OptOSensor2D Class Reference

#include <OptOSensor2D.h>

Inheritance diagram for OptOSensor2D:

Public Member Functions
void	constructSolidShape () override
ALIdouble *	convertPointToLocalCoordinates (const CLHEP::Hep3Vector &point)
void	defaultBehaviour (LightRay &lightray, Measurement &meas) override
void	detailedTraversesLightRay (LightRay &lightray) override
void	fastTraversesLightRay (LightRay &lightray) override
void	fillExtraEntry (std::vector< ALIstring > &wordlist) override
void	makeMeasurement (LightRay &lightray, Measurement &meas) override
	OptOSensor2D ()
	OptOSensor2D (OpticalObject *parent, const ALIstring &type, const ALIstring &name, const ALIbool copy_data)
	~OptOSensor2D () override
Public Member Functions inherited from OpticalObject
void	addCoordinateEntryToList (Entry *entry)
void	addExtraEntryToList (Entry *entry)
void	addExtraEntryValueOriginalOriginalToList (ALIdouble entry_value)
void	addExtraEntryValueOriginalToList (ALIdouble entry_value)
void	addExtraEntryValueToList (ALIdouble entry_value)
double	addPii (double val)
double	approxTo0 (double val)
CLHEP::HepRotation	buildRmFromEntryValuesOriginalOriginal ()
const CLHEP::Hep3Vector &	centreGlob () const
const CLHEP::Hep3Vector &	centreGlobal () const
const CLHEP::Hep3Vector &	centreGlobOriginal () const
const CLHEP::Hep3Vector &	centreGlobOriginalOriginal () const
const CLHEP::Hep3Vector	centreLocal () const
int	checkMatrixEquations (double angleX, double angleY, double angleZ, CLHEP::HepRotation *rot=nullptr)
void	construct ()
void	constructFromOptAligInfo (const OpticalAlignInfo &oaInfo)
virtual void	constructMaterial ()
const std::vector< Entry * > &	CoordinateEntryList () const
void	createComponentOptOsFromOptAlignInfo ()
virtual void	detailedDeviatesLightRay (LightRay &lightray)
double	diff2pi (double ang1, double ang2)
void	displaceCentreGlob (const CLHEP::Hep3Vector &dispVec)
void	displaceCentreGlob (const XYZcoor coor, const ALIdouble disp)
void	displaceCentreGlobOriginal (const CLHEP::Hep3Vector &dispVec)
void	displaceCentreGlobOriginal (const XYZcoor coor, const ALIdouble disp)
void	displaceCentreGlobOriginalOriginal (const CLHEP::Hep3Vector &dispVec)
void	displaceCentreGlobOriginalOriginal (const XYZcoor coor, const ALIdouble disp)
void	displaceExtraEntry (const ALIuint entryNo, const ALIdouble disp)
void	displaceExtraEntryOriginal (const ALIuint entryNo, const ALIdouble disp)
void	displaceExtraEntryOriginalOriginal (const ALIuint entryNo, const ALIdouble disp)
void	displaceRmGlobAroundGlobal (OpticalObject *opto1stRotated, const XYZcoor coor, const ALIdouble disp)
void	displaceRmGlobAroundLocal (OpticalObject *opto1stRotated, const XYZcoor coor, const ALIdouble disp)
void	displaceRmGlobOriginal (const OpticalObject *opto1stRotated, const XYZcoor coor, const ALIdouble disp)
void	displaceRmGlobOriginalOriginal (const OpticalObject *opto1stRotated, const XYZcoor coor, const ALIdouble disp)
bool	eq2ang (double ang1, double ang2)
const std::vector< Entry * > &	ExtraEntryList () const
const ALIint	extraEntryNo (const ALIstring &entry_name) const
std::vector< ALIdouble > &	ExtraEntryValueList ()
const std::vector< ALIdouble > &	ExtraEntryValueOriginalList ()
const std::vector< ALIdouble > &	ExtraEntryValueOriginalOriginalList ()
virtual void	fastDeviatesLightRay (LightRay &lightray)
virtual void	fillIguana ()
virtual void	fillVRML ()
const ALIdouble	findExtraEntryValue (const ALIstring &eename) const
const ALIbool	findExtraEntryValueIfExists (const ALIstring &eename, ALIdouble &value) const
const ALIdouble	findExtraEntryValueMustExist (const ALIstring &eename) const
const ALIuint	getCmsswID () const
std::vector< ALIstring >	getCoordinateFromOptAlignParam (const OpticalAlignParam &oaParam)
CLHEP::Hep3Vector	getDisplacementInLocalCoordinates (const XYZcoor coor, const ALIdouble disp)
const double	getEntryCentre (const ALIstring &coor) const
const double	getEntryCentre (const XYZcoor coor) const
const double	getEntryRMangle (const ALIstring &coor) const
const double	getEntryRMangle (const XYZcoor coor) const
std::vector< double >	getLocalRotationAngles (const std::vector< Entry * > &entries) const
CocoaMaterialElementary *	getMaterial () const
ALIPlane	getPlate (const ALIbool forwardPlate, const ALIbool applyWedge)
std::vector< double >	getRotationAnglesFromMatrix (CLHEP::HepRotation &rmLocal, const std::vector< Entry * > &entries) const
std::vector< double >	getRotationAnglesInOptOFrame (const OpticalObject *optoAncestor, const std::vector< Entry * > &entries) const
CocoaSolidShape *	getSolidShape () const
CLHEP::Hep3Vector	getZAxis ()
const ALIuint	ID () const
const ALIstring	longName () const
Measurement *	meas ()
const ALIstring &	name () const
	OpticalObject ()
	OpticalObject (OpticalObject *parent, const ALIstring &type, const ALIstring &name, const ALIbool copy_data)
const OpticalObject *	parent () const
virtual void	participateInMeasurement (LightRay &lightray, Measurement &meas, const ALIstring &behav)
void	propagateGlobalRMOriginalOriginalChangeToChildren (const CLHEP::HepRotation &rmorioriold, const CLHEP::HepRotation &rmoriorinew)
void	resetGlobalCoordinates ()
void	resetOriginalOriginalCoordinates ()
const CLHEP::HepRotation &	rmGlob () const
const CLHEP::HepRotation &	rmGlobOriginal () const
const CLHEP::HepRotation &	rmGlobOriginalOriginal () const
const CLHEP::HepRotation	rmLocal () const
void	setCmsswID (ALIuint id)
void	setExtraEntryValue (const ALIuint entryNo, const ALIdouble disp)
void	setGlobalCoordinates ()
void	setGlobalRMOriginalOriginal (const CLHEP::HepRotation &rmoriori)
void	setID (ALIuint id)
void	setMeas (Measurement *meas)
	set current measurement More...
void	setOriginalEntryValues ()
void	setRmGlobal (const CLHEP::HepRotation &rm)
void	setRmGlobalOriginal (const CLHEP::HepRotation &rm)
void	setType (const ALIstring &type)
const ALIstring	shortName () const
const ALIstring &	type () const
virtual void	userDefinedBehaviour (LightRay &lightray, Measurement &meas, const ALIstring &behav)
virtual	~OpticalObject ()

