for (Int_t i=0; i<24; i++){
TGraph* gr = fParam ->GetAmpLED(i);
- Int_t np = gr->GetN();
- Double_t *x = gr->GetX();
- Double_t *y = gr->GetY();
-
- Double_t *x1 = new Double_t[np];
- Double_t *y1 = new Double_t[np];
- for (Int_t ii=0; ii<np; ii++) {
- y1[ii]=y[np-ii-1];
- x1[ii]=x[np-ii-1];
+ if(gr) {
+ Int_t np = gr->GetN();
+ Double_t *x = gr->GetX();
+ Double_t *y = gr->GetY();
+
+ Double_t *x1 = new Double_t[np];
+ Double_t *y1 = new Double_t[np];
+ for (Int_t ii=0; ii<np; ii++) {
+ y1[ii]=y[np-ii-1];
+ x1[ii]=x[np-ii-1];
+ }
+ TGraph *grInverse = new TGraph(np,y1,x1);
+ fAmpLED.AddAtAndExpand(grInverse,i);
+ if (x1) delete [] x1;
+ if (y1) delete [] y1;
}
-
- TGraph *grInverse = new TGraph(np,y1,x1);
- fAmpLED.AddAtAndExpand(grInverse,i);
}
for (Int_t i=0; i<24; i++){
TGraph* grq = fParam ->GetQTC(i);
- Int_t npq = grq->GetN();
- Double_t *xq = grq->GetX();
- Double_t *yq = grq->GetY();
- Double_t *x1q = new Double_t[npq];
- Double_t *y1q = new Double_t[npq];
- for (Int_t ii=1; ii<npq; ii++) {
- y1q[ii]=yq[ii-1];
- x1q[ii]=xq[ii-1];
+ if(grq){
+ Int_t npq = grq->GetN();
+ Double_t *xq = grq->GetX();
+ Double_t *yq = grq->GetY();
+ Double_t *x1q = new Double_t[npq];
+ Double_t *y1q = new Double_t[npq];
+ for (Int_t ii=1; ii<npq; ii++) {
+ y1q[ii]=yq[ii-1];
+ x1q[ii]=xq[ii-1];
+ }
+ TGraph *grInverseQTC = new TGraph(npq,y1q,x1q);
+ fAmpQTC.AddAtAndExpand(grInverseQTC,i);
+ if (x1q) delete [] x1q;
+ if (y1q) delete [] y1q;
+
}
- TGraph *grInverseQTC = new TGraph(npq,y1q,x1q);
- fAmpQTC.AddAtAndExpand(grInverseQTC,i);
}
}
+
//------------------------------------------------------------------------
AliT0Digitizer::~AliT0Digitizer()
{
Int_t hit, nhits;
Int_t countE[24];
Int_t volume, pmt, trCFD, trLED;
- Float_t sl, qt;
+ Float_t sl=0, qt=0;
Int_t bestATDC=0;
Int_t bestCTDC=0;
Float_t qtCh=0;
continue;
}
-
+ Float_t slew = 0;
Float_t besttimeC=99999.;
Float_t besttimeA=99999.;
Int_t pmtBestC=99999;
trCFD = Int_t (timeGaus[i]/channelWidth + timeDelayCFD[i]);
TGraph* gr = ((TGraph*)fAmpLED.At(i));
- sl = gr->Eval(qt);
+ if(gr) sl = gr->Eval(qt);
TGraph* gr1 = ((TGraph*)fAmpQTC.At(i));
- qtCh = gr1->Eval(qt);
+ if(gr1) qtCh = gr1->Eval(qt);
fADC0->AddAt(0,i);
if(qtCh)
- fADC->AddAt(qtCh,i);
+ fADC->AddAt(Int_t(qtCh),i);
// sumMult += Int_t ((al*gain[i]/ph2Mip)*50) ;
sumMult += Int_t (qtCh/sumMultCoeff) ;
// put slewing
TGraph *fu=(TGraph*) fParam ->GetWalk(i);
- Float_t slew=fu->Eval(Float_t(qtCh));
-
+ if(fu) slew=fu->Eval(Float_t(qtCh));
+
// trCFD=trCFD-Int_t(fMaxValue[i]-slew);
- trCFD = trCFD + slew; //for the same channel as cosmic
+ trCFD = trCFD + Int_t(slew); //for the same channel as cosmic
ftimeCFD->AddAt(Int_t (trCFD),i);
trLED = Int_t(trCFD + sl );
ftimeLED->AddAt(trLED,i);
- AliDebug(10,Form(" pmt %i : time in ns %f time in channels %i LEd %i ", i, timeGaus[i],trCFD, trLED ));
- AliDebug(10,Form(" qt in MIP %f led-cfd in %f qt in channels %f ",qt, sl, qtCh));
+ AliDebug(1,Form(" pmt %i : delay %f time in ns %f time in channels %i LEd %i ", i, timeDelayCFD[i], timeGaus[i],trCFD, trLED ));
+ AliDebug(1,Form(" qt in MIP %f led-cfd in %f qt in channels %f ",qt, sl, qtCh));
}
} //pmt loop