#include <RectangularPixelTopology.h>

Inheritance diagram for RectangularPixelTopology:

Public Member Functions
virtual int	channel (const LocalPoint &lp) const

virtual int	colsperroc () const

bool	containsBigPixelInX (int ixmin, int ixmax) const

bool	containsBigPixelInY (int iymin, int iymax) const

virtual bool	isItBigPixelInX (const int ixbin) const

virtual bool	isItBigPixelInY (const int iybin) const

bool	isItEdgePixel (int ixbin, int iybin) const

bool	isItEdgePixelInX (int ixbin) const

bool	isItEdgePixelInY (int iybin) const

virtual LocalError	localError (const MeasurementPoint &, const MeasurementError &) const

virtual LocalPoint	localPosition (const MeasurementPoint &mp) const

virtual float	localX (const float mpX) const

virtual float	localY (const float mpY) const

virtual MeasurementError	measurementError (const LocalPoint &, const LocalError &) const

virtual MeasurementPoint	measurementPosition (const LocalPoint &lp) const

virtual int	ncolumns () const

virtual int	nrows () const

virtual std::pair< float, float >	pitch () const

virtual std::pair< float, float >	pixel (const LocalPoint &p) const

	RectangularPixelTopology (int nrows, int ncols, float pitchx, float pitchy, bool upgradeGeometry, int ROWS_PER_ROC, int COLS_PER_ROC, int BIG_PIX_PER_ROC_X, int BIG_PIX_PER_ROC_Y, int ROCS_X, int ROCS_Y)

virtual int	rocsX () const

virtual int	rocsY () const

virtual int	rowsperroc () const

Public Member Functions inherited from PixelTopology
virtual float	localX (const float mpX, const Topology::LocalTrackPred &) const

virtual float	localY (const float mpY, const Topology::LocalTrackPred &) const

virtual std::pair< float, float >	pixel (const LocalPoint &p, const Topology::LocalTrackAngles &) const
	conversion taking also the angle from the track state More...

virtual	~PixelTopology ()

Public Member Functions inherited from Topology
virtual int	channel (const LocalPoint &lp, const LocalTrackAngles &) const
	conversion taking also the angle from the track state More...

virtual LocalError	localError (const MeasurementPoint &mp, const MeasurementError &me, const LocalTrackPred &) const
	conversion taking also the angle from the predicted track state More...

virtual LocalPoint	localPosition (const MeasurementPoint &mp, const LocalTrackPred &) const
	conversion taking also the angle from the predicted track state More...

virtual MeasurementError	measurementError (const LocalPoint &lp, const LocalError &le, const LocalTrackAngles &) const
	conversion taking also the angle from the track state More...

virtual MeasurementPoint	measurementPosition (const LocalPoint &lp, const LocalTrackAngles &) const
	conversion taking also the angle from the track state More...

virtual	~Topology ()

Private Attributes
int	m_COLS_PER_ROC

int	m_ncols

int	m_nrows

float	m_pitchx

float	m_pitchy

int	m_ROCS_X

int	m_ROCS_Y

int	m_ROWS_PER_ROC

bool	m_upgradeGeometry

float	m_xoffset

float	m_yoffset

Additional Inherited Members
Public Types inherited from Topology
typedef Point2DBase< double, LocalTag >	Local2DPoint

typedef Vector2D::MathVector	MathVector2D

typedef Basic2DVector< double >	Vector2D

Detailed Description

Topology for rectangular pixel detector with BIG pixels.

Definition at line 40 of file RectangularPixelTopology.h.

Constructor & Destructor Documentation

RectangularPixelTopology::RectangularPixelTopology	(	int	nrows,
		int	ncols,
		float	pitchx,
		float	pitchy,
		bool	upgradeGeometry,
		int	ROWS_PER_ROC,
		int	COLS_PER_ROC,
		int	BIG_PIX_PER_ROC_X,
		int	BIG_PIX_PER_ROC_Y,
		int	ROCS_X,
		int	ROCS_Y
	)

inline

Definition at line 45 of file RectangularPixelTopology.h.

References fireworks::COLS_PER_ROC, LogDebug, m_COLS_PER_ROC, m_ncols, m_nrows, m_pitchx, m_pitchy, m_ROCS_X, m_ROCS_Y, m_ROWS_PER_ROC, m_xoffset, m_yoffset, and fireworks::ROWS_PER_ROC.

