fTrailing(-1),
fToT(-1),
fTime(-1),
- fError(-1)
+ fError(-1),
+ fDeltaBC(-1),
+ fL0L1Latency(-1)
{
// default ctr
fTrailing(-1),
fToT(f),
fTime(e),
- fError(l)
+ fError(l),
+ fDeltaBC(0),
+ fL0L1Latency(0)
{
// ctr
//_____________________________________________________________________________
AliTOFrawData::AliTOFrawData(Int_t a, Int_t b, Int_t c, Int_t d, Int_t e,
- Int_t f, Int_t ee, Int_t ff, Int_t g, Int_t h, Int_t l) :
+ Int_t f, Int_t ee, Int_t ff, Int_t g, Int_t h, Int_t l, Int_t deltaBC, Int_t l0l1) :
TObject(),
fACQflag(h),
fPSbit(g),
fTrailing(ff),
fToT(f),
fTime(e),
- fError(l)
+ fError(l),
+ fDeltaBC(deltaBC),
+ fL0L1Latency(l0l1)
{
// ctr
fTrailing(-1),
fToT(-1),
fTime(-1),
- fError(-1)
+ fError(-1),
+ fDeltaBC(-1),
+ fL0L1Latency(-1)
{
// dummy copy constructor
fToT = r.fToT;
fTime = r.fTime;
fError = r.fError;
+ fDeltaBC = r.fDeltaBC;
+ fL0L1Latency = r.fL0L1Latency;
}
this->fToT = r.fToT;
this->fTime = r.fTime;
this->fError = r.fError;
+ this->fDeltaBC = r.fDeltaBC;
+ this->fL0L1Latency = r.fL0L1Latency;
return *this;
}
// to evaluate the time-of-flight and time-over-threshold measurements
//
- AliDebug(2,Form(" %10.0f %10.0f %10.0f %1i %1i %1i",tof, tot, leading, psBit, acq, errorFlag));
+ AliDebug(2,Form(" %d %d %d %d %d %d",tof, tot, leading, psBit, acq, errorFlag));
if (fLeading!=-1 /*&& fTime==-1*/ && fToT==-1 && trailing!=-1) { // adc