BesEmcWaveform Class Reference

#include <BesEmcWaveform.hh>

Public Member Functions
	BesEmcWaveform ()
	BesEmcWaveform (G4long, G4double, G4double)
virtual	~BesEmcWaveform ()
G4double &	operator[] (G4long) const
virtual BesEmcWaveform &	operator*= (const G4double &)
virtual BesEmcWaveform &	operator/= (const G4double &)
virtual BesEmcWaveform &	operator+= (const BesEmcWaveform &)
virtual BesEmcWaveform &	operator= (const BesEmcWaveform &)
G4long	length () const
G4double *	GetWave () const
G4double	GetTau () const
G4double	GetSampleTime () const
G4double	GetPeakTime () const
G4double	GetTimeOffset () const
G4int	GetBitNb () const
G4int	GetGainFlag () const
G4double	GetPhotonsPerMeV () const
G4double	GetNonuniformity () const
G4double	max (G4long &binOfMax) const
void	updateWaveform (BesEmcHit *)
void	updateWaveform (BesEmcDigi *)
void	makeWaveform (G4double energy, G4double time)
void	digitize ()
void	addElecNoise (G4double, G4double)
void	print ()
	BesEmcWaveform ()
	BesEmcWaveform (G4long, G4double, G4double)
virtual	~BesEmcWaveform ()
G4double &	operator[] (G4long) const
virtual BesEmcWaveform &	operator*= (const G4double &)
virtual BesEmcWaveform &	operator/= (const G4double &)
virtual BesEmcWaveform &	operator+= (const BesEmcWaveform &)
virtual BesEmcWaveform &	operator= (const BesEmcWaveform &)
G4long	length () const
G4double *	GetWave () const
G4double	GetTau () const
G4double	GetSampleTime () const
G4double	GetPeakTime () const
G4double	GetTimeOffset () const
G4int	GetBitNb () const
G4int	GetGainFlag () const
G4double	GetPhotonsPerMeV () const
G4double	GetNonuniformity () const
G4double	max (G4long &binOfMax) const
void	updateWaveform (BesEmcHit *)
void	updateWaveform (BesEmcDigi *)
void	makeWaveform (G4double energy, G4double time)
void	digitize ()
void	addElecNoise (G4double, G4double)
void	print ()

Protected Attributes
G4double *	emcWave
G4long	array_size

Detailed Description

Definition at line 44 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

Constructor & Destructor Documentation

BesEmcWaveform() [1/4]

BesEmcWaveform::BesEmcWaveform

(

)

Definition at line 21 of file BesEmcWaveform.cc.

{
  BesEmcParameter& emcPara=BesEmcParameter::GetInstance();
  //BesEmcParameter emcPara;
  //emcPara.ReadData();
  array_size = emcPara.GetArraySize();
  m_tau = emcPara.GetTau();
  m_highRange = emcPara.GetHighRange();
  m_midRange = emcPara.GetMidRange();
  m_lowRange = emcPara.GetLowRange();
  m_sampleTime = emcPara.GetSampleTime();
  m_peakTime = emcPara.GetPeakTime();
  m_timeOffset = emcPara.GetTimeOffset();
  m_bitNb = emcPara.GetADCbit();
  m_photonsPerMeV = emcPara.GetPhotonsPerMeV();
  m_nonuniformity = emcPara.GetNonuniformity();
  m_flag = -1;
  m_highPrecision = m_highRange/((G4double)(1<<m_bitNb));
  m_midPrecision = m_midRange/((G4double)(1<<m_bitNb));
  m_lowPrecision = m_lowRange/((G4double)(1<<m_bitNb));
  emcWave=new G4double[array_size];
 
  for (G4long i=0; i<array_size;i++)
    emcWave[i]=0;
}

BesEmcWaveform() [2/4]

BesEmcWaveform::BesEmcWaveform	(	G4long	size,
		G4double	tau,
		G4double	sampleTime
	)

Definition at line 47 of file BesEmcWaveform.cc.

