DTTracoChip Class Reference

#include <DTTracoChip.h>

Public Member Functions
void	add_btiT (int step, int pos, const DTBtiTrigData *btitrig)
	Add a BTI trigger to the TRACO. More...
void	addTrig (int step, DTTracoTrig *)
	Add a TRACO trigger. More...
int	BTIC () const
	BTIC parameter. More...
void	calculateAngles (DTTracoTrig *)
	Calculate trigger angles. More...
void	clear ()
	Clear. More...
GlobalPoint	CMSPosition () const
	Position in CMS frame. More...
DTConfigTraco *	config () const
	Configuration set. More...
int	DD () const
	DD parameter. More...
	DTTracoChip (DTTracoCard *card, int n, DTConfigTraco *config)
	Constructor. More...
	DTTracoChip (const DTTracoChip &traco)
	Copy constructor. More...
int	edgeBTI (int step, int io, int lr) const
	flags for HTRIG in edge BTI More...
DTTrigGeom *	geom () const
	Return trigger geometry. More...
int	IBTIOFF () const
	IBTIOFF parameter. More...
DTTracoId	id () const
	Return TRACO id. More...
int	KRad () const
	K par of the radial angle of corr center referred to plane sl. More...
LocalPoint	localPosition () const
	Position in chamber frame. More...
int	nTrig (int step) const
	Return the number of trigger candidates. More...
int	number () const
	Return TRACO number. More...
DTTracoChip &	operator= (const DTTracoChip &traco)
	Assignment operator. More...
int	ovlFlag (int step)
	return overlap flag More...
float	psiRad (int sl=0) const
	Radial angle of correlator center in mrad referred to plane sl. More...
void	raiseOverlap (int step)
	raise overlap flag More...
void	run ()
	Run TRACO algorithm. More...
int	sector () const
	Return sector number. More...
void	setFlag (int step, int ext=0)
	Set flags for multiple trigger detection between cons. TRACO's. More...
void	setPV (int step, int ntrk, int code, int K)
	Set the preview values for a TRACO trigger. More...
int	station () const
	Return station number. More...
DTTracoTrig *	trigger (int step, unsigned n) const
	Return the requested trigger. More...
DTTracoTrigData	triggerData (int step, unsigned n) const
	Return the data part of the requested trigger. More...
int	useSecondTrack (int step) const
	a flag for a usable second track More...
int	wheel () const
	Return wheel number. More...
	~DTTracoChip ()
	Destructor. More...

Private Member Functions
int	AdjBtiLTSuppressed (DTTracoCand *candidate)
	Do suppression of LTRIG on adjacent TRACO. More...
DTTracoCand *	bestCand (int itk, std::vector< DTTracoCand > &tclist)
	Get the best inner/outer candidate. More...
void	DoAdjBtiLts (DTTracoCand *candidate, std::vector< DTTracoCand > &tclist)
	Do suppression of LTRIG on BTI close to selected HTRIG. More...
int	insideAngWindow (DTTracoTrig *) const
	Check if a trigger is inside the angular acceptance window. More...
DTTracoTrig *	setPV (int itk, DTTracoCand *inner, DTTracoCand *outer)
	Set the preview for a trigger. More...
void	setTracoAcceptances ()
	Compute traco chip acceptances. More...
int	storeCorr (DTTracoTrig *tctrig, DTTracoCand *inner, DTTracoCand *outer, int tkn)
	Check correlation and store correlated trigger. More...
int	storeUncorr (DTTracoTrig *tctrig, DTTracoCand *inner, DTTracoCand *outer, int tkn)
	Store uncorrelated trigger. More...

Private Attributes
int	_btic
BitArray< DTConfigTraco::NSTEPL+2 >	_bxlts
DTTracoCard *	_card
DTConfigTraco *	_config
int	_dd
BitArray< 32 >	_flag [DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]
DTTrigGeom *	_geom
int	_ibtioff
DTTracoId	_id
std::vector< DTTracoCand >	_innerCand [DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]
int	_krad
DTTracoLUTs *	_luts
Lut *	_lutsCCB
std::vector< DTTracoCand >	_outerCand [DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]
int	_PSIMAX [4 *DTConfig::NBTITC]
int	_PSIMIN [4 *DTConfig::NBTITC]
std::vector< DTTracoTrig * >	_tracotrig [DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]

Detailed Description

Implementation of TRACO trigger algorithm. Internally uses DTTracoCand to store BTI triggers

Author

S. Vanini

Definition at line 53 of file DTTracoChip.h.

Constructor & Destructor Documentation

DTTracoChip::DTTracoChip	(	DTTracoCard *	card,
		int	n,
		DTConfigTraco *	config
	)

Constructor.

Constructor for passing configuration

Definition at line 47 of file DTTracoChip.cc.

References _btic, _bxlts, _card, _flag, _geom, _ibtioff, _id, _innerCand, _krad, _luts, _lutsCCB, _outerCand, _tracotrig, DTConfigTraco::BTIC(), DTTrigGeom::cellPitch(), CMSPosition(), config(), DTTracoCard::config_luts(), gather_cfg::cout, debug, DTSuperLayerId, DTGeomSupplier::geom(), i, DTConfigTraco::KRAD(), KRad(), DTTrigGeom::localPosition(), DTTracoCard::lutFromDBFlag(), n, DTConfig::NBTITC, DTConfig::NSTEPF, DTConfig::NSTEPL, DTTrigGeom::phiSLOffset(), psiRad(), DTChamberId::sector(), setTracoAcceptances(), DTTrigGeom::statId(), DTChamberId::station(), DTChamberId::wheel(), x, and BitArray< N >::zero().

                                                                      :
                                _card(card), _config(conf) {

  _geom = _card->geom();

  // n=traco number 1,2,...
  if(config()->debug()==4){
    std::cout << "DTTracoChip constructor called for TRACO number " << n << std::endl;
  }

  // set acceptances from CMSSW geometry
  setTracoAcceptances();
  
  // reserve the appropriate amount of space for vectors
  int i=0;
  for(i=0;i<DTConfigTraco::NSTEPL - DTConfigTraco::NSTEPF;i++) {
    _innerCand[i].reserve(DTConfigTraco::NBTITC);
    _outerCand[i].reserve(3*DTConfigTraco::NBTITC);
    _tracotrig[i].reserve(2);
  }
 
  // the identifier
  DTChamberId sid = _geom->statId();
  _id = DTTracoId(sid,n);
 
  // Flags for LTS
  _bxlts.zero();
  for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
    _flag[is].zero();
  }

  // debugging
  if(config()->debug()==4){
    std::cout << "CMS position:" << CMSPosition() << std::endl;
    std::cout << " psiRad=" << psiRad() << " KRad=" << KRad() << std::endl;
  }

  //init traco parameters from traco config file
  _krad = config()->KRAD();
  _btic=config()->BTIC(); 

  //offset from geometry (x1-x3 FE view): converted from cm to ST units (0.9999 for rounding)
  _ibtioff=static_cast<int>(config()->BTIC()/(_geom->cellPitch())*(_geom->phiSLOffset()/0.9999));  

  // 091030 SV lut parameters from DB
  // SV 08/12/12 : added flag for computing luts from DB parameters
  if( _card->lutFromDBFlag()==1 )
  {
    //int board = int( (n-1)/4 );
    //int traco = int(fmod( double(n-1),4.));
    // 110208 SV for TRACO hardware bug included SL_shift
    // SL shift
    float xBTI1_3   = _geom->localPosition( DTBtiId(DTSuperLayerId(sid.wheel(),sid.station(),sid.sector(),3),1) ).x();
    float xBTI1_1   = _geom->localPosition( DTBtiId(DTSuperLayerId(sid.wheel(),sid.station(),sid.sector(),1),1) ).x();
    float SL_shift  = xBTI1_3 - xBTI1_1;

    _lutsCCB = new Lut(_card->config_luts(),n,SL_shift);
    _luts = 0;
  }
  else
  //this is always the case with new DTConfig SV 15/I/2007
  //if( config()->trigSetupGeom()==0 ){
  {
    _luts = 0;
    _lutsCCB = 0;
  }
/*
  //SV 21/V/03 for testbeam purpose: parameters from hardware setup
  if(config()->trigSetupGeom()==1){
    //init traco parameters
    _dd=config()->DD();
    _krad=config()->KRAD();
    _btic=config()->BTIC();
    _ibtioff=config()->IBTIOFF();

    //const char* testfile = "traco";   //FIXTB 
    std::string  testfile = "traco_";
    int it = number() - 4 - 1;
    if(it<10)
      testfile += it+'0';
    if(it>9){
      testfile += int(float(it)/10.0) + '0';                //add decimal char
      testfile += int(fmod(float(it),float(10))) + '0';     //add unit char
    }

    //const char* name = testfile;
    if(config()->debug()==4)
      std::cout << "Loading " << testfile << " luts for traco " << number() << std::endl;
    _luts = new DTTracoLUTs(testfile);
    _luts->reset();
    _luts->load();
    if(config()->debug()==4)
      _luts->print();
  }//end hardware setup

  //TB 2004 setup : luts from minicrate ccb equations
  if(config()->trigSetupGeom()==2){
    int board = int( (n-1)/4 );
    int traco = fmod( double(n-1),4. );
    _lutsCCB = new Lut(sid.station(),board,traco);
    // 091030 SV this constructur is obsolete now, use setForTestBeam instead
  }//end TB2004
*/
}

DTTracoChip::DTTracoChip

(

const DTTracoChip &

traco

)

Copy constructor.

Definition at line 153 of file DTTracoChip.cc.