     : m_pitchx( pitchx ),
       m_pitchy( pitchy ),
       m_nrows( nrows ),
       m_ncols( ncols ),
       m_ROWS_PER_ROC( ROWS_PER_ROC ),     // Num of Rows per ROC 
       m_COLS_PER_ROC( COLS_PER_ROC ),     // Num of Cols per ROC
       m_ROCS_X( ROCS_X ), // 2 for SLHC
       m_ROCS_Y( ROCS_Y ),  // 8 for SLHC
       m_upgradeGeometry( upgradeGeometry )
     {
       // Calculate the edge of the active sensor with respect to the center,
       // that is simply the half-size.       
       // Take into account large pixels
       m_xoffset = -(m_nrows + BIG_PIX_PER_ROC_X*m_nrows/ROWS_PER_ROC)/2. * 
           m_pitchx;
       m_yoffset = -(m_ncols + BIG_PIX_PER_ROC_Y*m_ncols/COLS_PER_ROC)/2. * 
           m_pitchy;
 
       LogDebug("RectangularPixelTopology") << "nrows " << m_nrows << ", ncols " << m_ncols << ", pitchx "
                        << m_pitchx << ", pitchy " << m_pitchy << ", xoffset "
                        << m_xoffset << ", yoffset " << m_yoffset << ", BIG_PIX_PER_ROC_X "
                        << BIG_PIX_PER_ROC_X << ", BIG_PIX_PER_ROC_Y " << BIG_PIX_PER_ROC_Y << ", ROWS_PER_ROC "
                        << ROWS_PER_ROC << ", COLS_PER_ROC " << COLS_PER_ROC << ", ROCS_X " << ROCS_X << ", ROCS_Y " << ROCS_Y
                        << "\nNROWS " << m_ROWS_PER_ROC * m_ROCS_X << ", NCOL " << m_COLS_PER_ROC * m_ROCS_Y;
     }

Member Function Documentation

virtual int RectangularPixelTopology::channel ( const LocalPoint & lp ) const

inlinevirtual

Implements Topology.

Definition at line 104 of file RectangularPixelTopology.h.

References AlCaHLTBitMon_ParallelJobs::p, pixel(), and PixelChannelIdentifier::pixelToChannel().

                                                     {
     std::pair<float,float> p = pixel( lp );
     return PixelChannelIdentifier::pixelToChannel( int( p.first ), 
                            int( p.second ));
   }

virtual int RectangularPixelTopology::colsperroc ( ) const

inlinevirtual

Implements PixelTopology.

Definition at line 185 of file RectangularPixelTopology.h.

References m_COLS_PER_ROC.

                                  {   
     return m_COLS_PER_ROC;   
   }

bool RectangularPixelTopology::containsBigPixelInX	(	int	ixmin,
		int	ixmax
	)		const

inlinevirtual

Implements PixelTopology.

Definition at line 136 of file RectangularPixelTopology.h.

References m_upgradeGeometry.

Referenced by PixelCPEGeneric::localError(), PixelCPEBase::setTheClu(), and SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

                                                         {
     return m_upgradeGeometry ? false :( (ixmin<=80) & (ixmax>=79) );
   }

bool RectangularPixelTopology::containsBigPixelInY	(	int	iymin,
		int	iymax
	)		const

inlinevirtual

Implements PixelTopology.

Definition at line 139 of file RectangularPixelTopology.h.

References isItBigPixelInY(), and m_upgradeGeometry.

Referenced by PixelCPEGeneric::localError(), PixelCPEBase::setTheClu(), and SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

                                                         {
     return  m_upgradeGeometry ? false :
       ( isItBigPixelInY( iymin ) || isItBigPixelInY( iymax ) ||  (iymin/52) != (iymax/52) )
       ;  
   }

virtual bool RectangularPixelTopology::isItBigPixelInX ( const int ixbin ) const

inlinevirtual

Implements PixelTopology.

Definition at line 119 of file RectangularPixelTopology.h.

References m_upgradeGeometry.

Referenced by localError(), PixelCPEGeneric::localError(), PixelCPETemplateReco::localPosition(), PixelCPEGeneric::localPosition(), and SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

                                                         {
     return (( m_upgradeGeometry )?(false):(( ixbin == 79 ) | ( ixbin == 80 )));
   } 

virtual bool RectangularPixelTopology::isItBigPixelInY ( const int iybin ) const

inlinevirtual

Implements PixelTopology.

