BOSS 7.0.4
BESIII Offline Software System
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ZddReconAlg Class Reference

#include <ZddReconAlg.h>

+ Inheritance diagram for ZddReconAlg:

Public Member Functions

 ZddReconAlg (const std::string &name, ISvcLocator *pSvcLocator)
 
StatusCode initialize ()
 
StatusCode execute ()
 
StatusCode finalize ()
 
 ZddReconAlg (const std::string &name, ISvcLocator *pSvcLocator)
 
StatusCode initialize ()
 
StatusCode execute ()
 
StatusCode finalize ()
 

Detailed Description

Constructor & Destructor Documentation

◆ ZddReconAlg() [1/2]

ZddReconAlg::ZddReconAlg ( const std::string &  name,
ISvcLocator *  pSvcLocator 
)

Definition at line 13 of file ZddReconAlg.cxx.

13 :
14 Algorithm(name, pSvcLocator),
15 m_errStat(false)
16{
17 declareProperty("BreakWithError", m_errQuit = true);
18}

◆ ZddReconAlg() [2/2]

ZddReconAlg::ZddReconAlg ( const std::string &  name,
ISvcLocator *  pSvcLocator 
)

Member Function Documentation

◆ execute() [1/2]

StatusCode ZddReconAlg::execute ( )

Definition at line 30 of file ZddReconAlg.cxx.

