1 /**************************************************************************
2 * Copyright(c) 2007, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
18 // This class decodes the stream of ALTRO samples to extract
19 // the PHOS "digits" of current event.
22 // AliRawReader* rf = new AliRawReaderDate("2006run2211.raw");
23 // AliPHOSRawDecoder dc(rf);
24 // while (rf->NextEvent()) {
25 // dc.SetOldRCUFormat(kTRUE);
26 // dc.SubtractPedestals(kTRUE);
27 // while ( dc.NextDigit() ) {
28 // Int_t module = dc.GetModule();
29 // Int_t column = dc.GetColumn();
30 // Int_t row = dc.GetRow();
31 // Double_t amplitude = dc.GetEnergy();
32 // Double_t time = dc.GetTime();
33 // Bool_t IsLowGain = dc.IsLowGain();
38 // Author: Boris Polichtchouk
40 // --- ROOT system ---
43 // --- AliRoot header files ---
44 #include "AliPHOSRawDecoder.h"
45 #include "AliRawReader.h"
47 ClassImp(AliPHOSRawDecoder)
49 //-----------------------------------------------------------------------------
50 AliPHOSRawDecoder::AliPHOSRawDecoder():
51 fRawReader(0),fCaloStream(0),fPedSubtract(kFALSE),fEnergy(-111),fTime(-111),fQuality(0.),
52 fModule(-1),fColumn(-1),fRow(-1),fNewModule(-1),fNewColumn(-1),fNewRow(-1),fNewAmp(0),fNewTime(0),
53 fLowGainFlag(kFALSE),fNewLowGainFlag(kFALSE),fOverflow(kFALSE),fSamples(0),fTimes(0)
55 //Default constructor.
58 //-----------------------------------------------------------------------------
59 AliPHOSRawDecoder::AliPHOSRawDecoder(AliRawReader* rawReader, AliAltroMapping **mapping):
60 fRawReader(0),fCaloStream(0),fPedSubtract(kFALSE),fEnergy(-111),fTime(-111),fQuality(0.),
61 fModule(-1),fColumn(-1),fRow(-1),fNewModule(-1),fNewColumn(-1),fNewRow(-1),fNewAmp(0),fNewTime(0),
62 fLowGainFlag(kFALSE),fNewLowGainFlag(kFALSE),fOverflow(kFALSE),fSamples(0),fTimes(0)
64 //Construct a decoder object.
65 //Is is user responsibility to provide next raw event
66 //using AliRawReader::NextEvent().
68 fRawReader = rawReader;
69 fCaloStream = new AliCaloRawStream(rawReader,"PHOS",mapping);
70 fCaloStream->SetOldRCUFormat(kFALSE);
71 fSamples = new TArrayI(100);
72 fTimes = new TArrayI(100);
75 //-----------------------------------------------------------------------------
76 AliPHOSRawDecoder::~AliPHOSRawDecoder()
80 if(fCaloStream){ delete fCaloStream; fCaloStream=0;}
81 if(fSamples){ delete fSamples; fSamples=0 ;}
82 if(fTimes){ delete fTimes; fTimes=0 ;}
85 //-----------------------------------------------------------------------------
86 AliPHOSRawDecoder::AliPHOSRawDecoder(const AliPHOSRawDecoder &phosDecoder ):
87 fRawReader(phosDecoder.fRawReader),fCaloStream(phosDecoder.fCaloStream),
88 fPedSubtract(phosDecoder.fPedSubtract),
89 fEnergy(phosDecoder.fEnergy),fTime(phosDecoder.fTime),fQuality(phosDecoder.fQuality),
90 fModule(phosDecoder.fModule),fColumn(phosDecoder.fColumn),
91 fRow(phosDecoder.fRow),fNewModule(phosDecoder.fNewModule),fNewColumn(phosDecoder.fNewColumn),
92 fNewRow(phosDecoder.fNewRow),fNewAmp(phosDecoder.fNewAmp),fNewTime(phosDecoder.fNewTime),
93 fLowGainFlag(phosDecoder.fLowGainFlag),fNewLowGainFlag(phosDecoder.fNewLowGainFlag),
94 fOverflow(phosDecoder.fOverflow),fSamples(phosDecoder.fSamples),
95 fTimes(phosDecoder.fTimes)
100 //-----------------------------------------------------------------------------
101 AliPHOSRawDecoder& AliPHOSRawDecoder::operator = (const AliPHOSRawDecoder &phosDecode)
103 //Assignment operator.
105 if(this != &phosDecode) {
106 fRawReader = phosDecode.fRawReader;
108 if(fCaloStream) delete fCaloStream;
109 fCaloStream = phosDecode.fCaloStream;
111 fEnergy = phosDecode.fEnergy;
112 fTime = phosDecode.fTime;
113 fQuality = phosDecode.fQuality ;
114 fModule = phosDecode.fModule;
115 fColumn = phosDecode.fColumn;
116 fRow = phosDecode.fRow;
117 fNewModule = phosDecode.fNewModule;
118 fNewColumn = phosDecode.fNewColumn;
119 fNewRow = phosDecode.fNewRow;
120 fNewAmp = phosDecode.fNewAmp ;
121 fNewTime= phosDecode.fNewTime ;
122 fLowGainFlag = phosDecode.fLowGainFlag;
123 fNewLowGainFlag = phosDecode.fNewLowGainFlag;
124 fOverflow = phosDecode.fOverflow ;
126 if(fSamples) delete fSamples;
127 fSamples = phosDecode.fSamples;
129 if(fTimes) delete fTimes;
130 fTimes = phosDecode.fTimes;
136 //-----------------------------------------------------------------------------
138 Bool_t AliPHOSRawDecoder::NextDigit()
140 //Extract an energy deposited in the crystal,
141 //crystal' position (module,column,row),
142 //time and gain (high or low).
144 AliCaloRawStream* in = fCaloStream;
147 Int_t mxSmps = fSamples->GetSize();
152 Float_t baseLine = 1.0;
153 const Int_t kPreSamples = 10;
156 while ( in->Next() ) {
159 tLength = in->GetTimeLength();
161 fSamples->Set(tLength);
165 // Fit the full sample
166 if(in->IsNewHWAddress() && iBin>0) {
169 //First remember new sample
170 fNewLowGainFlag = in->IsLowGain();
171 fNewModule = in->GetModule()+1;
172 fNewRow = in->GetRow() +1;
173 fNewColumn = in->GetColumn()+1;
174 fNewAmp = in->GetSignal() ;
175 fNewTime=in->GetTime() ;
177 // Temporarily we take the energy as a maximum amplitude
178 // and the pedestal from the 0th point (30 Aug 2006).
179 // Time is not evaluated for the moment (12.01.2007).
180 // Take is as a first time bin multiplied by the sample tick time
184 fEnergy -= (Double_t)(pedMean/nPed); // pedestal subtraction
187 if (fEnergy < baseLine) fEnergy = 0;
193 fLowGainFlag = in->IsLowGain();
194 // fTime = in->GetTime();
195 fModule = in->GetModule()+1;
196 fRow = in->GetRow() +1;
197 fColumn = in->GetColumn()+1;
199 if(fLowGainFlag==fNewLowGainFlag && fModule==fNewModule &&
200 fRow==fNewRow && fColumn==fNewColumn ){
201 if(fNewAmp>fEnergy) fEnergy = (Double_t)fNewAmp ;
205 //Calculate pedestal if necessary
206 if(fPedSubtract && in->GetTime() < kPreSamples) {
207 pedMean += in->GetSignal();
210 if((Double_t)in->GetSignal() > fEnergy) fEnergy = (Double_t)in->GetSignal();