Definition at line 123 of file RectangularPixelTopology.h.

References m_upgradeGeometry, and unlikely.

Referenced by containsBigPixelInY(), localError(), PixelCPEGeneric::localError(), PixelCPETemplateReco::localPosition(), PixelCPEGeneric::localPosition(), and SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

                                                         {
       if unlikely( m_upgradeGeometry ) return false;
       else {
     int iybin0 = iybin%52;
     return(( iybin0 == 0 ) | ( iybin0 == 51 ));
     // constexpr int bigYIndeces[]{0,51,52,103,104,155,156,207,208,259,260,311,312,363,364,415,416,511};
     // return *std::lower_bound(std::begin(bigYIndeces),std::end(bigYIndeces),iybin) == iybin;
      }
   }

bool RectangularPixelTopology::isItEdgePixel	(	int	ixbin,
		int	iybin
	)		const

inlinevirtual

Implements PixelTopology.

Definition at line 155 of file RectangularPixelTopology.h.

References isItEdgePixelInX(), and isItEdgePixelInY().

                                                   {
     return ( isItEdgePixelInX( ixbin ) | isItEdgePixelInY( iybin ) );
   } 

bool RectangularPixelTopology::isItEdgePixelInX ( int ixbin ) const

inlinevirtual

Implements PixelTopology.

Definition at line 149 of file RectangularPixelTopology.h.

References m_nrows.

Referenced by isItEdgePixel(), PixelCPETemplateReco::localError(), PixelCPEGeneric::localError(), PixelCPEBase::setTheClu(), and SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

                                           {
     return ( (ixbin == 0) | (ixbin == (m_nrows-1)) );
   } 

bool RectangularPixelTopology::isItEdgePixelInY ( int iybin ) const

inlinevirtual

Implements PixelTopology.

Definition at line 152 of file RectangularPixelTopology.h.

References m_ncols.

Referenced by isItEdgePixel(), PixelCPETemplateReco::localError(), PixelCPEGeneric::localError(), PixelCPEBase::setTheClu(), and SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

                                           {
     return ( (iybin == 0) | (iybin == (m_ncols-1)) );
   } 

LocalError RectangularPixelTopology::localError	(	const MeasurementPoint &	mp,
		const MeasurementError &	me
	)		const

virtual

Implements Topology.

Definition at line 314 of file RectangularPixelTopology.cc.

References isItBigPixelInX(), isItBigPixelInY(), m_pitchx, m_pitchy, MeasurementError::uu(), MeasurementError::vv(), PV2DBase< T, PVType, FrameType >::x(), and PV2DBase< T, PVType, FrameType >::y().

 {
   float pitchy=m_pitchy;
   int binoffy=int(mp.y());
   if( isItBigPixelInY(binoffy) )pitchy = 2.*m_pitchy;
 
   float pitchx=m_pitchx;
   int binoffx=int(mp.x());
   if( isItBigPixelInX(binoffx) )pitchx = 2.*m_pitchx;
 
   return LocalError( me.uu()*float(pitchx*pitchx), 0,
              me.vv()*float(pitchy*pitchy));
 }

LocalPoint RectangularPixelTopology::localPosition ( const MeasurementPoint & mp ) const

virtual

Implements Topology.

Definition at line 171 of file RectangularPixelTopology.cc.

References EPS, localX(), localY(), LogDebug, m_ncols, m_nrows, PV2DBase< T, PVType, FrameType >::x(), and PV2DBase< T, PVType, FrameType >::y().