31{
32 MsgStream log(msgSvc(), name());
33 log << MSG::INFO << "in execute()" << endreq;
34
35 // Part 1: Get the event header, print out event and run number
36 SmartDataPtr<Event::EventHeader> eventHeader(eventSvc(),"/Event/EventHeader");
37 if (!eventHeader) {
38 log << MSG::FATAL << "Could not find Event Header" << endreq;
39 return StatusCode::FAILURE;
40 }
41 log << MSG::DEBUG << "Retrieved event: " << eventHeader->eventNumber()
42 << " run: " << eventHeader->runNumber() << endreq;
43
44 // Part 2: Register RecZddChannel to TDS
45 DataObject* aRecEvent = 0;
46 eventSvc()->findObject("/Event/Recon", aRecEvent);
47 if ( aRecEvent == 0 ) {
48 aRecEvent = new ReconEvent();
49 StatusCode sc = eventSvc()->registerObject("/Event/Recon", aRecEvent);
50 if ( sc.isFailure() ) {
51 log << MSG::FATAL << "Could not register ReconEvent" << endreq;
52 return StatusCode::FAILURE;
53 }
54 }
55
56 RecZddChannelCol* recZddCol = new RecZddChannelCol;
57 StatusCode sc = eventSvc()->registerObject(EventModel::Recon::RecZddChannelCol, recZddCol);
58 if ( sc.isFailure() ) {
59 log << MSG::FATAL << "Could not register RecZddChannelCol" << endreq;
60 return StatusCode::FAILURE;
61 }
62
63 // Part 3: check the ZDD data
64 // 3.1: some errors happened before, ignore the rest calculations
65 if ( m_errStat ) return StatusCode::SUCCESS;
66
67 // 3.2: check the status of the current ZDD event
68 SmartDataPtr<Event::ZddEvent> zddEvt(eventSvc(),"/Event/ZddEvent");
69 int zddCheck = zddDataStat(zddEvt.ptr(), eventHeader->eventNumber()+1);
70
71 if ( zddCheck != 0 ) {
72 if ( zddCheck < 0 ) {
73 // serious error happened, ignore all of the rest ZDD data
74 m_errStat = true;
75
76 if ( m_errQuit ) { // whether to break the data processing
77 return StatusCode::FAILURE;
78 }
79 }
80 // else:
81 // problems in the current event, only ignore this event
82 return StatusCode::SUCCESS;
83 }
84
85 // Part 4: Get event T0
86 double bes3_t0 = -10000.0;
87 SmartDataPtr<RecEsTimeCol> evTimeCol(eventSvc(), "/Event/Recon/RecEsTimeCol");
88 if ( !evTimeCol || evTimeCol->size() == 0 ) {
89 log << MSG::WARNING << " Could not find RecEsTimeCol" << endreq;
90 //return StatusCode::SUCCESS;
91 }
92 else {
93 RecEsTimeCol::iterator iter_evt = evTimeCol->begin();
94 if (iter_evt != evTimeCol->end()) {
95 bes3_t0 = (*iter_evt)->getTest();
96 //std::cout << "BESIII t0: " << bes3_t0 << std::endl; //wangyadi
97 bes3_t0 = 6400 - bes3_t0; // T_L1 - T_collision
98 }
99 }
100
101 // Part 5: ZDD data processing
102 const Event::ZddEvent::Channels& chs = zddEvt->channels();
103 //cout << "ZDD has n channel: " << chs.size() << endl;
104 // loop the channels
105 Event::ZddEvent::Channels::const_iterator end_ch = chs.end();
106 for ( Event::ZddEvent::Channels::const_iterator it = chs.begin(); it != end_ch; ++it ) {
107 const ZddChannel* pch = *it;
108 const ZddChannel::Fragments& frags = pch->fragments();
109 //cout << "Channel " << pch->getChId() << " has " << frags.size() << " fragments: " << endl;
110
111 RecZddChannel* recZddCh = new RecZddChannel;
112 recZddCh->setChannelId(pch->getChId());
113 recZddCh->setScanCode(pch->getScanCode());
114 double e_K = getEK(pch->getChId());
115
116 // loop the fragments, rebuild the original channel waveform into one buffer
117 int maxSamples = 800; // This value may change!
118 unsigned char waveform[800];
119 memset(waveform, 0, maxSamples);
120 ZddChannel::Fragments::const_iterator end_fg = frags.end();
121 bool quit_event = false;
122 int start = 0;
123 for ( ZddChannel::Fragments::const_iterator jt = frags.begin(); jt != end_fg; ++jt) {
124 const ZddFragment& frag = *jt;
125 //cout << "\tindex from " << frag.start_index << ",\t length " << frag.length << ":\t ";
126 //for ( int i = 0; i < frag.length; ++i ) {
127 // cout << int(frag.sample[i]) << " ";
128 //}
129 //cout << endl;
130 start = frag.start_index;
131
132 // check for CAEN data corruption ( absent from 2013 onward ?? )
133 if ( start+frag.length > maxSamples ) {
134 recZddCh->setScanCode( 2*10 + pch->getScanCode() );
135 MsgStream log(msgSvc(), name());
136 log << MSG::ERROR << "ZDD BAD DATA: CAEN corruption problem" << endreq;
137 quit_event = true; // abandon this event...
138 break; // ...starting from this channel
139 }
140
141 for ( int i = 0; i < frag.length; ++i ) waveform[start++] = frag.sample[i];
142 }
143
144 // then reclusterize with a slightly higher threshold
145 unsigned char threshold = 20; // threshold for reclustering
146 unsigned char rephaseThreshold = 40; // threshold for waveform rephasing
147 unsigned char minSample = 255, maxSample = -1;
148 int maxTime = -1;
149 bool closed = true; // no cluster is running yet
150 int phases[4] = {-1,-1,-1,-1}; // a 4-channel histogram
151 for ( int pt=0; pt<maxSamples; pt++ ) {
152 bool notZero = waveform[pt]>0;
153 bool smaller = waveform[pt] < minSample;
154 if ( notZero && smaller ) minSample = waveform[pt]; // find baseline for whole channel
155 if ( waveform[pt] > threshold ) {
156 if ( closed ) { // start a new cluster, initialize max and index
157 closed = false;
158 maxSample = waveform[pt];
159 maxTime = pt;
160 } else { // continue the old cluster, update max and index
161 if ( waveform[pt] > maxSample ) {
162 maxSample = waveform[pt];
163 maxTime = pt;
164 }
165 }
166 } else {
167 if ( ! closed ) { // close the old cluster and store it
168 closed = true;
169 double tNsec = 2.*maxTime;
170 recZddCh->addFragment(tNsec, maxSample*e_K); // time relative to start of FADC window
171 // std::cout << " ZDD E & T: " << int(maxSample) << ", " << maxTime << std::endl;
172 if ( maxSample > rephaseThreshold ) { // most peaks are at multiples of 8ns
173 int phase = maxTime%4; // only one of these bins will be most used
174 phases[phase]++; // but we do not know which one yet
175 }
176 }
177 }
178 }
179 if ( ! closed ) { // close and store the last cluster if still running
180 closed = true;
181 double tNsec = 2.*maxTime; // time relative to start of FADC window
182 recZddCh->addFragment(tNsec, maxSample*e_K);
183 // std::cout << " ZDD E & T: " << int(maxSample) << ", " << maxTime << std::endl;
184 if ( maxSample > rephaseThreshold ) {
185 int phase = maxTime%4;
186 phases[phase]++;
187 }
188 }
189
190 // Compute channel phase
191 int mostProb = -1;
192 int chPhase = -1;
193 for (int ph=0; ph<4; ph++) {
194 if ( phases[ph] > mostProb ) {
195 mostProb = phases[ph];
196 chPhase = ph;
197 }
198 }
199
200 if ( chPhase==-1 ) {// mark channel as not rephasable (no samples above rephaseThreshold)
201 recZddCh->setScanCode( 3*10 + pch->getScanCode() );
202 chPhase = -2;
203 }
204
205 recZddCh->setBaseLine(minSample);
206 recZddCh->setPhase(chPhase);
207 recZddCol->push_back(recZddCh);
208
209/* Previous code, left for reference
210 // loop the fragments
211 ZddChannel::Fragments::const_iterator end_fg = frags.end();
212 for ( ZddChannel::Fragments::const_iterator jt = frags.begin(); jt != end_fg; ++jt) {
213 const ZddFragment& frag = *jt;
214 int efrag = -1, tfrag = -1;
215 calFragEandT(frag, efrag, tfrag);
216 recZdd->addFragment(bes3_t0-tfrag, efrag*e_K);
217 }
218*/
219
220 if ( quit_event ) break; // abandon the event entirely after a CAEN data corruption instance
221
222 } // end of loop on channels
223 return StatusCode::SUCCESS;
224}
ObjectVector< RecZddChannel > RecZddChannelCol

◆ execute() [2/2]

StatusCode ZddReconAlg::execute ( )

◆ finalize() [1/2]

StatusCode ZddReconAlg::finalize ( )

Definition at line 227 of file ZddReconAlg.cxx.

228{
229 MsgStream log(msgSvc(), name());
230 log << MSG::INFO << "in finalize()" << endreq;
231
232 return StatusCode::SUCCESS;
233}

◆ finalize() [2/2]

StatusCode ZddReconAlg::finalize ( )

◆ initialize() [1/2]

StatusCode ZddReconAlg::initialize ( )

Definition at line 21 of file ZddReconAlg.cxx.

22{
23 MsgStream log(msgSvc(), name());
24 log << MSG::INFO << "in initialize()" << endreq;
25
26 return StatusCode::SUCCESS;
27}

◆ initialize() [2/2]

StatusCode ZddReconAlg::initialize ( )

The documentation for this class was generated from the following files: