AliTPCParamSR::AliTPCParamSR()
+ :AliTPCParam(),
+ fInnerPRF(0),
+ fOuter1PRF(0),
+ fOuter2PRF(0),
+ fTimeRF(0),
+ fFacSigmaPadRow(0),
+ fFacSigmaPad(0),
+ fFacSigmaTime(0)
{
//
//constructor set the default parameters
- fInnerPRF=0;
- fOuter1PRF=0;
- fOuter2PRF=0;
- fTimeRF = 0;
+ //
+
fFacSigmaPadRow = Float_t(kFacSigmaPadRow);
fFacSigmaPad = Float_t(kFacSigmaPad);
fFacSigmaTime = Float_t(kFacSigmaTime);
SetDefault();
Update();
}
+AliTPCParamSR::AliTPCParamSR(const AliTPCParamSR ¶m)
+ :AliTPCParam(),
+ fInnerPRF(0),
+ fOuter1PRF(0),
+ fOuter2PRF(0),
+ fTimeRF(0),
+ fFacSigmaPadRow(0),
+ fFacSigmaPad(0),
+ fFacSigmaTime(0)
+{
+ //
+ // copy constructor - dummy
+ //
+ fFacSigmaPadRow = param.fFacSigmaPadRow;
+}
+AliTPCParamSR & AliTPCParamSR::operator =(const AliTPCParamSR & param)
+{
+ //
+ // assignment operator - dummy
+ //
+ fZLength=param.fZLength;
+ return (*this);
+}
AliTPCParamSR::~AliTPCParamSR()
{
Int_t fpadrow = TMath::Max(TMath::Nint(index[2]+xyz[0]-sfpadrow),0); //"first" padrow
Int_t fpad = TMath::Nint(xyz[1]-sfpad); //first pad
- Int_t ftime = TMath::Max(TMath::Nint(xyz[2]+xyz[3]+GetZOffset()/GetZWidth()-sftime-GetNTBinsL1()),0); // first time
+ Int_t ftime = TMath::Max(TMath::Nint(xyz[2]+xyz[3]+GetZOffset()/GetZWidth()-sftime),0); // first time
Int_t lpadrow = TMath::Min(TMath::Nint(index[2]+xyz[0]+sfpadrow),fpadrow+19); //"last" padrow
lpadrow = TMath::Min(GetNRow(index[1])-1,lpadrow);
Int_t lpad = TMath::Min(TMath::Nint(xyz[1]+sfpad),fpad+19); //last pad
- Int_t ltime = TMath::Min(TMath::Nint(xyz[2]+xyz[3]+GetZOffset()/GetZWidth()+sftime-GetNTBinsL1()),ftime+19); // last time
+ Int_t ltime = TMath::Min(TMath::Nint(xyz[2]+xyz[3]+GetZOffset()/GetZWidth()+sftime),ftime+19); // last time
ltime = TMath::Min(ltime,GetMaxTBin()-1);
//
Int_t npads = GetNPads(index[1],row);
//calculate time response function
Int_t time;
for (time = ftime;time<=ltime;time++)
- timeres[time-ftime]= fTimeRF->GetRF((-xyz[2]-xyz[3]+Float_t(time))*fZWidth+GetNTBinsL1());
+ timeres[time-ftime]= fTimeRF->GetRF((-xyz[2]-xyz[3]+Float_t(time))*fZWidth);
//write over threshold values to stack
for (padrow = fpadrow;padrow<=lpadrow;padrow++)
for (pad = fpad;pad<=lpad;pad++)
Int_t npads = GetNPads(index[1],index[3]-1);
Int_t cpadrow = index[2]; // electrons are here
Int_t cpad = TMath::Nint(xyz[1]);
- Int_t ctime = TMath::Nint(xyz[2]+zoffset2+xyz[3]-GetNTBinsL1());
+ Int_t ctime = TMath::Nint(xyz[2]+zoffset2+xyz[3]);
//calulate deviation
Float_t dpadrow = xyz[0];
Float_t dpad = xyz[1]-cpad;
- Float_t dtime = xyz[2]+zoffset2+xyz[3]-ctime-GetNTBinsL1();
+ Float_t dtime = xyz[2]+zoffset2+xyz[3]-ctime;
Int_t cindex =0;
Int_t cindex3 =0;
Int_t maxt =GetMaxTBin();