Referenced by SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

 {
   float mpy = mp.y(); // measurements 
   float mpx = mp.x();
 
 #ifdef EDM_ML_DEBUG
 #define EPS 0
   // check limits
   std::ostringstream debugstr;
 
   if( mpy < 0.)
   { 
     debugstr << " wrong mp y, fix " << mpy << " " << 0 << "\n";
     mpy = 0.;
   }
   if( mpy >= m_ncols)
   {
     debugstr << " wrong mp y, fix " << mpy << " " << m_ncols << "\n";
     mpy = float(m_ncols) - EPS; // EPS is a small number
   }
   if( mpx < 0.)
   {
     debugstr << " wrong mp x, fix " << mpx << " " << 0 << "\n";
     mpx = 0.;
   }
   if( mpx >= m_nrows )
   {
     debugstr << " wrong mp x, fix " << mpx << " " << m_nrows << "\n";
     mpx = float(m_nrows) - EPS; // EPS is a small number
   }
   if(! debugstr.str().empty())
       LogDebug("RectangularPixelTopology") << debugstr.str();
 #endif // EDM_ML_DEBUG
 
   float lpY = localY( mpy );
   float lpX = localX( mpx );
 
   // Return it as a LocalPoint
   return LocalPoint( lpX, lpY );
 }

float RectangularPixelTopology::localX ( const float mpX ) const

virtual

Implements PixelTopology.

Definition at line 217 of file RectangularPixelTopology.cc.

References LogDebug, m_pitchx, m_ROCS_X, m_ROWS_PER_ROC, m_upgradeGeometry, m_xoffset, and unlikely.

Referenced by localPosition().

 {
   int binoffx = int( mpx );        // truncate to int
   float fractionX = mpx - float(binoffx); // find the fraction 
   float local_pitchx = m_pitchx;   // defaultpitch
 
   if unlikely( m_upgradeGeometry ) {
 #ifdef EDM_ML_DEBUG
     if( binoffx > m_ROWS_PER_ROC * m_ROCS_X ) // too large
     {
       LogDebug("RectangularPixelTopology") << " very bad, binx " << binoffx << "\n"
                        << mpx << " " << binoffx << " "
                        << fractionX << " " << local_pitchx << " " << m_xoffset << "\n";
     }
 #endif
   } else { 
     if (binoffx>80) {            // ROC 1 - handles x on edge cluster
       binoffx=binoffx+2;
     } else if (binoffx==80) {    // ROC 1
       binoffx=binoffx+1;
       local_pitchx *= 2;
     } else if (binoffx==79) {      // ROC 0
       binoffx=binoffx+0;
       local_pitchx *= 2;    
     } 
     // else if (binoffx>=0) {       // ROC 0
     //  binoffx=binoffx+0;
     // } 
 
 #ifdef EDM_ML_DEBUG
     if (binoffx<0) // too small
       LogDebug("RectangularPixelTopology") << " very bad, binx " << binoffx << "\n"
                        << mpx << " " << binoffx << " "
                        << fractionX << " " << local_pitchx << " " << m_xoffset;
 #endif
   }
   
   // The final position in local coordinates 
   float lpX = float( binoffx * m_pitchx ) + fractionX * local_pitchx + m_xoffset;
 
 #ifdef EDM_ML_DEBUG
   
   if( lpX < m_xoffset || lpX > ( -m_xoffset ))
   {
     LogDebug("RectangularPixelTopology") << " bad lp x " << lpX << "\n"
                      << mpx << " " << binoffx << " "
                      << fractionX << " " << local_pitchx << " " << m_xoffset;
   }
 #endif // EDM_ML_DEBUG
 
   return lpX;
 } 

float RectangularPixelTopology::localY ( const float mpY ) const

virtual

Implements PixelTopology.

Definition at line 273 of file RectangularPixelTopology.cc.

References begin, constexpr, end, j, LogDebug, m_COLS_PER_ROC, m_pitchy, m_ROCS_Y, m_upgradeGeometry, m_yoffset, and unlikely.

Referenced by localPosition().

 {
   int binoffy = int( mpy );        // truncate to int
   float fractionY = mpy - float(binoffy); // find the fraction 
   float local_pitchy = m_pitchy;   // defaultpitch
 
   if unlikely( m_upgradeGeometry ){
  #ifdef EDM_ML_DEBUG
    if( binoffy > m_ROCS_Y * m_COLS_PER_ROC )   // too large
       {
     LogDebug( "RectangularPixelTopology" ) << " very bad, biny " << binoffy << "\n"
                            << mpy << " " << binoffy << " " << fractionY
                            << " " << local_pitchy << " " << m_yoffset;
       }
 #endif
     } else {   // 415 is last big pixel, 416 and above do not exists!
     constexpr int bigYIndeces[]{0,51,52,103,104,155,156,207,208,259,260,311,312,363,364,415,416,511};
     auto const j = std::lower_bound(std::begin(bigYIndeces),std::end(bigYIndeces),binoffy);
     if (*j==binoffy) local_pitchy  *= 2 ;
     binoffy += (j-bigYIndeces);
   }
   
   // The final position in local coordinates 
   float lpY = float(binoffy*m_pitchy) + fractionY*local_pitchy + m_yoffset;
 
 #ifdef EDM_ML_DEBUG
 
   if( lpY < m_yoffset || lpY > ( -m_yoffset ))
   {
     LogDebug( "RectangularPixelTopology" ) << " bad lp y " << lpY << "\n"
                        << mpy << " " << binoffy << " "
                        << fractionY << " " << local_pitchy << " " << m_yoffset;
   }
 #endif // EDM_ML_DEBUG
 
   return lpY;
 }

MeasurementError RectangularPixelTopology::measurementError	(	const LocalPoint &	lp,
		const LocalError &	le
	)		const

virtual

Implements Topology.

Definition at line 332 of file RectangularPixelTopology.cc.

References likely, m_pitchx, m_pitchy, m_upgradeGeometry, m_xoffset, m_yoffset, PV3DBase< T, PVType, FrameType >::x(), LocalError::xx(), PV3DBase< T, PVType, FrameType >::y(), and LocalError::yy().

 {
   float pitchy=m_pitchy;
   float pitchx=m_pitchx;
 
   if likely( !m_upgradeGeometry ) {    
       int iybin = int( (lp.y() - m_yoffset)/m_pitchy );   //get bin for equal picth 
       int iybin0 = iybin%54;  //This is just to avoid many ifs by using the periodicy
       //quasi bins 0,1,52,53 fall into larger pixels  
       if( (iybin0<=1) | (iybin0>=52) )
     pitchy = 2.f * m_pitchy;
 
       int ixbin = int( (lp.x() - m_xoffset)/m_pitchx );   //get bin for equal pitch
       //quasi bins 79,80,81,82 fall into the 2 larger pixels  
       if( (ixbin>=79) & (ixbin<=82) ) pitchx = 2.f * m_pitchx;  
     }
   
   return MeasurementError( le.xx()/float(pitchx*pitchx), 0,
                le.yy()/float(pitchy*pitchy));
 }

virtual MeasurementPoint RectangularPixelTopology::measurementPosition ( const LocalPoint & lp ) const

inlinevirtual

Implements Topology.

Definition at line 83 of file RectangularPixelTopology.h.

References AlCaHLTBitMon_ParallelJobs::p, and pixel().

Referenced by SiPixelGaussianSmearingRecHitConverterAlgorithm::smearHit().

             {
     std::pair<float,float> p = pixel( lp );
     return MeasurementPoint( p.first, p.second );
   }

virtual int RectangularPixelTopology::ncolumns ( ) const

inlinevirtual

Implements PixelTopology.

Definition at line 169 of file RectangularPixelTopology.h.

References m_ncols.

                                {
     return ( m_ncols );
   }

virtual int RectangularPixelTopology::nrows ( ) const

inlinevirtual

Implements PixelTopology.

Definition at line 165 of file RectangularPixelTopology.h.

References m_nrows.

                             {
     return ( m_nrows );
   }

virtual std::pair<float,float> RectangularPixelTopology::pitch ( ) const

inlinevirtual

Implements PixelTopology.

Definition at line 161 of file RectangularPixelTopology.h.

References m_pitchx, and m_pitchy.

                                              {
     return std::pair<float,float>( float(m_pitchx), float(m_pitchy));
   }

std::pair< float, float > RectangularPixelTopology::pixel ( const LocalPoint & p ) const

virtual

Topology for rectangular pixel detector with BIG pixels.

Implements PixelTopology.

Definition at line 14 of file RectangularPixelTopology.cc.

References LogDebug, m_COLS_PER_ROC, m_pitchx, m_pitchy, m_upgradeGeometry, m_xoffset, m_yoffset, PV3DBase< T, PVType, FrameType >::x(), and PV3DBase< T, PVType, FrameType >::y().

Referenced by channel(), and measurementPosition().

