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/**
\class THcTrigRawHit
\ingroup DetSupport
\brief Class representing a single raw ADC hit.
It supports rich data from flash 250 ADC modules.
*/
#include "THcRawAdcHit.h"
#include <stdexcept>
#include "TString.h"
THcRawAdcHit::THcRawAdcHit() :
TObject(),
fAdc(), fAdcTime(), fAdcPedestal(), fAdcPeak(), fAdcSample(),
fHasMulti(kFALSE), fNPulses(0), fNSamples(0)
{}
THcRawAdcHit& THcRawAdcHit::operator=(const THcRawAdcHit& right) {
TObject::operator=(right);
if (this != &right) {
for (UInt_t i=0; i<fMaxNPulses; ++i) {
fAdc[i] = right.fAdc[i];
fAdcTime[i] = right.fAdcTime[i];
fAdcPedestal[i] = right.fAdcPedestal[i];
fAdcPeak[i] = right.fAdcPeak[i];
}
for (UInt_t i=0; i<fMaxNSamples; ++i) {
fAdcSample[i] = right.fAdcSample[i];
}
fHasMulti = right.fHasMulti;
fNPulses = right.fNPulses;
fNSamples = right.fNSamples;
}
return *this;
}
THcRawAdcHit::~THcRawAdcHit() {}
void THcRawAdcHit::Clear(Option_t* opt) {
TObject::Clear(opt);
//for (UInt_t i=0; i<fMaxNPulses; ++i) {
// fAdc[i] = 0;
// fAdcTime[i] = 0;
// fAdcPedestal[i] = 0;
// fAdcPeak[i] = 0;
//}
//for (UInt_t i=0; i<fMaxNSamples; ++i) {
// fAdcSample[i] = 0 ;
//}
fHasMulti = kFALSE;
fNPulses = 0;
fNSamples = 0;
}
void THcRawAdcHit::SetData(Int_t data) {
if (fNPulses >= fMaxNPulses) {
throw std::out_of_range(
"`THcRawAdcHit::SetData`: too many pulses!"
);
}
fAdc[fNPulses] = data;
++fNPulses;
}
void THcRawAdcHit::SetSample(Int_t data) {
if (fNSamples >= fMaxNSamples) {
throw std::out_of_range(
"`THcRawAdcHit::SetSample`: too many samples!"
);
}
fAdcSample[fNSamples] = data;
++fNSamples;
}
void THcRawAdcHit::SetDataTimePedestalPeak(
Int_t data, Int_t time, Int_t pedestal, Int_t peak
) {
if (fNPulses >= fMaxNPulses) {
throw std::out_of_range(
"`THcRawAdcHit::SetData`: too many pulses!"
);
}
fAdc[fNPulses] = data;
fAdcTime[fNPulses] = data;
fAdcPedestal[fNPulses] = data;
fAdcPeak[fNPulses] = data;
fHasMulti = kTRUE;
++fNPulses;
}
Int_t THcRawAdcHit::GetRawData(UInt_t iPulse) {
if (iPulse >= fNPulses && iPulse != 0) {
TString msg = TString::Format(
"`THcRawAdcHit::GetRawData`: requested pulse %d where only %d pulses available!",
iPulse, fNPulses
);
throw std::out_of_range(msg.Data());
}
else if (iPulse >= fNPulses && iPulse == 0) {
return 0;
}
else {
return fAdc[iPulse];
}
}
Int_t THcRawAdcHit::GetAdcTime(UInt_t iPulse) {
if (iPulse >= fNPulses && iPulse != 0) {
TString msg = TString::Format(
"`THcRawAdcHit::GetAdcTime`: requested pulse %d where only %d pulses available!",
iPulse, fNPulses
);
throw std::out_of_range(msg.Data());
}
else if (fHasMulti) {
return fAdcTime[iPulse];
}
else {
return 0;
}
}
Int_t THcRawAdcHit::GetAdcPedestal(UInt_t iPulse) {
if (iPulse >= fNPulses && iPulse != 0) {
TString msg = TString::Format(
"`THcRawAdcHit::GetAdcPedestal`: requested pulse %d where only %d pulses available!",
iPulse, fNPulses
);
throw std::out_of_range(msg.Data());
}
else if (fHasMulti) {
return fAdcPedestal[iPulse];
}
else {
return 0;
}
}
Int_t THcRawAdcHit::GetAdcPeak(UInt_t iPulse) {
if (iPulse >= fNPulses && iPulse != 0) {
TString msg = TString::Format(
"`THcRawAdcHit::GetAdcPeak`: requested pulse %d where only %d pulses available!",
iPulse, fNPulses
);
throw std::out_of_range(msg.Data());
}
else if (fHasMulti) {
return fAdcPeak[iPulse];
}
else {
return 0;
}
}
Int_t THcRawAdcHit::GetSample(UInt_t iSample) {
if (iSample >= fNSamples && iSample != 0) {
TString msg = TString::Format(
"`THcRawAdcHit::GetSample`: requested sample %d where only %d sample available!",
iSample, fNSamples
);
throw std::out_of_range(msg.Data());
}
else {
return fAdcSample[iSample];
}
}
UInt_t THcRawAdcHit::GetNPulses() {
return fNPulses;
}
UInt_t THcRawAdcHit::GetNSamples() {
return fNSamples;
}
Bool_t THcRawAdcHit::HasMulti() {
return fHasMulti;
}
ClassImp(THcRawAdcHit)