Private Attributes
DeviationsFromFileSensor2D *	deviFromFile
ALIbool	fdevi_from_file

Additional Inherited Members
Protected Attributes inherited from OpticalObject
CocoaMaterialElementary *	theMaterial
CocoaSolidShape *	theSolidShape
ALIint	verbose

Detailed Description

Definition at line 19 of file OptOSensor2D.h.

Constructor & Destructor Documentation

OptOSensor2D() [1/2]

OptOSensor2D::OptOSensor2D ( )

inline

Definition at line 22 of file OptOSensor2D.h.

{};

OptOSensor2D() [2/2]

OptOSensor2D::OptOSensor2D ( OpticalObject *  parent, const ALIstring &  type, const ALIstring &  name, const ALIbool  copy_data  )

inline

Definition at line 23 of file OptOSensor2D.h.

      : OpticalObject(parent, type, name, copy_data), fdevi_from_file(false){};

~OptOSensor2D()

OptOSensor2D::~OptOSensor2D ( )

inlineoverride

Definition at line 25 of file OptOSensor2D.h.

{};

Member Function Documentation

constructSolidShape()

void OptOSensor2D::constructSolidShape ( )

overridevirtual

Reimplemented from OpticalObject.

Definition at line 452 of file OptOSensor2D.cc.