 {
   // check limits   
   float py = p.y();
   float px = p.x();
   
 #ifdef EDM_ML_DEBUG
 #define EPSCM 0
 #define EPS 0
   // This will catch points which are outside the active sensor area.
   // In the digitizer during the early induce_signal phase non valid
   // location are passed here. They are cleaned later.
   
   std::ostringstream debugstr;
   debugstr << "py = " << py << ", m_yoffset = " << m_yoffset
        << "px = " << px << ", m_xoffset = " << m_xoffset << "\n";
   
   if( py < m_yoffset ) // m_yoffset is negative 
   {
     debugstr << " wrong lp y " << py << " " << m_yoffset << "\n";
     py = m_yoffset + EPSCM; // make sure it is in, add an EPS in cm
   }
   if( py>-m_yoffset )
   {
     debugstr << " wrong lp y " << py << " " << -m_yoffset << "\n";
     py = -m_yoffset - EPSCM;
   }
   if( px<m_xoffset ) // m_xoffset is negative
   {    
     debugstr << " wrong lp x " << px << " " << m_xoffset << "\n";
     px = m_xoffset + EPSCM;
   }
   if( px>-m_xoffset )
   {
     debugstr << " wrong lp x " << px << " " << -m_xoffset << "\n";
     px = -m_xoffset - EPSCM;
   }
   
   if( !debugstr.str().empty())
       LogDebug( "RectangularPixelTopology" ) << debugstr.str();
 #endif // EDM_ML_DEBUG
 
   float newybin = ( py - m_yoffset ) / m_pitchy;
   int iybin = int( newybin );
   float fractionY = newybin - iybin;
   
   // Normalize it all to 1 ROC
   int iybin0 = 0;
   int numROC = 0;
   float mpY = 0.;
   
   if( m_upgradeGeometry ) 
   {
     iybin0 = (iybin%m_COLS_PER_ROC); // 0-51
     numROC = iybin/m_COLS_PER_ROC;  // 0-7
     mpY = float(numROC*m_COLS_PER_ROC + iybin0) + fractionY;
 
 #ifdef EDM_ML_DEBUG
 
     if( iybin0 > m_COLS_PER_ROC )
     {
       LogDebug("RectangularPixelTopology") << " very bad, newbiny " << iybin0 << "\n"
                        << py << " " << m_yoffset << " " << m_pitchy << " "
                        << newybin << " " << iybin << " " << fractionY << " " << iybin0 << " "
                        << numROC;
     }
 #endif // EDM_ML_DEBUG
 
   }
   else
   {
     iybin0 = (iybin%54); // 0-53
     numROC = iybin/54;  // 0-7
 
     if (iybin0==53) {   // inside big pixel
       iybin0=51;
       fractionY = (fractionY+1.)/2.;
     } else if (iybin0==52) {   // inside big pixel
       iybin0=51;
       fractionY = fractionY/2.;
     } else if (iybin0>1) {   // inside normal pixel
       iybin0=iybin0-1;
     } else if (iybin0==1) {   // inside big pixel
       iybin0=0;
       fractionY = (fractionY+1.)/2.;
     } else if (iybin0==0) {   // inside big pixel
       iybin0=0;
       fractionY = fractionY/2.;
     } 
 
     mpY = float(numROC*52. + iybin0) + fractionY;
   }
 
 #ifdef EDM_ML_DEBUG
   
   if( mpY < 0. || mpY >= 416. )
   {
     LogDebug("RectangularPixelTopology") << " bad pix y " << mpY << "\n"
                      << py << " " << m_yoffset << " " << m_pitchy << " "
                      << newybin << " " << iybin << " " << fractionY << " "
                      << iybin0 << " " << numROC;
   }
 #endif // EDM_ML_DEBUG
   
   // In X
   float newxbin = ( px - m_xoffset ) / m_pitchx; 
   int ixbin = int( newxbin );
   float fractionX = newxbin - ixbin;
 