References _bxlts, _flag, _innerCand, _outerCand, _tracotrig, i, DTConfig::NBTITC, DTConfig::NSTEPF, DTConfig::NSTEPL, AlCaHLTBitMon_ParallelJobs::p, and p1.

                                                 : 
  _geom(traco._geom), _id(traco._id), _card(traco._card), _luts(traco._luts) {
  int i=0;
  for(i=0;i<DTConfigTraco::NSTEPL - DTConfigTraco::NSTEPF;i++) {
    _innerCand[i].reserve(DTConfigTraco::NBTITC);
    std::vector<DTTracoCand>::const_iterator p;
    for(p=traco._innerCand[i].begin();p<traco._innerCand[i].end();p++) {
      _innerCand[i].push_back(*p);
    }
    _outerCand[i].reserve(3*DTConfigTraco::NBTITC);
    for(p=traco._outerCand[i].begin();p<traco._outerCand[i].end();p++) {
      _outerCand[i].push_back(*p);
    }
    _tracotrig[i].reserve(2);
    std::vector<DTTracoTrig*>::const_iterator p1;
    for(p1=traco._tracotrig[i].begin();p1<traco._tracotrig[i].end();p1++) {
      _tracotrig[i].push_back(*p1);
    }
  }
  _bxlts = traco._bxlts;
  for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
    _flag[is] = traco._flag[is];
  }

}

DTTracoChip::~DTTracoChip

(

)

Destructor.

Definition at line 183 of file DTTracoChip.cc.

References _card, _lutsCCB, clear(), and DTTracoCard::lutFromDBFlag().

                         {
  clear();
  /*
  if(config()->trigSetupGeom()==1){
    _luts->reset();
    delete _luts;
  }

  if(config()->trigSetupGeom()==2)
    delete _lutsCCB;
  */

  if( _card->lutFromDBFlag()==1 )
    delete _lutsCCB;

}

Member Function Documentation

void DTTracoChip::add_btiT	(	int	step,
		int	pos,
		const DTBtiTrigData *	btitrig
	)

Add a BTI trigger to the TRACO.

Definition at line 990 of file DTTracoChip.cc.

References _bxlts, _card, _id, _innerCand, _outerCand, _PSIMAX, _PSIMIN, DTBtiTrigData::code(), config(), gather_cfg::cout, debug, DTConfigTraco::debug(), BitArray< N >::element(), DTBtiTrigData::K(), DTConfig::NBTITC, DTConfig::NSTEPF, DTConfig::NSTEPL, number(), DTBtiTrigData::print(), BitArray< N >::set(), relval_parameters_module::step, DTTracoId::traco(), and DTTracoCard::useAcceptParamFlag().

Referenced by DTTracoCard::loadTRACO().

                                                                     {

  if(pos<1 || pos>4*DTConfigTraco::NBTITC) {
    std::cout << "DTTracoChip::add_btiT: wrong position: " << pos;
    std::cout << "trigger not added!" << std::endl;
    return;
  }
  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
    std::cout << "DTTracoChip::add_btiT: step out of range: " << step;
    std::cout << "trigger not added!" << std::endl;
    return;
  }

  if(!config()->usedBti(pos)) {
    if(config()->debug()==4){
      std::cout << "DTTracoChip::add_btiT: position: " << pos;
      std::cout << "has disconnected bti" << std::endl;
    }
    return;
  }


  // 091103 SV: acceptances are taken from geometry if useAcceptParam()=false
  // otherwise cuts based on LL,LH,CL,CH,RL,RH taken from  configuration are applied in TracoCard::loadTraco 
  if(_card->useAcceptParamFlag()==false) {
    // check K inside acceptance
    if(btitrig->K()<_PSIMIN[pos-1] || btitrig->K()>_PSIMAX[pos-1] ) {
      if(config()->debug()>1){
        std::cout << "In TRACO num. " << number() << " BTI trig. in pos " << pos << " outside K acceptance (";
        std::cout << _PSIMIN[pos-1] << "-->";
        std::cout << _PSIMAX[pos-1] << ") - Not added" << std::endl;
      }
      return;
    }
  } 

  // Store trigger candidate
  if(pos<=DTConfigTraco::NBTITC){
    _innerCand[step-DTConfigTraco::NSTEPF].push_back(
      DTTracoCand(this,btitrig,pos,step));
  } else {
    _outerCand[step-DTConfigTraco::NSTEPF].push_back(
      DTTracoCand(this,btitrig,pos,step));
  }

  // Fill array for BX LTS
  if(btitrig->code()==8){
    for(int is=step-4;is<step;is++){       // set flag for 4 previous BX
      if(is>0&&is<=DTConfigTraco::NSTEPL) _bxlts.set(is);
    }
    //SV 1/IV/04 BUG FIX
    _bxlts.set(step+1);
    // Debugging
    if(config()->debug()==4)
      for(int is=0;is<DTConfigTraco::NSTEPL;is++)
       std::cout<<"_bxlts["<<is<<"]="<<_bxlts.element(is)<<std::endl;
  }

  // Debugging
  if(config()->debug()>1){
    std::cout << "BTI Trigger added at step " << step;
    std::cout << " to TRACO " << _id.traco() << " at position " << pos << std::endl;
    btitrig->print();
  } // End debugging

}

void DTTracoChip::addTrig	(	int	step,
		DTTracoTrig *	tctrig
	)

Add a TRACO trigger.

Definition at line 1059 of file DTTracoChip.cc.

References _tracotrig, config(), gather_cfg::cout, debug, DTConfig::NSTEPF, DTConfig::NSTEPL, DTTracoTrig::print(), and relval_parameters_module::step.

Referenced by run(), and DTTracoCard::storeTrigger().

                                                  {
  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
    std::cout << "DTTracoChip::addTrig: step out of range: " << step;
    std::cout << " trigger not added!" << std::endl;
    return;
  }
  _tracotrig[step-DTConfigTraco::NSTEPF].push_back(tctrig);

  // Debugging...

  if(config()->debug()==4){
    std::cout << "DTTracoChip::addTrig: adding trigger:"<< std::endl; 
    tctrig->print();
  }
  // End debugging

}

int DTTracoChip::AdjBtiLTSuppressed ( DTTracoCand *  candidate )

private

Do suppression of LTRIG on adjacent TRACO.

Definition at line 554 of file DTTracoChip.cc.

References _flag, DTTracoCand::BtiTrig(), DTBtiTrigData::code(), BitArray< N >::element(), DTConfig::NBTITC, DTConfig::NSTEPF, DTTracoCand::position(), and DTTracoCand::step().

Referenced by bestCand().

                                                      {
  // If requested, do suppression of LTRIG on adjacent BTI -> obsolete!
  //if(!(config()->adjBtiLts()) && candidate->BtiTrig()->code()<8) {
  //SV: Ltrig always suppressed in hardware if Htrig in adj traco!
    if(candidate->BtiTrig()->code()<8) {
      if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(3) &&
        candidate->position()==1 )                                   return 1;
      if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(4) &&
        candidate->position()==DTConfigTraco::NBTITC )                return 1;
      if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(5) &&
        candidate->position()== DTConfigTraco::NBTITC+1)              return 1;
      if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(6) &&
        candidate->position()==DTConfigTraco::NBTITC*4 )              return 1;
    }
  //}
  return 0;
}

DTTracoCand * DTTracoChip::bestCand ( int  itk, std::vector< DTTracoCand > &  tclist  )

private

Get the best inner/outer candidate.

Definition at line 471 of file DTTracoChip.cc.

References AdjBtiLTSuppressed(), config(), gather_cfg::cout, DTConfigTraco::debug(), i, AlCaHLTBitMon_ParallelJobs::p, DTConfigTraco::prefHtrig(), and DTConfigTraco::sortKascend().

Referenced by run().

                                                              {

  // Return if no candidates
  if(tclist.size()<1) return 0;

  // stl function: sort in Ktc ascending or descending order according 
  // to user request comparing by default with user-defined <
  // NB don't reverse if candidates are two with same K
  stable_sort( tclist.begin(),tclist.end() ); //0=K ascending, 1=K descending
  if(config()->sortKascend(itk) &&
     !(tclist.size()==2 && tclist[0].K()==tclist[1].K()) ) {
     reverse( tclist.begin(),tclist.end() );
     if(config()->debug()==4)
       std::cout << "Reversing order of sorted candidate list..." << std::endl;
  }

  /*
  if(!config()->sortKascend(itk)){
    stable_sort( tclist.begin(),tclist.end(),DTTracoCand::closer );
  } else {
    stable_sort( tclist.begin(),tclist.end(),DTTracoCand::wider );
  }
 */

 // debugging...
 if(config()->debug()==4){
    std::cout << "DTTracoChip::findBest - Looking for track number " << itk+1 << std::endl ;
    std::cout << "Sorted std::vector of usable track candidates is:" << std::endl;
    int i = 1;
    for(std::vector<DTTracoCand>::iterator p=tclist.begin();p<tclist.end();p++){
      if((*p).usable()){
        std::cout << " DTTracoChip Candidate # " << i++;
        (*p).print();
      }
    }
    std::cout << "--------------------------------------------------" << std::endl;
  }
  // end debugging

  // return the best candidate
  int i=0;
  DTTracoCand* bestltrig = 0;
  std::vector<DTTracoCand>::iterator p;
  for ( p = tclist.begin(); p < tclist.end(); ++p ) {
    i++;
    // candidate must be usable and not suppressed by LTS
    if(AdjBtiLTSuppressed(&(*p))) 
      if(config()->debug()==4) 
        std::cout << "Candidate # " << i << " supp. because next to H in adiacent Tracos" << std::endl;
    if ( (*p).usable() && !AdjBtiLTSuppressed(&(*p)) ) {
      // check if preference to HTRIG is set and return first trigger
      if( !config()->prefHtrig(itk) ) return &(*p);
      if( (*p).BtiTrig()->code()==8 ) return &(*p);
      if( bestltrig==0 ) bestltrig=&(*p);
    }
  }
  return bestltrig;

}

int DTTracoChip::BTIC ( ) const

inline

BTIC parameter.

Definition at line 125 of file DTTracoChip.h.

References _btic.

Referenced by DTTracoCand::DTTracoCand(), storeCorr(), and storeUncorr().

{ return _btic; }

void DTTracoChip::calculateAngles

(

DTTracoTrig *

tct

)

Calculate trigger angles.

Definition at line 1210 of file DTTracoChip.cc.

References _card, _geom, _lutsCCB, DTTracoTrig::ChamberId(), DTGeomSupplier::CMSPosition(), config(), gather_cfg::cout, DTTracoTrig::data(), debug, archive::flag, Lut::get_k(), Lut::get_x(), DTTracoTrig::K(), DTTracoCard::localDirection(), DTTracoCard::lutFromDBFlag(), M_PI, PV3DBase< T, PVType, FrameType >::phi(), DTTrigGeom::phiCh(), DTTracoTrig::print(), DTTracoTrigData::qdec(), DTConfigTraco::RESOLPSI, DTConfigTraco::RESOLPSIR, DTChamberId::sector(), DTTracoTrig::setAngles(), getDQMSummary::td, DTChamberId::wheel(), PV3DBase< T, PVType, FrameType >::x(), DTTracoTrig::X(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by storeCorr(), and storeUncorr().

                                             {

  int ipsi=0;
  int iphir=0;
  int idpsir=0; 
/* obsolete  
  //TB 2004 luts formula from minicrate CCB
  if( config()->trigSetupGeom()==2 ){
    ipsi = _lutsCCB->get_k( (tct->K()+511) );

    int flag = 0;
    int qual=tct->data().qdec();
    if(qual==3 || qual==1)                //case 0:outer
      flag=0;
    if(qual==2 || qual==0)                //case 1:inner
      flag=1;
    if(qual==6 || qual==5 || qual==4)     //case 2:correlated
      flag=2;

    iphir = _lutsCCB->get_x( (tct->X()+512*flag) );

    idpsir = ipsi - iphir/8;
  }

 //TB 2003 luts data format
 if( config()->trigSetupGeom()==1 ){
    //compute bending angles of traco output with lookup tables
    //SV TB2003: first trigger board isn't connected;
    ipsi = _luts->getPsi(tct->K());  
    int flag = 0;
    int qual=tct->data().qdec();
    if(qual==3 || qual==1)                //case 0:outer
      flag=0;  
    if(qual==2 || qual==0)                //case 1:inner
      flag=1;  
    if(qual==6 || qual==5 || qual==4)     //case 2:correlated
      flag=2;  
    iphir = _luts->getPhiRad( tct->X(), flag);
    idpsir = _luts->getBendAng( tct->X(), tct->K(), flag);
  }
 */

  // 091030 SV angles computed from DB lut parameters
  if( _card->lutFromDBFlag()==1 )
  {
    ipsi = _lutsCCB->get_k( (tct->K()+512) );

    int flag = 0;
    int qual=tct->data().qdec();
    if(qual==3 || qual==1)                //case 0:outer
      flag=0;
    if(qual==2 || qual==0)                //case 1:inner
      flag=1;
    if(qual==6 || qual==5 || qual==4)     //case 2:correlated
      flag=2;

    iphir = _lutsCCB->get_x( (tct->X()+512*flag) );

    idpsir = ipsi - iphir/8;
  }
  else
  // compute angles from CMSSW geometry 
  //if( config()->trigSetupGeom()==0 )
  {
    DTTracoTrigData td = tct->data();
    // psi
    //  float fpsi = atan( (float)(tct->K()) * _geom->cellPitch() / 
    //           (_geom->distSL() * config()->ST()) );
    float fpsi = atan( _card->localDirection(&td).x() /   // e.g. x>0 and
                     _card->localDirection(&td).z() );    //      z<0 => fpsi<0

    // Change sign in case of wheel<0 or wheel==0 and station == 1,4,5,8,9,12
    int mywh = tct->ChamberId().wheel();
    if (mywh<0   ||
    (mywh==0 && (tct->ChamberId().sector()%4)<2))
      fpsi = -fpsi;
    
    fpsi*=DTConfigTraco::RESOLPSI;
    if(fpsi<=0)
      fpsi-=1.0;
    ipsi = (int)fpsi;
    // if outside range set to lower edge
    if( ipsi>= DTConfigTraco::RESOLPSI || ipsi< -DTConfigTraco::RESOLPSI ) 
      ipsi=-DTConfigTraco::RESOLPSI;


    // psi_r
    float fpsir = _card->CMSPosition(&td).phi()-_geom->phiCh();

    if(fpsir<-M_PI)
      fpsir+=M_PI*2;
    if(fpsir>M_PI)
      fpsir-=M_PI*2;
    fpsir*=DTConfigTraco::RESOLPSIR;
    if(fpsir<=0)
      fpsir-=1.0;
    iphir = (int)fpsir;
    // if outside range set to lower edge
    if( iphir>= DTConfigTraco::RESOLPSIR/2 || iphir <-DTConfigTraco::RESOLPSIR/2 ) 
      iphir=-DTConfigTraco::RESOLPSIR/2;

    // Delta(psi_r)
    int dpsir = (iphir*DTConfigTraco::RESOLPSI) / DTConfigTraco::RESOLPSIR;
    idpsir = ipsi-dpsir;
    // if outside range set to lower edge
    if(idpsir>= DTConfigTraco::RESOLPSI || idpsir <-DTConfigTraco::RESOLPSI ) 
      idpsir=-DTConfigTraco::RESOLPSI;
  }
  
  tct->setAngles(ipsi,iphir,idpsir);

  // debugging
  if(config()->debug()==4){
    std::cout << "DTTracoChip::calculateAngles :" << std::endl;
    tct->print();
    std::cout << std::dec << "K = " << tct->K() << " X = " << tct->X(); 
    std::cout << " ipsi = " << ipsi << " iphir = " << iphir;
    std::cout << " idpsir = " << idpsir << std::endl;
    if( _card->lutFromDBFlag()==1 )
      std::cout << "Angles are calculated from LUT parameters from DB!" << std::endl; 
  }// end debugging

}

void DTTracoChip::clear

(

void

)

Clear.

Definition at line 237 of file DTTracoChip.cc.

References _bxlts, _flag, _innerCand, _outerCand, _tracotrig, begin, DTConfig::NSTEPF, DTConfig::NSTEPL, p1, and BitArray< N >::zero().

Referenced by ~DTTracoChip().

                   {

  std::vector<DTTracoTrig*>::iterator p1;
  for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
    for(p1=_tracotrig[is].begin();p1<_tracotrig[is].end();p1++){
      delete (*p1);
    }
    _tracotrig[is].clear();
    _innerCand[is].clear();
    _outerCand[is].clear();
    _flag[is].zero();
  }
  _bxlts.zero();
}

GlobalPoint DTTracoChip::CMSPosition ( ) const

inline

Position in CMS frame.

Definition at line 152 of file DTTracoChip.h.

References _geom, _id, and DTTrigGeom::CMSPosition().

Referenced by DTTracoChip().

{ return _geom->CMSPosition(_id); }

DTConfigTraco* DTTracoChip::config ( void  ) const

inline

Configuration set.

New Configuration set

Definition at line 115 of file DTTracoChip.h.

References _config.

Referenced by add_btiT(), addTrig(), bestCand(), calculateAngles(), DoAdjBtiLts(), DTTracoChip(), insideAngWindow(), run(), setFlag(), setPV(), setTracoAcceptances(), storeCorr(), and storeUncorr().

{ return _config; }

int DTTracoChip::DD ( ) const

inline

DD parameter.

Definition at line 131 of file DTTracoChip.h.

References _dd.

{ return _dd; }

void DTTracoChip::DoAdjBtiLts ( DTTracoCand *  candidate, std::vector< DTTracoCand > &  tclist  )

private

Do suppression of LTRIG on BTI close to selected HTRIG.

Definition at line 532 of file DTTracoChip.cc.

References funct::abs(), DTBtiTrigData::btiNumber(), DTTracoCand::BtiTrig(), DTBtiTrigData::code(), config(), gather_cfg::cout, debug, and AlCaHLTBitMon_ParallelJobs::p.

Referenced by run().

                                                                                {
  // If requested, do suppression of LTRIG on BTI close to selected HTRIG in same traco
  //if(!(config()->adjBtiLts()) && candidate->BtiTrig()->code()==8) {
  // SV this is done always, not parametrized !! 
  if(candidate->BtiTrig()->code()==8) {
    std::vector<DTTracoCand>::iterator p;
    for(p=tclist.begin();p<tclist.end();p++){
      if( (*p).BtiTrig()->code()<8 &&
      abs(       (*p).BtiTrig()->btiNumber() -
           candidate->BtiTrig()->btiNumber() ) < 2 ) {
    (*p).setUsed();
        if(config()->debug()==4){
          std::cout << "Candidate :";
          (*p).print();
          std::cout << "Suppressed because adiacent to H trig" <<std::endl;
        } // end debug
      } // end if
    } // end candidate loop 
  } // end if H
}

int DTTracoChip::edgeBTI	(	int	step,
		int	io,
		int	lr
	)		const

flags for HTRIG in edge BTI

Definition at line 1169 of file DTTracoChip.cc.

References _innerCand, _outerCand, begin, gather_cfg::cout, DTConfig::NBTITC, DTConfig::NSTEPF, DTConfig::NSTEPL, AlCaHLTBitMon_ParallelJobs::p, findQualityFiles::size, and relval_parameters_module::step.

Referenced by setFlag().

                                                   {
  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
    std::cout << "DTTracoChip::edgeBTI: step out of range: " << step;
    std::cout << " 0 returned!" << std::endl;
    return 0;
  }
  //
  // inner supl ==> io=1; outer supl ==> io=2      |21   |     |   22|
  // right edge ==> rl=1;  left edge ==> rl=2            |11 12|
  //
  std::vector<DTTracoCand>::const_iterator p;
  if(io==1){
    if(_innerCand[step-DTConfigTraco::NSTEPF].size()>0) {
      // SV 24/IX/03 fix: only HTRIG accepted
      for(p=_innerCand[step-DTConfigTraco::NSTEPF].begin();
      p<_innerCand[step-DTConfigTraco::NSTEPF].end(); p++){
    if(lr==1 && (*p).position()==1 && (*p).BtiTrig()->code()==8 ) 
          return  1; 
    if(lr==2 && (*p).position()==DTConfigTraco::NBTITC && (*p).BtiTrig()->code()==8 )
          return  1; 
      }
    }
  } else {
    if(_outerCand[step-DTConfigTraco::NSTEPF].size()>0) {
      for(p=_outerCand[step-DTConfigTraco::NSTEPF].begin();
      p<_outerCand[step-DTConfigTraco::NSTEPF].end(); p++){
    //SV: is the following correct???FIX if using _card to set _flag
        //if(lr==1 && (*p).position()==DTConfigTraco::NBTITC+1)return 1; //or pos=8??
    //if(lr==2 && (*p).position()==DTConfigTraco::NBTITC*4)return 1; //or pos=13?? 
        //SV 24/IX/03 fix 
        if(lr==1 && (*p).position()==DTConfigTraco::NBTITC*3+1 && (*p).BtiTrig()->code()==8 )
          return  1; 
    if(lr==2 && (*p).position()==DTConfigTraco::NBTITC*2   && (*p).BtiTrig()->code()==8 )
          return  1;  
      }
    }
  }
  return  0;
}

DTTrigGeom* DTTracoChip::geom ( ) const

inline

Return trigger geometry.

Definition at line 97 of file DTTracoChip.h.

References _geom.

Referenced by run().

{ return _geom; }

int DTTracoChip::IBTIOFF ( ) const

inline

IBTIOFF parameter.

Definition at line 128 of file DTTracoChip.h.

References _ibtioff.

Referenced by DTTracoCand::DTTracoCand().

{ return _ibtioff; }

DTTracoId DTTracoChip::id ( void  ) const

inline

Return TRACO id.

Definition at line 100 of file DTTracoChip.h.

References _id.

Referenced by DTTracoTrig::DTTracoTrig().

{ return _id; }

int DTTracoChip::insideAngWindow ( DTTracoTrig *  tctrig ) const

private

Check if a trigger is inside the angular acceptance window.

Definition at line 1335 of file DTTracoChip.cc.

References BitArray< N >::assign(), DTConfigTraco::BendingAngleCut(), config(), gather_cfg::cout, debug, DTTracoTrig::DeltaPsiR(), BitArray< N >::element(), BitArray< N >::read(), and BitArray< N >::twoComplement().

Referenced by storeCorr(), and storeUncorr().

                                                      {
  // check angular window for every station type
  // return 1 for accept, 0 for reject
  // abs value of bending angle is 9 bits

  BitArray<10> bendAng;
  bendAng.assign(0,10,tctrig->DeltaPsiR());
  //bendAng.print();
  if(bendAng.element(9))  //negativo!
    bendAng.twoComplement(); 
  int bendAngINT = bendAng.read(0,9);
  //std::cout<<"abs bend angle int ="<< bendAngINT <<std::endl;

  if( config()->BendingAngleCut()!= -1 && 
     bendAngINT > 2*(config()->BendingAngleCut())) {
    int absBendAng = tctrig->DeltaPsiR() & 0x1FF;
    if(config()->debug()==4)
      std::cout << "Attention: abs(bendAng)=" << absBendAng << " > " 
           << 2*config()->BendingAngleCut() <<"!! reject trigger"<<std::endl;
    return 0;
  }
  return 1;
}

int DTTracoChip::KRad

(

)

const

K par of the radial angle of corr center referred to plane sl.

Definition at line 1144 of file DTTracoChip.cc.

Referenced by DTTracoCand::DTTracoCand(), DTTracoChip(), and DTTracoCand::print().

                        {
  // K parameter of the radial angle of correlator center
  //float distp2 = (int)(2*_geom->cellH()*config()->ST()/_geom->cellPitch());
  //return -(int)(tan(psiRad(sl)/1000)*distp2); // sign is reverted!!!
  //return _krad;
  
  //SV V/03: for harware bug in traco....
  int KRad=0;
  return KRad;
   
}

LocalPoint DTTracoChip::localPosition ( ) const

inline

Position in chamber frame.

Definition at line 149 of file DTTracoChip.h.

References _geom, _id, and DTTrigGeom::localPosition().

{ return _geom->localPosition(_id); }

int DTTracoChip::nTrig

(

int

step

)

const

Return the number of trigger candidates.

Definition at line 1078 of file DTTracoChip.cc.

References _tracotrig, gather_cfg::cout, DTConfig::NSTEPF, DTConfig::NSTEPL, and relval_parameters_module::step.

Referenced by run(), and DTTracoCard::runTRACO().

                                 {
  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
    std::cout << "DTTracoChip::nTrig: step out of range: " << step;
    std::cout << " 0 returned!" << std::endl;
    return 0;
  }
  return _tracotrig[step-DTConfigTraco::NSTEPF].size();
}

int DTTracoChip::number ( ) const

inline

Return TRACO number.

Definition at line 91 of file DTTracoChip.h.

References _id, and DTTracoId::traco().

Referenced by add_btiT().

{ return _id.traco(); }

DTTracoChip & DTTracoChip::operator=

(

const DTTracoChip &

traco

)

Assignment operator.

Definition at line 205 of file DTTracoChip.cc.

References _bxlts, _card, _flag, _geom, _id, _innerCand, _outerCand, _tracotrig, i, DTConfig::NBTITC, DTConfig::NSTEPF, DTConfig::NSTEPL, AlCaHLTBitMon_ParallelJobs::p, and p1.

                                               {
  if(this != &traco){
    _geom = traco._geom;
    _id = traco._id;
    _card = traco._card;
    int i=0;
    for(i=0;i<DTConfigTraco::NSTEPL - DTConfigTraco::NSTEPF;i++) {
      _innerCand[i].reserve(DTConfigTraco::NBTITC);
      std::vector<DTTracoCand>::const_iterator p;
      for(p=traco._innerCand[i].begin();p<traco._innerCand[i].end();p++) {
    _innerCand[i].push_back(*p);
      }
      _outerCand[i].reserve(3*DTConfigTraco::NBTITC);
      for(p=traco._outerCand[i].begin();p<traco._outerCand[i].end();p++) {
    _outerCand[i].push_back(*p);
      }
      _tracotrig[i].reserve(2);
      std::vector<DTTracoTrig*>::const_iterator p1;
      for(p1=traco._tracotrig[i].begin();p1<traco._tracotrig[i].end();p1++) {
    _tracotrig[i].push_back(*p1);
      }
    }
    _bxlts = traco._bxlts;
    for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
      _flag[is] = traco._flag[is];
    }
  }
  return *this;
}

int DTTracoChip::ovlFlag ( int  step )

inline

return overlap flag

Definition at line 158 of file DTTracoChip.h.

References _flag, BitArray< N >::element(), and DTConfig::NSTEPF.

                                 {
      return _flag[step-DTConfigTraco::NSTEPF].element(1);}

float DTTracoChip::psiRad

(

int

sl = 0

)

const

Radial angle of correlator center in mrad referred to plane sl.

Definition at line 1122 of file DTTracoChip.cc.

Referenced by DTTracoChip().

                                {
/*
  // Radial angle of correlator center in mrad in CMS frame
  LocalPoint p = localPosition();
  float x = p.x();
  float y = p.y();
  float z = p.z();
  if        (sl==1) {
    z -= 0.5 * _geom->distSL();
  } else if (sl==3) {
    z += 0.5 * _geom->distSL();
  }
  float fpsir = _geom->stat()->toGlobal(LocalPoint(x,y,z)).phi()-
                _geom->phiCh();
  if(fpsir<-M_PI)fpsir+=M_PI*2;
  if(fpsir>M_PI)fpsir-=M_PI*2;
  return fpsir*1000;
*/
  return 0.0;
}

void DTTracoChip::raiseOverlap

(

int

step

)

raise overlap flag

Definition at line 419 of file DTTracoChip.cc.

References _flag, DTConfig::NSTEPF, and BitArray< N >::set().

Referenced by run().

                                 {
    _flag[step-DTConfigTraco::NSTEPF].set(1);                    //overlap flag raised
    _flag[step-DTConfigTraco::NSTEPF-1].set(2);                  //mark II rej.
}

void DTTracoChip::run

(

void

)

Run TRACO algorithm.

Definition at line 255 of file DTTracoChip.cc.

