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CSCAFEBConnectAnalysis Class Reference

#include <CSCAFEBConnectAnalysis.h>

Public Member Functions

void analyze (const CSCWireDigiCollection &wirecltn)
 
 CSCAFEBConnectAnalysis ()
 
void done ()
 
void setup (const std::string &histoFileName)
 

Private Member Functions

void bookForId (int flag, const int &idint, const std::string &ids)
 
void hf1ForId (std::map< int, TH1 *> &mp, int flag, const int &id, float &x, float w)
 
void hf2ForId (std::map< int, TH2 *> &mp, int flag, const int &id, float &x, float &y, float w)
 

Private Attributes

const CSCToAFEB csctoafeb
 Layer, wire to AFEB, channel conversion. More...
 
TFile * hist_file
 ROOT hist file. More...
 
std::map< int, int > m_csc_list
 Maps. More...
 
std::map< int, std::vector< std::vector< float > > > m_res_for_db
 
std::map< int, std::vector< int > > m_wire_ev
 
std::map< int, TH1 * > mh_Eff
 
std::map< int, TH2 * > mh_FirstTime
 
std::map< int, TH1 * > mh_LayerNmbPulses
 Histogram maps. More...
 
std::map< int, TH1 * > mh_NonPairCrosstalk
 
std::map< int, TH1 * > mh_PairCrosstalk
 
std::map< int, TH1 * > mh_WireEff
 
std::map< int, TH1 * > mh_WireNonPairCrosstalk
 
std::map< int, TH1 * > mh_WirePairCrosstalk
 
int nmbev
 Statistics. More...
 
int nmbev_no_wire
 
int nmblayers
 
std::vector< int > nmbpulses
 
int npulses
 
int pulsed_layer
 

Detailed Description

Author

Definition at line 18 of file CSCAFEBConnectAnalysis.h.

Constructor & Destructor Documentation

◆ CSCAFEBConnectAnalysis()

CSCAFEBConnectAnalysis::CSCAFEBConnectAnalysis ( )

Definition at line 7 of file CSCAFEBConnectAnalysis.cc.

References hist_file, m_csc_list, m_res_for_db, mh_Eff, mh_FirstTime, mh_LayerNmbPulses, mh_NonPairCrosstalk, mh_PairCrosstalk, mh_WireEff, mh_WireNonPairCrosstalk, mh_WirePairCrosstalk, nmbev, nmbev_no_wire, nmblayers, nmbpulses, npulses, and pulsed_layer.

7  {
8  hist_file = nullptr; // set to null
9 
10  nmbev = 0;
11  nmbev_no_wire = 0;
12  npulses = 0;
13  nmblayers = 6;
14  nmbpulses.resize(6, 0);
15  pulsed_layer = 0;
16 
17  m_csc_list.clear();
18  m_res_for_db.clear();
19 
20  mh_LayerNmbPulses.clear();
21  mh_WireEff.clear();
22  mh_WirePairCrosstalk.clear();
24  mh_Eff.clear();
25  mh_PairCrosstalk.clear();
26  mh_NonPairCrosstalk.clear();
27 
28  mh_FirstTime.clear();
29 }
std::map< int, TH1 * > mh_WireNonPairCrosstalk
std::vector< int > nmbpulses
std::map< int, int > m_csc_list
Maps.
std::map< int, TH1 * > mh_Eff
std::map< int, TH1 * > mh_LayerNmbPulses
Histogram maps.
std::map< int, std::vector< std::vector< float > > > m_res_for_db
std::map< int, TH1 * > mh_WirePairCrosstalk
std::map< int, TH2 * > mh_FirstTime
std::map< int, TH1 * > mh_PairCrosstalk
std::map< int, TH1 * > mh_NonPairCrosstalk
TFile * hist_file
ROOT hist file.
std::map< int, TH1 * > mh_WireEff

Member Function Documentation

◆ analyze()

void CSCAFEBConnectAnalysis::analyze ( const CSCWireDigiCollection wirecltn)

Store pulses per plane

Plot time bin of the first hit vs wires in layers

Mark given wire as wire having one hit

Fill maps

Fill efficiency map

Fill pair crosstalk map

Fill non-pair crosstalk map

Definition at line 129 of file CSCAFEBConnectAnalysis.cc.

