ClassImp(AliBalance)
//____________________________________________________________________//
- AliBalance::AliBalance() :TObject() {
+AliBalance::AliBalance() :
+ TObject(),
+ fCharge(0), fNtrack(0), fV(0), fNumberOfBins(0),
+ fAnalysisType(0), fAnalyzedEvents(0), fP2Start(0),
+ fP2Stop(0), fP2Step(0), fNn(0), fNp(0) {
// Default constructor
for(Int_t i = 0; i < MAXIMUM_NUMBER_OF_STEPS; i++) {
fNpp[i] = .0;
fB[i] = 0.0;
ferror[i] = 0.0;
}
- fNp = 0.0;
- fNn = 0.0;
- fP2Start = 0.0;
- fP2Stop = 0.0;
- fP2Step = 0.0;
- fAnalysisType = 0;
- fNumberOfBins = 0;
- fNtrack = 0;
- fAnalyzedEvents = 0;
}
//____________________________________________________________________//
-AliBalance::AliBalance(Double_t p2Start, Double_t p2Stop, Int_t p2Bins) :TObject() {
+AliBalance::AliBalance(Double_t p2Start, Double_t p2Stop, Int_t p2Bins) :
+ TObject(),
+ fCharge(0), fNtrack(0), fV(0),
+ fNumberOfBins(p2Bins), fAnalysisType(0),
+ fAnalyzedEvents(0), fP2Start(p2Start), fP2Stop(p2Stop),
+ fP2Step(TMath::Abs(fP2Start - fP2Stop) / (Double_t)fNumberOfBins),
+ fNn(0), fNp(0) {
// Constructor
for(Int_t i = 0; i < MAXIMUM_NUMBER_OF_STEPS; i++) {
fNpp[i] = .0;
fB[i] = 0.0;
ferror[i] = 0.0;
}
- fNp = 0.0;
- fNn = 0.0;
- fAnalysisType = 0;
- fNtrack = 0;
- fAnalyzedEvents = 0;
-
- fP2Start = p2Start;
- fP2Stop = p2Stop;
- fNumberOfBins = p2Bins;
- fP2Step = TMath::Abs(fP2Start - fP2Stop) / (Double_t)fNumberOfBins;
}
//____________________________________________________________________//