 #ifdef EDM_ML_DEBUG
 
   if( ixbin > 161 || ixbin < 0 ) //  ixbin < 0 outside range
   {
     LogDebug("RectangularPixelTopology") << " very bad, newbinx " << ixbin << "\n"
                      << px << " " << m_xoffset << " " << m_pitchx << " "
                      << newxbin << " " << ixbin << " " << fractionX;
   } 
 #endif // EDM_ML_DEBUG
 
   if( ! m_upgradeGeometry ) 
   {
     if (ixbin>82) {   // inside normal pixel, ROC 1 
       ixbin=ixbin-2;
     } else if (ixbin==82) {   // inside bin pixel 
       ixbin=80;
       fractionX = (fractionX+1.)/2.;
     } else if (ixbin==81) {   // inside big pixel
       ixbin=80;
       fractionX = fractionX/2.;
     } else if (ixbin==80) {   // inside bin pixel, ROC 0 
       ixbin=79;
       fractionX = (fractionX+1.)/2.;
     } else if (ixbin==79) {   // inside big pixel
       ixbin=79;
       fractionX = fractionX/2.;
     }
   }
   
   float mpX = float( ixbin ) + fractionX;
   
 #ifdef EDM_ML_DEBUG
 
   if( mpX < 0. || mpX >= 160. )
   {
     LogDebug("RectangularPixelTopology") << " bad pix x " << mpX << "\n"
                      << px << " " << m_xoffset << " " << m_pitchx << " "
                      << newxbin << " " << ixbin << " " << fractionX;
   }
 #endif // EDM_ML_DEBUG
   
   return std::pair<float, float>( mpX, mpY );
 }

virtual int RectangularPixelTopology::rocsX ( ) const

inlinevirtual

Implements PixelTopology.

Definition at line 177 of file RectangularPixelTopology.h.

References m_ROCS_X.

                             {    
     return m_ROCS_X;     
   }      

virtual int RectangularPixelTopology::rocsY ( ) const

inlinevirtual

Implements PixelTopology.

Definition at line 173 of file RectangularPixelTopology.h.

References m_ROCS_Y.

                             {    
     return m_ROCS_Y;     
   }      

virtual int RectangularPixelTopology::rowsperroc ( ) const

inlinevirtual

Implements PixelTopology.

Definition at line 181 of file RectangularPixelTopology.h.

References m_ROWS_PER_ROC.

                                  {   
     return m_ROWS_PER_ROC;   
   }      

Member Data Documentation

int RectangularPixelTopology::m_COLS_PER_ROC

private

Definition at line 198 of file RectangularPixelTopology.h.

Referenced by colsperroc(), localY(), pixel(), and RectangularPixelTopology().

int RectangularPixelTopology::m_ncols

private

Definition at line 196 of file RectangularPixelTopology.h.

Referenced by isItEdgePixelInY(), localPosition(), ncolumns(), and RectangularPixelTopology().

int RectangularPixelTopology::m_nrows

private

Definition at line 195 of file RectangularPixelTopology.h.

Referenced by isItEdgePixelInX(), localPosition(), nrows(), and RectangularPixelTopology().

float RectangularPixelTopology::m_pitchx

private

Definition at line 191 of file RectangularPixelTopology.h.

Referenced by localError(), localX(), measurementError(), pitch(), pixel(), and RectangularPixelTopology().

float RectangularPixelTopology::m_pitchy

private

Definition at line 192 of file RectangularPixelTopology.h.

Referenced by localError(), localY(), measurementError(), pitch(), pixel(), and RectangularPixelTopology().

int RectangularPixelTopology::m_ROCS_X

private

Definition at line 199 of file RectangularPixelTopology.h.

Referenced by localX(), RectangularPixelTopology(), and rocsX().

int RectangularPixelTopology::m_ROCS_Y

private

Definition at line 200 of file RectangularPixelTopology.h.

Referenced by localY(), RectangularPixelTopology(), and rocsY().

int RectangularPixelTopology::m_ROWS_PER_ROC

private

Definition at line 197 of file RectangularPixelTopology.h.

Referenced by localX(), RectangularPixelTopology(), and rowsperroc().

bool RectangularPixelTopology::m_upgradeGeometry

private

Definition at line 201 of file RectangularPixelTopology.h.

Referenced by containsBigPixelInX(), containsBigPixelInY(), isItBigPixelInX(), isItBigPixelInY(), localX(), localY(), measurementError(), and pixel().

float RectangularPixelTopology::m_xoffset

private

Definition at line 193 of file RectangularPixelTopology.h.

Referenced by localX(), measurementError(), pixel(), and RectangularPixelTopology().

float RectangularPixelTopology::m_yoffset

private

Definition at line 194 of file RectangularPixelTopology.h.

Referenced by localY(), measurementError(), pixel(), and RectangularPixelTopology().

Public Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation