#include "AliT0RecoParam.h"
#include "Riostream.h"
+using std::cout;
+using std::endl;
ClassImp(AliT0RecoParam)
AliT0RecoParam::AliT0RecoParam():
AliDetectorRecoParam(),
fRefAmp(7),
- fRefPoint(0)
+ fRefPoint(0),
+ fLatencyL1(0),
+ fLatencyL1A(0),
+ fLatencyL1C(0),
+ fLatencyHPTDC(0),
+ fVertexShift(0),
+ fEqualised(0)
{
//
// constructor
- //
SetName("T0");
SetTitle("T0");
+
+ fSatelliteThresholds[0] = -15;
+ fSatelliteThresholds[1] = -1.5;
+ for (Int_t i=0; i<500; i++) {
+ fLow[i] = 0.;
+ fHigh[i] = 10000.;
+ if( i<24) fBadChannels[i]=-1;
+ }
+
}
//_____________________________________________________________________________
AliT0RecoParam::AliT0RecoParam(const AliT0RecoParam &p):
AliDetectorRecoParam(p),
- fRefAmp(p.fRefAmp),
- fRefPoint(p.fRefPoint)
-{
-
+ fRefAmp(p.fRefAmp),
+ fRefPoint(p.fRefPoint),
+ fLatencyL1(p.fLatencyL1),
+ fLatencyL1A(p.fLatencyL1A),
+ fLatencyL1C(p.fLatencyL1C),
+ fLatencyHPTDC(p.fLatencyHPTDC),
+ fVertexShift(p.fVertexShift),
+ fEqualised( p.fEqualised)
+{
//copy constructor
+ fSatelliteThresholds[0] = (p.fSatelliteThresholds[0]);
+ fSatelliteThresholds[1] = (p.fSatelliteThresholds[1]);
+ for (Int_t i=0; i<500; i++) {
+ fLow[i] = p.fLow[i];
+ fHigh[i] = p.fHigh[i];
+ if( i<24) fBadChannels[i] = p.fBadChannels[i];
+ }
+
}
//_____________________________________________________________________________
AliDetectorRecoParam::operator=(p);
fRefAmp = p.fRefAmp;
fRefPoint = p.fRefPoint;
+ fLatencyL1 = p.fLatencyL1;
+ fLatencyL1A = p.fLatencyL1A;
+ fLatencyL1C = p.fLatencyL1C;
+
+ fLatencyHPTDC = p.fLatencyHPTDC;
+ fVertexShift = p.fVertexShift;
+
+ fSatelliteThresholds[0] = (p.fSatelliteThresholds[0]);
+ fSatelliteThresholds[1] = (p.fSatelliteThresholds[1]);
+ fEqualised = p.fEqualised;
+ for (Int_t i=0; i<500; i++) {
+ fLow[i] = p.fLow[i];
+ fHigh[i] = p.fHigh[i];
+ if( i<24) fBadChannels[i] = p.fBadChannels[i];
+ }
+
+ return *this;
+
}
//_____________________________________________________________________________
AliT0RecoParam *param = new AliT0RecoParam();
param->fRefAmp = 1;
param->fRefPoint = 0;
+ param->fLatencyL1 = 7782.05;
+ param->fLatencyL1A = 7781.90;
+ param->fLatencyL1C = 7782.19;
+ param->fLatencyHPTDC = 22000;
+ param->fVertexShift = 0;
+ for (Int_t i=0; i<500; i++)
+ {
+ param-> fLow[i]=0.;
+ param-> fHigh[i]=10000.;
+ }
param->SetName("Low Flux");
param->SetTitle("Low Flux");
+ param->SetSatelliteThresholds(-15, -1.5);
+ param->SetEq(0);
return param;
}
//
AliT0RecoParam *param = new AliT0RecoParam();
- param->fRefAmp = 5;
+ param->fRefAmp = 10;
param->fRefPoint = 0;
+ param->fLatencyL1 = 7782.05;
+ param->fLatencyL1A = 7781.90;
+ param->fLatencyL1C = 7782.19;
+ param->fVertexShift = 0;
+ param->fLatencyHPTDC = 22000;
+ for (Int_t i=0; i<500; i++)
+ {
+ param-> fLow[i]=0.;
+ param-> fHigh[i]=20000.;
+ }
//
- param->SetName("High Flux");
+ param->SetSatelliteThresholds(-15, -1.5);
+ param->SetEq(0);
+
+ param->SetName("High Flux");
param->SetTitle("High Flux");
return param;
}
AliT0RecoParam *param = new AliT0RecoParam();
param->fRefAmp = 1;
param->fRefPoint = 1;
+ param->fLatencyL1 = 7782.05;
+ param->fLatencyL1A = 7781.90;
+ param->fLatencyL1C = 7782.19;
+ param->fLatencyHPTDC = 22000;
+ param->fVertexShift = 0;
+ param->SetSatelliteThresholds(-15, -1.5);
+ param->SetEq(0);
+
+ for (Int_t i=0; i<500; i++)
+ {
+ param-> fLow[i]=0.;
+ param-> fHigh[i]=12000.;
+ }
//
param->SetName("Laser Flux");
param->SetTitle("Laser Flux");
return param;
}
//_____________________________________________________________________________
+
void AliT0RecoParam::PrintParameters() const
{
//
// Printing of the used T0 reconstruction parameters
//
AliInfo(Form(" Reference amplitude for walk corerection : %f", fRefAmp));
- AliInfo(Form(" Reference point in channel : %i", fRefPoint));
-
+ AliInfo(Form(" Bad channel in channel : %i", fRefPoint));
+ cout<<" AliT0RecoParam::PrintParameters() "<<endl;
+ for (Int_t i=0; i<105; i++) cout<<i<<" "<<fLow[i]<<" "<<fHigh[i]<<endl;
}