_base ((GtkWidget*)inEntry[k], GTK_STATE_NORMAL, &color_white);
           break;
      }
  }

  currentPart->first_time =false;
  return true;
    
}
コード例 #12
0
ファイル: main.cpp プロジェクト: xufango/contrib_bk
int main(int argc, char *argv[]) 
{
    Network yarp;

    Property params;
    params.fromCommand(argc, argv);

    if (!params.check("robot"))
    {
        fprintf(stderr, "Please specify the name of the robot\n");
        fprintf(stderr, "--robot name (e.g. icub)\n");
        return -1;
    }
    std::string robotName=params.find("robot").asString().c_str();
    std::string remotePorts="/";
    remotePorts+=robotName;
    remotePorts+="/left_arm";

    std::string localPorts="/test/client";

    Property options;
    options.put("device", "remote_controlboard");
    options.put("local", localPorts.c_str());   //local port names
    options.put("remote", remotePorts.c_str());         //where we connect to

    // create a device
    PolyDriver robotDevice(options);
    if (!robotDevice.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }

    IPositionControl *pos;
    IEncoders *encs;

    bool ok;
    ok = robotDevice.view(pos);
    ok = ok && robotDevice.view(encs);

    if (!ok) {
        printf("Problems acquiring interfaces\n");
        return 0;
    }

    int nj=0;
    pos->getAxes(&nj);
    Vector encoders;
    Vector command;
    Vector tmp;
    encoders.resize(nj);
    tmp.resize(nj);
    command.resize(nj);
    
    int i;
    for (i = 0; i < nj; i++) {
         tmp[i] = 50.0;
    }
    pos->setRefAccelerations(tmp.data());

    for (i = 0; i < nj; i++) {
        tmp[i] = 4.0;
        pos->setRefSpeed(i, tmp[i]);
    }

    //pos->setRefSpeeds(tmp.data()))
    
    //fisrst zero all joints
    //
    command=0;
    //now set the shoulder to some value
    command[0]=-26.0;
    command[1]=20.0;
    command[2]=0.0;
    command[3]=49.0;
    command[4]=0.0;

    pos->positionMove(command.data());
    
    bool done=false;
    while(!done) {
        Time::delay(0.5);
        pos->checkMotionDone(&done);
    }

    printf("\niCub @ HOME. Press any key...");
    mygetch();

    int times=0;
    while(true)
    {
        times++;
        if (times%2)
        {
             printf("\n\nSet pos1: ");
             //command[0]=-50;
             command[1]=64.0;
             //command[2]=-10;
             //command[3]=50;
             //command[4]=0;
        }
        else
        {
             printf("\n\nSet pos2: ");
             //command[0]=-20;
             command[1]=20.0;
             //command[2]=-10;
             //command[3]=30;
             //command[4]=0;
        }

        pos->positionMove(command.data());

        printf("waiting");
        bool done3=false;
        while(!done3) {
            Time::delay(1.0);
            pos->checkMotionDone(&done3);
            printf(".");
        }
            printf("ok!\n");
    mygetch();

    }


    robotDevice.close();
    
    return 0;
}
コード例 #13
0
ファイル: main.cpp プロジェクト: lorejam/icub-main
int main(int argc, char *argv[]) 
{
    // just list the devices if no argument given
    if (argc <= 2) {
        printf("You can call %s like this:\n", argv[0]);
        printf("   %s --robot ROBOTNAME --OPTION VALUE ...\n", argv[0]);
        printf("For example:\n");
        printf("   %s --robot icub --local /talkto/james --remote /controlboard/rpc\n", argv[0]);
        printf("Here are devices listed for your system:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }

    // get command line options
    Property options;
    options.fromCommand(argc, argv);
    if (!options.check("robot") || !options.check("part")) {
        printf("Missing either --robot or --part options\n");
        return 0;
    }

    Network::init();
	Time::turboBoost();
    
    std::string name;
    Value& v = options.find("robot");
    Value& part = options.find("part");

    Value *val;
    if (!options.check("device", val)) {
        options.put("device", "remote_controlboard");
    }
    if (!options.check("local", val)) {
		name="/"+std::string(v.asString().c_str())+"/"+std::string(part.asString().c_str())+"/simpleclient";
        //sprintf(&name[0], "/%s/%s/client", v.asString().c_str(), part.asString().c_str());
        options.put("local", name.c_str());
    }
    if (!options.check("remote", val)) {
        name="/"+std::string(v.asString().c_str())+"/"+std::string(part.asString().c_str());    
		//sprintf(&name[0], "/%s/%s", v.asString().c_str(), part.asString().c_str());
        options.put("remote", name.c_str());
    }

	fprintf(stderr, "%s", options.toString().c_str());

    
    // create a device 
    PolyDriver dd(options);
    if (!dd.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        Network::fini();
        return 1;
    }

    IPositionControl *pos;
    IPositionDirect  *posDir;
    IVelocityControl *vel;
    IEncoders *enc;
    IPidControl *pid;
    IAmplifierControl *amp;
    IControlLimits *lim;
//    IControlMode *icm;
    IControlMode2 *iMode2;
    ITorqueControl *itorque;
    IOpenLoopControl *iopenloop;
	IImpedanceControl *iimp;
    IInteractionMode *iInteract;

    bool ok;
    ok = dd.view(pos);
    ok &= dd.view(vel);
    ok &= dd.view(enc);
    ok &= dd.view(pid);
    ok &= dd.view(amp);
    ok &= dd.view(lim);
//    ok &= dd.view(icm);
    ok &= dd.view(itorque);
    ok &= dd.view(iopenloop);
	ok &= dd.view(iimp);
    ok &= dd.view(posDir);
    ok &= dd.view(iMode2);
    ok &= dd.view(iInteract);

    if (!ok) {
        printf("Problems acquiring interfaces\n");
        return 1;
    }

    pos->getAxes(&jnts);
    printf("Working with %d axes\n", jnts);
    double *tmp = new double[jnts];

    printf("Device active...\n");
    while (dd.isValid()) {
        std::string s;
        s.resize(1024);
        
        printf("-> ");
        char c = 0;
        int i = 0;
        while (c != '\n') {
            c = (char)fgetc(stdin);
            s[i++] = c;
        }
        s[i-1] = s[i] = 0;

        Bottle p;
        Bottle response;
        bool ok=false;
        bool rec=false;
        p.fromString(s.c_str());
        printf("Bottle: %s\n", p.toString().c_str());

        switch(p.get(0).asVocab()) {      
        case VOCAB_HELP:
            printf("\n\n");
            printf("Available commands:\n");
			printf("-------------------\n\n");

            printf("IOpenLoop:\ntype [%s] and one of the following:\n", Vocab::decode(VOCAB_IOPENLOOP).c_str());
            printf("	[set] [%s] <int> <float>\n",
                    Vocab::decode(VOCAB_OUTPUT).c_str());
            printf("	[get] [%s] <int>\n",
                    Vocab::decode(VOCAB_OUTPUT).c_str());
            printf("	[get] [%s]\n\n",
                    Vocab::decode(VOCAB_OUTPUTS).c_str());

            printf("IControlMode:\ntype [%s] and one of the following:\n", Vocab::decode(VOCAB_ICONTROLMODE).c_str());
            printf("	[set] [%s]|[%s]|[%s]|[%s]|[%s]|[%s]|[%s]|[%s][%s]|[%s]\n",
                    Vocab::decode(VOCAB_CM_POSITION).c_str(),
                    Vocab::decode(VOCAB_CM_POSITION_DIRECT).c_str(),
                    Vocab::decode(VOCAB_CM_VELOCITY).c_str(),
                    Vocab::decode(VOCAB_CM_MIXED).c_str(),
                    Vocab::decode(VOCAB_CM_TORQUE).c_str(),
                    Vocab::decode(VOCAB_CM_OPENLOOP).c_str(),
                    Vocab::decode(VOCAB_CM_IDLE).c_str(),
                    Vocab::decode(VOCAB_CM_FORCE_IDLE).c_str(),
                    Vocab::decode(VOCAB_CM_IMPEDANCE_POS).c_str(),
                    Vocab::decode(VOCAB_CM_IMPEDANCE_VEL).c_str());
            
            printf("	[get] [%s] <int>\n\n",
                Vocab::decode(VOCAB_CM_CONTROL_MODE).c_str());

            printf("ITorqueControl:\ntype [%s] and one of the following:\n", Vocab::decode(VOCAB_TORQUE).c_str());
            printf("	[get] [%s] <int> to read the measured torque for a single axis\n",                  Vocab::decode(VOCAB_TRQ).c_str());
            printf("	[get] [%s]  to read the measured torque for all axes\n",                      Vocab::decode(VOCAB_TRQS).c_str());
            printf("	[set] [%s] <int> <float> to set the reference torque for a single axis\n",          Vocab::decode(VOCAB_REF).c_str());
            printf("	[set] [%s] <float list> to set the reference torque for all axes\n",        Vocab::decode(VOCAB_REFS).c_str());
            printf("	[get] [%s] <int> to read the reference torque for a single axis\n",                  Vocab::decode(VOCAB_REF).c_str());
            printf("	[get] [%s] to read the reference torque for all axes\n\n",                      Vocab::decode(VOCAB_REFS).c_str());

			printf("IImpedanceControl:\ntype [%s] and one of the following:\n", Vocab::decode(VOCAB_IMPEDANCE).c_str());
            printf("	[set] [%s] <int> <float> <float> \n", 
                Vocab::decode(VOCAB_IMP_PARAM).c_str());
            printf("	[set] [%s] <int> <float>\n\n", 
                Vocab::decode(VOCAB_IMP_OFFSET).c_str());

            printf("	[get] [%s] <int>\n", 
                Vocab::decode(VOCAB_IMP_PARAM).c_str());
            printf("	[get] [%s] <int>\n\n", 
                Vocab::decode(VOCAB_IMP_OFFSET).c_str());

            printf("IInteractionMode:\ntype [%s] and one of the following:\n", Vocab::decode(VOCAB_INTERFACE_INTERACTION_MODE).c_str());
            printf("	[set] [%s]|[%s] <int>\n",
                    Vocab::decode(VOCAB_IM_STIFF).c_str(),
                    Vocab::decode(VOCAB_IM_COMPLIANT).c_str());

            printf("	[get] [%s] <int>\n",
                Vocab::decode(VOCAB_INTERACTION_MODE).c_str());
            printf("	[get] [%s] \n\n",
                Vocab::decode(VOCAB_INTERACTION_MODES).c_str());

			printf("Standard Interfaces:\n");
            printf("type [get] and one of the following:\n");
            printf("	[%s] to read the number of controlled axes\n", Vocab::decode(VOCAB_AXES).c_str());
            printf("	[%s] to read the encoder value for all axes\n", Vocab::decode(VOCAB_ENCODERS).c_str());
            printf("	[%s] to read the PID values for all axes\n", Vocab::decode(VOCAB_PIDS).c_str());
            printf("	[%s] <int> to read the PID values for a single axis\n", Vocab::decode(VOCAB_PID).c_str());
            printf("	[%s] <int> to read the limit values for a single axis\n", Vocab::decode(VOCAB_LIMITS).c_str());
            printf("	[%s] to read the PID error for all axes\n", Vocab::decode(VOCAB_ERRS).c_str());
            printf("	[%s] to read the PID output for all axes\n", Vocab::decode(VOCAB_OUTPUTS).c_str());
            printf("	[%s] to read the reference position for all axes\n", Vocab::decode(VOCAB_REFERENCES).c_str());
			printf("	[%s] <int> to read the reference position for a single axis\n", Vocab::decode(VOCAB_REFERENCE).c_str());
            printf("	[%s] to read the reference speed for all axes\n", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
			printf("	[%s] <int> to read the reference speed for a single axis\n", Vocab::decode(VOCAB_REF_SPEED).c_str());
            printf("	[%s] to read the reference acceleration for all axes\n", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());
			printf("	[%s] <int> to read the reference acceleration for a single axis\n", Vocab::decode(VOCAB_REF_ACCELERATION).c_str());
            printf("	[%s] to read the current consumption for all axes\n", Vocab::decode(VOCAB_AMP_CURRENTS).c_str());

            printf("\n");