References _flag, _id, _innerCand, _outerCand, _tracotrig, addTrig(), bestCand(), config(), gather_cfg::cout, debug, DTConfigTraco::debug(), DoAdjBtiLts(), alignCSCRings::e, BitArray< N >::element(), geom(), SurfaceOrientation::inner, cuy::isFirst, DTConfig::NBTITC, DTConfig::NSTEPF, DTConfig::NSTEPL, nTrig(), SurfaceOrientation::outer, DTTracoCand::print(), DTTracoTrig::print(), raiseOverlap(), BitArray< N >::set(), setFlag(), setPV(), DTTracoCand::setUsed(), findQualityFiles::size, storeCorr(), storeUncorr(), DTTracoId::traco(), and trigger().

Referenced by DTTracoCard::runTRACO().

                 {

  // Debugging...
  if(config()->debug()>1){
    std::cout << "DTTracoChip::run: Processing TRACO " << _id.traco() << std::endl;
  }
  // End debugging

  int maxtc = static_cast<int>(ceil( float(geom()->nCell(1)) / float(DTConfigTraco::NBTITC) ));

  if( _id.traco()<1 || _id.traco()>maxtc ) {
    if(config()->debug()==4)
      std::cout << "DTTracoChip::run: wrong TRACO number " << _id.traco() << std::endl;
    return;
  }

  // Loop on step
  for(int is=DTConfigTraco::NSTEPF; is<=DTConfigTraco::NSTEPL;is++) {
    if(config()->debug()>1){
      std::cout << "\n STEP: " << is << std::endl;
      std::cout << " ================" << std::endl;
    }

    // skip if no cand. at this step
    if(_innerCand[is-DTConfigTraco::NSTEPF].size()<1 &&
       _outerCand[is-DTConfigTraco::NSTEPF].size()<1 ) 
      continue;

    // Debugging...
    if(config()->debug()==4){
      std::cout << " --> " << _innerCand[is-DTConfigTraco::NSTEPF].size()+
                         _outerCand[is-DTConfigTraco::NSTEPF].size();
      std::cout << " candidates " << std::endl;
    }
    // End debugging

    // Multiple trigger detection between consecutive TRACO's  
    setFlag(is);

    //check if there is a H in bx for LVALIDIFH flag
    if(config()->LVALIDIFH()){
      for(unsigned int e=0; e<_innerCand[is-DTConfigTraco::NSTEPF].size(); e++) {
        if(_innerCand[is-DTConfigTraco::NSTEPF][e].BtiTrig()->code()==8){
          _flag[is-DTConfigTraco::NSTEPF].set(9);
          break;
        }
      }
      for(unsigned int e=0; e<_outerCand[is-DTConfigTraco::NSTEPF].size(); e++) {
        if(_outerCand[is-DTConfigTraco::NSTEPF][e].BtiTrig()->code()==8){
          _flag[is-DTConfigTraco::NSTEPF].set(9);
          break;
        }
      }
    }
   
    // Loop over first/second tracks
    //for(int itk=0; itk < DTConfigTraco::NMAXCAND; itk++){ 
    // FIX this hardcoded 2!! 
    for(int itk=0; itk < 2; itk++){ 
    
      // Get the best inner and outer segments 
      if(config()->debug()==4)
        std::cout << "Inner:" << std::endl;
      DTTracoCand* inner = bestCand(itk,_innerCand[is-DTConfigTraco::NSTEPF]);
      if(config()->debug()==4)
        std::cout << "Outer:" << std::endl;
      DTTracoCand* outer = bestCand(itk,_outerCand[is-DTConfigTraco::NSTEPF]);

      //debug
      if(config()->debug()>1){
        if(inner || outer)
           std::cout<<"Best candidates for track " << itk+1 << " are:"<<std::endl;
        if(inner){ 
          std::cout<<"inner->";
          inner->print();
        }
        if(outer){
          std::cout<<"outer->";
          outer->print();
        }
      }

      // Skip to next step if no suitable candidates found
      if(inner==0&&outer==0)
        break;

      // suppression of LTRIG on BTI close to selected HTRIG
      // SV 24/IX/03 : AND suppression of LTRIG close to H in adiacent Traco
      // SV 31/III/03 : test : only if htprf is off--> NO, it's worse
      // if( config()->prefHtrig(0) && config()->prefHtrig(1) ){
        if(inner){
          DoAdjBtiLts( inner, _innerCand[is-DTConfigTraco::NSTEPF] );
        }
        if(outer){
          DoAdjBtiLts( outer, _outerCand[is-DTConfigTraco::NSTEPF] );
        }
      //}

      // set candidates unusable by further steps
      if(inner)inner->setUsed(); 
      if(outer)outer->setUsed(); 
      // Create a new TRACO trigger with preview for TS
      DTTracoTrig* tct = setPV(itk,inner,outer);

      // skip if no TRACO trigger has been created with this trigger
      if(!tct) break; // something nasty happened. Go to next step

      // try a correlation between segments
      int stored = 0;
      if(inner && outer) {
        stored = storeCorr(tct,inner,outer,itk);
      }

      if (!stored) { 
    // No suitable candidate found or no correlation possible
    // Fill single trigger
    stored = storeUncorr(tct,inner,outer,itk);
      }

      // if trigger has been filled store it in TRACO, otherway delete it
      if (stored) {
    addTrig(is,tct);
      } else {
    delete tct;
        //break;-> II track is computed even if no I track found...
      }

    } // end loop on first/second track

    // Inhibit second track at previous bunch crossing
    if(config()->debug()==4)
      std::cout<<"Checking overlap I-II track..." <<std::endl;
    if(_tracotrig[is-DTConfigTraco::NSTEPF].size()>0 && is>DTConfigTraco::NSTEPF
      && (_tracotrig[is-DTConfigTraco::NSTEPF])[0]->isFirst() ) {    //I track at bx
      if(nTrig(is-1)>0) {                                           //there is a track at bx-1
        if( !(trigger(is-1,1)->isFirst())  ||                       //trig 1 is II track
             ( nTrig(is-1)==2 && !(trigger(is-1,2)->isFirst()) )) { //trig 2 is II track
          raiseOverlap(is);
      if(config()->debug()==4){
            std::cout << "II track at step " << std::hex << is-1 <<std::dec << "marked rej."<< std::endl;
            std::cout << "I track overlap flag at step " << std::hex << is << std::dec << " setted" << std::endl;
          }
        }
      }
    }
    //debug...
    for(int isd=0;isd<=DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;isd++)
      if(config()->debug()==4){
        std::cout << "overlap flag step = " << isd+DTConfigTraco::NSTEPF << 
           "  " << _flag[isd].element(1) << std::endl;
      }
    // debugging...
    if(config()->debug()>0){    
      if(nTrig(is)>0) {
    for(int cc=1;cc<=nTrig(is);cc++){
      trigger(is,cc)->print();
    }
      }
    }// end debugging
  }// end loop on step
}

int DTTracoChip::sector ( void  ) const

inline

Return sector number.

Definition at line 109 of file DTTracoChip.h.

References _geom, and DTTrigGeom::sector().

Referenced by geometryXMLparser.DTAlignable::index().

{ return _geom->sector(); }

void DTTracoChip::setFlag	(	int	step,
		int	ext = 0
	)

Set flags for multiple trigger detection between cons. TRACO's.

Definition at line 426 of file DTTracoChip.cc.

References _card, _flag, _id, config(), gather_cfg::cout, debug, edgeBTI(), BitArray< N >::element(), DTTracoCard::getTRACO(), i, DTConfig::NSTEPF, BitArray< N >::set(), and DTTracoId::traco().

Referenced by run().

                                      {

  if(ext==0){
    //this is the original: flags from card
    DTTracoChip* prevTraco = _card->getTRACO(_id.traco()-1);
    if(prevTraco!=0){
      if(prevTraco->edgeBTI(step,1,2))
        _flag[step-DTConfigTraco::NSTEPF].set(3);
      if(prevTraco->edgeBTI(step,2,2))
        _flag[step-DTConfigTraco::NSTEPF].set(5);
    }
    DTTracoChip* nextTraco = _card->getTRACO(_id.traco()+1);
    if(nextTraco!=0){
      if(nextTraco->edgeBTI(step,1,1))
        _flag[step-DTConfigTraco::NSTEPF].set(4);
      if(nextTraco->edgeBTI(step,2,1))
        _flag[step-DTConfigTraco::NSTEPF].set(6);
    }
  }
  else{
    //SV III/03: flags from input EXT: only for testing purpose
    for(int i=0;i<6;i++){
      int ibit = ext >> i;
      if(ibit & 0x01)   // bit i+1 -> flag 3,4,5,6 : IL,IR,OL,OR
        _flag[step-DTConfigTraco::NSTEPF].set(i+1 + 2);
    }
  }

  //debug:
  if(config()->debug()==4){
    std::cout << "Flags set for bx=" << step << std::endl;
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(1)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(2)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(3)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(4)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(5)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(6)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(7)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(8)<< "  ";
    std::cout << _flag[step-DTConfigTraco::NSTEPF].element(9)<< "  "<<std::endl;
  } //end debugging
}

void DTTracoChip::setPV	(	int	step,
		int	ntrk,
		int	code,
		int	K
	)

Set the preview values for a TRACO trigger.

Referenced by run().

DTTracoTrig * DTTracoChip::setPV ( int  itk, DTTracoCand *  inner, DTTracoCand *  outer  )

private

Set the preview for a trigger.

Definition at line 573 of file DTTracoChip.cc.

References DTBtiTrigData::btiSL(), DTTracoCand::BtiTrig(), DTBtiTrigData::code(), config(), gather_cfg::cout, debug, first, SurfaceOrientation::inner, DTTracoCand::K(), SurfaceOrientation::outer, DTTracoCand::position(), DTConfigTraco::prefInner(), DTTracoCand::print(), DTTracoTrig::setPV(), and DTTracoCand::step().