  :m_tau(tau),m_sampleTime(sampleTime)
{
  if(size>0){
    array_size=size;
    emcWave=new G4double[array_size];
    G4double *init=emcWave+array_size;
    while(init!=emcWave) *--init=0.0;
  }
  else{
    G4Exception("Invalid size");
  }
}

~BesEmcWaveform() [1/2]

BesEmcWaveform::~BesEmcWaveform ( )

virtual

Definition at line 62 of file BesEmcWaveform.cc.

                               {
  delete []emcWave;
  emcWave=0;
}

BesEmcWaveform() [3/4]

BesEmcWaveform::BesEmcWaveform

(

)

BesEmcWaveform() [4/4]

BesEmcWaveform::BesEmcWaveform	(	G4long	,
		G4double	,
		G4double
	)

~BesEmcWaveform() [2/2]

virtual BesEmcWaveform::~BesEmcWaveform ( )

virtual

Member Function Documentation

addElecNoise() [1/2]

void BesEmcWaveform::addElecNoise	(	G4double	width,
		G4double	coherentNoise
	)

Definition at line 196 of file BesEmcWaveform.cc.

{
  for(G4int i=0;i<array_size;i++)
  {
    emcWave[i] += RandGauss::shoot()*width;
    emcWave[i] += coherentNoise;
    emcWave[i] = emcWave[i]>0?emcWave[i]:0;
  }
}

Referenced by BesEmcDigitizer::AddNoise5x5(), BesEmcDigitizer::AddNoiseAll(), and BesEmcDigitizer::Digitize().

addElecNoise() [2/2]

void BesEmcWaveform::addElecNoise	(	G4double	,
		G4double
	)

digitize() [1/2]

void BesEmcWaveform::digitize

(

)

Definition at line 159 of file BesEmcWaveform.cc.

{
  G4double oneBitResolution;
  oneBitResolution = m_midRange*2/((G4double)(1<<m_bitNb));   //not used now
  G4double energy;
  
  for(G4long i=0;i<array_size;i++)
  {
    energy = emcWave[i];
    if(energy > m_highRange)
      G4cout<<"---In BesEmcWaveform: Over measurement!--- energy="<<energy<<G4endl;
    else if(energy > m_midRange)
    {
      m_flag = 2;
      emcWave[i] = (G4double)((G4long)(emcWave[i]/m_highPrecision))*m_highPrecision; 
    }
    else if(energy > m_lowRange)
    {
      m_flag = 1;
      emcWave[i] = (G4double)((G4long)(emcWave[i]/m_midPrecision))*m_midPrecision;
    }
    else
    {
      m_flag = 0;
      emcWave[i] = (G4double)((G4long)(emcWave[i]/m_lowPrecision))*m_lowPrecision;
    }
  }
}  

Referenced by BesEmcDigitizer::AddNoise5x5(), BesEmcDigitizer::AddNoiseAll(), and BesEmcDigitizer::Digitize().

digitize() [2/2]

void BesEmcWaveform::digitize

(

)

GetBitNb() [1/2]

G4int BesEmcWaveform::GetBitNb ( ) const

inline

Definition at line 69 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_bitNb; }

GetBitNb() [2/2]

G4int BesEmcWaveform::GetBitNb ( ) const

inline

Definition at line 69 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_bitNb; }

GetGainFlag() [1/2]

G4int BesEmcWaveform::GetGainFlag ( ) const

inline

Definition at line 70 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_flag; }

GetGainFlag() [2/2]

G4int BesEmcWaveform::GetGainFlag ( ) const

inline

Definition at line 70 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_flag; }

GetNonuniformity() [1/2]

G4double BesEmcWaveform::GetNonuniformity ( ) const

inline

Definition at line 72 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_nonuniformity; }

GetNonuniformity() [2/2]

G4double BesEmcWaveform::GetNonuniformity ( ) const

inline

Definition at line 72 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_nonuniformity; }

GetPeakTime() [1/2]

G4double BesEmcWaveform::GetPeakTime ( ) const

inline

Definition at line 67 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_peakTime; }

GetPeakTime() [2/2]

G4double BesEmcWaveform::GetPeakTime ( ) const

inline

Definition at line 67 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_peakTime; }

GetPhotonsPerMeV() [1/2]

G4double BesEmcWaveform::GetPhotonsPerMeV ( ) const

inline

Definition at line 71 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_photonsPerMeV; }