                                       {
  ALIdouble go;
  GlobalOptionMgr* gomgr = GlobalOptionMgr::getInstance();
  gomgr->getGlobalOptionValue("VisScale", go);
 
  theSolidShape = new CocoaSolidShapeBox(
      "Box", go * 4. * cm / m, go * 4. * cm / m, go * 1. * cm / m);  //COCOA internal units are meters
}

References GlobalOptionMgr::getGlobalOptionValue(), GlobalOptionMgr::getInstance(), and visualization-live-secondInstance_cfg::m.

convertPointToLocalCoordinates()

ALIdouble * OptOSensor2D::convertPointToLocalCoordinates

(

const CLHEP::Hep3Vector &

point

)

Definition at line 399 of file OptOSensor2D.cc.

                                                                                    {
  ALIdouble* interslc = new ALIdouble[2];
 
  //----- X value
  CLHEP::HepRotation rmt = rmGlob();
  CLHEP::Hep3Vector XAxism(1., 0., 0.);
  XAxism *= rmt;
  if (ALIUtils::debug >= 5)
    ALIUtils::dump3v((this)->centreGlob(), "centre glob sensor2D");
  if (ALIUtils::debug >= 5)
    ALIUtils::dumprm(rmt, "rotation matrix sensor2D");
  //t  ALIUtils::dump3v(point - (this)->centreGlob() , "inters - (this)->centreGlob()");
  if (ALIUtils::debug >= 5)
    ALIUtils::dump3v(XAxism, "XAxism");
  interslc[0] = (point - (this)->centreGlob()) * XAxism;
 
  //----- Y value
  CLHEP::Hep3Vector YAxism(0., 1., 0.);
  YAxism *= rmt;
  if (ALIUtils::debug >= 5)
    ALIUtils::dump3v(YAxism, "YAxism");
  interslc[1] = (point - (this)->centreGlob()) * YAxism;
 
  if (ALIUtils::debug >= 5) {
    std::cout << " intersection in local coordinates: X= " << interslc[0] << "  Y= " << interslc[1] << std::endl;
    ALIUtils::dump3v(point - (this)->centreGlob(), " inters - centre ");
  }
  return interslc;
}

References gather_cfg::cout, ALIUtils::debug, ALIUtils::dump3v(), ALIUtils::dumprm(), and point.

defaultBehaviour()

void OptOSensor2D::defaultBehaviour ( LightRay &  lightray, Measurement &  meas  )

overridevirtual

Reimplemented from OpticalObject.

Definition at line 35 of file OptOSensor2D.cc.

{ makeMeasurement(lightray, meas); }

detailedTraversesLightRay()

void OptOSensor2D::detailedTraversesLightRay ( LightRay &  lightray )

overridevirtual

Reimplemented from OpticalObject.

Definition at line 247 of file OptOSensor2D.cc.

                                                               {
  if (ALIUtils::debug >= 4)
    std::cout << "%%% LR: DETAILED TRAVERSES SENSOR2D  " << name() << std::endl;
  if (DeviationsFromFileSensor2D::apply() && fdevi_from_file) {
    DeviationsFromFileSensor2D::setApply(false);
    //- std::cout << "fdeviFromFile" << fdevi_from_file << std::endl;
    if (ALIUtils::debug >= 0)
      std::cerr << "!!WARNING: sensor " << name()
                << " has read deviation from file and it will not be taken into account. Please use FAST TRAVERSES"
                << deviFromFile << std::endl;
  }
 
  //---------- If width is 0, just keep the intersection point
  ALIdouble width = findExtraEntryValue("width");
  if (width == 0) {
    //---------- Get intersection
    CLHEP::Hep3Vector ZAxis(0., 0, 1.);
    CLHEP::HepRotation rmt = rmGlob();
    ZAxis = rmt * ZAxis;
    lightray.intersect(ALIPlane(centreGlob(), ZAxis));
    CLHEP::Hep3Vector inters = lightray.point();
    lightray.setPoint(inters);
    if (ALIUtils::debug >= 2) {
      lightray.dumpData("LightRay Sensor2D traversed: ");
    }
    return;
  }
 
  if (ALIUtils::debug >= 4)
    std::cout << std::endl << "$$$ LR: REFRACTION IN FORWARD PLATE " << std::endl;
  //---------- Get forward plate
  ALIPlane plate = getPlate(true, true);
  //---------- Refract while entering object
  ALIdouble refra_ind1 = 1.;
  ALIdouble refra_ind2 = findExtraEntryValueMustExist("refra_ind");
  lightray.refract(plate, refra_ind1, refra_ind2);
 
  if (ALIUtils::debug >= 4)
    std::cout << std::endl << "$$$ LR: REFRACTION IN BACKWARD PLATE " << std::endl;
  //---------- Get backward plate
  plate = getPlate(false, true);
  //---------- Refract while exiting splitter
  lightray.refract(plate, refra_ind2, refra_ind1);
 