                                                                  {

  // debugging...
  if(config()->debug()==4){
    std::cout << "DTTracoChip::setPV called for candidates : " << std::endl;
    if(inner)inner->print();
    if(outer)outer->print();
    std::cout << "--------------------------------------------------" << std::endl;
  }
  //end debugging

  // first or second track. This is tricky:
  // itk=0 menas first track  ==> first= true=1
  // itk=1 menas second track ==> first=false=0
  int first = (itk==0) ? 1 : 0;

  //preview selector: the same as priority selector I !!
  // select which of the inner/outer segments should be used

  DTTracoCand* candidate=0;  
  if(inner!=0&&outer!=0) {
//    if(config()->prefHtrig(itk)){   
//    ---> BUG! selection is ALWAYS for H trigs
//    ---> fixed by Sara Vanini 25/III/03
      if(inner->BtiTrig()->code()==8 && outer->BtiTrig()->code()<8 ){
        candidate=inner;
      } else if(inner->BtiTrig()->code()<8  && outer->BtiTrig()->code()==8){
        candidate=outer;
      } else { //for same quality tracks, pref. to in/out selection
        if(!config()->prefInner(itk)) {
          candidate=inner;
        } else {
          candidate=outer;
    }
      }
//    } //end if(config()->prefHtrig...
/*
    else {
      if(!config()->prefInner(itk)) {
    candidate=inner;
      } else {
    candidate=outer;
      }
    }
*/
  } else if(inner==0&&outer!=0) {
    candidate=outer;
  } else if(inner!=0&&outer==0) {
    candidate=inner;
  } else {
    return 0; // no candidates 
  }

  // create new trigger with this candidate
  DTTracoTrig* tct = new DTTracoTrig(this, candidate->step());
  // store preview for TS
  int cod = candidate->BtiTrig()->code();
  if(candidate->BtiTrig()->btiSL()==1) cod *= 10;
  // k output is 5 bits!!! SV
  int K=candidate->K();
  if(K>31)
    K-=32;
  int ioflag = 0;
  if(candidate->position()>4)
    ioflag = 1;
  tct->setPV(first, cod, K, ioflag); // this is already BTI_K-KRAD

  if(config()->debug()==4){
    std::cout << "Selected candidate stored for preview is: ";
    candidate->print();
  }
  return tct;
}

void DTTracoChip::setTracoAcceptances ( )

private

Compute traco chip acceptances.

Definition at line 1361 of file DTTracoChip.cc.

References _geom, _PSIMAX, _PSIMIN, DTConfigTraco::BTIC(), DTTrigGeom::cellH(), DTTrigGeom::cellPitch(), config(), gather_cfg::cout, debug, DTTrigGeom::distSL(), h, i, DTConfig::NBTITC, and DTTrigGeom::phiSLOffset().

Referenced by DTTracoChip().

{  
  // Set K acceptances of DTTracoChip MT ports: Ktraco = Xinner - Xouter 
  float h = _geom->cellH();
  float pitch = _geom->cellPitch();
  float distsl = _geom->distSL();
  float K0 = config()->BTIC();
  float shiftSL = _geom->phiSLOffset() / pitch * K0;

  // mt  ports from orca geometry: this is always the case with new DTConfig
  //if(config_traco(tracoid)->trigSetupGeom() != 1){
  {
    // Master Plane
    int i = 0;
    for(i=0;i<DTConfig::NBTITC;i++){
      float Xin_min     =  (i + DTConfig::NBTITC) * K0 + shiftSL;
      float Xin_max     =  Xin_min + K0;
      float Xout_min    =  0;
      float Xout_max    =  3 * DTConfig::NBTITC * K0;
      _PSIMAX[i]  =  int( 2.*h/distsl * (Xin_max - Xout_min) + K0 + 1.01 );
      _PSIMIN[i]  =  int( 2.*h/distsl * (Xin_min - Xout_max) + K0 );
    }

    // Slave Plane
    for(i=0;i<3*DTConfig::NBTITC;i++){
      float Xin_min     =  (DTConfig::NBTITC) * K0 + shiftSL;
      float Xin_max     =  2. * DTConfig::NBTITC * K0 + shiftSL;
      float Xout_min    =  i * K0;
      float Xout_max    =  Xout_min + K0;
      _PSIMAX[DTConfig::NBTITC+i]  =  int( 2.*h/distsl * (Xin_max - Xout_min) + K0 + 1.01 );
      _PSIMIN[DTConfig::NBTITC+i]  =  int( 2.*h/distsl * (Xin_min - Xout_max) + K0 );
    }
  }


  // debugging
  if(config()->debug()==4){
    //if(wheel()==2&&station()==3&&sector()==1){ // only 1 chamber
      std::cout << "Acceptance of mt ports for offset (cell unit) " 
           << _geom->phiSLOffset() / pitch << std::endl;
      for(int i=0;i<4*DTConfig::NBTITC;i++){
        std::cout << "Port " << i+1 << " : ";
        std::cout << _PSIMIN[i] << " --> " << _PSIMAX[i] << std::endl;
      }
    //}
  }// end debugging

}

int DTTracoChip::station ( ) const

inline

Return station number.

Definition at line 106 of file DTTracoChip.h.

References _geom, and DTTrigGeom::station().

Referenced by geometryXMLparser.DTAlignable::index(), and geometryXMLparser.CSCAlignable::index().

{ return _geom->station(); }

int DTTracoChip::storeCorr ( DTTracoTrig *  tctrig, DTTracoCand *  inner, DTTracoCand *  outer, int  tkn  )

private

Check correlation and store correlated trigger.

Definition at line 648 of file DTTracoChip.cc.

References _bxlts, _geom, funct::abs(), DTTracoTrig::addDTBtiTrig(), BTIC(), DTBtiTrigData::btiNumber(), DTTracoCand::BtiTrig(), calculateAngles(), DTTrigGeom::cellH(), DTBtiTrigData::code(), DTTracoTrig::code(), config(), gather_cfg::cout, debug, DTConfigTraco::debug(), DTTrigGeom::distSL(), BitArray< N >::element(), DTBtiTrigData::eq(), insideAngWindow(), DTBtiTrigData::K(), DTTracoTrig::K(), DTTracoCand::print(), DTTracoTrig::qdec(), DTTracoTrig::resetVar(), DTTracoTrig::setCodeIn(), DTTracoTrig::setCodeOut(), DTTracoTrig::setEqIn(), DTTracoTrig::setEqOut(), DTTracoTrig::setK(), DTTracoTrig::setPosIn(), DTTracoTrig::setPosOut(), DTTracoTrig::setPVCorr(), DTTracoTrig::setX(), edm::shift, DTTracoTrig::step(), DTConfigTraco::TcBxLts(), DTConfigTraco::TcKToll(), DTTracoCand::X(), and DTTracoTrig::X().

Referenced by run().

                                                                                           {

  // Bunch crossing
  int is = tctrig->step();

  // Debugging...
  if(config()->debug()==4){
    std::cout << "DTTracoChip::storeCorr called with candidates: " << std::endl;
    if(inner)inner->print();
    if(outer)outer->print();
    std::cout << "--------------------------------------------------" << std::endl;
  }
  // End debugging

  //old orca shift definition
  float shift = 0.;
  //if( config()->trigSetupGeom()!=1 )
    shift = (int)( _geom->distSL()/_geom->cellH() + 0.5 );
  //else
    //shift = DD();
 
  int kcor = 9999;
  int xcor = 0;
  int icor = 0;

  // Check correlation only if --> this cuts LL follow by H in next 4 bx
  // SV 1/IV/04 BUG FIX: this cuts LL preview also, traco outputs preview when LTS cut!!!
  //if( !config()->TcBxLts() ||          // BX LTS is not enabled or
  //    !_bxlts.element(is) ||           // no HTRIG in next 4 BX or
  //    inner->BtiTrig()->code()==8 ||   // inner track is HTRIG  or
  //    outer->BtiTrig()->code()==8 ){   // outer track is HTRIG
  //otherwise in and out trig are L, and necessary one is suppressed for LTS  

    int xq1 = inner->X();
    int xq2 = outer->X();
    xcor = (xq2+xq1)/2;
    kcor = (xq1-xq2)+512;
    int kq1 = int(shift/2.) * (inner->BtiTrig()->K()-BTIC()) + 512;
    int kq2 = int(shift/2.) * (outer->BtiTrig()->K()-BTIC()) + 512;
    //int kd1 = abs(kcor/16-kq1/16);
    //int kd2 = abs(kcor/16-kq2/16);
    int kd1 = abs(kcor/16-kq1/16);
    int kd2 = abs(kcor/16-kq2/16);
  
    icor =  kd1<=config()->TcKToll(tkn) && 
            kd2<=config()->TcKToll(tkn) && 
            xcor>0;
 
    // Debugging...
    if(config()->debug()==4){
      std::cout << "*************************************************************";
      std::cout << std::endl;
      std::cout << " shift = " << shift;
      std::cout << " xq1 = " << xq1;
      std::cout << " xq2 = " << xq2;
      std::cout << " xcor = " << xcor;
      std::cout << " kcor = " << kcor;
      std::cout << " kq1 = " << kq1;
      std::cout << " kq2 = " << kq2;
      std::cout << " kd1 = " << kd1;
      std::cout << " kd2 = " << kd2;
      std::cout << " icor = " << icor;
      std::cout << std::endl;
      std::cout << "*************************************************************";
      std::cout << std::endl;
    }// End debugging

  //}//end if TcBxLts....

  if(icor){
    // correlation was successfull
    // set the preview correlation bit. It isn't reset if outside ang. window
    tctrig->setPVCorr(1);
    // set K and X
    tctrig->setK(kcor - 512);
    //std::cout<<"Set K " << kcor << " instead of " << kcor-512 << std::endl;
    //tctrig->setK(kcor);
    tctrig->setX(xcor);
    // set codes
    tctrig->setCodeIn( inner->BtiTrig()->code());
    tctrig->setCodeOut(outer->BtiTrig()->code());
    // set position mask
    //tctrig->setPosIn(inner->position());
    //tctrig->setPosOut(outer->position());
    //SV number of bti instead of position...
    tctrig->setPosIn( inner->BtiTrig()->btiNumber() );
    tctrig->setPosOut( outer->BtiTrig()->btiNumber() );
    //SV store also equation: pattern numbers are 1-32
    tctrig->setEqIn( inner->BtiTrig()->eq() + 1 ); 
    tctrig->setEqOut( outer->BtiTrig()->eq() + 1 );

    // calculate psi, psi_r and Delta(psi_r)
    calculateAngles(tctrig);
    // check angular window for LL  --> fixed by SV 27/III/03 --> NO, for all!
    //if( (tctrig->qdec()==4) && !insideAngWindow(tctrig)) {
    if( !insideAngWindow(tctrig) ) {
       // reset codes, K, X and angles
        tctrig->resetVar() ;
    }     
    //SV 1/IV/04 BUG FIX: check LTS after angle cut...
    else if( tctrig->qdec()==4   &&          // cut only LL
             config()->TcBxLts() ){          // BX LTS is  enabled or
        // reset codes, K, X and angles
        if(tkn==0 && _bxlts.element(is) )      // I track : there is H -4,+1
          tctrig->resetVar() ;
        if(tkn==1 && _bxlts.element(is+1) )    // II track : there is H -4,+1 1 bx later
          tctrig->resetVar() ;
    }
    else {
      // set links to BTI triggers
      tctrig->addDTBtiTrig(inner->BtiTrig());
      tctrig->addDTBtiTrig(outer->BtiTrig());
    }

    // Debugging...
    if(config()->debug()>1){
      std::cout << "*************************************************************";
      std::cout << std::endl;
      std::cout << "               Correlation was successfull:                  ";
      std::cout << std::endl;
      std::cout << " Code = " << tctrig->code();
      std::cout << " K = " << tctrig->K();
      std::cout << " X = " << tctrig->X();
      std::cout << std::endl;
      std::cout << "*************************************************************";
      std::cout << std::endl;
    }
    // End debugging

  } else {

    // Debugging...
    if(config()->debug()>1){
      std::cout << "*************************************************************";
      std::cout << std::endl;
      std::cout << "               No correlation possible                       ";
      std::cout << std::endl;
      std::cout << "*************************************************************";
      std::cout << std::endl;
    }
    // End debugging

  }

  return icor;
}

int DTTracoChip::storeUncorr ( DTTracoTrig *  tctrig, DTTracoCand *  inner, DTTracoCand *  outer, int  tkn  )

private

Store uncorrelated trigger.

Definition at line 796 of file DTTracoChip.cc.

References _bxlts, _card, _flag, _geom, DTTracoTrig::addDTBtiTrig(), BTIC(), DTBtiTrigData::btiNumber(), DTBtiTrigData::btiSL(), DTTracoCand::BtiTrig(), calculateAngles(), DTTrigGeom::cellH(), DTBtiTrigData::code(), DTTracoTrig::code(), config(), gather_cfg::cout, debug, DTConfigTraco::debug(), DTTrigGeom::distSL(), BitArray< N >::element(), DTBtiTrigData::eq(), SurfaceOrientation::inner, insideAngWindow(), DTBtiTrigData::K(), DTTracoTrig::K(), DTConfigTraco::LVALIDIFH(), DTTSTheta::nHTrig(), DTConfig::NSTEPF, DTTSTheta::nTrig(), SurfaceOrientation::outer, DTConfigTraco::prefInner(), DTTracoCand::print(), DTTracoTrig::resetVar(), DTTracoTrig::setCodeIn(), DTTracoTrig::setCodeOut(), DTTracoTrig::setEqIn(), DTTracoTrig::setEqOut(), DTTracoTrig::setK(), DTTracoTrig::setPosIn(), DTTracoTrig::setPosOut(), DTTracoTrig::setPVCorr(), DTTracoCand::setUnused(), DTTracoTrig::setX(), edm::shift, DTConfigTraco::singleLenab(), DTConfigTraco::singleLflag(), DTTracoTrig::step(), DTConfigTraco::TcReuse(), DTTracoCard::TSTh(), DTTracoCand::X(), and DTTracoTrig::X().

Referenced by run().

                                                                                             {

  // Bunch crossing
  int is = tctrig->step();

  // Debugging...
  if(config()->debug()==4){
    std::cout << "DTTracoChip::storeUncorr called with candidates: " << std::endl;
    if(inner)inner->print();
    if(outer)outer->print();
    std::cout << "--------------------------------------------------" << std::endl;
  }

  // End debugging
  // priority selector 
  // select which of the inner/outer segments should be used
  // allow re-use of other segment according to configuration
  DTTracoCand* candidate=0;  
  if(inner!=0&&outer!=0) {
//    if(config()->prefHtrig(tkn)){  
// --> BUG: selector I preference is ALWAYS for H trig
// fixed by Sara Vanini - 25/III/03
      if(inner->BtiTrig()->code()==8 && outer->BtiTrig()->code()<8 ){
        candidate=inner;
        //if(config()->TcReuse(1)) outer->setUnused(); // reusable
      } else if(inner->BtiTrig()->code()<8  && outer->BtiTrig()->code()==8){
        candidate=outer;
        //if(config()->TcReuse(0)) inner->setUnused(); // reusable
      } else { //for the same quality triggers:
        if(!config()->prefInner(tkn)) {
          candidate=inner;
          //if(config()->TcReuse(1))  outer->setUnused(); // reusable
        } else {
          candidate=outer;
          //if(config()->TcReuse(0))  inner->setUnused(); // reusable
    }
      }//end else
/*
    } else {//no Htrig preference
      if(!config()->prefInner(tkn)) {
    candidate=inner;
    if(config()->TcReuse(1))  outer->setUnused(); // reusable
      } else {
    candidate=outer;
    if(config()->TcReuse(0))  inner->setUnused(); // reusable
      }
    }
*/
  } else if(inner==0&&outer!=0) {
    candidate=outer;
  } else if(inner!=0&&outer==0) {
    candidate=inner;
  } else {
    return 0; // no candidates 
  }

  //SV *** FOR TESTBEAM OR TEST BENCH PURPOSE ***
  //theta trigger bin present(1) or absent(0)
  //int thTr = (_flag[is-DTConfigTraco::NSTEPF].element(7)) ?
  //   _flag[is-DTConfigTraco::NSTEPF].element(7):
  //   _flag[is-DTConfigTraco::NSTEPF].element(8);

  // priority selector II: accept or discard candidate according to masks:
  // ** LOW TRIGGERS
  if( candidate->BtiTrig()->code()<8 ) { 
    // first check with LVALIDIFH: if 1, accept low if there is a H in traco at bx
    if(config()->LVALIDIFH() && _flag[is-DTConfigTraco::NSTEPF].element(9)){ 
      if(config()->debug()>1)
        std::cout << "Low accepted because LVALIDIFH on...." << std::endl;
    }
    else {//LVALIDIFH==0 or there isn't H in traco in bx : check theta!
      //theta check
      if( !config()->singleLenab(tkn) ) {
        // LTF: single LTRIG not always en. Check cond.:
        if( config()->singleLflag(tkn)==1 ||      //always discarded
        ( config()->singleLflag(tkn)==2 && !(_card->TSTh()->nHTrig(is)) ) ||
        ( config()->singleLflag(tkn)==0 && !(_card->TSTh()->nTrig(is))  ) ){ 
// SV --> for TESTS version
//        config()->singleLflag(tkn)==0 && thTr==0 ||   //only with theta trig. 
//        config()->singleLflag(tkn)==2 && thTr==0  ){  //only with theta H trig (not hw)
        if(config()->debug()>1)
          std::cout << "Single low trigger discarded by preview and "
               << "priority selector for ltmsk!" <<std::endl;
        return 0;}
        //       ^-------- trigger is suppressed and will not be stored
      }//end theta

    } //end else
    //REUSE : mark candidates reusable HERE! SV BUG FIX 6IV04
    if(candidate==inner && config()->TcReuse(1) && outer)
      outer->setUnused();
    if(candidate==outer && config()->TcReuse(0) && inner)
      inner->setUnused();

    // LTS suppression
    if(config()->TcBxLts()){
      if( (tkn==0 && _bxlts.element(is))       // I track : there is H -4,+1
                        ||
          (tkn==1 && _bxlts.element(is+1)) ){  // II track : there is H -4,+1 1 bx later
        tctrig->resetVar() ;
        if(config()->debug()>1)
          std::cout << "Low trigger suppressed because H in next 4 bx "<<
               " and LTS flag on...." << std::endl;
        return 1; // trigger is suppressed but preview will be stored
      }
    }//end lts

//    } //end else
  } //Low trigs

  // Preview Htmsk not implemented: awaiting decision 
  // --> implemented in priority selector by SV
  else { // HTRIG
    //if(config()->singleHflag(tkn)==1 && thTr==0 )  //this is for testing
    if( config()->singleHflag(tkn)==1 && !(_card->TSTh()->nTrig(is) ) )
      return 0;
      // ^-----trigger is suppressed and will not be stored