References csctoafeb, CSCDetId::endcap(), CSCToAFEB::getMaxWire(), hf2ForId(), mps_fire::i, ALPAKA_ACCELERATOR_NAMESPACE::caPixelDoublets::if(), dqmiolumiharvest::j, m_res_for_db, m_wire_ev, mh_FirstTime, nmbev, nmbev_no_wire, nmbpulses, pulsed_layer, push_back(), FastTimerService_cff::range, relativeConstraints::ring, contentValuesCheck::ss, relativeConstraints::station, x, and y.

Referenced by CSCAFEBAnalyzer::analyze().

129  {
130  std::ostringstream ss;
131  std::map<int, std::vector<int> >::iterator viIt;
132  std::map<int, std::vector<std::vector<float> > >::iterator vvfIt;
133 
134  int current_layer;
135  float x, y;
136  m_wire_ev.clear();
137 
139 
140  nmbev++;
141  pulsed_layer++;
142  if (pulsed_layer == 7)
143  pulsed_layer = 1;
145 
146  //Anode wires
147 
149  if (wirecltn.begin() == wirecltn.end())
150  nmbev_no_wire++;
151 
152  if (wirecltn.begin() != wirecltn.end()) {
153  for (wiredetUnitIt = wirecltn.begin(); wiredetUnitIt != wirecltn.end(); ++wiredetUnitIt) {
154  const CSCDetId& id = (*wiredetUnitIt).first;
155  const int idchamber = id.endcap() * 10000 + id.station() * 1000 + id.ring() * 100 + id.chamber();
156  const int idlayer =
157  id.endcap() * 100000 + id.station() * 10000 + id.ring() * 1000 + id.chamber() * 10 + id.layer();
158 
159  const int maxwire = csctoafeb.getMaxWire(id.station(), id.ring());
160  std::vector<int> wireplane(maxwire, 0);
161 
162  const CSCWireDigiCollection::Range& range = (*wiredetUnitIt).second;
163  for (CSCWireDigiCollection::const_iterator digiIt = range.first; digiIt != range.second; ++digiIt) {
164  int iwire = (*digiIt).getWireGroup();
165  if (iwire <= maxwire) {
166  if (wireplane[iwire - 1] == 0) {
167  wireplane[iwire - 1] = (*digiIt).getBeamCrossingTag() + 1;
168 
170  x = (id.layer() - 1) * maxwire + iwire;
171  y = wireplane[iwire - 1];
172  hf2ForId(mh_FirstTime, 1, idchamber, x, y, 1.0);
173 
175  wireplane[iwire - 1] = 1;
176 
177  } // end if wireplane[iwire-1]==0
178  } // end if iwire<=csctoafeb.getMaxWire(id.station(),id.ring()
179  } // end of for digis in layer
180 
181  if (m_wire_ev.count(idlayer) == 0)
182  m_wire_ev[idlayer] = wireplane;
183 
184  } // end of cycle on detUnit
185 
187 
188  for (viIt = m_wire_ev.begin(); viIt != m_wire_ev.end(); ++viIt) {
189  const int idwirev = (*viIt).first;
190  const std::vector<int> wiretemp = (*viIt).second;
191  int nsize = 4;
192  std::vector<float> zer(nsize, 0);
193  vvfIt = m_res_for_db.find(idwirev);
194  if (vvfIt == m_res_for_db.end()) {
195  for (unsigned int j = 0; j < wiretemp.size(); j++)
196  m_res_for_db[idwirev].push_back(zer);
197  vvfIt = m_res_for_db.find(idwirev);
198  }
199  for (unsigned int i = 0; i < (*viIt).second.size(); i++) {
200  current_layer = (*viIt).first / 10;
201  current_layer = (*viIt).first - current_layer * 10;
203  if (pulsed_layer == current_layer) {
204  vvfIt->second[i][1] = vvfIt->second[i][1] + (*viIt).second[i];
205  }
207  if (pulsed_layer == 1 || pulsed_layer == 3 || pulsed_layer == 5)
208  if (current_layer == (pulsed_layer + 1))
209  vvfIt->second[i][2] = vvfIt->second[i][2] + (*viIt).second[i];
210  if (pulsed_layer == 2 || pulsed_layer == 4 || pulsed_layer == 6)
211  if (current_layer == (pulsed_layer - 1))
212  vvfIt->second[i][2] = vvfIt->second[i][2] + (*viIt).second[i];
214  if ((pulsed_layer > 2 && current_layer < 3) ||
215  (pulsed_layer != 3 && pulsed_layer != 4 && current_layer > 2 && current_layer < 5) ||
216  (pulsed_layer < 5 && current_layer > 4))
217  vvfIt->second[i][3] = vvfIt->second[i][3] + (*viIt).second[i];
218  }
219  } // end of adding hits to the maps
220  } // end of if(wirecltn.begin() != wirecltn.end())
221 } // end of void CSCAFEBConnectAnalysis
std::vector< int > nmbpulses
const CSCToAFEB csctoafeb
Layer, wire to AFEB, channel conversion.
int getMaxWire(int station, int ring) const
return max. number of wiregroups per layer
Definition: CSCToAFEB.cc:53
void hf2ForId(std::map< int, TH2 *> &mp, int flag, const int &id, float &x, float &y, float w)
std::map< int, std::vector< std::vector< float > > > m_res_for_db
std::map< int, std::vector< int > > m_wire_ev
std::map< int, TH2 * > mh_FirstTime
std::pair< const_iterator, const_iterator > Range
int endcap() const
Definition: CSCDetId.h:85
std::vector< DigiType >::const_iterator const_iterator
deadvectors [0] push_back({0.0175431, 0.538005, 6.80997, 13.29})
if(threadIdxLocalY==0 &&threadIdxLocalX==0)

◆ bookForId()

void CSCAFEBConnectAnalysis::bookForId ( int  flag,
const int &  idint,
const std::string &  ids 
)
private

Definition at line 37 of file CSCAFEBConnectAnalysis.cc.

References RemoveAddSevLevel::flag, hist_file, mh_Eff, mh_FirstTime, mh_LayerNmbPulses, mh_NonPairCrosstalk, mh_PairCrosstalk, mh_WireEff, mh_WireNonPairCrosstalk, mh_WirePairCrosstalk, and contentValuesCheck::ss.

Referenced by hf1ForId(), and hf2ForId().

37  {
38  hist_file->cd();
39 
40  std::ostringstream ss;
41 
42  if (flag == 1) {
43  ss << idint << "_Anode_First_Time";
44  mh_FirstTime[idint] = new TH2F(ss.str().c_str(), "", 675, 0.0, 675.0, 50, 0.0, 10.0);
45  mh_FirstTime[idint]->GetXaxis()->SetTitle("(Layer-1)*Nwires+Wire");
46  mh_FirstTime[idint]->GetYaxis()->SetTitle("Anode First Time Bin");
47  mh_FirstTime[idint]->SetOption("BOX");
48  ss.str(""); // clear
49  }
50 
51  if (flag == 10) {
52  ss << "Layer_Nmb_Pulses";
53  mh_LayerNmbPulses[idint] = new TH1F(ss.str().c_str(), "", 7, 0.0, 7.0);
54  mh_LayerNmbPulses[idint]->GetXaxis()->SetTitle("Layer");
55  mh_LayerNmbPulses[idint]->GetYaxis()->SetTitle("Number of pulses");
56  ss.str(""); // clear
57  }
58 
59  if (flag == 101) {
60  ss << idint << "_Anode_Wire_Eff";
61  mh_WireEff[idint] = new TH1F(ss.str().c_str(), "", 675, 0.0, 675.0);
62  mh_WireEff[idint]->GetXaxis()->SetTitle("(Layer-1)*Nwires+Wire");
63  mh_WireEff[idint]->GetYaxis()->SetTitle("Efficiency");
64  ss.str(""); // clear
65  }
66 
67  if (flag == 102) {
68  ss << idint << "_Anode_Eff";
69  mh_Eff[idint] = new TH1F(ss.str().c_str(), "", 110, -0.05, 1.05);
70  mh_Eff[idint]->GetXaxis()->SetTitle("Efficiency");
71  mh_Eff[idint]->GetYaxis()->SetTitle("Entries");
72  ss.str(""); // clear
73  }
74 
75  if (flag == 201) {
76  ss << idint << "_Anode_Wire_Pair_Layer_Crosstalk";
77  mh_WirePairCrosstalk[idint] = new TH1F(ss.str().c_str(), "", 675, 0.0, 675.0);
78  mh_WirePairCrosstalk[idint]->GetXaxis()->SetTitle("(Layer-1)*Nwires+Wire");
79  mh_WirePairCrosstalk[idint]->GetYaxis()->SetTitle("Probability");
80  ss.str(""); // clear
81  }
82 
83  if (flag == 202) {
84  ss << idint << "_Anode_Pair_Layer_Crosstalk";
85  mh_PairCrosstalk[idint] = new TH1F(ss.str().c_str(), "", 70, -0.05, 0.3);
86  mh_PairCrosstalk[idint]->GetXaxis()->SetTitle("Probability");
87  mh_PairCrosstalk[idint]->GetYaxis()->SetTitle("Entries");
88  ss.str(""); // clear
89  }
90 
91  if (flag == 301) {
92  ss << idint << "_Anode_Wire_NonPair_Layer_Crosstalk";
93  mh_WireNonPairCrosstalk[idint] = new TH1F(ss.str().c_str(), "", 675, 0.0, 675.0);
94  mh_WireNonPairCrosstalk[idint]->GetXaxis()->SetTitle("(Layer-1)*Nwires+Wire");
95  mh_WireNonPairCrosstalk[idint]->GetYaxis()->SetTitle("Probability");
96  ss.str(""); // clear
97  }
98 
99  if (flag == 302) {
100  ss << idint << "_Anode_NonPair_Layer_Crosstalk";
101  mh_NonPairCrosstalk[idint] = new TH1F(ss.str().c_str(), "", 70, -0.05, 0.3);
102  mh_NonPairCrosstalk[idint]->GetXaxis()->SetTitle("Probability");
103  mh_NonPairCrosstalk[idint]->GetYaxis()->SetTitle("Entries");
104  ss.str(""); // clear
105  }
106 }
std::map< int, TH1 * > mh_WireNonPairCrosstalk
std::map< int, TH1 * > mh_Eff
std::map< int, TH1 * > mh_LayerNmbPulses
Histogram maps.
std::map< int, TH1 * > mh_WirePairCrosstalk
std::map< int, TH2 * > mh_FirstTime
std::map< int, TH1 * > mh_PairCrosstalk
std::map< int, TH1 * > mh_NonPairCrosstalk
TFile * hist_file
ROOT hist file.
std::map< int, TH1 * > mh_WireEff

◆ done()

void CSCAFEBConnectAnalysis::done ( )

Fill number of pulses per layer, normalize the non-pair crosstalk, make overal normalization, fill the plots


Fill efficiency plot

Fill pair crosstalk

Fill nonpair crosstalk

Definition at line 223 of file CSCAFEBConnectAnalysis.cc.

References submitPVResolutionJobs::count, gather_cfg::cout, hf1ForId(), hist_file, mps_fire::i, nano_mu_digi_cff::layer, m_csc_list, m_res_for_db, mh_Eff, mh_LayerNmbPulses, mh_NonPairCrosstalk, mh_PairCrosstalk, mh_WireEff, mh_WireNonPairCrosstalk, mh_WirePairCrosstalk, nmbev, nmbev_no_wire, nmblayers, nmbpulses, x, and y.

Referenced by CSCAFEBAnalyzer::endJob().

223  {
224  float x, y;
225 
226  //This is for DB transfer
227  // CSCobject *cn = new CSCobject();
228  // condbon *dbon = new condbon();
229 
230  std::map<int, int>::iterator intIt;
231  std::map<int, std::vector<std::vector<float> > >::iterator vvfIt;
232  std::cout << "Events analyzed " << nmbev << std::endl;
233  std::cout << "Events no anodes " << nmbev_no_wire << std::endl << std::endl;
234 
235  std::cout << "Number of pulses per layer" << std::endl;
236  for (int i = 0; i < nmblayers; i++)
237  std::cout << " " << nmbpulses[i];
238  std::cout << "\n" << std::endl;
239 
240  // std::vector<float> inputx;
241  // std::vector<float> inputy;
242 
245 
246  for (int i = 0; i < nmblayers; i++) {
247  x = i + 1;
248  y = nmbpulses[i];
249  hf1ForId(mh_LayerNmbPulses, 10, 1, x, y);
250  }
251  for (vvfIt = m_res_for_db.begin(); vvfIt != m_res_for_db.end(); ++vvfIt) {
252  int idlayer = (*vvfIt).first;
253  int idchmb = idlayer / 10;
254  int layer = idlayer - idchmb * 10;
255  for (unsigned int i = 0; i < (*vvfIt).second.size(); i++) {
256  (*vvfIt).second[i][0] = nmbpulses[layer - 1];
257  (*vvfIt).second[i][3] = (*vvfIt).second[i][3] / 4.0;
258  (*vvfIt).second[i][1] = (*vvfIt).second[i][1] / (*vvfIt).second[i][0];
259  (*vvfIt).second[i][2] = (*vvfIt).second[i][2] / (*vvfIt).second[i][0];
260  (*vvfIt).second[i][3] = (*vvfIt).second[i][3] / (*vvfIt).second[i][0];
261 
262  x = (layer - 1) * (*vvfIt).second.size() + (i + 1);
263 
265  y = (*vvfIt).second[i][1];
266  hf1ForId(mh_WireEff, 101, idchmb, x, y);
267  hf1ForId(mh_Eff, 102, idchmb, y, 1.0);
268 
270  y = (*vvfIt).second[i][2];
271  hf1ForId(mh_WirePairCrosstalk, 201, idchmb, x, y);
272  hf1ForId(mh_PairCrosstalk, 202, idchmb, y, 1.0);
273 
275  y = (*vvfIt).second[i][3];
276  hf1ForId(mh_WireNonPairCrosstalk, 301, idchmb, x, y);
277  hf1ForId(mh_NonPairCrosstalk, 302, idchmb, y, 1.0);
278  }
279  }
280  std::cout << "Size of map for DB " << m_res_for_db.size() << std::endl;
281 
282  std::cout << "The following CSCs will go to DB" << std::endl << std::endl;
283  for (vvfIt = m_res_for_db.begin(); vvfIt != m_res_for_db.end(); ++vvfIt) {
284  int idchmb = (*vvfIt).first / 10;
285  if (m_csc_list.count(idchmb) == 0)
286  m_csc_list[idchmb] = 0;
287  if (m_csc_list.count(idchmb) > 0)
288  m_csc_list[idchmb] = m_csc_list[idchmb] + (*vvfIt).second.size();
289  }
290  int count = 0;
291  for (intIt = m_csc_list.begin(); intIt != m_csc_list.end(); ++intIt) {
292  count++;
293  std::cout << count << " "
294  << " CSC " << (*intIt).first << " " << (*intIt).second << std::endl;
295  }
296  std::cout << std::endl;
297 
298  /*
300 
301  for(vvfIt=m_res_for_db.begin(); vvfIt!=m_res_for_db.end();
302  ++vvfIt) {
303  int idlayer=(*vvfIt).first;
304  int size = (*vvfIt).second.size();
305  cn->obj[idlayer].resize(size);
306  for (unsigned int i=0;i<(*vvfIt).second.size();i++) {
307  std::cout<<idlayer<<" "<<i+1<<" ";
308  for(int j=0;j<4;j++) std::cout<< (*vvfIt).second[i][j]<<" ";
309  std::cout<<std::endl;
310 
311  cn->obj[idlayer][i].resize(4);
312  cn->obj[idlayer][i][0] = (*vvfIt).second[i][0];
313  cn->obj[idlayer][i][1] = (*vvfIt).second[i][1];
314  cn->obj[idlayer][i][2] = (*vvfIt).second[i][2];
315  cn->obj[idlayer][i][3] = (*vvfIt).second[i][3];
316  }
317  }
318 
320 
321  dbon->cdbon_last_run("afeb_thresholds",&run);
322  std::cout<<"Last AFEB thresholds run "<<run<<" for run file "<<myname<<" saved "<<myTime<<std::endl;
323  if(debug) dbon->cdbon_write(cn,"afeb_thresholds",run+1,myTime);
324 */
325 
326  if (hist_file != nullptr) { // if there was a histogram file...
327  hist_file->Write(); // write out the histrograms
328  delete hist_file; // close and delete the file
329  hist_file = nullptr; // set to zero to clean up
330  std::cout << "Hist. file was closed\n";
331  }
332  std::cout << " End of CSCAFEBConnectAnalysis" << std::endl;
333 }
void hf1ForId(std::map< int, TH1 *> &mp, int flag, const int &id, float &x, float w)
std::map< int, TH1 * > mh_WireNonPairCrosstalk
std::vector< int > nmbpulses
std::map< int, int > m_csc_list
Maps.
std::map< int, TH1 * > mh_Eff
std::map< int, TH1 * > mh_LayerNmbPulses
Histogram maps.
std::map< int, std::vector< std::vector< float > > > m_res_for_db
std::map< int, TH1 * > mh_WirePairCrosstalk
std::map< int, TH1 * > mh_PairCrosstalk
std::map< int, TH1 * > mh_NonPairCrosstalk
TFile * hist_file
ROOT hist file.
std::map< int, TH1 * > mh_WireEff

◆ hf1ForId()

void CSCAFEBConnectAnalysis::hf1ForId ( std::map< int, TH1 *> &  mp,
int  flag,
const int &  id,
float &  x,
float  w 
)
private

Definition at line 108 of file CSCAFEBConnectAnalysis.cc.

References bookForId(), RemoveAddSevLevel::flag, h, w(), and x.

Referenced by done().

108  {
109  std::map<int, TH1*>::iterator h;
110  h = mp.find(id);
111  if (h == mp.end()) {
112  bookForId(flag, id, "");
113  h = mp.find(id);
114  }
115  h->second->Fill(x, w);
116 }
T w() const
void bookForId(int flag, const int &idint, const std::string &ids)
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4

◆ hf2ForId()

void CSCAFEBConnectAnalysis::hf2ForId ( std::map< int, TH2 *> &  mp,
int  flag,
const int &  id,
float &  x,
float &  y,
float  w 
)
private

Definition at line 118 of file CSCAFEBConnectAnalysis.cc.

References bookForId(), RemoveAddSevLevel::flag, h, w(), x, and y.

Referenced by analyze().

118  {
119  std::map<int, TH2*>::iterator h;
120  h = mp.find(id);
121  if (h == mp.end()) {
122  bookForId(flag, id, "");
123  h = mp.find(id);
124  }
125  h->second->Fill(x, y, w);
126 }
T w() const
void bookForId(int flag, const int &idint, const std::string &ids)
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4

◆ setup()

void CSCAFEBConnectAnalysis::setup ( const std::string &  histoFileName)

open the histogram file

Definition at line 31 of file CSCAFEBConnectAnalysis.cc.

References hist_file, and mix_2012_lumiLevel_15_20_50ns_PoissonOOTPU_cfi::histoFileName.

Referenced by CSCAFEBAnalyzer::CSCAFEBAnalyzer().