            printf("type [set] and one of the following:\n");
            printf("	[%s] <int> <double> to move a single axis\n", Vocab::decode(VOCAB_POSITION_MOVE).c_str());
            printf("	[%s] <int> <double> to accelerate a single axis to a given speed\n", Vocab::decode(VOCAB_VELOCITY_MOVE).c_str());            
            printf("	[%s] <int> <double> to set the reference speed for a single axis\n", Vocab::decode(VOCAB_REF_SPEED).c_str());
            printf("	[%s] <int> <double> to set the reference acceleration for a single axis\n", Vocab::decode(VOCAB_REF_ACCELERATION).c_str());
            printf("	[%s] <list> to move multiple axes\n", Vocab::decode(VOCAB_POSITION_MOVES).c_str());
            printf("	[%s] <list> to accelerate multiple axes to a given speed\n", Vocab::decode(VOCAB_VELOCITY_MOVES).c_str());
            printf("	[%s] <list> to set the reference speed for all axes\n", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
            printf("	[%s] <list> to set the reference acceleration for all axes\n", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());          
            printf("	[%s] <int> to stop a single axis\n", Vocab::decode(VOCAB_STOP).c_str());
            printf("	[%s] <int> to stop all axes\n", Vocab::decode(VOCAB_STOPS).c_str());
            printf("	[%s] <int> <list> to set the PID values for a single axis\n", Vocab::decode(VOCAB_PID).c_str());
            printf("	[%s] <int> <list> to set the limits for a single axis\n", Vocab::decode(VOCAB_LIMITS).c_str());
            printf("	[%s] <int> to disable the PID control for a single axis\n", Vocab::decode(VOCAB_DISABLE).c_str());
            printf("	[%s] <int> to enable the PID control for a single axis\n", Vocab::decode(VOCAB_ENABLE).c_str());
            printf("	[%s] <int> <double> to set the encoder value for a single axis\n", Vocab::decode(VOCAB_ENCODER).c_str());
            printf("	[%s] <list> to set the encoder value for all axes\n", Vocab::decode(VOCAB_ENCODERS).c_str());
			printf("\n");
			printf("NOTES: - A list is a sequence of numbers in parenthesis, e.g. (10 2 1 10)\n");
			printf("       - Pids are expressed as a list of 7 numbers, type get pid <int> to see an example\n");
            printf("\n");
            break;

        case VOCAB_QUIT:
            goto ApplicationCleanQuit;
            break;

        case VOCAB_ICONTROLMODE:
            {
                handleControlModeMsg(iMode2, p, response, &rec, &ok);
                printf("%s\n", response.toString().c_str());
                break;
            }

        case VOCAB_IMPEDANCE:
            {
                handleImpedanceMsg(iimp, p, response, &rec, &ok);
                printf("%s\n", response.toString().c_str());
                break;
            }

		case VOCAB_TORQUE:
			{
				handleTorqueMsg(itorque, p, response, &rec, &ok);
				printf("%s\n", response.toString().c_str());
				break;
			}

        case VOCAB_INTERFACE_INTERACTION_MODE:
            {
                handleInteractionModeMsg(iInteract, p, response, &rec, &ok);
                printf("%s\n", response.toString().c_str());
                break;
            }

        case VOCAB_GET:
            switch(p.get(1).asVocab()) {
                case VOCAB_AXES: {
                    int nj = 0;
                    enc->getAxes(&nj);
                    printf ("%s: %d\n", Vocab::decode(VOCAB_AXES).c_str(), nj);
                }
                break;

                case VOCAB_ENCODERS: {
                    enc->getEncoders(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_ENCODERS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;

                case VOCAB_PID: {
                    Pid pd;
                    int j = p.get(2).asInt();
                    pid->getPid(j, &pd);
                    printf("%s: ", Vocab::decode(VOCAB_PID).c_str());
                    printf("kp %.2f ", pd.kp);
                    printf("kd %.2f ", pd.kd);
                    printf("ki %.2f ", pd.ki);
                    printf("maxi %.2f ", pd.max_int);
                    printf("maxo %.2f ", pd.max_output);
                    printf("off %.2f ", pd.offset);
                    printf("scale %.2f ", pd.scale);
                    printf("\n");
                }
                break;

               case VOCAB_PIDS: {
                    Pid *p = new Pid[jnts];
                    ok = pid->getPids(p);
                    Bottle& b = response.addList();
                    int i;
                    for (i = 0; i < jnts; i++)
                        {
                          Bottle& c = b.addList();
                          c.addDouble(p[i].kp);
                          c.addDouble(p[i].kd);
                          c.addDouble(p[i].ki);
                          c.addDouble(p[i].max_int);
                          c.addDouble(p[i].max_output);
                          c.addDouble(p[i].offset);
                          c.addDouble(p[i].scale);
                        }
                    printf("%s\n", b.toString().c_str());
                    delete[] p;
                }
                break;

                case VOCAB_LIMITS: {
                    double min, max;
                    int j = p.get(2).asInt();
                    lim->getLimits(j, &min, &max);
                    printf("%s: ", Vocab::decode(VOCAB_LIMITS).c_str());
                    printf("limits: (%.2f %.2f)\n", min, max);
                }
                break;

                case VOCAB_ERRS: {
					pid->getErrors(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_ERRS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;

                case VOCAB_OUTPUTS: {
                    iopenloop->getOutputs(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_OUTPUTS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;

                case VOCAB_OUTPUT: {
                    int j = p.get(2).asInt();
                    double v;
                    iopenloop->getOutput(j, &v);
                    printf("%s: ", Vocab::decode(VOCAB_OUTPUT).c_str());
                    printf("%.2f ", v);
                    printf("\n");
                }
                break;

				case VOCAB_REFERENCE: {
					double ref_pos;
					int j = p.get(2).asInt();
                    pid->getReference(j,&ref_pos);
                    printf ("%s: (", Vocab::decode(VOCAB_REFERENCE).c_str());
                    printf ("%.2f ", ref_pos);
                    printf (")\n");                    
                }
                break;

                case VOCAB_REFERENCES: {
                    pid->getReferences(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_REFERENCES).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");                    
                }
                break;

                case VOCAB_REF_SPEEDS: {
                    pos->getRefSpeeds(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");                    
                }
                break;

				case VOCAB_REF_SPEED: {
					double ref_speed;
					int j = p.get(2).asInt();
                    pos->getRefSpeed(j,&ref_speed);
                    printf ("%s: (", Vocab::decode(VOCAB_REF_SPEED).c_str());
                    printf ("%.2f ", ref_speed);
                    printf (")\n");                    
                }
                break;

				case VOCAB_REF_ACCELERATION: {
					double ref_acc;
					int j = p.get(2).asInt();
                    pos->getRefAcceleration(j,&ref_acc);
                    printf ("%s: (", Vocab::decode(VOCAB_REF_ACCELERATION).c_str());
                    printf ("%.2f ", ref_acc);
                    printf (")\n");                    
                }
                break;

                case VOCAB_REF_ACCELERATIONS: {
                    pos->getRefAccelerations(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");                    
                }
                break;

                case VOCAB_AMP_CURRENTS: {
                    amp->getCurrents(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_AMP_CURRENTS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;
            }
            break;

        case VOCAB_SET:
            switch(p.get(1).asVocab()) {
                case VOCAB_POSITION_MOVE: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: moving %d to %.2f\n", Vocab::decode(VOCAB_POSITION_MOVE).c_str(), j, ref);
                    pos->positionMove(j, ref);
                }
                break;

                case VOCAB_VELOCITY_MOVE: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: accelerating %d to %.2f\n", Vocab::decode(VOCAB_VELOCITY_MOVE).c_str(), j, ref);
                    vel->velocityMove(j, ref);
                }
                break;

                case VOCAB_REF_SPEED: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: setting speed for %d to %.2f\n", Vocab::decode(VOCAB_REF_SPEED).c_str(), j, ref);
                    pos->setRefSpeed(j, ref);
                }
                break;

                case VOCAB_REF_ACCELERATION: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: setting acceleration for %d to %.2f\n", Vocab::decode(VOCAB_REF_ACCELERATION).c_str(), j, ref);
                    pos->setRefAcceleration(j, ref);
                }
                break;

                case VOCAB_POSITION_MOVES: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: moving all joints\n", Vocab::decode(VOCAB_POSITION_MOVES).c_str());
                    pos->positionMove(tmp);
                }
                break;

                case VOCAB_VELOCITY_MOVES: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: moving all joints\n", Vocab::decode(VOCAB_VELOCITY_MOVES).c_str());
                    vel->velocityMove(tmp);
                }
                break;

                case VOCAB_REF_SPEEDS: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: setting speed for all joints\n", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
                    pos->setRefSpeeds(tmp);
                }
                break;

                case VOCAB_REF_ACCELERATIONS: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: setting acceleration for all joints\n", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());
                    pos->setRefAccelerations(tmp);
                }
                break;

                case VOCAB_STOP: {
                    int j = p.get(2).asInt();
                    printf("%s: stopping axis %d\n", Vocab::decode(VOCAB_STOP).c_str(), j);
                    pos->stop(j);
                }
                break;

                case VOCAB_STOPS: {
                    printf("%s: stopping all axes\n", Vocab::decode(VOCAB_STOPS).c_str());
                    pos->stop();
                }
                break;

                case VOCAB_ENCODER: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: setting the encoder value for %d to %.2f\n", Vocab::decode(VOCAB_ENCODER).c_str(), j, ref);
                    enc->setEncoder(j, ref);                    
                }
                break; 

                case VOCAB_ENCODERS: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: setting the encoder value for all joints\n", Vocab::decode(VOCAB_ENCODERS).c_str());
                    enc->setEncoders(tmp);
                }
                break;

                case VOCAB_PID: {
                    Pid pd;
                    int j = p.get(2).asInt();
                    Bottle *l = p.get(3).asList();
                    if (l==0)
                        {
                            printf("Check you specify a 7 elements list, e.g. set pid 0 (2000 20 1 300 300 0 0)\n");
                        }
                    else
                        {
                            int elems=l->size();
                            if (elems>=3)
                                {
                                    pd.kp = l->get(0).asDouble();
                                    pd.kd = l->get(1).asDouble();
                                    pd.ki = l->get(2).asDouble();
                                    if (elems>=7)
                                        {
                                            pd.max_int = l->get(3).asDouble();
                                            pd.max_output = l->get(4).asDouble();
                                            pd.offset = l->get(5).asDouble();
                                            pd.scale = l->get(6).asDouble();
                                        }
                                    printf("%s: setting PID values for axis %d\n", Vocab::decode(VOCAB_PID).c_str(), j);
                                    pid->setPid(j, pd);
                                }
                            else
                                {
                                    printf("Error, check you specify at least 7 elements, e.g. set pid 0 (2000 20 1 300 300 0 0)\n");
                                }
                        }
                }
                break;

                case VOCAB_DISABLE: {
                    int j = p.get(2).asInt();
                    printf("%s: disabling control for axis %d\n", Vocab::decode(VOCAB_DISABLE).c_str(), j);
                    pid->disablePid(j);
                    amp->disableAmp(j);
                }
                break;

                case VOCAB_ENABLE: {
                    int j = p.get(2).asInt();
                    printf("%s: enabling control for axis %d\n", Vocab::decode(VOCAB_ENABLE).c_str(), j);
                    amp->enableAmp(j);
                    pid->enablePid(j);
                }
                break;

                case VOCAB_LIMITS: {
                    int j = p.get(2).asInt();
                    printf("%s: setting limits for axis %d\n", Vocab::decode(VOCAB_LIMITS).c_str(), j);
                    Bottle *l = p.get(3).asList();
                    lim->setLimits(j, l->get(0).asDouble(), l->get(1).asDouble());
                }
                break;

                case VOCAB_OUTPUT: {
                    int j=p.get(2).asInt();
                    double v=p.get(3).asDouble();
                    iopenloop->setRefOutput(j,v);
                    printf("%s: setting output for axis %d to %f\n", Vocab::decode(VOCAB_OUTPUT).c_str(), j, v);            
                }
                break;
            }
            break;
        } /* switch get(0) */

    } /* while () */

ApplicationCleanQuit:
    dd.close();
    delete[] tmp;

    Network::fini();
    return 0;
}
コード例 #14
0
ファイル: main.cpp プロジェクト: MagnusJohnsson/wysiwyd
int main()
{
	Network::init();
    srand(time(NULL));
    
    Property options;
    options.put("robot", "icub"); // typically from the command line.
    options.put("device", "remote_controlboard");

    Value& robotname = options.find("robot");
    string s("/");
    s += robotname.asString();
    s += "/right_arm/babbling";
    options.put("local", s.c_str());
    s.clear();
    s += "/";
    s += robotname.asString();
    s += "/right_arm";
    options.put("remote", s.c_str());
    

    PolyDriver dd(options);
    if (!dd.isValid()) {
        cout << "Device not available.  Here are the known devices:\n"<< endl;
        cout << Drivers::factory().toString().c_str() << endl;;
        Network::fini();
        return 0;
    }

    IPositionControl *pos;
    IVelocityControl *vel;
    IEncoders *enc;
    IPidControl *pid;
    IAmplifierControl *amp;
    IControlLimits *lim;

    bool ok;
    ok = dd.view(pos);
    ok &= dd.view(vel);
    ok &= dd.view(enc);
    ok &= dd.view(pid);
    ok &= dd.view(amp);
    ok &= dd.view(lim);

	if (!ok) {
		cout << "Device not able to acquire views" << endl;
		Network::fini();
		dd.close();
		return 0;
	}


     int jnts = 0;
     pos->getAxes(&jnts);
     printf("Working with %d axes\n", jnts);

     
     // limits

     vector<pair<int, int> > vLimitJoints;
     for (int i = 0; i < jnts; i++) {
         double min, max;
         lim->getLimits(i, &min, &max);
         vLimitJoints.push_back(pair<int, int> ((int)min, (int)max));
     }

     // get value of the arm
     // we move : 4 5 6 7 8 9 10 11 12 13 14 15 
     // we don't move: 0 1 2 3
    
	 vector<bool> mask;
	 mask.resize(jnts);
	 mask[0]	= false;
	 mask[1]	= false;
	 mask[2]	= false;
	 mask[3]	= false;
	 mask[4] = false;
	 mask[5] = false;
	 mask[6] = false;
	 mask[7] = false;
	 mask[8] = false;
	 mask[9] = false;
	 mask[10] = false;
	 mask[11] = true;
	 mask[12] = true;
	 mask[13] = true;
	 mask[14] = true;
	 mask[15] = true;
     
	 Vector tmp;
	 tmp.resize(jnts,0.0);

	 for (int i = 4; i < jnts; i++)
	 {
		pos->positionMove(i, 0.0);
	 }

	 bool initDone = false;
	 while (!initDone)
	 {
		 initDone = true;
		 for (int i = 4; i < jnts; i++)
		 {
				 bool jntMotionDone = false;
				 pos->checkMotionDone(i, &jntMotionDone);
				 initDone &= jntMotionDone;
			 }
	 }



     while(true)
     {
		 cout << "Moving to new posture..." << endl;

         for (int i = 4; i < jnts; i++) 
		 {
			 if (mask[i])
			 {
				 double newValue = yarp::os::Random::uniform(vLimitJoints[i].first, vLimitJoints[i].second);
				 tmp[i] = newValue;
				 pos->positionMove(i, tmp[i]);
			 }
		 }

		 cout << "Waiting for posture to be reached... ("<<tmp.toString(3,3)<<" ) ..." ;

		 bool motionDone = false;
		 while (!motionDone)
		 {
			 motionDone = true;
			 for (int i = 4; i < jnts; i++)
			 {
				 if (mask[i])
				 {
					 bool jntMotionDone = false;
					 pos->checkMotionDone(i, &jntMotionDone);
					 motionDone &= jntMotionDone;
				 }
			 }
		 }
		 Time::delay(15.0);
		 cout << "ok" << endl;
     }

	 dd.close();

    return 0;
}
コード例 #15
0
ファイル: lookAtLocation.cpp プロジェクト: melidisc/VVV14
int main() {
    Network yarp; // set up yarp
    BufferedPort<Bottle> targetPort;
    targetPort.open("/mover/target/in");
    Network::connect("/objectDetector/target","/mover/target/in");
    Network::connect("/tracker/target:o","/mover/target/in");
    Property options;
    options.put("device", "remote_controlboard");
    options.put("local", "/mover/motor/client");
    options.put("remote", "/icubSim/head");
    PolyDriver robotHead(options);

    if (!robotHead.isValid()) 
    {
        printf("Cannot connect to robot head\n");
        return 1;
    }
    
    IPositionControl *pos;
    IVelocityControl *vel;
    IEncoders *enc;
    robotHead.view(pos);
    robotHead.view(vel);
    robotHead.view(enc);
    if (pos==NULL || vel==NULL || enc==NULL) 
    {
        printf("Cannot get interface to robot head\n");
        robotHead.close();
        return 1;
    }
    int jnts = 0;
    pos->getAxes(&jnts);
    Vector setpoints;
    setpoints.resize(jnts);
	for (int i=0; i<jnts; i++) 
            {
                setpoints[i] = 0.0;
            }
	pos->positionMove(setpoints.data());

    while (1) 
    { // repeat forever
        Bottle *target = targetPort.read(); // read a target
        
        if (target!=NULL) 
        { // check we actually got something
            printf("We got a vector containing");
            for (int i=0; i<target->size(); i++) 
            {
                printf(" %g", target->get(i).asDouble());
            }
            printf("\n");
            double x = target->get(0).asDouble();
            double y = target->get(1).asDouble();
            double conf = target->get(2).asDouble();
            x -= 320/2;
            y -= 240/2;
            double vx = x*0.1;
            double vy = -y*0.1;
            /* prepare command */
            for (int i=0; i<jnts; i++) 
            {
                setpoints[i] = 0;
            }
            if (conf>0.5) 
            {
                setpoints[0] = vy*5;
                setpoints[1] = 0.0;
                setpoints[2] = -vx*7;
                setpoints[3] = vy;
                setpoints[4] = vx;
                vel->velocityMove(setpoints.data());
            } 
            else 
            {
                setpoints[0] = 0.0;
                setpoints[1] = 0.0;
                setpoints[2] = 0.0;
                setpoints[3] = 0;
                setpoints[4] = 0;
                pos->positionMove(setpoints.data());
            }
            
        }
    }
    return 0;
}
コード例 #16
0
/*
 * Load from file the current list of positions
 */
void partMover::load_from_file(char* filenameIn, partMover* currentPart)
{
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  int *SEQUENCE_TMP = currentPart->SEQUENCE;
  double *TIMING_TMP = currentPart->TIMING;
  double **STORED_POS_TMP = currentPart->STORED_POS;
  double **STORED_VEL_TMP = currentPart->STORED_VEL;
  GtkWidget **sliderAry = currentPart->sliderArray;
  GtkWidget **sliderVelAry = currentPart->sliderVelArray;
  GtkWidget *tree_view = currentPart->treeview;

  int j, k, extensionLength, filenameLength;
  char buffer[800];
  char filenameExtension[800];

  Property p;
  bool fileExists = p.fromConfigFile(filenameIn);	
  strcpy(filenameExtension, ".pos");
  strcat(filenameExtension, currentPart->partLabel);
  extensionLength = strlen(filenameExtension);
  filenameLength = strlen(filenameIn);
  if ((filenameLength - extensionLength) > 0)
    fileExists &= (strcmp(filenameIn + 
			  (sizeof(char))*(filenameLength - extensionLength), 
			  filenameExtension) == 0 );
  else
    fileExists=false;
	
  if (fileExists)
    {
      int NUMBER_OF_JOINTS;
      ipos->getAxes(&NUMBER_OF_JOINTS);
		
      for (j = 0; j < NUMBER_OF_STORED; j++)
	{
	  sprintf(buffer, "POSITION%d", j);
	  Bottle& xtmp = p.findGroup(buffer).findGroup("jointPositions");
	  if (xtmp.size() == NUMBER_OF_JOINTS+1 && j < NUMBER_OF_STORED - 1)
	    {
	      for (k = 0; k < NUMBER_OF_JOINTS; k++)
		STORED_POS_TMP[j][k] = xtmp.get(k+1).asDouble();
				
	      xtmp = p.findGroup(buffer).findGroup("jointVelocities");
	      for (k = 0; k < NUMBER_OF_JOINTS; k++)
		STORED_VEL_TMP[j][k] = xtmp.get(k+1).asDouble();
				
				
	      xtmp = p.findGroup(buffer).findGroup("timing");
	      TIMING_TMP[j] = xtmp.get(1).asDouble();
	      SEQUENCE_TMP[j] = j;
	    }
	  else
	    {
	      for (k = 0; k < NUMBER_OF_JOINTS; k++)
		STORED_POS_TMP[j][k] = 0.0;
	      SEQUENCE_TMP[j] = -1;
	      if(j==0)
		{
		  dialog_message(GTK_MESSAGE_ERROR,
				 (char *) "Couldn't load a valid position file.", 
				 (char *) "Check the format of the supplied file.", true);
		  return;
		}
	      if(j == NUMBER_OF_STORED - 1 && xtmp.size() == NUMBER_OF_JOINTS+1)
		{
		  dialog_message(GTK_MESSAGE_ERROR,
			      (char *) "Truncating the current sequence which is too long. You need to recompile with a greater value of NUMBER_OF_STORED", 
			      (char *) "Unfortunately maximum sequence length is not set at runtime", true);
		}
	    }
	}
      if(GTK_IS_TREE_VIEW (tree_view))	
	{
	  gtk_tree_view_set_model (GTK_TREE_VIEW (tree_view), refresh_position_list_model(currentPart));
	  gtk_widget_draw(GTK_WIDGET(tree_view), NULL);
	}
    }
  else
    dialog_message(GTK_MESSAGE_ERROR,
				(char *) "Wrong format (check estensions) of the file associated with:", 
				currentPart->partLabel, true);
  return;
}
コード例 #17
0
/*
 * Enable all PID and refresh position sliders
 */
void partMover::calib_all(GtkButton *button, partMover* currentPart)
{
  //ask for confirmation
  if (!dialog_question("Do you really want to recalibrate the whole part?")) 
  {
     return;
  }

  IPositionControl *ipos = currentPart->pos;
  IControlCalibration2 *ical = currentPart->cal;
	 
  int joint;
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  ResourceFinder *fnd = currentPart->finder;
  //fprintf(stderr, "opening file \n");
  char buffer1[800];
  char buffer2[800];

  strcpy(buffer1, currentPart->partLabel);
  strcpy(buffer2, strcat(buffer1, "_calib"));

  if (!fnd->findGroup(buffer2).isNull())
    {
      bool ok = true;
      Bottle p1 = fnd->findGroup(buffer2).findGroup("Calibration1");
      ok = ok && (p1.size() == NUMBER_OF_JOINTS+1);
      Bottle p2 = fnd->findGroup(buffer2).findGroup("Calibration2");
      ok = ok && (p2.size() == NUMBER_OF_JOINTS+1);
      Bottle p3 = fnd->findGroup(buffer2).findGroup("Calibration3");
      ok = ok && (p3.size() == NUMBER_OF_JOINTS+1);
      Bottle ty = fnd->findGroup(buffer2).findGroup("CalibrationType");
      ok = ok && (ty.size() == NUMBER_OF_JOINTS+1);
      if (ok)
	{
	  for (joint=0; joint < NUMBER_OF_JOINTS; joint++)
	    {

	      double param1 = p1.get(joint+1).asDouble();
	      //fprintf(stderr, "%f ", param1);


	      double param2 = p2.get(joint+1).asDouble();
	      //fprintf(stderr, "%f ", param2);


	      double param3 = p3.get(joint+1).asDouble();
	      //fprintf(stderr, "%f ", param3);

	      unsigned char type = (unsigned char) ty.get(joint+1).asDouble();
	      //fprintf(stderr, "%d ", type);

	      ical->calibrate2(joint, type, param1, param2, param3);
	    }
	}
      else
	dialog_message(GTK_MESSAGE_ERROR,(char *) "Check number of entries in the file",  buffer1, true);
    }
  else
    {
      dialog_message(GTK_MESSAGE_ERROR,(char *) "No calib file found. Define a suitable file called:",  buffer1, true);   
    }
  return;

}
コード例 #18
0
ファイル: learnedReach.cpp プロジェクト: oosuagwu/uiuc-lar
int main(int argc, char *argv[]){

	Network yarp;
	Port armPlan;
	Port armPred;
	BufferedPort<Vector> objAngles;
	BufferedPort<Vector> armOut;
	armPlan.open("/learnedReach/plan");
	armPred.open("/learnedReach/pred");
	objAngles.open("/learnedReach/loc:i");
	armOut.open("/learnedReach/arm:o");
	bool fwCvOn = 0;
	fwCvOn = Network::connect("/learnedReach/plan","/fwdConv:i");
	fwCvOn *= Network::connect("/fwdConv:o","/learnedReach/pred");
	if (!fwCvOn){
		printf("Please run command:\n ./fwdConv --input /fwdConv:i --output /fwdConv:o\n");
		return -1;
	}

	Property params;
	params.fromCommand(argc,argv);

	if (!params.check("robot")){
		fprintf(stderr, "Please specify robot name\n");
		fprintf(stderr, "e.g. --robot icub\n");
		return -1;
	}
	std::string robotName = params.find("robot").asString().c_str();
	std::string remotePorts = "/";
	remotePorts += robotName;
	remotePorts += "/";
	if (params.check("arm")){
		remotePorts += params.find("arm").asString().c_str();
	}
	else{
		remotePorts += "left";
	}
	remotePorts += "_arm";
	std::string localPorts = "/learnedReach/cmd";
	if(!params.check("map")){
		fprintf(stderr, "Please specify learned visuomotor map file\n");
		fprintf(stderr, "e.g. --map map.dat\n");
		return -1;
	}
	string fName = params.find("map").asString().c_str();

	Property options;
	options.put("device", "remote_controlboard");
	options.put("local", localPorts.c_str());
	options.put("remote", remotePorts.c_str());

	PolyDriver robotDevice(options);
	if (!robotDevice.isValid()){
		printf("Device not available. Here are known devices: \n");
		printf("%s", Drivers::factory().toString().c_str());
		Network::fini();
		return 1;
	}

	IPositionControl *pos;
	IEncoders *enc;

	bool ok;
	ok = robotDevice.view(pos);
	ok = ok && robotDevice.view(enc);

	if (!ok){
		printf("Problems acquiring interfaces\n");
		return 0;
	}

	int nj = 0;
	pos->getAxes(&nj);
	Vector encoders;
	Vector command;
	Vector commandCart;
	Vector tmp;
	encoders.resize(nj);
	tmp.resize(nj);
	command.resize(nj);
	commandCart.resize(3);

	for (int i = 0; i < nj; i++) {
		tmp[i] = 25.0;
	}
	pos->setRefAccelerations(tmp.data());

	for (int i = 0; i < nj; i++) {
		tmp[i] = 20.0;
	    pos->setRefSpeed(i, tmp[i]);
	}

	command = 0;

	//set the arm joints to "middle" values
	command[0] = -45;
	command[1] = 45;
	command[2] = 0;
	command[3] = 45;
	pos->positionMove(command.data());

	bool done = false;
	while (!done){
		pos->checkMotionDone(&done);
		Time::delay(0.1);
	}

	//not really yaw and pitch
	int azMin = -80; int azMax = 0;
	int elMin = -60; int elMax = 0;
	int verMin = 0; int verMax = 20;

	int Y; int P; int V;
	int mmapSize; int usedJoints;

	//read in first lines to get map dimensions
	string line;
	string buf;
	ifstream mapFile(fName.c_str());
	if(mapFile.is_open()){
		getline(mapFile,line);
		stringstream ss(line);
		ss >> buf;
		Y = atoi(buf.c_str());
		ss >> buf;
		P = atoi(buf.c_str());
		ss >> buf;
		V = atoi(buf.c_str());
		ss.clear();
		getline(mapFile,line);
		ss.str(line);
		ss >> buf;
		mmapSize = atoi(buf.c_str());
		ss >> buf;
		usedJoints = atoi(buf.c_str());
	}
コード例 #19
0
ファイル: singleJointWindow.cpp プロジェクト: elen4/icub-main
bool partMover::entry_update(partMover *currentPart)
{
  GdkColor color_grey;
  GdkColor color_yellow;
  GdkColor color_green;
  GdkColor color_red;
  GdkColor color_pink;
  GdkColor color_indaco;
  GdkColor color_white;
  GdkColor color_blue;
  
  color_pink.red=219*255;
  color_pink.green=166*255;
  color_pink.blue=171*255;

  color_red.red=255*255;
  color_red.green=100*255;
  color_red.blue=100*255;

  color_grey.red=220*255;
  color_grey.green=220*255;
  color_grey.blue=220*255;

  color_white.red=250*255;
  color_white.green=250*255;
  color_white.blue=250*255;

  color_green.red=149*255;
  color_green.green=221*255;
  color_green.blue=186*255;

  color_blue.red=150*255;
  color_blue.green=190*255;
  color_blue.blue=255*255;

  color_indaco.red=220*255;
  color_indaco.green=190*255;
  color_indaco.blue=220*255;

  color_yellow.red=249*255;
  color_yellow.green=236*255;
  color_yellow.blue=141*255;
  
  GdkColor* pColor= &color_grey;

  static int slowSwitcher = 0;

  IControlMode     *ictrl = currentPart->ctrlmode;
  IPositionControl  *ipos = currentPart->pos;
  IVelocityControl  *ivel = currentPart->iVel;
  IEncoders       *iiencs = currentPart->iencs;
  ITorqueControl    *itrq = currentPart->trq;
  IAmplifierControl *iamp = currentPart->amp;

  GtkEntry * *pos_entry   = (GtkEntry **)  currentPart->currPosArray;
  GtkEntry  **trq_entry   = (GtkEntry **)  currentPart->currTrqArray;
  GtkEntry  **speed_entry = (GtkEntry **)  currentPart->currSpeedArray;
  GtkEntry    **inEntry   = (GtkEntry **)  currentPart->inPosArray;
  GtkWidget **colorback   = (GtkWidget **) currentPart->frameColorBack;

  GtkWidget **sliderAry = currentPart->sliderArray;
  bool *POS_UPDATE = currentPart->CURRENT_POS_UPDATE;

  char buffer[40] = {'i', 'n', 'i', 't'};
  char frame_title [255];

  double positions[MAX_NUMBER_OF_JOINTS];
  double torques[MAX_NUMBER_OF_JOINTS];
  double speeds[MAX_NUMBER_OF_JOINTS];
  double max_torques[MAX_NUMBER_OF_JOINTS];
  double min_torques[MAX_NUMBER_OF_JOINTS];
  static int controlModes[MAX_NUMBER_OF_JOINTS];
  static int controlModesOld[MAX_NUMBER_OF_JOINTS];

  int k;
  int NUMBER_OF_JOINTS=0;
  bool done = false;
  bool ret = false;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  if (NUMBER_OF_JOINTS == 0)
  {
      fprintf(stderr,"Lost connection with iCubInterface. You should save and restart.\n" );
      Time::delay(0.1);
      pColor=&color_grey;
      strcpy(frame_title,"DISCONNECTED");
      for (k = 0; k < MAX_NUMBER_OF_JOINTS; k++)
      {   
          if (currentPart->framesArray[k]!=0)
          {
              gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
              gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
          }
      }
      return true;
  }

  for (k = 0; k < NUMBER_OF_JOINTS; k++) 
  {
	  max_torques[k]=0;
	  min_torques[k]=0;
	  torques[k]=0;
  }

  if (!iiencs->getEncoders(positions)) 
	  return true;
  itrq->getTorques(torques);
  iiencs->getEncoderSpeeds(speeds);
  
  //update all joints positions
  for (k = 0; k < NUMBER_OF_JOINTS; k++)
    {
      sprintf(buffer, "%.1f", positions[k]);  
      gtk_entry_set_text((GtkEntry*) pos_entry[k],  buffer);
      sprintf(buffer, "%.3f", torques[k]);  
	  gtk_entry_set_text((GtkEntry*) trq_entry[k],  buffer);
      sprintf(buffer, "%.1f", speeds[k]);  
	  gtk_entry_set_text((GtkEntry*) speed_entry[k],  buffer);
    }
  //update all joint sliders
  for (k = 0; k < NUMBER_OF_JOINTS; k++) 
    if(POS_UPDATE[k])
      gtk_range_set_value((GtkRange*)sliderAry[k],  positions[k]);

  // *** update the checkMotionDone box section ***
  // (only one at a time in order to save badwidth)
  k = slowSwitcher%NUMBER_OF_JOINTS;
  slowSwitcher++;
#if DEBUG_GUI
  gtk_entry_set_text((GtkEntry*) inEntry[k],  "off");
#else
  ipos->checkMotionDone(k, &done);
  if (!done)
      gtk_entry_set_text((GtkEntry*) inEntry[k],  " "); 
  else
      gtk_entry_set_text((GtkEntry*) inEntry[k],  "@");
#endif

  // *** update the controlMode section ***
  // the new icubinterface does not increase the bandwidth consumption
  // ret = true; useless guys!
  ret=ictrl->getControlModes(controlModes);

  if (ret==false) fprintf(stderr,"ictrl->getControlMode failed\n" );
  for (k = 0; k < NUMBER_OF_JOINTS; k++)
  {
	  if (currentPart->first_time==false && controlModes[k] == controlModesOld[k]) continue;
	  controlModesOld[k]=controlModes[k];
	  sprintf(frame_title,"Joint %d ",k );

	  switch (controlModes[k])
	  {
		  case VOCAB_CM_IDLE:
			  pColor=&color_yellow;
  			  strcat(frame_title," (IDLE)");
  			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
		  break;
		  case VOCAB_CM_POSITION:
			  pColor=&color_green;
			  strcat(frame_title," (POSITION)");
			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider1[k]),"Position:");
			  gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider2[k]),"Velocity:");
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
		  break;
		  case VOCAB_CM_VELOCITY:
			  pColor=&color_blue;
			  strcat(frame_title," (VELOCITY)");
			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
		  break;
		  case VOCAB_CM_TORQUE:
			  pColor=&color_pink;
			  strcat(frame_title," (TORQUE)");
  			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider1[k]),"Torque:");
			  gtk_frame_set_label   (GTK_FRAME(currentPart->frame_slider2[k]),"Torque2:");
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
			  break;
		  case VOCAB_CM_IMPEDANCE_POS:
			  pColor=&color_indaco;
			  strcat(frame_title," (IMPEDANCE POS)");
  			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
		  break;
  		  case VOCAB_CM_IMPEDANCE_VEL:
			  pColor=&color_indaco;
			  strcat(frame_title," (IMPEDANCE VEL)");
  			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
		  break;
		  case VOCAB_CM_OPENLOOP:
			  pColor=&color_white;
			  strcat(frame_title," (OPENLOOP)");
  			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
		  break;
		  default:
		  case VOCAB_CM_UNKNOWN:
			  pColor=&color_grey;
			  //strcat(frame_title," (UNKNOWN)");
			  gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
			  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
		  break;
	  }

	  //  pColor=&color_blue;
	  //  gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
	  
	  int curr_amp_status=0;
	  int amp_status[60];                             //fix this!!!
	  for (int i=0; i<60; i++) amp_status[i]=0;       //fix this!!!
	  iamp->getAmpStatus(amp_status);                 //fix this!!!
	  curr_amp_status=amp_status[k];                  //fix this!!!

#if 0
	  if ((amp_status[k] & 0xFF)!=0)
	  {
	     //fprintf(stderr, "FAULT DETECTED: %x\n", curr_amp_status);
		 //pColor=&color_red;
		 //strcat(frame_title," (FAULT)");
		 //gtk_frame_set_label   (GTK_FRAME(currentPart->framesArray[k]),frame_title);
		 //gtk_widget_modify_bg (colorback[k], GTK_STATE_NORMAL, pColor);
	  }
#endif
  }

  currentPart->first_time =false;
  return true;
	
}
コード例 #20
0
void partMover::sequence_cycle_time(GtkButton *button,partMover* currentPart)
{
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  int *SEQUENCE_TMP = currentPart->SEQUENCE;
  double *TIMING_TMP = currentPart->TIMING;
  double **STORED_POS_TMP = currentPart->STORED_POS;
  double **STORED_VEL_TMP = currentPart->STORED_VEL;
  int *INV_SEQUENCE_TMP = currentPart->INV_SEQUENCE;
  GtkWidget **sliderAry = currentPart->sliderArray;
  GtkWidget **sliderVelAry = currentPart->sliderVelArray;
  GtkWidget *tree_view = currentPart->treeview;
  guint32* timeout_seqeunce_rate_tmp = currentPart->timeout_seqeunce_rate;
  guint* timeout_seqeunce_id_tmp = currentPart->timeout_seqeunce_id;
  int *SEQUENCE_ITERATOR_TMP = currentPart->SEQUENCE_ITERATOR;
	
  int j, k;
  *timeout_seqeunce_rate_tmp = (unsigned int) (TIMING_TMP[0]*1000);
	
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  //fprintf(stderr, "Getting the number of joitns %d\n", NUMBER_OF_JOINTS);

  for (j = 0; j < NUMBER_OF_STORED; j++)
    INV_SEQUENCE_TMP[j] = -1;

  for (j = 0; j < NUMBER_OF_STORED; j++)
    {
      if (SEQUENCE_TMP[j]>-1 && (SEQUENCE_TMP[j]<NUMBER_OF_STORED))
	{
	  INV_SEQUENCE_TMP[SEQUENCE_TMP[j]] = j;
	}
    }

  //if possible execute the first movement
  //SEQUENCE_ITERATOR = 0;
  if (INV_SEQUENCE_TMP[0]!=-1 && TIMING_TMP[0] >0 )
    {
      *timeout_seqeunce_id_tmp = gtk_timeout_add(*timeout_seqeunce_rate_tmp, (GtkFunction)sequence_iterator_time, currentPart);
      fixed_time_move(STORED_POS_TMP[INV_SEQUENCE_TMP[0]],
			    TIMING_TMP[0],
			    currentPart);
      
      //point the SEQUENCE ITERATOR to the next movement
      *SEQUENCE_ITERATOR_TMP = 1;

      //deactivate all buttons
      for (k =0; k < NUMBER_OF_JOINTS; k++)
	{
	  gtk_widget_set_sensitive(sliderVelAry[k], false);
	  gtk_widget_set_sensitive(sliderAry[k], false);
	}

      //fprintf(stderr, "Disabling bottons\n");
      if (currentPart->button1 != NULL)
	gtk_widget_set_sensitive(currentPart->button1, false);
      if (currentPart->button2 != NULL)
	gtk_widget_set_sensitive(currentPart->button2, false);
      if (currentPart->button3 != NULL)
	gtk_widget_set_sensitive(currentPart->button3, false);
      if (currentPart->button4 != NULL)
	gtk_widget_set_sensitive(currentPart->button4, false);
      if (currentPart->button5 != NULL)
	gtk_widget_set_sensitive(currentPart->button5, false);
      if (currentPart->button7 != NULL)
	gtk_widget_set_sensitive(currentPart->button7, false);
      if (currentPart->button8 != NULL)
	gtk_widget_set_sensitive(currentPart->button8, false);

    }
  //fprintf(stderr, "Iterator was initialized \n");
  return;
}
コード例 #21
0
int main(int argc, char *argv[]) 
{
    // just list the devices if no argument given
    if (argc <= 2) {
        printf("You can call %s like this:\n", argv[0]);
        printf("   %s --robot ROBOTNAME --OPTION VALUE ...\n", argv[0]);
        printf("For example:\n");
        printf("   %s --robot icub --part any --remote /controlboard\n", argv[0]);
        printf("Here are devices listed for your system:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }

    // get command line options
    Property options;
    options.fromCommand(argc, argv);
    if (!options.check("robot") || !options.check("part")) {
        printf("Missing either --robot or --part options\n");
        return 0;
    }

    Network yarp;
	Time::turboBoost();
    
    char name[1024];
    Value& v = options.find("robot");
    Value& part = options.find("part");

    Value *val;
    if (!options.check("device", val)) {
        options.put("device", "remote_controlboard");
    }
    if (!options.check("local", val)) {
        sprintf(name, "/%s/%s/client", v.asString().c_str(), part.asString().c_str());
        options.put("local", name);
    }
    if (!options.check("remote", val)) {
        sprintf(name, "/%s/%s", v.asString().c_str(), part.asString().c_str());
        options.put("remote", name);
    }

	fprintf(stderr, "%s", options.toString().c_str());

    
    // create a device 
    PolyDriver dd(options);
    if (!dd.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 1;
    }

    IPositionControl *pos;
    IVelocityControl *vel;
    IEncoders *enc;
    IPidControl *pid;
    IAmplifierControl *amp;
    IControlLimits *lim;

    bool ok;
    ok = dd.view(pos);
    ok &= dd.view(vel);
    ok &= dd.view(enc);
    ok &= dd.view(pid);
    ok &= dd.view(amp);
    ok &= dd.view(lim);

    if (!ok) {
        printf("Problems acquiring interfaces\n");
        return 1;
    }

    int jnts = 0;
    pos->getAxes(&jnts);
    printf("Working with %d axes\n", jnts);
    double *tmp = new double[jnts];
    assert (tmp != NULL);

    printf("Device active...\n");
    while (dd.isValid()) {
        char s[1024];
        
        printf("-> ");
        char c = 0;
        int i = 0;
        while (c != '\n') {
            c = (char)fgetc(stdin);
            s[i++] = c;
        }
        s[i-1] = s[i] = 0;

        Bottle p;
        p.fromString(s);
        printf("Bottle: %s\n", p.toString().c_str());

        switch(p.get(0).asVocab()) {        
        case VOCAB_HELP:
            printf("\n\n");
            printf("Available commands:\n\n");

            printf("type [get] and one of the following:\n");
            printf("[%s] to read the number of controlled axes\n", Vocab::decode(VOCAB_AXES).c_str());
            printf("[%s] to read the encoder value for all axes\n", Vocab::decode(VOCAB_ENCODERS).c_str());
            printf("[%s] <int> to read the PID values for a single axis\n", Vocab::decode(VOCAB_PID).c_str());
            printf("[%s] <int> to read the limit values for a single axis\n", Vocab::decode(VOCAB_LIMITS).c_str());
            printf("[%s] to read the PID error for all axes\n", Vocab::decode(VOCAB_ERRS).c_str());
            printf("[%s] to read the PID output for all axes\n", Vocab::decode(VOCAB_OUTPUTS).c_str());
            printf("[%s] to read the reference position for all axes\n", Vocab::decode(VOCAB_REFERENCES).c_str());
            printf("[%s] to read the reference speed for all axes\n", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
            printf("[%s] to read the reference acceleration for all axes\n", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());
            printf("[%s] to read the current consumption for all axes\n", Vocab::decode(VOCAB_AMP_CURRENTS).c_str());

            printf("\n");

            printf("type [set] and one of the following:\n");
            printf("[%s] <int> <double> to move a single axis\n", Vocab::decode(VOCAB_POSITION_MOVE).c_str());
            printf("[%s] <int> <double> to accelerate a single axis to a given speed\n", Vocab::decode(VOCAB_VELOCITY_MOVE).c_str());            
            printf("[%s] <int> <double> to set the reference speed for a single axis\n", Vocab::decode(VOCAB_REF_SPEED).c_str());
            printf("[%s] <int> <double> to set the reference acceleration for a single axis\n", Vocab::decode(VOCAB_REF_ACCELERATION).c_str());
            printf("[%s] <list> to move multiple axes\n", Vocab::decode(VOCAB_POSITION_MOVES).c_str());
            printf("[%s] <list> to accelerate multiple axes to a given speed\n", Vocab::decode(VOCAB_VELOCITY_MOVES).c_str());
            printf("[%s] <list> to set the reference speed for all axes\n", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
            printf("[%s] <list> to set the reference acceleration for all axes\n", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());          
            printf("[%s] <int> to stop a single axis\n", Vocab::decode(VOCAB_STOP).c_str());
            printf("[%s] <int> to stop all axes\n", Vocab::decode(VOCAB_STOPS).c_str());
            printf("[%s] <int> <list> to set the PID values for a single axis\n", Vocab::decode(VOCAB_PID).c_str());
            printf("[%s] <int> <list> to set the limits for a single axis\n", Vocab::decode(VOCAB_LIMITS).c_str());
            printf("[%s] <int> to disable the PID control for a single axis\n", Vocab::decode(VOCAB_DISABLE).c_str());
            printf("[%s] <int> to enable the PID control for a single axis\n", Vocab::decode(VOCAB_ENABLE).c_str());
            printf("[%s] <int> <double> to set the encoder value for a single axis\n", Vocab::decode(VOCAB_ENCODER).c_str());
            printf("[%s] <list> to set the encoder value for all axes\n", Vocab::decode(VOCAB_ENCODERS).c_str());
            printf("\n");
            break;

        case VOCAB_QUIT:
            goto ApplicationCleanQuit;
            break;

        case VOCAB_GET:
            switch(p.get(1).asVocab()) {
                case VOCAB_AXES: {
                    int nj = 0;
                    enc->getAxes(&nj);
                    printf ("%s: %d\n", Vocab::decode(VOCAB_AXES).c_str(), nj);
                }
                break;

                case VOCAB_ENCODERS: {
                    enc->getEncoders(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_ENCODERS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;

                case VOCAB_PID: {
                    Pid pd;
                    int j = p.get(2).asInt();
                    pid->getPid(j, &pd);
                    printf("%s: ", Vocab::decode(VOCAB_PID).c_str());
                    printf("kp %.2f ", pd.kp);
                    printf("kd %.2f ", pd.kd);
                    printf("ki %.2f ", pd.ki);
                    printf("maxi %.2f ", pd.max_int);
                    printf("maxo %.2f ", pd.max_output);
                    printf("off %.2f ", pd.offset);
                    printf("scale %.2f ", pd.scale);
                    printf("\n");
                }
                break;

                case VOCAB_LIMITS: {
                    double min, max;
                    int j = p.get(2).asInt();
                    lim->getLimits(j, &min, &max);
                    printf("%s: ", Vocab::decode(VOCAB_LIMITS).c_str());
                    printf("limits: (%.2f %.2f)\n", min, max);
                }
                break;

                case VOCAB_ERRS: {
                    pid->getErrorLimits(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_ERRS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;

                case VOCAB_OUTPUTS: {
                    pid->getErrors(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_OUTPUTS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;

                case VOCAB_REFERENCES: {
                    pid->getReferences(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_REFERENCES).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");                    
                }
                break;

                case VOCAB_REF_SPEEDS: {
                    pos->getRefSpeeds(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");                    
                }
                break;

                case VOCAB_REF_ACCELERATIONS: {
                    pos->getRefAccelerations(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");                    
                }
                break;

                case VOCAB_AMP_CURRENTS: {
                    amp->getCurrents(tmp);
                    printf ("%s: (", Vocab::decode(VOCAB_AMP_CURRENTS).c_str());
                    for(i = 0; i < jnts; i++)
                        printf ("%.2f ", tmp[i]);
                    printf (")\n");
                }
                break;
            }
            break;

        case VOCAB_SET:
            switch(p.get(1).asVocab()) {
                case VOCAB_POSITION_MOVE: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: moving %d to %.2f\n", Vocab::decode(VOCAB_POSITION_MOVE).c_str(), j, ref);
                    pos->positionMove(j, ref);
                }
                break;

                case VOCAB_VELOCITY_MOVE: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: accelerating %d to %.2f\n", Vocab::decode(VOCAB_VELOCITY_MOVE).c_str(), j, ref);
                    vel->velocityMove(j, ref);
                }
                break;

                case VOCAB_REF_SPEED: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: setting speed for %d to %.2f\n", Vocab::decode(VOCAB_REF_SPEED).c_str(), j, ref);
                    pos->setRefSpeed(j, ref);
                }
                break;

                case VOCAB_REF_ACCELERATION: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: setting acceleration for %d to %.2f\n", Vocab::decode(VOCAB_REF_ACCELERATION).c_str(), j, ref);
                    pos->setRefAcceleration(j, ref);
                }
                break;

                case VOCAB_POSITION_MOVES: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: moving all joints\n", Vocab::decode(VOCAB_POSITION_MOVES).c_str());
                    pos->positionMove(tmp);
                }
                break;

                case VOCAB_VELOCITY_MOVES: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: moving all joints\n", Vocab::decode(VOCAB_VELOCITY_MOVES).c_str());
                    vel->velocityMove(tmp);
                }
                break;

                case VOCAB_REF_SPEEDS: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: setting speed for all joints\n", Vocab::decode(VOCAB_REF_SPEEDS).c_str());
                    pos->setRefSpeeds(tmp);
                }
                break;

                case VOCAB_REF_ACCELERATIONS: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: setting acceleration for all joints\n", Vocab::decode(VOCAB_REF_ACCELERATIONS).c_str());
                    pos->setRefAccelerations(tmp);
                }
                break;

                case VOCAB_STOP: {
                    int j = p.get(2).asInt();
                    printf("%s: stopping axis %d\n", Vocab::decode(VOCAB_STOP).c_str());
                    pos->stop(j);
                }
                break;

                case VOCAB_STOPS: {
                    printf("%s: stopping all axes %d\n", Vocab::decode(VOCAB_STOPS).c_str());
                    pos->stop();
                }
                break;

                case VOCAB_ENCODER: {
                    int j = p.get(2).asInt();
                    double ref = p.get(3).asDouble();
                    printf("%s: setting the encoder value for %d to %.2f\n", Vocab::decode(VOCAB_ENCODER).c_str(), j, ref);
                    enc->setEncoder(j, ref);                    
                }
                break; 

                case VOCAB_ENCODERS: {
                    Bottle *l = p.get(2).asList();
                    for (i = 0; i < jnts; i++) {
                        tmp[i] = l->get(i).asDouble();
                    }
                    printf("%s: setting the encoder value for all joints\n", Vocab::decode(VOCAB_ENCODERS).c_str());
                    enc->setEncoders(tmp);
                }
                break;

                case VOCAB_PID: {
                    Pid pd;
                    int j = p.get(2).asInt();
                    Bottle *l = p.get(3).asList();
                    pd.kp = l->get(0).asDouble();
                    pd.kd = l->get(1).asDouble();
                    pd.ki = l->get(2).asDouble();
                    pd.max_int = l->get(3).asDouble();
                    pd.max_output = l->get(4).asDouble();
                    pd.offset = l->get(5).asDouble();
                    pd.scale = l->get(6).asDouble();
                    printf("%s: setting PID values for axis %d\n", Vocab::decode(VOCAB_PID).c_str(), j);
                    pid->setPid(j, pd);
                }
                break;

                case VOCAB_DISABLE: {
                    int j = p.get(2).asInt();
                    printf("%s: disabling control for axis %d\n", Vocab::decode(VOCAB_DISABLE).c_str(), j);
                    pid->disablePid(j);
                    amp->disableAmp(j);
                }
                break;

                case VOCAB_ENABLE: {
                    int j = p.get(2).asInt();
                    printf("%s: enabling control for axis %d\n", Vocab::decode(VOCAB_ENABLE).c_str(), j);
                    amp->enableAmp(j);
                    pid->enablePid(j);
                }
                break;

                case VOCAB_LIMITS: {
                    int j = p.get(2).asInt();
                    printf("%s: setting limits for axis %d\n", Vocab::decode(VOCAB_LIMITS).c_str(), j);
                    Bottle *l = p.get(3).asList();
                    lim->setLimits(j, l->get(0).asDouble(), l->get(1).asDouble());
                }
                break;
            }
            break;
        } /* switch get(0) */

    } /* while () */

ApplicationCleanQuit:
    dd.close();
    delete[] tmp;

    return 0;
}
コード例 #22
0
int main(int argc, char const *argv[]) {

    Network yarp;
    Node node("/icub_sim/state_publisher");

    Property params;
    params.fromCommand(argc, argv);

    if (!params.check("robot"))
    {
        fprintf(stderr, "Please specify the name of the robot\n");
        fprintf(stderr, "--robot name (e.g. icub)\n");
        return 1;
    }
    std::string robotName=params.find("robot").asString().c_str();
    std::string remotePorts="/";
    remotePorts+=robotName;
    std::string remoteRArmPorts = remotePorts + "/right_arm";
    std::string remoteHeadPorts = remotePorts + "/head";
    std::string remoteTorsoPorts = remotePorts + "/torso";
    std::string remoteLArmPorts = remotePorts + "/left_arm";

    Property options_head;
    options_head.put("device", "remote_controlboard");
    options_head.put("local", "/head/client");   //local port names
    options_head.put("remote", remoteHeadPorts.c_str());
    // create a device
    PolyDriver headDevice(options_head);
    if (!headDevice.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }

    Property options_torso;
    options_torso.put("device", "remote_controlboard");
    options_torso.put("local", "/torso/client");   //local port names
    options_torso.put("remote", remoteTorsoPorts.c_str());
    // create a device
    PolyDriver torsoDevice(options_torso);
    if (!torsoDevice.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }

    Property options_right_arm;
    options_right_arm.put("device", "remote_controlboard");
    options_right_arm.put("local", "/right_arm/client");   //local port names
    options_right_arm.put("remote", remoteRArmPorts.c_str());
    // create a device
    PolyDriver rArmDevice(options_right_arm);
    if (!rArmDevice.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }


    Property options_left_arm;
    options_left_arm.put("device", "remote_controlboard");
    options_left_arm.put("local", "/left_arm/client");   //local port names
    options_left_arm.put("remote", remoteLArmPorts.c_str());
    // create a device
    PolyDriver lArmDevice(options_left_arm);
    if (!lArmDevice.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }

    IPositionControl *posHead;
    IPositionControl *posTorso;
    IPositionControl *posRArm;
    IPositionControl *posLArm;
    IEncoders *encsHead;
    IEncoders *encsTorso;
    IEncoders *encsRArm;
    IEncoders *encsLArm;

    torsoDevice.view(posTorso);
    torsoDevice.view(encsTorso);
    rArmDevice.view(posRArm);
    rArmDevice.view(encsRArm);
    lArmDevice.view(posLArm);
    lArmDevice.view(encsLArm);
    headDevice.view(posHead);
    headDevice.view(encsHead);


    int nj = 0;

    posHead->getAxes(&nj);
    Vector encodersHead;
    encodersHead.resize(nj);

    nj = 0;
    posTorso->getAxes(&nj);
    Vector encodersTorso;
    encodersTorso.resize(nj);

    nj = 0;
    posRArm->getAxes(&nj);
    Vector encodersRArm;
    encodersRArm.resize(nj);

    nj = 0;
    posLArm->getAxes(&nj);
    Vector encodersLArm;
    encodersLArm.resize(nj);



    yarp::os::Publisher<sensor_msgs_JointState> joint_pub;
    if (!joint_pub.topic("/joint_states")) {
        std::cerr<< "Failed to create publisher to /chatter\n";
        return -1;
    }

    float degtorad = 0.0174532925;

    sensor_msgs_JointState joint_states;
    struct timespec currentTime;

    joint_states.name.resize(70);
    joint_states.position.resize(70);
    joint_states.velocity.resize(70);

    joint_states.name[0] ="j1";
    joint_states.position[0] = 0.0;
    joint_states.name[1] ="j2";
    joint_states.position[1] = 0.0;
    joint_states.name[2] ="j3";
    joint_states.position[2] = 0.0;
    joint_states.name[3] ="j4";
    joint_states.position[3] = 0.0;
    joint_states.name[4] ="j5";
    joint_states.position[4] = 0.0;
    joint_states.name[5] ="j6";
    joint_states.position[5] = 0.0;
    joint_states.name[6] ="j7";
    joint_states.position[6] = 0.0;
    joint_states.name[7] ="j8";
    joint_states.position[7] = 0.0;
    joint_states.name[8] ="j7s";
    joint_states.position[8] = 0.0;
    joint_states.name[9] ="j8s";
    joint_states.position[9] = 0.0;
    joint_states.name[10] ="raj1";
    joint_states.position[10] = 0.0;
    joint_states.name[11] ="raj2";
    joint_states.position[11] = 0.0;
    joint_states.name[12] ="raj3";
    joint_states.position[12] = 0.0;
    joint_states.name[13] ="raj4";
    joint_states.position[13] = 0.0;
    joint_states.name[14] ="raj5";
    joint_states.position[14] = 0.0;
    joint_states.name[15] ="raj6";
    joint_states.position[15] = 0.0;
    joint_states.name[16] ="laj1";
    joint_states.position[16] = 0.0;
    joint_states.name[17] ="laj2";
    joint_states.position[17] = 0.0;
    joint_states.name[18] ="laj3";
    joint_states.position[18] = 0.0;
    joint_states.name[19] ="laj4";
    joint_states.position[19] = 0.0;
    joint_states.name[20] ="laj5";
    joint_states.position[20] = 0.0;
    joint_states.name[21] ="laj6";
    joint_states.position[21] = 0.0;
    joint_states.name[22] ="rlaj1";
    joint_states.position[22] = 0.0;
    joint_states.name[23] ="rlaj2";
    joint_states.position[23] = 0.0;
    joint_states.name[24] ="rlaj3";
    joint_states.position[24] = 0.0;
    joint_states.name[25] ="rlaj4";
    joint_states.position[25] = 0.0;
    joint_states.name[26] ="rlaj5";
    joint_states.position[26] = 0.0;
    joint_states.name[27] ="rlaj6";
    joint_states.position[27] = 0.0;
    joint_states.name[28] ="llaj1";
    joint_states.position[28] = 0.0;
    joint_states.name[29] ="llaj2";
    joint_states.position[29] = 0.0;
    joint_states.name[30] ="llaj3";
    joint_states.position[30] = 0.0;
    joint_states.name[31] ="llaj4";
    joint_states.position[31] = 0.0;
    joint_states.name[32] ="llaj5";
    joint_states.position[32] = 0.0;
    joint_states.name[33] ="llaj6";
    joint_states.position[33] = 0.0;
    joint_states.name[34] ="right_wrist_yaw";
    joint_states.position[34] = 0.0;
    joint_states.name[35] ="tj2";
    joint_states.position[35] = 0.0;
    joint_states.name[36] ="tj4";
    joint_states.position[36] = 0.0;
    joint_states.name[37] ="tj5";
    joint_states.position[37] = 0.0;
    joint_states.name[38] ="tj6";
    joint_states.position[38] = 0.0;
    joint_states.name[39] ="ij3";
    joint_states.position[39] = 0.0;
    joint_states.name[40] ="ij4";
    joint_states.position[40] = 0.0;
    joint_states.name[41] ="ij5";
    joint_states.position[41] = 0.0;
    joint_states.name[42] ="mj3";
    joint_states.position[42] = 0.0;
    joint_states.name[43] ="mj4";
    joint_states.position[43] = 0.0;
    joint_states.name[44] ="mj5";
    joint_states.position[44] = 0.0;
    joint_states.name[45] ="rij3";
    joint_states.position[45] = 0.0;
    joint_states.name[46] ="rij4";
    joint_states.position[46] = 0.0;
    joint_states.name[47] ="rij5";
    joint_states.position[47] = 0.0;
    joint_states.name[48] ="raj4";
    joint_states.position[48] = 0.0;
    joint_states.name[49] ="raj5";
    joint_states.position[49] = 0.0;
    joint_states.name[50] ="lij3";
    joint_states.position[50] = 0.0;
    joint_states.name[51] ="lij4";
    joint_states.position[51] = 0.0;
    joint_states.name[52] ="lij5";
    joint_states.position[52] = 0.0;
    joint_states.name[53] ="left_wrist_yaw";
    joint_states.position[53] = 0.0;
    joint_states.name[54] ="ltj2";
    joint_states.position[54] = 0.0;
    joint_states.name[55] ="ltj4";
    joint_states.position[55] = 0.0;
    joint_states.name[56] ="ltj5";
    joint_states.position[56] = 0.0;
    joint_states.name[57] ="ltj6";
    joint_states.position[57] = 0.0;
    joint_states.name[58] ="laij3";
    joint_states.position[58] = 0.0;
    joint_states.name[59] ="laij4";
    joint_states.position[59] = 0.0;
    joint_states.name[60] ="laij5";
    joint_states.position[60] = 0.0;
    joint_states.name[61] ="lmj3";
    joint_states.position[61] = 0.0;
    joint_states.name[62] ="lmj4";
    joint_states.position[62] = 0.0;
    joint_states.name[63] ="lmj5";
    joint_states.position[63] = 0.0;
    joint_states.name[64] ="lrij3";
    joint_states.position[64] = 0.0;
    joint_states.name[65] ="lrij4";
    joint_states.position[65] = 0.0;
    joint_states.name[66] ="lrij5";
    joint_states.position[66] = 0.0;
    joint_states.name[67] ="llij3";
    joint_states.position[67] = 0.0;
    joint_states.name[68] ="llij4";
    joint_states.position[68] = 0.0;
    joint_states.name[69] ="llij5";
    joint_states.position[69] = 0.0;

    joint_pub.write(joint_states);

    while (1) {

      encsTorso->getEncoders(encodersTorso.data());
      encsRArm->getEncoders(encodersRArm.data());
      encsLArm->getEncoders(encodersLArm.data());
      encsHead->getEncoders(encodersHead.data());


      clock_gettime(CLOCK_REALTIME, &currentTime);

      joint_states.header.stamp.sec = currentTime.tv_sec;
      joint_states.header.stamp.nsec = currentTime.tv_nsec;


      // update torso positions
      joint_states.position[0] = encodersTorso[2] * degtorad;
      joint_states.position[1] = encodersTorso[1] * degtorad;
      joint_states.position[2] = encodersTorso[0] * degtorad;

      // update head positions
      joint_states.position[3] = encodersHead[0] * degtorad;
      joint_states.position[4] = encodersHead[1] * degtorad;
      joint_states.position[5] = encodersHead[2] * degtorad;

      // update right arm positions
      joint_states.position[10] = encodersRArm[0] * degtorad;
      joint_states.position[11] = encodersRArm[1] * degtorad;
      joint_states.position[12] = encodersRArm[2] * degtorad;
      joint_states.position[13] = encodersRArm[3] * degtorad;
      joint_states.position[14] = encodersRArm[4] * degtorad;
      joint_states.position[15] = encodersRArm[5] * degtorad;

      // update left arm positions
      joint_states.position[16] = encodersLArm[0] * degtorad;
      joint_states.position[17] = encodersLArm[1] * degtorad;
      joint_states.position[18] = encodersLArm[2] * degtorad;
      joint_states.position[19] = encodersLArm[3] * degtorad;
      joint_states.position[20] = encodersLArm[4] * degtorad;
      joint_states.position[21] = encodersLArm[5] * degtorad;

      joint_pub.write(joint_states);

      Time::delay(0.01);
    }


  return 0;
}
コード例 #23
0
void partMover::calib_click(GtkButton *button, gtkClassData* currentClassData)
{
  //ask for confirmation
  if (!dialog_question("Do you really want to recalibrate the joint?")) 
  {
     return;
  }

  partMover *currentPart = currentClassData->partPointer;
  int * joint = currentClassData->indexPointer;
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  IControlCalibration2 *ical = currentPart->cal;
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  ResourceFinder *fnd = currentPart->finder;
  //fprintf(stderr, "opening file \n");
  char buffer1[800];
  char buffer2[800];

  strcpy(buffer1, currentPart->partLabel);
  strcpy(buffer2, strcat(buffer1, "_calib"));

  if (!fnd->findGroup(buffer2).isNull())
    {
      bool ok = true;
      Bottle xtmp;

      xtmp.clear();
      xtmp = fnd->findGroup(buffer2).findGroup("CalibrationType");
      ok = ok && (xtmp.size() == NUMBER_OF_JOINTS+1);
      unsigned char type = (unsigned char) xtmp.get(*joint+1).asDouble();
      fprintf(stderr, "%d ", type);

      xtmp.clear();
      xtmp = fnd->findGroup(buffer2).findGroup("Calibration1");
      ok = ok && (xtmp.size() == NUMBER_OF_JOINTS+1);
      double param1 = xtmp.get(*joint+1).asDouble();
      fprintf(stderr, "%f ", param1);

      xtmp.clear();
      xtmp = fnd->findGroup(buffer2).findGroup("Calibration2");
      ok = ok && (xtmp.size() == NUMBER_OF_JOINTS+1);
      double param2 = xtmp.get(*joint+1).asDouble();
      fprintf(stderr, "%f ", param2);

      xtmp.clear();
      xtmp = fnd->findGroup(buffer2).findGroup("Calibration3");
      ok = ok && (xtmp.size() == NUMBER_OF_JOINTS+1);
      double param3 = xtmp.get(*joint+1).asDouble();
      fprintf(stderr, "%f \n", param3);


      if(!ok)
    dialog_message(GTK_MESSAGE_ERROR,(char *)"Check number of calib entries in the group",  buffer2, true);
      else
    ical->calibrate2(*joint, type, param1, param2, param3);
    }
  else
    dialog_message(GTK_MESSAGE_ERROR,(char *)"The supplied file does not conatain a group named:",  buffer2, true);

  return;
}
コード例 #24
0
ファイル: main.cpp プロジェクト: naveenoid/iCubSimpleTask
int main(int argc, char *argv[])
{
    Network yarp;

    int maxSpeed;
    Property params;
    params.fromCommand(argc, argv);

    if (!params.check("robot"))
    {
        fprintf(stderr, "Please specify the name of the robot\n");
        fprintf(stderr, "--robot name (e.g. icub)\n");
        return -1;
    }

    if (!params.check("repetitions"))
    {
        fprintf(stderr, "Please specify number of repetitions\n");
        fprintf(stderr, "--repetitions num (e.g. 10)\n");
        return -1;
    }

    if (!params.check("speed"))
    {
        fprintf(stderr, "Speed not specified using default\n");
        fprintf(stderr, "--speed num (e.g. 2)\n");
        maxSpeed = 10.0;
    }
    else
    {
        maxSpeed = params.find("speed").asInt();
    }

    // sanity check on argument value
    if(maxSpeed <0 || maxSpeed>50)
    {
        maxSpeed = 10;
    }

    std::string robotName=params.find("robot").asString().c_str();
    std::string remotePorts="/";
    remotePorts+=robotName;
    remotePorts+="/head";

    int numTimes = params.find("repetitions").asInt();
    std::string localPorts="/headMovement_koroibot/client";

    Property options;
    options.put("device", "remote_controlboard");
    options.put("local", localPorts.c_str());   //local port names
    options.put("remote", remotePorts.c_str());         //where we connect to

    // create a device
    PolyDriver robotDevice(options);
    if (!robotDevice.isValid()) {
        printf("Device not available.  Here are the known devices:\n");
        printf("%s", Drivers::factory().toString().c_str());
        return 0;
    }

    IPositionControl *pos;
    IEncoders *encs;

    bool ok;
    ok = robotDevice.view(pos);
    ok = ok && robotDevice.view(encs);

    if (!ok) {
        printf("Problems acquiring interfaces\n");
        return 0;
    }

    int nj=0;
    pos->getAxes(&nj);
    Vector encoders;
    Vector command;
    Vector tmp;
    encoders.resize(nj);
    tmp.resize(nj);
    command.resize(nj);

    int i;
    for (i = 0; i < nj; i++) {
        tmp[i] = 50.0;
    }
    pos->setRefAccelerations(tmp.data());

    for (i = 0; i < nj; i++) {
        tmp[i] = 10.0;
        pos->setRefSpeed(i, tmp[i]);
    }

    //first read all encoders
    printf("waiting for encoders");
    while(!encs->getEncoders(encoders.data()))
    {
        Time::delay(0.1);
        printf(".");
    }
    printf("\n;");

    int ctr =0;
    bool done = false;
    while(ctr<numTimes)
    {


        printf("Starting headMovement\n");
        command=encoders;
        if(ctr%2 == 0)
            command[2]=HEAD_YAW_MAX;
        else
            command[2]=HEAD_YAW_MIN;
        done = false;
        pos->positionMove(command.data());
        while(!done)
        {
            pos->checkMotionDone(&done);
            Time::delay(0.1);
        }
        ctr++;
    }

    command[2] = 0;
    pos->positionMove(command.data());
    while(!done)
    {

        pos->checkMotionDone(&done);
        Time::delay(0.1);
    }

    robotDevice.close();

    return 0;
}
コード例 #25
0
	virtual bool threadInit(){
		if(!handleParams()){
			return false;
		}

		armPlan = new Port;
		armPred = new Port;
		armLocJ = new BufferedPort<Vector>;
		headLoc = new BufferedPort<Vector>;

		armPlan->open("/babbleTrack/plan:o");
		armPred->open("/babbleTrack/pred:i");
		armLocJ->open("/babbleTrack/arm:o");
		headLoc->open("/babbleTrack/head:o");

		gsl_rng_env_setup();
		T = gsl_rng_default;
		r = gsl_rng_alloc(T);

		igaze = NULL;

		Property options;
		options.put("device","gazecontrollerclient");
		options.put("remote","/iKinGazeCtrl");
		options.put("local","/client/gaze");

		clientGazeCtrl = new PolyDriver;
		clientGazeCtrl->open(options);

		options.clear();
		string localPorts = "/babbleTrack/cmd";
		string remotePorts = "/" + robotName + "/" + arm + "_arm";

		options.put("device", "remote_controlboard");
		options.put("local", localPorts.c_str());
		options.put("remote", remotePorts.c_str());

		robotDevice = new PolyDriver;
		robotDevice->open(options);

		if(clientGazeCtrl->isValid()){
			clientGazeCtrl->view(igaze);
		}
		else{
			return false;
		}


		if (!robotDevice->isValid()){
			printf("Device not available. Here are known devices: \n");
			printf("%s", Drivers::factory().toString().c_str());
			Network::fini();
			return false;
		}

		bool ok;
		ok = robotDevice->view(pos);
		ok = ok && robotDevice->view(enc);

		if (!ok){
			printf("Problems acquiring interfaces\n");
			return false;
		}

		pos->getAxes(&nj);

		command = new Vector;
		tmp = new Vector;
		command->resize(nj);
		tmp->resize(nj);

		for (int i = 0; i < nj; i++) {
		         (*tmp)[i] = 25.0;
		}
		pos->setRefAccelerations(tmp->data());

		for (int i = 0; i < nj; i++) {
			(*tmp)[i] = 20.0;
			pos->setRefSpeed(i, (*tmp)[i]);
		}

		*command = 0;

		//set the arm joints to "middle" values
		(*command)[0] = -45;
		(*command)[1] = 45;
		(*command)[2] = 0;
		(*command)[3] = 45;

		//flex hand
		(*command)[4] = 60;
		(*command)[7] = 20;
		(*command)[10] = 15;
		(*command)[11] = 15;
		(*command)[12] = 15;
		(*command)[13] = 15;
		(*command)[14] = 15;
		(*command)[15] = 15;
		pos->positionMove(command->data());

		bool done = false;
		while (!done){
			pos->checkMotionDone(&done);
			Time::delay(0.1);
		}

		bool fwCvOn = 0;
		fwCvOn = Network::connect("/babbleTrack/plan:o","/fwdConv:i");
		fwCvOn *= Network::connect("/fwdConv:o","/babbleTrack/pred:i");
		if (!fwCvOn){
			printf("Please run command:\n ./fwdConv --input /fwdConv:i --output /fwdConv:o\n");
			return false;
		}

		return true;
	}
コード例 #26
0
void partMover::fixed_time_move(const double *cmdPositions, double cmdTime, partMover* currentPart)
{
  IPositionControl *ipos = currentPart->pos;
  IEncoders *iiencs = currentPart->iencs;
  IAmplifierControl *iamp = currentPart->amp;
  IPidControl *ipid = currentPart->pid;
  ITorqueControl *itrq= currentPart->trq;

  int *SEQUENCE_TMP = currentPart->SEQUENCE;
  double *TIMING_TMP = currentPart->TIMING;
  double **STORED_POS_TMP = currentPart->STORED_POS;
  double **STORED_VEL_TMP = currentPart->STORED_VEL;
  GtkWidget **sliderAry = currentPart->sliderArray;
  GtkWidget **sliderVelAry = currentPart->sliderVelArray;
  int NUM_JOINTS;
  ipos->getAxes(&NUM_JOINTS);
  double *cmdVelocities = new double[NUM_JOINTS];
  double *startPositions = new double[NUM_JOINTS];

  while (!iiencs->getEncoders(startPositions))
    Time::delay(0.001);
    //fprintf(stderr, "getEncoders is returning false\n");
    //fprintf(stderr, "Getting the following values for the encoders");
  //for(int k=0; k<NUM_JOINTS; k++)
  //  fprintf(stderr, "%.1f ", startPositions[k]);
  //fprintf(stderr, "\n");  

  int k;
  for(k=0; k<NUM_JOINTS; k++)
    {
      cmdVelocities[k] = 0;
		
      if (fabs(startPositions[k] - cmdPositions[k]) > 0.01)
	cmdVelocities[k] = fabs(startPositions[k] - cmdPositions[k])/cmdTime;
      else
	cmdVelocities[k] = 1.0;
    }

  //fprintf(stderr, "ExplorerThread-> Start pos:\n");
  //for(int j=0; j < NUM_JOINTS; j++)
  //  fprintf(stderr, "%.2lf\t", startPositions[j]);
  //fprintf(stderr, "\n");
  //fprintf(stderr, "ExplorerThread-> Moving arm to:\n");
  //for(int j=0; j < NUM_JOINTS; j++)
  //  fprintf(stderr, "%.2lf\t", cmdPositions[j]);
  //fprintf(stderr, "\n");
  //fprintf(stderr, "ExplorerThread-> with velocity:\n");
  //for(int ii=0; ii < NUM_JOINTS; ii++)
  //  fprintf(stderr, "%.2lf\t", cmdVelocities[ii]);
  //fprintf(stderr, "\n");

  ipos->setRefSpeeds(cmdVelocities);
  ipos->positionMove(cmdPositions);	

  currentPart->sequence_port_stamp.update();
  currentPart->sequence_port.setEnvelope(currentPart->sequence_port_stamp);
  Vector v(NUM_JOINTS,cmdPositions);
  currentPart->sequence_port.write(v);
  delete cmdVelocities;
  delete startPositions;
  return;
}
コード例 #27
0
ファイル: main.cpp プロジェクト: GunnyPong/wysiwyd
    bool configure(ResourceFinder &rf)
    {
        std::string robotname = rf.check("robot",yarp::os::Value("icubSim")).asString();
        Property options;
        options.put("robot", robotname); // typically from the command line.
        options.put("device", "remote_controlboard");

        string s("/");
        s += robotname;
        s += "/right_arm/keyBabbling";
        options.put("local", s.c_str());
        s.clear();
        s += "/";
        s += robotname;
        s += "/right_arm";
        options.put("remote", s.c_str());

        if (!dd.open(options)) {
            cout << "Device not available.  Here are the known devices:\n"<< endl;
            cout << Drivers::factory().toString().c_str() << endl;;
            return false;
        }
        
        portStreamer.open("/keyboardBabbling/stream:o");
        portFromCart.open("/keyboardBabbling/stream:i");
        portRpc.open("/keyboarBabbling/rpc");
        attach(portRpc);

        Property optionCart("(device cartesiancontrollerclient)");
        optionCart.put("remote", "/" + robotname +"/cartesianController/right_arm");
        optionCart.put("local","/keyboardBabbling/cartesian_client/right_arm");
        if (!driverCart.open(optionCart))
            return false;

        bool ok;
        ok = dd.view(pos);
        ok &= dd.view(vel);
        ok &= dd.view(pid);
        ok &= dd.view(amp);
        ok &= dd.view(armCtrlModeUsed);
        ok &= dd.view(armImpUsed);
        ok &= driverCart.view(armCart);
        ok &= dd.view(ilimRight);

        iCubFinger* fingerRight = new iCubFinger("right_index");
        deque<IControlLimits*> limRight;
        limRight.push_back(ilimRight);
        fingerRight->alignJointsBounds(limRight);

        if (!ok) {
            cout << "Device not able to acquire views" << endl;
            dd.close();
            return false;
        }

        int jnts = 0;
        pos->getAxes(&jnts);
        printf("Working with %d axes\n", jnts);

        vector<bool> mask;
        mask.resize(jnts);
        mask[0] = false;
        mask[1] = false;
        mask[2] = false;
        mask[3] = false;
        mask[4] = true;
        mask[5] = false;
        mask[6] = true;
        mask[7] = false;
        mask[8] = true;
        mask[9] = true;
        mask[10] = true;
        mask[11] = true;
        mask[12] = true;
        mask[13] = true;
        mask[14] = true;
        mask[15] = true;

        cout << "Closing the hand" << endl;
        // closing the hand:
        pos->positionMove(4, 30.0);
        pos->positionMove(6, 10.0);
        pos->positionMove(8, 10.0);
        pos->positionMove(9, 17.0);
        pos->positionMove(10, 170.0);
        pos->positionMove(11, 0.0);
        pos->positionMove(12, 0.0);
        pos->positionMove(13, 90.0);
        pos->positionMove(14, 180.0);
        pos->positionMove(15, 180.0);

        cout << "Waiting to be in initial position...";
        bool motionDone=false;
        while (!motionDone)
        {
            motionDone=true;
            for (int i=0; i<jnts; i++)
            {
                if (mask[i])
                {
                    bool jntMotionDone = false;
                    pos->checkMotionDone(i, &jntMotionDone);
                    motionDone &= jntMotionDone;
                }
            }

            Time::yield();  // to avoid killing cpu
        }
        cout << "ok" << endl;
        // wait for the hand to be in initial position

        Matrix R=zeros(3,3);
        R(0,0)=-1.0; R(1,1)=1; R(2,2)=-1.0;
        orientation=dcm2axis(R);
        
        // enable torso movements as well
        // in order to enlarge the workspace
        Vector dof;
        armCart->getDOF(dof);
        dof=1.0; dof[1]=0.0;    // every dof but the torso roll
        armCart->setDOF(dof,dof);
        armCart->setTrajTime(1.0);

        Vector initPos(3,0.0);
        if (rf.check("rightHandInitial"))
        {
            Bottle *botPos = rf.find("rightHandInitial").asList();
            initPos[0] = botPos->get(0).asDouble();
            initPos[1] = botPos->get(1).asDouble();
            initPos[2] = botPos->get(2).asDouble();
            cout<<"Reaching initial position with right hand"<<initPos.toString(3,3).c_str()<<endl;            
            armCart->goToPoseSync(initPos,orientation);
            armCart->waitMotionDone(0.1,3.0);
        }
        else
        {
            cout << "Cannot find the inital position" << endl << "closing module" << endl;
            return false;
        }        

        minY    = rf.find("min").asDouble();
        maxY    = rf.find("max").asDouble();
        gap     = rf.find("gap").asDouble();
        delay   = rf.find("delay").asDouble();
        thrMove = rf.find("threshold_move").asDouble();
        yDivisions = rf.check("yDivisions",Value(10)).asInt();
        Bottle* bsequenceToPlay = rf.find("sequence").asList();
        if (bsequenceToPlay)
        {
            cout << "Using sequence, not random." << endl;
            for (int i = 0; i < bsequenceToPlay->size(); i++)
                sequenceToPlay.push_back(bsequenceToPlay->get(i).asInt());
            indexInSequence = 0;
        }

        tempPos=initPos;
        state=up;
        forward = false;

        timeBeginIdle = Time::now();

        Rand::init();
        return true;
    }
コード例 #28
0
/*
 * Save to file the current list of positions
 */
void partMover::save_to_file(char* filenameIn, partMover* currentPart)
{
  char filename[800]; 
  char filenamePart[800];
  FILE* outputFile;

  IPositionControl *ipos = currentPart->pos;
  int *SEQUENCE_TMP = currentPart->SEQUENCE;
  double *TIMING_TMP = currentPart->TIMING;
  double **STORED_POS_TMP = currentPart->STORED_POS;
  double **STORED_VEL_TMP = currentPart->STORED_VEL;
  int j, k;
  char buffer[800];
  int invSequence[NUMBER_OF_STORED];
	
  int NUMBER_OF_JOINTS;
  ipos->getAxes(&NUMBER_OF_JOINTS);

  //be sure that "." will be used in place of "," for decimals
  char* loc = setlocale(LC_NUMERIC, NULL); 
  setlocale(LC_NUMERIC, "C"); 

  int len = strlen (filenameIn);
  int len2=0;
  for (len2=0; len2<len; len2++) 
      if (filenameIn[len2]=='.') break;
  strncpy(filename, filenameIn, len2);
  filename[len2]=0;
  strcat(filename, ".pos");
  strcat(filename, currentPart->partLabel);
  strcpy(filenamePart, filename);
  
  fprintf(stderr, "Saving file %s \n", filenamePart);
  
  outputFile = fopen(filenamePart,"w");
	
  for (j = 0; j < NUMBER_OF_STORED; j++)
    invSequence[j] = -1;

  for (j = 0; j < NUMBER_OF_STORED; j++)
    {
      if (SEQUENCE_TMP[j]>-1 && (SEQUENCE_TMP[j]<NUMBER_OF_STORED))
	invSequence[SEQUENCE_TMP[j]] = j;
    }

  for (j = 0; j < NUMBER_OF_STORED; j++)
    if (invSequence[j] != -1)
      {
	sprintf(buffer, "[POSITION%d] \n", j);

	fprintf(outputFile, "%s", buffer);
	//Sequence positions
	fprintf(outputFile, "jointPositions ");
	for (k = 0; k < NUMBER_OF_JOINTS; k++)
	  fprintf(outputFile, "%.2f ", STORED_POS_TMP[ invSequence[j] ][k]);
	fprintf(outputFile, "\n");
	//Sequence Velocities
	fprintf(outputFile, "jointVelocities ");
	for (k = 0; k < NUMBER_OF_JOINTS; k++)
	  fprintf(outputFile, "%.2f ", STORED_VEL_TMP[ invSequence[j] ][k]);
	fprintf(outputFile, "\n");
	//Timing
	fprintf(outputFile, "timing ");
	fprintf(outputFile, "%.2f ", TIMING_TMP[invSequence[j]]);
	fprintf(outputFile, "\n");
      }
    else
      break;
  fclose(outputFile);
  fprintf(stderr, "File saved and closed\n");
  //restore local "."/"," policy
  setlocale(LC_NUMERIC, loc); 
}
コード例 #29
0
ファイル: randArmExplore.cpp プロジェクト: oosuagwu/uiuc-lar
int main(int argc, char *argv[]){
	Network yarp;
	//Port<Bottle> armPlan;
	//Port<Bottle> armPred;
	Port armPlan;
	Port armPred;
	armPlan.open("/randArm/plan");
	armPred.open("/randArm/pred");
	bool fwCvOn = 0;
	fwCvOn = Network::connect("/randArm/plan","/fwdConv:i");
	fwCvOn *= Network::connect("/fwdConv:o","/randArm/pred");
	if (!fwCvOn){
		printf("Please run command:\n ./fwdConv --input /fwdConv:i --output /fwdConv:o");
		return 1;
	}

	const gsl_rng_type *T;
	gsl_rng *r;
	gsl_rng_env_setup();
	T = gsl_rng_default;
	r = gsl_rng_alloc(T);

	Property params;
	params.fromCommand(argc,argv);

	if (!params.check("robot")){
		fprintf(stderr, "Please specify robot name");
		fprintf(stderr, "e.g. --robot icub");
		return -1;
	}
	std::string robotName = params.find("robot").asString().c_str();
	std::string remotePorts = "/";
	remotePorts += robotName;
	remotePorts += "/";
	if (params.check("side")){
		remotePorts += params.find("side").asString().c_str();
	}
	else{
		remotePorts += "left";
	}
	remotePorts += "_arm";
	std::string localPorts = "/randArm/cmd";

	Property options;
	options.put("device", "remote_controlboard");
	options.put("local", localPorts.c_str());
	options.put("remote", remotePorts.c_str());

	PolyDriver robotDevice(options);
	if (!robotDevice.isValid()){
		printf("Device not available. Here are known devices: \n");
		printf("%s", Drivers::factory().toString().c_str());
		Network::fini();
		return 1;
	}

	IPositionControl *pos;
	IEncoders *enc;

	bool ok;
	ok = robotDevice.view(pos);
	ok = ok && robotDevice.view(enc);

	if (!ok){
		printf("Problems acquiring interfaces\n");
		return 0;
	}

	int nj = 0;
	pos->getAxes(&nj);
	Vector encoders;
	Vector command;
	Vector commandCart;
	Vector tmp;
	encoders.resize(nj);
	tmp.resize(nj);
	command.resize(nj);
	commandCart.resize(nj);

    for (int i = 0; i < nj; i++) {
         tmp[i] = 25.0;
    }
    pos->setRefAccelerations(tmp.data());

    for (int i = 0; i < nj; i++) {
        tmp[i] = 5.0;
        pos->setRefSpeed(i, tmp[i]);
    }

    command = 0;

    //set the arm joints to "middle" values
    command[0] = -45;
    command[1] = 45;
    command[2] = 0;
    command[3] = 45;
    pos->positionMove(command.data());

    bool done = false;
    while (!done){
    	pos->checkMotionDone(&done);
    	Time::delay(0.1);
    }

    while (true){
    	tmp = command;
    	command[0] += 15*(2*gsl_rng_uniform(r)-1);
    	command[1] += 15*(2*gsl_rng_uniform(r)-1);
    	command[2] += 15*(2*gsl_rng_uniform(r)-1);
    	command[3] += 15*(2*gsl_rng_uniform(r)-1);
    	printf("%.1lf %.1lf %.1lf %.1lf\n", command[0], command[1], command[2], command[3]);
    	//above 0 doesn't seem to be safe for joint 0
    	if (command[0] > 0 || command[0] < -90){
    		command[0] = tmp[0];
    	}
    	if (command[1] > 160 || command[1] < -0){
    		command[1] = tmp[1];
    	}
    	if (command[2] > 100 || command[2] < -35){
    		command[2] = tmp[2];
    	}
    	if (command[3] > 100 || command[3] < 10){
    		command[3] = tmp[3];
    	}
    	//use fwd kin to find end effector position
    	Bottle plan, pred;
    	for (int i = 0; i < nj; i++){
    		plan.add(command[i]);
    	}
    	armPlan.write(plan);
    	armPred.read(pred);
    	for (int i = 0; i < 3; i++){
    		commandCart[i] = pred.get(i).asDouble();
    	}
    	double rad = sqrt(commandCart[0]*commandCart[0]+commandCart[1]*commandCart[1]);
    	// safety radius back to 30 cm
    	if (rad > 0.3){
    		pos->positionMove(command.data());
    		done = false;
    		while(!done){
    			pos->checkMotionDone(&done);
    			Time::delay(0.1);
    		}
    	}
    	else{
    		printf("Self collision detected!\n");
    	}
    }

    robotDevice.close();
    gsl_rng_free(r);

    return 0;
}
コード例 #30
0
int main() {
  Network yarp; // set up yarp
  BufferedPort<Vector> targetPort;
  targetPort.open("/tutorial/target/in");
  Network::connect("/tutorial/target/out","/tutorial/target/in");

  Property options;
  options.put("device", "remote_controlboard");
  options.put("local", "/tutorial/motor/client");
  options.put("remote", "/icub/head");
  PolyDriver robotHead(options);
  if (!robotHead.isValid()) {
    printf("Cannot connect to robot head\n");
    return 1;
  }
  IPositionControl *pos;
  IVelocityControl *vel;
  IEncoders *enc;
  robotHead.view(pos);
  robotHead.view(vel);
  robotHead.view(enc);
  if (pos==NULL || vel==NULL || enc==NULL) {
    printf("Cannot get interface to robot head\n");
    robotHead.close();
    return 1;
  }
  int jnts = 0;
  pos->getAxes(&jnts);
  Vector setpoints;
  setpoints.resize(jnts);
int cnt=0;bool temp;
  while (1) { // repeat forever
    Vector *target = targetPort.read();  // read a target
    if (target!=NULL) { // check we actually got something
       printf("We got a vector containing");
       for (int i=0; i<target->size(); i++) {
         printf(" %g", (*target)[i]);
       }
       printf("\n");

       double x = (*target)[0];
       double y = (*target)[1];
       double conf = (*target)[2];

       x -= 320/2;
       y -= 240/2;

       double vx = x*0.1;
       double vy = -y*0.1;

       // prepare command
 /*if(cnt>2)
temp =false;

else if(cnt<-2)
temp =true;
if (temp ==true)
cnt++;
else if (temp==false)
cnt--;*/
       for (int i=0; i<jnts; i++) {
         setpoints[i] = 0.0;//(double)cnt;
       }
	//setpoints[0] = (double) cnt;

       if (conf>0.5) {
         setpoints[3] = vy;
         setpoints[4] = vx;
       } else {
         setpoints[3] = 0;
         setpoints[4] = 0;
       }
             for (int i=0; i<jnts; i++) {
       printf("%f ", setpoints[i]);
         }
         printf("\n");
       vel->velocityMove(setpoints.data());

       //pos->positionMove(setpoints.data());
       //getchar();
    }
  }
  return 0;
}