  CLHEP::Hep3Vector inters = lightray.point();
  lightray.setPoint(inters);
 
  if (ALIUtils::debug >= 4) {
    lightray.dumpData("LightRay Sensor2D traversed: ");
  }
}

References DeviationsFromFileSensor2D::apply(), EcnaPython_AdcPeg12_S1_10_R170298_1_0_150_Dee0::cerr, gather_cfg::cout, ALIUtils::debug, LightRay::dumpData(), LightRay::intersect(), Skims_PA_cff::name, LightRay::point(), LightRay::refract(), DeviationsFromFileSensor2D::setApply(), LightRay::setPoint(), and ApeEstimator_cff::width.

fastTraversesLightRay()

void OptOSensor2D::fastTraversesLightRay ( LightRay &  lightray )

overridevirtual

Reimplemented from OpticalObject.

Definition at line 119 of file OptOSensor2D.cc.

                                                           {
  verbose = ALIUtils::debug;
  if (ALIUtils::debug >= 2)
    std::cout << "LR: FAST TRAVERSES SENSOR2D  " << name() << std::endl;
 
  //---------- Shift and Deviate
 
  //---------- Get intersection
  CLHEP::Hep3Vector ZAxis(0., 0, 1.);
  CLHEP::HepRotation rmt = rmGlob();
  ZAxis = rmt * ZAxis;
  lightray.intersect(ALIPlane(centreGlob(), ZAxis));
  CLHEP::Hep3Vector inters = lightray.point();
 
  ALIdouble deviX, deviY, devi;
  // if deviationsFromFile are applied and this sensors has them get the deviations that corresponds to the intersection point.
  // Set this deviation as original one, as it will not be changed for derivatives
  if (DeviationsFromFileSensor2D::apply() && fdevi_from_file) {
    //-    std::cout << " DeviationsFromFileSensor2D::apply() " << DeviationsFromFileSensor2D::apply() << std::endl;
    if (ALIUtils::debug >= 4) {
      std::cout << "fdeviFromFile" << fdevi_from_file << std::endl;
      //-      std::cout << "deviFromFile" << deviFromFile << std::endl;
    }
    //--------- get measurement value of the current sensor
    std::vector<Measurement*>& measv = Model::MeasurementList();
    unsigned int ii;
    Measurement* omeas = nullptr;
    for (ii = 0; ii < measv.size(); ii++) {
      //-   std::cout << " sensor2d finding meas " <<  measv[ii]->sensorName() << " " << name() << std::endl;
      if (measv[ii]->sensorName() == name()) {
        omeas = measv[ii];
        break;
      }
    }
    if (omeas == nullptr) {
      throw cms::Exception("LogicError") << "@SUB=OptOSensor2D::fastTraversesLightRay\n"
                                         << "meas " << name() << " not found";
    }
 
    ALIdouble interslcx = omeas->value(0);
    ALIdouble interslcy = omeas->value(1);
    if (ALIUtils::debug >= 5)
      std::cout << " interslcx " << interslcx << " interslcy " << interslcy << std::endl;
    //----- transform in milimeters and positive
    //mum    interslcx = interslcx*1.E6 + 10000.;
    //mum    interslcy = interslcy*1.E6 + 10000.;
    ALIdouble df = ALIUtils::LengthValueDimensionFactor();
    interslcx = interslcx / df + 0.010 / df;
    interslcy = interslcy / df + 0.010 / df;
    if (ALIUtils::debug >= 5)
      std::cout << " interslcx " << interslcx << " interslcy " << interslcy << std::endl;
 
    //---------- Get deviations from file (they are in microrads)
    std::pair<ALIdouble, ALIdouble> devis = deviFromFile->getDevis(interslcx, interslcy);
    deviX = devis.second;
    deviY = -devis.first;
    // deviX = devis.first;
    //  deviY = devis.second;
 
    //o  deviX = *((deviFromFile->deviationsInX()).begin() + pointY*deviFromFile->nPoints() + pointX) * 1.E-6;;
    //o  deviY = *((deviFromFile->deviationsInY().begin()) + pointY*deviFromFile->nPoints() + pointX) * 1.E-6;
 
    //---------- Set this deviation value as original one, as it will not be changed for derivatives (change the entry and also the ExtraEntryValueOriginalList())
    ALIuint entryNo = extraEntryNo("deviX");
    if (verbose >= 3)
      std::cout << "entrynox" << entryNo << name() << verbose << std::endl;
    Entry* entryDeviX = *(ExtraEntryList().begin() + entryNo);
    entryDeviX->setValue(deviX);
    //-    std::vector< ALIdouble >::const_iterator eevolite = static_cast<std::vector< ALIdouble >::iterator>( ExtraEntryValueOriginalList().begin() );
    std::vector<ALIdouble> eevil = ExtraEntryValueOriginalList();
    //-    std::vector< ALIdouble >::const_iterator eevolite = ( ExtraEntryValueOriginalList().begin() );
    std::vector<ALIdouble>::iterator eevolite = eevil.begin();
 
    *(eevolite + entryNo) = deviX;
    if (verbose >= 3)
      std::cout << " entryDeviX name " << entryDeviX->name() << entryDeviX->value() << std::endl;
    entryNo = extraEntryNo("deviY");
    Entry* entryDeviY = *(ExtraEntryList().begin() + entryNo);
    //- std::cout << "entrynoy" << entryNo << name() << std::endl;
    entryDeviY->setValue(deviY);
    *(eevolite + entryNo) = deviY;
    //-  std::cout<< entryDeviY << " entryDeviY name " << entryDeviY->name() << entryDeviY->value() << std::endl;
 
  } else {
    deviX = findExtraEntryValue("deviX");
    deviY = findExtraEntryValue("deviY");
 
    //??? why previous does not work??
    if (fdevi_from_file) {
      if (ALIUtils::debug >= 5)
        std::cout << "fdeviFromFile" << fdevi_from_file << std::endl;
      ALIuint entryNo = extraEntryNo("deviX");
      Entry* entryDeviX = *(ExtraEntryList().begin() + entryNo);
      if (verbose >= 3)
        std::cout << entryDeviX << " entryDeviX name " << entryDeviX->name() << entryDeviX->value() << std::endl;
      deviX = entryDeviX->value();
      entryNo = extraEntryNo("deviY");
      Entry* entryDeviY = *(ExtraEntryList().begin() + entryNo);
      if (verbose >= 3)
        std::cout << entryDeviY << " entryDeviY name " << entryDeviY->name() << entryDeviY->value() << std::endl;
      deviY = entryDeviY->value();
 
    } else {
      ALIbool bb = findExtraEntryValueIfExists("devi", devi);
      if (bb) {
        deviX = devi;
        deviY = devi;
      }
      if (ALIUtils::debug >= 4) {
        std::cout << "devi " << devi << " devi x  " << deviX << " devi y  " << deviY << std::endl;
      }
    }
  }
  if (ALIUtils::debug >= 4) {
    std::cout << " devi x  " << deviX << " devi y  " << deviY << std::endl;
  }
 
  lightray.setPoint(inters);
 
  lightray.shiftAndDeviateWhileTraversing(this, 'T');
  if (ALIUtils::debug >= 2) {
    lightray.dumpData("Shifted and Deviated");
  }
}

References DeviationsFromFileSensor2D::apply(), gather_cfg::cout, ALIUtils::debug, hgcalPerformanceValidation::df, LightRay::dumpData(), Exception, cuy::ii, LightRay::intersect(), ALIUtils::LengthValueDimensionFactor(), Model::MeasurementList(), Skims_PA_cff::name, LightRay::point(), LightRay::setPoint(), LightRay::shiftAndDeviateWhileTraversing(), Measurement::value(), and verbose.

fillExtraEntry()

void OptOSensor2D::fillExtraEntry ( std::vector< ALIstring > &  wordlist )

overridevirtual

Reimplemented from OpticalObject.

Definition at line 302 of file OptOSensor2D.cc.