GetPhotonsPerMeV() [2/2]

G4double BesEmcWaveform::GetPhotonsPerMeV ( ) const

inline

Definition at line 71 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_photonsPerMeV; }

GetSampleTime() [1/2]

G4double BesEmcWaveform::GetSampleTime ( ) const

inline

Definition at line 66 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_sampleTime; }

GetSampleTime() [2/2]

G4double BesEmcWaveform::GetSampleTime ( ) const

inline

Definition at line 66 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_sampleTime; }

GetTau() [1/2]

G4double BesEmcWaveform::GetTau ( ) const

inline

Definition at line 65 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_tau; }

GetTau() [2/2]

G4double BesEmcWaveform::GetTau ( ) const

inline

Definition at line 65 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_tau; }

GetTimeOffset() [1/2]

G4double BesEmcWaveform::GetTimeOffset ( ) const

inline

Definition at line 68 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return m_timeOffset; }

GetTimeOffset() [2/2]

G4double BesEmcWaveform::GetTimeOffset ( ) const

inline

Definition at line 68 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return m_timeOffset; }

GetWave() [1/2]

G4double * BesEmcWaveform::GetWave ( ) const

inline

Definition at line 64 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{ return emcWave; }

GetWave() [2/2]

G4double * BesEmcWaveform::GetWave ( ) const

inline

Definition at line 64 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{ return emcWave; }

length() [1/2]

G4long BesEmcWaveform::length ( ) const

inline

Definition at line 63 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{  return array_size;}

length() [2/2]

G4long BesEmcWaveform::length ( ) const

inline

Definition at line 63 of file Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh.

{  return array_size;}

makeWaveform() [1/2]

void BesEmcWaveform::makeWaveform	(	G4double	energy,
		G4double	time
	)

Definition at line 128 of file BesEmcWaveform.cc.

{
  G4double amplitude;
  if(m_photonsPerMeV==0)
  {
    amplitude = energy;
  }
  else
  {
    G4double photons = energy*m_photonsPerMeV;
    if(photons>0) {
      G4double photonStatFactor = RandGauss::shoot(photons, sqrt(photons))/photons;
      amplitude = energy*photonStatFactor;
    } else {
      amplitude = 0;
    }
  }
 
  G4double tempTime;
  tempTime = 0;
 
  G4double peak = m_peakTime*m_peakTime*m_peakTime*m_peakTime*exp(-m_peakTime/m_tau)/24;
 
  for (G4long i=0;i<array_size;i++)
  {
    tempTime = i*m_sampleTime + m_timeOffset - time;
    if(tempTime>0)
      emcWave[i] += amplitude*tempTime*tempTime*tempTime*tempTime*exp(-tempTime/m_tau)/(24*peak);
  }
}

Referenced by updateWaveform().

makeWaveform() [2/2]

void BesEmcWaveform::makeWaveform	(	G4double	energy,
		G4double	time
	)

max() [1/2]

G4double BesEmcWaveform::max

(

G4long &

binOfMax

)

const

Definition at line 97 of file BesEmcWaveform.cc.

{
  G4double maxi=emcWave[0];
  binOfMax = 0;
  for (G4long i=1;i<array_size;i++)
  {
    if (emcWave[i]>maxi) 
    {
      maxi=emcWave[i];
      binOfMax = i;
    }
  }
  return maxi;
}

Referenced by BesEmcDigitizer::AddNoise5x5(), BesEmcDigitizer::AddNoiseAll(), BesEmcDigitizer::Digitize(), and BesEmcDigi::operator+=().

max() [2/2]

G4double BesEmcWaveform::max

(

G4long &

binOfMax

)

const

operator*=() [1/2]

BesEmcWaveform & BesEmcWaveform::operator*= ( const G4double &  scale )

virtual

Definition at line 68 of file BesEmcWaveform.cc.

{
  for (G4long i=0; i<array_size;i++) emcWave[i]*=scale;
  return *this;
}

operator*=() [2/2]

virtual BesEmcWaveform & BesEmcWaveform::operator*= ( const G4double &  )

virtual

operator+=() [1/2]

BesEmcWaveform & BesEmcWaveform::operator+= ( const BesEmcWaveform &  assign )

virtual

Definition at line 80 of file BesEmcWaveform.cc.

