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00001 #include "SimCalorimetry/EcalSimAlgos/interface/EcalShapeBase.h"
00002 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00003 
00004 #include <cmath>
00005 #include <iostream>
00006 #include <fstream>
00007 #include <algorithm>
00008 
00009 const double EcalShapeBase::qNSecPerBin = 1./(1.*kNBinsPerNSec) ;
00010 
00011 EcalShapeBase::~EcalShapeBase()
00012 {
00013    delete m_derivPtr ;
00014 }
00015 
00016 EcalShapeBase::EcalShapeBase( bool   aSaveDerivative ) :
00017    m_firstIndexOverThreshold ( 0   ) ,
00018    m_firstTimeOverThreshold  ( 0.0 ) ,
00019    m_indexOfMax              ( 0   ) ,
00020    m_timeOfMax               ( 0.0 ) ,
00021    m_shape                   ( DVec( kNBinsStored, 0.0 ) ) ,
00022    m_derivPtr                ( aSaveDerivative ? new DVec( kNBinsStored, 0.0 ) : 0 )
00023 {
00024 }
00025 
00026 double 
00027 EcalShapeBase::timeOfThr()  const 
00028 {
00029    return m_firstTimeOverThreshold ;
00030  }
00031 
00032 double 
00033 EcalShapeBase::timeOfMax()  const 
00034 {
00035    return m_timeOfMax              ; 
00036 }
00037 
00038 double 
00039 EcalShapeBase::timeToRise() const 
00040 {
00041    return timeOfMax() - timeOfThr() ;
00042 }
00043 
00044 
00045 void
00046 EcalShapeBase::buildMe()
00047 {
00048    DVec shapeArray( k1NSecBinsTotal , 0.0 ) ;
00049 
00050    fillShape( shapeArray ) ;
00051 
00052    const double maxel ( *max_element( shapeArray.begin(), shapeArray.end() ) ) ;
00053 
00054    const double maxelt ( 1.e-5 < maxel ? maxel : 1 ) ;
00055 
00056    for( unsigned int i ( 0 ) ; i != shapeArray.size(); ++i )
00057    {
00058       shapeArray[i] = shapeArray[i]/maxelt ;
00059    } 
00060 
00061    const double thresh ( threshold()/maxelt ) ;
00062 
00063 /*
00064    for( unsigned int i ( 0 ) ; i != k1NSecBinsTotal ; ++i ) 
00065    {
00066       LogDebug("EcalShapeBase") << " time (ns) = " << (double)i << " tabulated ECAL pulse shape = " << shapeArray[i];
00067    }
00068 */
00069 
00070    const double delta ( qNSecPerBin/2. ) ;
00071 
00072    for( unsigned int j ( 0 ) ; j != kNBinsStored ; ++j )
00073    {
00074       const double xb ( ( j + 0.5 )*qNSecPerBin ) ; 
00075 
00076       const unsigned int ibin ( j/kNBinsPerNSec ) ;
00077 
00078       double value = 0.0 ;
00079       double deriv = 0.0 ;
00080 
00081       if( 0                 ==     ibin ||
00082           shapeArray.size() == 1 + ibin    ) // cannot do quadratic interpolation at ends
00083       {
00084          value = shapeArray[ibin]; 
00085          deriv = 0.0 ;
00086       }
00087       else 
00088       {
00089          const double x  ( xb - ( ibin + 0.5 ) ) ;
00090          const double f1 ( shapeArray[ ibin - 1 ] ) ;
00091          const double f2 ( shapeArray[ ibin     ] ) ;
00092          const double f3 ( shapeArray[ ibin + 1 ] ) ;
00093          const double a  ( f2 ) ;
00094          const double b  ( ( f3 - f1 )/2. ) ;
00095          const double c  ( ( f1 + f3 )/2. - f2 ) ;
00096          value = a + b*x + c*x*x;
00097          deriv = ( b + 2*c*x )/delta ;
00098       }
00099 
00100       m_shape[ j ] = value;
00101       if( 0 != m_derivPtr ) (*m_derivPtr)[ j ] = deriv;
00102 
00103       if( 0      <  j                         &&
00104           thresh <  value                     &&
00105           0      == m_firstIndexOverThreshold     )
00106       {
00107          m_firstIndexOverThreshold = j - 1 ;
00108          m_firstTimeOverThreshold  = m_firstIndexOverThreshold*qNSecPerBin ;
00109       }
00110 
00111       if( m_shape[ m_indexOfMax ] < value )
00112       {
00113          m_indexOfMax = j ;
00114       }
00115 
00116 //      LogDebug("EcalShapeBase") << " time (ns) = " << ( j + 1.0 )*qNSecPerBin - delta 
00117 //                              << " interpolated ECAL pulse shape = " << m_shape[ j ] 
00118 //                              << " derivative = " << ( 0 != m_derivPtr ? (*m_derivPtr)[ j ] : 0 ) ;
00119    }
00120    m_timeOfMax = m_indexOfMax*qNSecPerBin ;
00121 }
00122 
00123 unsigned int
00124 EcalShapeBase::timeIndex( double aTime ) const
00125 {
00126    const int index ( m_firstIndexOverThreshold +
00127                      (unsigned int) ( aTime*kNBinsPerNSec + 0.5 ) ) ;
00128 
00129    const bool bad ( (int) m_firstIndexOverThreshold >  index || 
00130                     (int) kNBinsStored              <= index    ) ;
00131 
00132    if(              (int) kNBinsStored              <= index    )
00133    {
00134       LogDebug("EcalShapeBase") << " ECAL MGPA shape requested for out of range time " << aTime ;
00135    }
00136    return ( bad ? kNBinsStored : (unsigned int) index ) ;
00137 }
00138 
00139 double 
00140 EcalShapeBase::operator() ( double aTime ) const
00141 {
00142    // return pulse amplitude for request time in ns
00143 
00144    const unsigned int index ( timeIndex( aTime ) ) ;
00145    return ( kNBinsStored == index ? 0 : m_shape[ index ] ) ;
00146 }
00147 
00148 double 
00149 EcalShapeBase::derivative( double aTime ) const
00150 {
00151    const unsigned int index ( timeIndex( aTime ) ) ;
00152    return ( 0            == m_derivPtr ||
00153             kNBinsStored == index         ? 0 : (*m_derivPtr)[ index ] ) ;
00154 }