                                                                {
  if (ALIUtils::debug >= 5)
    std::cout << "OptOSensor2D fillExtraEntry wordlist[1] " << wordlist[1] << std::endl;
  //---------- check if it is deviation read from file
  fdevi_from_file = false;
  //-  std::cout << "WL " << wordlist[1]<< "WL " << wordlist[2]<< "WL " << wordlist[3] << std::endl;
  if (wordlist[1] == ALIstring("devi") && wordlist[2] == ALIstring("from_file")) {
    //---------- Open file
    ALIstring fnam;
    if (wordlist.size() >= 4) {
      fnam = wordlist[3];
    } else {
      //----- Build up file name if it does not exists
      fnam = "dat/devi-";
      fnam += shortName();
      fnam += ".dat";
    }
 
    ALIFileIn& ifdevi = ALIFileIn::getInstance(fnam);
 
    //----- Check that file exists
    if (ALIUtils::debug >= 4)
      std::cout << "Opening deviation file: " << fnam << std::endl;
    /*-    if( !ifdevi ) {
      std::cerr << " !!! Sensor2D Deviation file not found: " << fnam << " of object " << name() << std::endl;
      exit(1);
      }*/
 
    deviFromFile = new DeviationsFromFileSensor2D();
    fdevi_from_file = true;
    if (ALIUtils::debug >= 5)
      std::cout << "deviFromFile " << deviFromFile << std::endl;
    //----- Read header
    ALIstring sensor1_name, sensor2_name;
    ALIdouble sensor_dist;
    ALIdouble prec_deviX, prec_deviY;
 
    std::vector<ALIstring> wl;
    ifdevi.getWordsInLine(wl);
    sensor1_name = wl[0];
    sensor2_name = wl[1];
    sensor_dist = atof(wl[2].c_str());
    // 'c' means that light is traversing the glass
    if (sensor1_name[sensor1_name.size() - 2] == 'c') {
      sensor1_name = sensor1_name.substr(0, sensor1_name.size() - 1);
    }
    if (sensor2_name[sensor2_name.size() - 2] == 'c') {
      sensor2_name = sensor2_name.substr(0, sensor2_name.size() - 1);
    }
    if (ALIUtils::debug >= 5)
      std::cout << "sensor1_name " << sensor1_name << " sensor2_name " << sensor2_name << " sensor_dist " << sensor_dist
                << " unknown " << wl[3] << std::endl;
 
    ifdevi.getWordsInLine(wl);
    prec_deviX = atof(wl[0].c_str());
    prec_deviY = atof(wl[1].c_str());
 
    if (ALIUtils::debug >= 5)
      std::cout << "prec_deviX " << prec_deviX << " prec_deviY " << prec_deviY << std::endl;
 
    deviFromFile = new DeviationsFromFileSensor2D();
    ALIdouble offsetX, offsetY;
    if (wl.size() == 5) {
      offsetX = ALIUtils::getFloat(wl[3]);
      offsetY = ALIUtils::getFloat(wl[4]);
      deviFromFile->setOffset(offsetX, offsetY);
    }
    deviFromFile->readFile(ifdevi);
    fdevi_from_file = true;
    if (ALIUtils::debug >= 5)
      std::cout << "deviFromFile " << deviFromFile << std::endl;
 
    //--- Fill extra entries 'deviX' & 'deviY' to compute derivatives
    std::vector<ALIstring> wlo;
    char chartmp[20];
    wlo.push_back(wordlist[0]);
    wlo.push_back("deviX");
    wlo.push_back("0");  // value is set to 0 as it is on the file and the point of intersection is not computed yet
    gcvt(prec_deviX, 10, chartmp);
    wlo.push_back(ALIstring(chartmp));
    wlo.push_back("cal");
    std::vector<ALIstring> wl2(wlo);
    OpticalObject::fillExtraEntry(wlo);
 
    wl2[1] = "deviY";
    gcvt(prec_deviY, 10, chartmp);
    wl2[3] = ALIstring(chartmp);
    OpticalObject::fillExtraEntry(wl2);
 
  } else {
    OpticalObject::fillExtraEntry(wordlist);
  }
}

References gather_cfg::cout, ALIUtils::debug, OpticalObject::fillExtraEntry(), ALIUtils::getFloat(), ALIFileIn::getInstance(), ALIFileIn::getWordsInLine(), and LaserClient_cfi::wl.

makeMeasurement()

void OptOSensor2D::makeMeasurement ( LightRay &  lightray, Measurement &  meas  )

overridevirtual

Reimplemented from OpticalObject.

Definition at line 40 of file OptOSensor2D.cc.

                                                                        {
  //---------- check is last and not the only one
  /*    if( vocite - OptOList().begin() == 0 ||
    OptOList().end() - vocite != 1) {
    std::cerr << " last and not only one Optical Object should be 'sensor2D' (unless you specify (:T)raverse) " <<
    OptOList().end() - vocite << " size " <<OptOList().size() << std::endl;
    DumpBadOrderOptOs(); 
    }*/
 
  //---------- Get simulated value
  //---------- Get intersection
  CLHEP::Hep3Vector ZAxis(0., 0, 1.);
  CLHEP::HepRotation rmt = rmGlob();
  ZAxis = rmt * ZAxis;
  if (ALIUtils::debug >= 4) {
    ALIUtils::dump3v(centreGlob(), " sensor2D centre Glob ");
    ALIUtils::dump3v(ZAxis, " snsor2D normal ");
  }
  //-  ALIUtils::dumprm( rmt, "rot global " );
  lightray.intersect(ALIPlane(centreGlob(), ZAxis));
  CLHEP::Hep3Vector inters = lightray.point();
 
  ALIdouble* interslc;
  interslc = convertPointToLocalCoordinates(inters);
  ALIdouble interslcx = interslc[0];
  ALIdouble interslcy = interslc[1];
  meas.setValueSimulated(0, interslcx);
  meas.setValueSimulated(1, interslcy);
 
  //----- Dump info
  if (ALIUtils::debug >= 2) {
    //--- Special for range studies
    ALIstring chrg = "";
    /*t    if(Model::Ncmslinkrange >= 1 && Model::Ncmslinkrange <= 8 ) {
      chrg = "RG";
    } else {
      chrg = "";
      } t*/
    CLHEP::Hep3Vector measvv(meas.value()[0], meas.value()[1], 0.);
    measvv = rmt * measvv;
    ALIUtils::dump3v(measvv, " $$$$$$MEAS IN LOCAL FRAME");
    ALIUtils::dump3v(measvv + centreGlob(), " $$$$$$MEAS IN GLOBAL FRAME");
 
    ALIdouble detH = 1000 * meas.valueSimulated(0);
    if (std::abs(detH) <= 1.e-9)
      detH = 0.;
    ALIdouble detV = 1000 * meas.valueSimulated(1);
    if (std::abs(detV) <= 1.e-9)
      detV = 0.;
    std::cout << "REAL value: " << chrg << meas.valueType(0) << ": " << 1000 * meas.value()[0] << chrg << " "
              << meas.valueType(1) << ": " << 1000 * meas.value()[1] << " (mm)  " << (this)->name()
              << "   DIFF= " << detH - 1000 * meas.value()[0] << " " << detV - 1000 * meas.value()[1] << std::endl;
    std::cout << "SIMU value: " << chrg << " " << meas.valueType(0)
              << ": "
              // << setprecision(3) << setw(4)
              << detH << chrg << " " << meas.valueType(1) << ": " << detV << " (mm)  " << (this)->name() << std::endl;
    /*-    std::cout << "SIMU value: " << chrg << " " << meas.valueType(0) << ": "
      // << setprecision(3) << setw(4)
              << detH / 0.3125
          << chrg << " " << meas.valueType(1) << ": " << detV / 0.3125
          << " STRIPS  " << (this)->name() << std::endl; */
    //   << detH
    //   << chrg << " V: " << detV
    //   << " (mm)  " << (this)->name() << std::endl;
    ALIUtils::dump3v(1000. * (inters - parent()->centreGlob()), " $$$$$$SIMU inters - parent centre");
    ALIUtils::dump3v(1000. * (inters - centreGlob()), " $$$$$$SIMU inters - centre");
  }
  //t    delete &lightray;
 
  // store the lightray position and direction
  meas.setLightRayPosition(lightray.point());
  meas.setLightRayDirection(lightray.direction());
 
  delete[] interslc;
}

References funct::abs(), gather_cfg::cout, ALIUtils::debug, LightRay::direction(), ALIUtils::dump3v(), MillePedeFileConverter_cfg::e, LightRay::intersect(), Skims_PA_cff::name, class-composition::parent, LightRay::point(), Measurement::setLightRayDirection(), Measurement::setLightRayPosition(), Measurement::setValueSimulated(), Measurement::value(), Measurement::valueSimulated(), and Measurement::valueType().

Member Data Documentation

deviFromFile

DeviationsFromFileSensor2D* OptOSensor2D::deviFromFile

private

Definition at line 50 of file OptOSensor2D.h.

fdevi_from_file

ALIbool OptOSensor2D::fdevi_from_file

private

Definition at line 51 of file OptOSensor2D.h.