{
  for (G4long i=0; i<array_size;i++) emcWave[i]+=assign[i];
  return *this;
}

operator+=() [2/2]

virtual BesEmcWaveform & BesEmcWaveform::operator+= ( const BesEmcWaveform &  )

virtual

operator/=() [1/2]

BesEmcWaveform & BesEmcWaveform::operator/= ( const G4double &  scale )

virtual

Definition at line 74 of file BesEmcWaveform.cc.

{
  for (G4long i=0; i<array_size;i++) emcWave[i]/=scale;
  return *this;
}

operator/=() [2/2]

virtual BesEmcWaveform & BesEmcWaveform::operator/= ( const G4double &  )

virtual

operator=() [1/2]

BesEmcWaveform & BesEmcWaveform::operator= ( const BesEmcWaveform &  assign )

virtual

Definition at line 86 of file BesEmcWaveform.cc.

{
  if (this != &assign) {
    if (emcWave!=0) delete []emcWave;
    emcWave=new G4double[assign.array_size];
    array_size=assign.array_size;
    for (G4long i=0;i<array_size;i++) emcWave[i]=assign[i];
  }
  return *this;
}

operator=() [2/2]

virtual BesEmcWaveform & BesEmcWaveform::operator= ( const BesEmcWaveform &  )

virtual

operator[]() [1/2]

G4double & BesEmcWaveform::operator[] ( G4long  index ) const

inline

Definition at line 112 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

{
  if(index<0 || index>array_size-1){
    G4cout << "Array bounds exceeded. Index " << index << G4endl;
    ::abort();
  }
  return emcWave[index];
}

operator[]() [2/2]

G4double & BesEmcWaveform::operator[] ( G4long  ) const

inline

print() [1/2]

void BesEmcWaveform::print

(

)

Definition at line 188 of file BesEmcWaveform.cc.

{
  G4cout<<"New Wave!"<<G4endl;
  for(G4long i=0;i<array_size;i++)
    G4cout<<emcWave[i]<<"\t";
  G4cout<<G4endl;
}

print() [2/2]

void BesEmcWaveform::print

(

)

updateWaveform() [1/4]

void BesEmcWaveform::updateWaveform

(

BesEmcDigi *

digi

)

Definition at line 120 of file BesEmcWaveform.cc.

{
  G4double energy = digi->GetEnergy();
  G4double time = digi->GetTime()*m_sampleTime+m_timeOffset-m_peakTime;
 
  makeWaveform(energy, time);
}

updateWaveform() [2/4]

void BesEmcWaveform::updateWaveform

(

BesEmcDigi *

)

updateWaveform() [3/4]

void BesEmcWaveform::updateWaveform

(

BesEmcHit *

hit

)

Definition at line 112 of file BesEmcWaveform.cc.

{
  G4double energy = hit->GetEdepCrystal();
  G4double time = hit->GetTimeCrystal();
 
  makeWaveform(energy, time);
}

Referenced by BesEmcDigitizer::AddNoise5x5(), BesEmcDigitizer::AddNoiseAll(), BesEmcDigitizer::Digitize(), BesEmcDigi::MakeWaveform(), and BesEmcDigi::operator+=().

updateWaveform() [4/4]

void BesEmcWaveform::updateWaveform

(

BesEmcHit *

)

Member Data Documentation

array_size

G4long BesEmcWaveform::array_size

protected

Definition at line 88 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

Referenced by addElecNoise(), BesEmcWaveform(), digitize(), length(), makeWaveform(), max(), operator*=(), operator+=(), operator/=(), operator=(), operator[](), and print().

emcWave

G4double * BesEmcWaveform::emcWave

protected

Definition at line 87 of file InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh.

Referenced by addElecNoise(), BesEmcWaveform(), digitize(), GetWave(), makeWaveform(), max(), operator*=(), operator+=(), operator/=(), operator=(), operator[](), print(), and ~BesEmcWaveform().

---

The documentation for this class was generated from the following files:

• InstallArea/include/EmcSim/EmcSim/BesEmcWaveform.hh
• Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcWaveform.hh
• BesEmcWaveform.cc