//----------------------------------------------------------------------------------
//! Constructor
//----------------------------------------------------------------------------------
METKAutoFading::METKAutoFading (void) : inherited(0,0,ObjMgrClient::EVENTS_SELECTED)
{
ML_TRACE_IN("METKAutoFading::METKAutoFading()")
myObjMgr = new ObjMgrCommunicator();
myCamera = new kCamera();
FieldContainer *fields = getFieldContainer();
// Suppress calls of handleNotification on field changes.
handleNotificationOff();
_outScene = getFieldContainer()->addSoNode("outScene");
(_EnableFading = fields->addBool("EnableFading"))->setBoolValue(FALSE);
(_UseMETKValues = fields->addBool("UseMETKValues"))->setBoolValue(FALSE);
(_CurrentObject = fields->addString("CurrentObject"))->setStringValue("");
(_ViewerName = fields->addString("ViewerName"))->setStringValue("METKViewer3D");
_init = fields->addNotify("init");
_calc = fields->addNotify("calc");
(_dataPath = fields->addString("dataPath"))->setStringValue("");
_similarPosition = fields->addVec3f("similarPosition");
_camPosition = fields->addVec3f("camPosition");
_camOrientation = fields->addVec4f("camOrientation");
setAcceptedEvents();
m_soViewer = new SoVisDataViewer();
_outScene->setSoNodeValue(m_soViewer);
oReceiver = new METKMsgReceiver();
oReceiver->messageFld->setStringValue("fading");
/*_message = (StringField*) getFieldContainer()->addField(oReceiver->getFieldContainer()->getField("message"));
_messageData = (StringField*) getFieldContainer()->addField(oReceiver->getFieldContainer()->getField("data"));*/
_message = getFieldContainer()->addString("message");
oReceiver->messageFld->attachField(_message,0);
_messageData = getFieldContainer()->addString("data");
oReceiver->getFieldContainer()->getField("data")->attachField(_messageData,0);
timerSensor = new SoTimerSensor((SoSensorCB*)METKAutoFading::timerEvent, this);
timerSensor->setInterval(SbTime(1.0/1000.0));
timerSensor->unschedule();
// Reactivate calls of handleNotification on field changes.
handleNotificationOn();
}
//----------------------------------------------------------------------------------
//! Constructor
//----------------------------------------------------------------------------------
WEMCenterOfMass::WEMCenterOfMass (std::string type)
: WEMInspector(type)
{
ML_TRACE_IN("WEMCenterOfMass::WEMCenterOfMass()")
FieldContainer *fieldC = getFieldContainer();
ML_CHECK(fieldC);
// Suppress calls of handleNotification on field changes.
handleNotificationOff();
// Add output fields
_centerOfMass = fieldC->addVec3f("centerOfMass");
_centerOfMass->setVec3fValue(vec3(0.0,0.0,0.0));
_inverseCenterOfMass = fieldC->addVec3f("inverseCenterOfMass");
_inverseCenterOfMass->setVec3fValue(vec3(0.0,0.0,0.0));
_useSurface = fieldC->addBool("useSurface");
_useSurface->setBoolValue( false );
// Reactivate calls of handleNotification on field changes.
handleNotificationOn();
}
CSODistance::CSODistance() : BaseOp(0, 0)
{
ML_TRACE_IN("CSODistance::CSODistance(int numInImages, int numOutImages) : BaseOp(numInImages, numOutImages)");
handleNotificationOff();
_csoList0 = NULL;
_csoList1 = NULL;
_tableHeader = "Id1,Id2,min,max,mean,stdDev";
FieldContainer* fieldC = getFieldContainer();
ML_CHECK(fieldC);
(_input0CSOFld = fieldC->addBase("inCSOList"))->setBaseValue(NULL);
(_input1CSOFld = fieldC->addBase("inCSOList1"))->setBaseValue(NULL);
//////////////////////////////////////////////////////////////////////////
char* distanceModes[LASTMODE];
distanceModes[ FIRST2 ] = "First 2 CSOs";
distanceModes[ INPLANE ] = "Match in plane";
distanceModes[ INDEX ] = "Match index";
_modeFld = fieldC->addEnum("mode",distanceModes,LASTMODE);
_modeFld->setEnumValue( FIRST2 );
//////////////////////////////////////////////////////////////////////////
(_minimumDistanceFld = fieldC->addFloat("minimumDistance"))->setFloatValue(0);
(_minimumDistancePoint1Fld = fieldC->addVec3f("minimumDistancePoint1"))->setVec3fValue(vec3(0.0,0.0,0.0));
(_minimumDistancePoint2Fld = fieldC->addVec3f("minimumDistancePoint2"))->setVec3fValue(vec3(0.0,0.0,0.0));
_distancesFld = addString("distances",_tableHeader );
_AverageMinimumDistanceFld = addDouble("averageMinimumDistance", 0.0 );
_AverageMeanDistanceFld = addDouble("averageMeanDistance", 0.0 );
_AverageMaxDistanceFld = addDouble("averageMaximumDistance", 0.0 );
//////////////////////////////////////////////////////////////////////////
_tolleranceFld = addDouble("tollerance", 0.0001 );
//////////////////////////////////////////////////////////////////////////
_applyFld = fieldC->addNotify("apply");
(_autoApplyFld = fieldC->addBool("autoApply"))->setBoolValue(true);
_statusFld = fieldC->addString("status");
_statusFld->setStringValue("Ready");
//////////////////////////////////////////////////////////////////////////
(_listenToRepaintNotificationsFld = fieldC->addBool("listenToRepaintNotifications"))
->setBoolValue(false);
(_listenToFinishingNotificationsFld = fieldC->addBool("listenToFinishingNotifications"))
->setBoolValue(true);
(_listenToSelectionChangedNotificationsFld = fieldC->addBool("listenToSelectionChangedNotifications"))
->setBoolValue(false);
char* statisticsNames[LASTSTATISTIC];
statisticsNames[ MIN ] = "Minimum";
statisticsNames[ MAX ] = "Maximum";
statisticsNames[ MEAN ] = "Mean";
statisticsNames[ STDEV ] = "StDev";
_curveStatistic = addEnum("curveStatistic",statisticsNames,LASTSTATISTIC );
_isInNotificationCB = false;
ML_CHECK_NEW(_outputXMarkerList,XMarkerList());
(_outputXMarkerListFld = getFieldContainer()->addBase("outputXMarkerList"))->setBaseValue(NULL);
_outputCurveList = new CurveList;
(_outputCurveListFld = getFieldContainer()->addBase("outputCurveList"))->setBaseValue( _outputCurveList );
handleNotificationOn();
}