    //mark candidates reusable HERE! SV BUG FIX 6IV04
    if(candidate==inner && config()->TcReuse(1) && outer)
      outer->setUnused();
    if(candidate==outer && config()->TcReuse(0) && inner)
      inner->setUnused();
  }

  // set code, position, K and X  
  float shift;
  //if(config()->trigSetupGeom()!=1 )
    shift = (int)( _geom->distSL()/_geom->cellH() + 0.5 );
  //else 
    //shift = DD();  //SV 19/III/03
  int kucor = (int)( 0.5*shift * (candidate->BtiTrig()->K()-BTIC()) );
  tctrig->setK(kucor);
  tctrig->setX( candidate->X() );
  // correlation wasn't successfull
  // set the preview correlation bit. 
  tctrig->setPVCorr(0);
  if(candidate->BtiTrig()->btiSL()==1){    // inner track
    tctrig->setCodeIn(candidate->BtiTrig()->code());
    tctrig->setCodeOut(0);
    //tctrig->setPosIn(candidate->position());
    //SV number of bti instead of position...
    tctrig->setPosIn(candidate->BtiTrig()->btiNumber() );
    tctrig->setPosOut(0);
    //SV store also equation
    tctrig->setEqIn( candidate->BtiTrig()->eq() + 1 );
    tctrig->setEqOut( 0 );
  } else {                                               // outer track
    tctrig->setCodeIn(0);
    tctrig->setCodeOut(candidate->BtiTrig()->code());
    tctrig->setPosIn(0);
    //SV number of bti instead of position...
    tctrig->setPosOut(candidate->BtiTrig()->btiNumber() );
    //tctrig->setPosOut(candidate->position());
    //SV store also equation
    tctrig->setEqIn( 0 );
    tctrig->setEqOut( candidate->BtiTrig()->eq() + 1);
  }

  // coordinate converter LUT
  // calculate psi, psi_r and Delta(psi_r)
  calculateAngles(tctrig);
  // check angular window only for Low!!  --> fixed SV 27/III/03--> NO, for all!
  //if( candidate->BtiTrig()->code() < 8 && !insideAngWindow(tctrig) ){
  if( !insideAngWindow(tctrig) ){
    // reset codes, K, X and angles
    tctrig->resetVar() ;
    if(config()->debug()>1)
      std::cout << "L rejected because outside angular window!" << std::endl;
   } else {
    // set links to BTI trigger
    tctrig->addDTBtiTrig(candidate->BtiTrig());
  }

  // Debugging...
  if(config()->debug()>1){
    std::cout << "*************************************************************";
    std::cout << std::endl;
    std::cout << "               Single trigger stored:                        ";
    std::cout << std::endl;
    std::cout << " Code = " << tctrig->code();
    std::cout << " K = " << tctrig->K();
    std::cout << " X = " << tctrig->X();
    std::cout << std::endl;
    std::cout << "*************************************************************";
    std::cout << std::endl;
  }
  // End debugging

  return 1;

}

DTTracoTrig * DTTracoChip::trigger	(	int	step,
		unsigned	n
	)		const

Return the requested trigger.

Definition at line 1088 of file DTTracoChip.cc.

References _tracotrig, gather_cfg::cout, n, DTConfig::NSTEPF, DTConfig::NSTEPL, AlCaHLTBitMon_ParallelJobs::p, findQualityFiles::size, and relval_parameters_module::step.

Referenced by run().

                                               {
  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
    std::cout << "DTTracoChip::trigger: step out of range: " << step;
    std::cout << " empty pointer returned!" << std::endl;
    return 0;
  }
  if(n<1 || n>_tracotrig[step-DTConfigTraco::NSTEPF].size()) {
    std::cout << "DTTracoChip::trigger: requested trigger doesn't exist: " << n;
    std::cout << " empty pointer returned!" << std::endl;
    return 0;
  }
  std::vector<DTTracoTrig*>::const_iterator p = 
    _tracotrig[step-DTConfigTraco::NSTEPF].begin()+n-1;
  return *p;
}

DTTracoTrigData DTTracoChip::triggerData	(	int	step,
		unsigned	n
	)		const

Return the data part of the requested trigger.

Definition at line 1105 of file DTTracoChip.cc.

References _tracotrig, gather_cfg::cout, n, DTConfig::NSTEPF, DTConfig::NSTEPL, AlCaHLTBitMon_ParallelJobs::p, findQualityFiles::size, and relval_parameters_module::step.

Referenced by DTTracoCard::runTRACO().

                                                   {
  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
    std::cout << "DTTracoChip::triggerData: step out of range: " << step;
    std::cout << " dummy trigger returned!" << std::endl;
    return DTTracoTrigData();
  }
  if(n<1 || n>_tracotrig[step-DTConfigTraco::NSTEPF].size()) {
    std::cout << "DTTracoChip::trigger: requested trigger doesn't exist: " << n;
    std::cout << " dummy trigger returned!" << std::endl;
    return DTTracoTrigData();
  }
  std::vector<DTTracoTrig*>::const_iterator p = 
    _tracotrig[step-DTConfigTraco::NSTEPF].begin()+n-1;
  return (*p)->data();
}

int DTTracoChip::useSecondTrack

(

int

step

)

const

a flag for a usable second track

Definition at line 1157 of file DTTracoChip.cc.

References _flag, gather_cfg::cout, BitArray< N >::element(), DTConfig::NSTEPF, DTConfig::NSTEPL, and relval_parameters_module::step.

Referenced by DTTracoCard::runTRACO().

                                          {
  // return 1 if II track use is allow
  // return 0 if II track has been rejected
  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
    std::cout << "DTTracoChip::useSecondTrack: step out of range: " << step;
    std::cout << " 0 returned!" << std::endl;
    return 0;
  }
  return !(_flag[step-DTConfigTraco::NSTEPF].element(2));
}

int DTTracoChip::wheel ( ) const

inline

Return wheel number.

Definition at line 103 of file DTTracoChip.h.

References _geom, and DTTrigGeom::wheel().

Referenced by geometryXMLparser.DTAlignable::index().

{ return _geom->wheel(); }

Member Data Documentation

int DTTracoChip::_btic

private

Definition at line 197 of file DTTracoChip.h.

Referenced by BTIC(), and DTTracoChip().

BitArray<DTConfigTraco::NSTEPL+2> DTTracoChip::_bxlts

private

Definition at line 209 of file DTTracoChip.h.

Referenced by add_btiT(), clear(), DTTracoChip(), operator=(), storeCorr(), and storeUncorr().

DTTracoCard* DTTracoChip::_card

private

Definition at line 192 of file DTTracoChip.h.

Referenced by add_btiT(), calculateAngles(), DTTracoChip(), operator=(), setFlag(), storeUncorr(), and ~DTTracoChip().

DTConfigTraco* DTTracoChip::_config

private

Definition at line 194 of file DTTracoChip.h.

Referenced by config().

int DTTracoChip::_dd

private

Definition at line 199 of file DTTracoChip.h.

Referenced by DD().

BitArray<32> DTTracoChip::_flag[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]

private

Definition at line 215 of file DTTracoChip.h.

Referenced by AdjBtiLTSuppressed(), clear(), DTTracoChip(), operator=(), ovlFlag(), raiseOverlap(), run(), setFlag(), storeUncorr(), and useSecondTrack().

DTTrigGeom* DTTracoChip::_geom

private

Definition at line 189 of file DTTracoChip.h.

Referenced by calculateAngles(), CMSPosition(), DTTracoChip(), geom(), localPosition(), operator=(), sector(), setTracoAcceptances(), station(), storeCorr(), storeUncorr(), and wheel().

int DTTracoChip::_ibtioff

private

Definition at line 198 of file DTTracoChip.h.

Referenced by DTTracoChip(), and IBTIOFF().

DTTracoId DTTracoChip::_id

private

Definition at line 190 of file DTTracoChip.h.

Referenced by add_btiT(), CMSPosition(), DTTracoChip(), id(), localPosition(), number(), operator=(), run(), and setFlag().

std::vector<DTTracoCand> DTTracoChip::_innerCand[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]

private

Definition at line 202 of file DTTracoChip.h.

Referenced by add_btiT(), clear(), DTTracoChip(), edgeBTI(), operator=(), and run().

int DTTracoChip::_krad

private

Definition at line 196 of file DTTracoChip.h.

Referenced by DTTracoChip().

DTTracoLUTs* DTTracoChip::_luts

private

Definition at line 222 of file DTTracoChip.h.

Referenced by DTTracoChip().

Lut* DTTracoChip::_lutsCCB

private

Definition at line 224 of file DTTracoChip.h.

Referenced by calculateAngles(), DTTracoChip(), and ~DTTracoChip().

std::vector<DTTracoCand> DTTracoChip::_outerCand[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]

private

Definition at line 203 of file DTTracoChip.h.

Referenced by add_btiT(), clear(), DTTracoChip(), edgeBTI(), operator=(), and run().

int DTTracoChip::_PSIMAX[4 *DTConfig::NBTITC]

private

Definition at line 219 of file DTTracoChip.h.

Referenced by add_btiT(), and setTracoAcceptances().

int DTTracoChip::_PSIMIN[4 *DTConfig::NBTITC]

private

Definition at line 218 of file DTTracoChip.h.

Referenced by add_btiT(), and setTracoAcceptances().

std::vector<DTTracoTrig*> DTTracoChip::_tracotrig[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]

private

Definition at line 206 of file DTTracoChip.h.

Referenced by addTrig(), clear(), DTTracoChip(), nTrig(), operator=(), run(), trigger(), and triggerData().