31  {
33  hist_file = new TFile(histoFileName.c_str(), "RECREATE");
34  hist_file->cd();
35 }
TFile * hist_file
ROOT hist file.

Member Data Documentation

◆ csctoafeb

const CSCToAFEB CSCAFEBConnectAnalysis::csctoafeb
private

Layer, wire to AFEB, channel conversion.

Definition at line 44 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze().

◆ hist_file

TFile* CSCAFEBConnectAnalysis::hist_file
private

ROOT hist file.

Definition at line 47 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), done(), and setup().

◆ m_csc_list

std::map<int, int> CSCAFEBConnectAnalysis::m_csc_list
private

Maps.

Definition at line 39 of file CSCAFEBConnectAnalysis.h.

Referenced by CSCAFEBConnectAnalysis(), and done().

◆ m_res_for_db

std::map<int, std::vector<std::vector<float> > > CSCAFEBConnectAnalysis::m_res_for_db
private

Definition at line 41 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze(), CSCAFEBConnectAnalysis(), and done().

◆ m_wire_ev

std::map<int, std::vector<int> > CSCAFEBConnectAnalysis::m_wire_ev
private

Definition at line 40 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze().

◆ mh_Eff

std::map<int, TH1*> CSCAFEBConnectAnalysis::mh_Eff
private

Definition at line 52 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), and done().

◆ mh_FirstTime

std::map<int, TH2*> CSCAFEBConnectAnalysis::mh_FirstTime
private

Definition at line 57 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze(), bookForId(), and CSCAFEBConnectAnalysis().

◆ mh_LayerNmbPulses

std::map<int, TH1*> CSCAFEBConnectAnalysis::mh_LayerNmbPulses
private

Histogram maps.

Definition at line 50 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), and done().

◆ mh_NonPairCrosstalk

std::map<int, TH1*> CSCAFEBConnectAnalysis::mh_NonPairCrosstalk
private

Definition at line 56 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), and done().

◆ mh_PairCrosstalk

std::map<int, TH1*> CSCAFEBConnectAnalysis::mh_PairCrosstalk
private

Definition at line 54 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), and done().

◆ mh_WireEff

std::map<int, TH1*> CSCAFEBConnectAnalysis::mh_WireEff
private

Definition at line 51 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), and done().

◆ mh_WireNonPairCrosstalk

std::map<int, TH1*> CSCAFEBConnectAnalysis::mh_WireNonPairCrosstalk
private

Definition at line 55 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), and done().

◆ mh_WirePairCrosstalk

std::map<int, TH1*> CSCAFEBConnectAnalysis::mh_WirePairCrosstalk
private

Definition at line 53 of file CSCAFEBConnectAnalysis.h.

Referenced by bookForId(), CSCAFEBConnectAnalysis(), and done().

◆ nmbev

int CSCAFEBConnectAnalysis::nmbev
private

Statistics.

Definition at line 30 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze(), CSCAFEBConnectAnalysis(), and done().

◆ nmbev_no_wire

int CSCAFEBConnectAnalysis::nmbev_no_wire
private

Definition at line 31 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze(), CSCAFEBConnectAnalysis(), and done().

◆ nmblayers

int CSCAFEBConnectAnalysis::nmblayers
private

Definition at line 33 of file CSCAFEBConnectAnalysis.h.

Referenced by CSCAFEBConnectAnalysis(), and done().

◆ nmbpulses

std::vector<int> CSCAFEBConnectAnalysis::nmbpulses
private

Definition at line 35 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze(), CSCAFEBConnectAnalysis(), and done().

◆ npulses

int CSCAFEBConnectAnalysis::npulses
private

Definition at line 32 of file CSCAFEBConnectAnalysis.h.

Referenced by CSCAFEBConnectAnalysis().

◆ pulsed_layer

int CSCAFEBConnectAnalysis::pulsed_layer
private

Definition at line 34 of file CSCAFEBConnectAnalysis.h.

Referenced by analyze(), and CSCAFEBConnectAnalysis().