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PrimaryVertexMonitor.cc
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5 
6 
8 
10 
11 #include "TMath.h"
12 
13 using namespace reco;
14 using namespace edm;
15 
17  : conf_ ( pSet )
18  , TopFolderName_ ( pSet.getParameter<std::string>("TopFolderName") )
19  , AlignmentLabel_( pSet.getParameter<std::string>("AlignmentLabel") )
20  , ndof_ ( pSet.getParameter<int> ("ndof") )
21  , errorPrinted_ ( false )
22  , nbvtx(NULL)
23  , bsX(NULL)
24  , bsY(NULL)
25  , bsZ(NULL)
26  , bsSigmaZ(NULL)
27  , bsDxdz(NULL)
28  , bsDydz(NULL)
29  , bsBeamWidthX(NULL)
30  , bsBeamWidthY(NULL)
31  , bsType(NULL)
32  , sumpt(NULL)
33  , ntracks(NULL)
34  , weight(NULL)
35  , chi2ndf(NULL)
36  , chi2prob(NULL)
37  , dxy(NULL)
38  , dxy2(NULL)
39  , dz(NULL)
40  , dxyErr(NULL)
41  , dzErr(NULL)
42  , dxyVsPhi_pt1(NULL)
43  , dzVsPhi_pt1(NULL)
44  , dxyVsEta_pt1(NULL)
45  , dzVsEta_pt1(NULL)
46  , dxyVsPhi_pt10(NULL)
47  , dzVsPhi_pt10(NULL)
48  , dxyVsEta_pt10(NULL)
49  , dzVsEta_pt10(NULL)
50 {
51  // dqmStore_ = edm::Service<DQMStore>().operator->();
52 
53 
54  vertexInputTag_ = pSet.getParameter<InputTag>("vertexLabel");
55  beamSpotInputTag_ = pSet.getParameter<InputTag>("beamSpotLabel");
56  vertexToken_ = consumes<reco::VertexCollection>(vertexInputTag_);
57  scoreToken_ = consumes<VertexScore> (vertexInputTag_);
58  beamspotToken_ = consumes<reco::BeamSpot> (beamSpotInputTag_);
59 
60 }
61 
62 // -- BeginRun
63 //---------------------------------------------------------------------------------//
64 void
66  edm::Run const &, edm::EventSetup const &) {
67 
68  std::string dqmLabel = "";
69 
70  //
71  // Book all histograms.
72  //
73 
74  // get the store
75  dqmLabel = TopFolderName_+"/"+vertexInputTag_.label();
76  iBooker.setCurrentFolder(dqmLabel);
77 
78 // xPos = iBooker.book1D ("xPos","x Coordinate" ,100, -0.1, 0.1);
79 
80  nbvtx = iBooker.book1D("vtxNbr","Reconstructed Vertices in Event",80,-0.5,79.5);
81  nbgvtx = iBooker.book1D("goodvtxNbr","Reconstructed Good Vertices in Event",80,-0.5,79.5);
82 
83  // to be configured each year...
84  auto vposx = conf_.getParameter<double>("Xpos");
85  auto vposy = conf_.getParameter<double>("Ypos");
86 
87  nbtksinvtx[0] = iBooker.book1D("otherVtxTrksNbr","Reconstructed Tracks in Vertex (other Vtx)",40,-0.5,99.5);
88  ntracksVsZ[0] = iBooker.bookProfile("otherVtxTrksVsZ","Reconstructed Tracks in Vertex (other Vtx) vs Z",80,-20.,20.,50,0,100,"");
89  ntracksVsZ[0]->setAxisTitle("z-bs",1);
90  ntracksVsZ[0]->setAxisTitle("#tracks",2);
91 
92  score[0] = iBooker.book1D("otherVtxScore","sqrt(score) (other Vtx)",100,0.,400.);
93  trksWeight[0] = iBooker.book1D("otherVtxTrksWeight","Total weight of Tracks in Vertex (other Vtx)",40,0,100.);
94  vtxchi2[0] = iBooker.book1D("otherVtxChi2","#chi^{2} (other Vtx)",100,0.,200.);
95  vtxndf[0] = iBooker.book1D("otherVtxNdf","ndof (other Vtx)",100,0.,200.);
96  vtxprob[0] = iBooker.book1D("otherVtxProb","#chi^{2} probability (other Vtx)",100,0.,1.);
97  nans[0] = iBooker.book1D("otherVtxNans","Illegal values for x,y,z,xx,xy,xz,yy,yz,zz (other Vtx)",9,0.5,9.5);
98 
99  nbtksinvtx[1] = iBooker.book1D("tagVtxTrksNbr","Reconstructed Tracks in Vertex (tagged Vtx)",100,-0.5,99.5);
100  ntracksVsZ[1] = iBooker.bookProfile("tagVtxTrksVsZ","Reconstructed Tracks in Vertex (tagged Vtx) vs Z",80,-20.,20.,50,0,100,"");
101  ntracksVsZ[1]->setAxisTitle("z-bs",1);
102  ntracksVsZ[1]->setAxisTitle("#tracks",2);
103 
104  score[1] = iBooker.book1D("tagVtxScore","sqrt(score) (tagged Vtx)",100,0.,400.);
105  trksWeight[1] = iBooker.book1D("tagVtxTrksWeight","Total weight of Tracks in Vertex (tagged Vtx)",100,0,100.);
106  vtxchi2[1] = iBooker.book1D("tagVtxChi2","#chi^{2} (tagged Vtx)",100,0.,200.);
107  vtxndf[1] = iBooker.book1D("tagVtxNdf","ndof (tagged Vtx)",100,0.,200.);
108  vtxprob[1] = iBooker.book1D("tagVtxProb","#chi^{2} probability (tagged Vtx)",100,0.,1.);
109  nans[1] = iBooker.book1D("tagVtxNans","Illegal values for x,y,z,xx,xy,xz,yy,yz,zz (tagged Vtx)",9,0.5,9.5);
110 
111  xrec[0] = iBooker.book1D("otherPosX","Position x Coordinate (other Vtx)",100,vposx-0.1,vposx+0.1);
112  yrec[0] = iBooker.book1D("otherPosY","Position y Coordinate (other Vtx)",100,vposy-0.1,vposy+0.1);
113  zrec[0] = iBooker.book1D("otherPosZ","Position z Coordinate (other Vtx)",100,-20.,20.);
114  xDiff[0] = iBooker.book1D("otherDiffX","X distance from BeamSpot (other Vtx)",100,-500,500);
115  yDiff[0] = iBooker.book1D("otherDiffY","Y distance from BeamSpot (other Vtx)",100,-500,500);
116  xerr[0] = iBooker.book1D("otherErrX","Uncertainty x Coordinate (other Vtx)",100,0.,100);
117  yerr[0] = iBooker.book1D("otherErrY","Uncertainty y Coordinate (other Vtx)",100,0.,100);
118  zerr[0] = iBooker.book1D("otherErrZ","Uncertainty z Coordinate (other Vtx)",100,0.,100);
119  xerrVsTrks[0] = iBooker.book2D("otherErrVsWeightX","Uncertainty x Coordinate vs. track weight (other Vtx)",100,0,100.,100,0.,100);
120  yerrVsTrks[0] = iBooker.book2D("otherErrVsWeightY","Uncertainty y Coordinate vs. track weight (other Vtx)",100,0,100.,100,0.,100);
121  zerrVsTrks[0] = iBooker.book2D("otherErrVsWeightZ","Uncertainty z Coordinate vs. track weight (other Vtx)",100,0,100.,100,0.,100);
122 
123 
124  xrec[1] = iBooker.book1D("tagPosX","Position x Coordinate (tagged Vtx)",100,vposx-0.1,vposx+0.1);
125  yrec[1] = iBooker.book1D("tagPosY","Position y Coordinate (tagged Vtx)",100,vposx-0.1,vposy+0.1);
126  zrec[1] = iBooker.book1D("tagPosZ","Position z Coordinate (tagged Vtx)",100,-20.,20.);
127  xDiff[1] = iBooker.book1D("tagDiffX","X distance from BeamSpot (tagged Vtx)",100,-500, 500);
128  yDiff[1] = iBooker.book1D("tagDiffY","Y distance from BeamSpot (tagged Vtx)",100,-500, 500);
129  xerr[1] = iBooker.book1D("tagErrX","Uncertainty x Coordinate (tagged Vtx)",100,0.,100);
130  yerr[1] = iBooker.book1D("tagErrY","Uncertainty y Coordinate (tagged Vtx)",100,0.,100);
131  zerr[1] = iBooker.book1D("tagErrZ","Uncertainty z Coordinate (tagged Vtx)",100,0.,100);
132  xerrVsTrks[1] = iBooker.book2D("tagErrVsWeightX","Uncertainty x Coordinate vs. track weight (tagged Vtx)",100,0,100.,100,0.,100);
133  yerrVsTrks[1] = iBooker.book2D("tagErrVsWeightY","Uncertainty y Coordinate vs. track weight (tagged Vtx)",100,0,100.,100,0.,100);
134  zerrVsTrks[1] = iBooker.book2D("tagErrVsWeightZ","Uncertainty z Coordinate vs. track weight (tagged Vtx)",100,0,100.,100,0.,100);
135 
136  type[0] = iBooker.book1D("otherType","Vertex type (other Vtx)",3,-0.5,2.5);
137  type[1] = iBooker.book1D("tagType","Vertex type (tagged Vtx)",3,-0.5,2.5);
138  for (int i=0;i<2;++i){
139  type[i]->getTH1F()->GetXaxis()->SetBinLabel(1,"Valid, real");
140  type[i]->getTH1F()->GetXaxis()->SetBinLabel(2,"Valid, fake");
141  type[i]->getTH1F()->GetXaxis()->SetBinLabel(3,"Invalid");
142  }
143 
144 
145  // get the store
146  dqmLabel = TopFolderName_+"/"+beamSpotInputTag_.label();
147  iBooker.setCurrentFolder(dqmLabel);
148 
149  bsX = iBooker.book1D("bsX", "BeamSpot x0", 100,-0.1,0.1);
150  bsY = iBooker.book1D("bsY", "BeamSpot y0", 100,-0.1,0.1);
151  bsZ = iBooker.book1D("bsZ", "BeamSpot z0", 100,-2.,2.);
152  bsSigmaZ = iBooker.book1D("bsSigmaZ", "BeamSpot sigmaZ", 100, 0., 10. );
153  bsDxdz = iBooker.book1D("bsDxdz", "BeamSpot dxdz", 100, -0.0003, 0.0003);
154  bsDydz = iBooker.book1D("bsDydz", "BeamSpot dydz", 100, -0.0003, 0.0003);
155  bsBeamWidthX = iBooker.book1D("bsBeamWidthX", "BeamSpot BeamWidthX", 100, 0., 100.);
156  bsBeamWidthY = iBooker.book1D("bsBeamWidthY", "BeamSpot BeamWidthY", 100, 0., 100.);
157  bsType = iBooker.book1D("bsType", "BeamSpot type", 4, -1.5, 2.5);
158  bsType->getTH1F()->GetXaxis()->SetBinLabel(1,"Unknown");
159  bsType->getTH1F()->GetXaxis()->SetBinLabel(2,"Fake");
160  bsType->getTH1F()->GetXaxis()->SetBinLabel(3,"LHC");
161  bsType->getTH1F()->GetXaxis()->SetBinLabel(4,"Tracker");
162 
163 
164  // get the store
165  dqmLabel = TopFolderName_+"/"+AlignmentLabel_;
166  iBooker.setCurrentFolder(dqmLabel);
167 
168  int TKNoBin = conf_.getParameter<int>( "TkSizeBin");
169  double TKNoMin = conf_.getParameter<double>("TkSizeMin");
170  double TKNoMax = conf_.getParameter<double>("TkSizeMax");
171 
172  int DxyBin = conf_.getParameter<int>( "DxyBin");
173  double DxyMin = conf_.getParameter<double>("DxyMin");
174  double DxyMax = conf_.getParameter<double>("DxyMax");
175 
176  int DzBin = conf_.getParameter<int>( "DzBin");
177  double DzMin = conf_.getParameter<double>("DzMin");
178  double DzMax = conf_.getParameter<double>("DzMax");
179 
180  int PhiBin = conf_.getParameter<int>( "PhiBin");
181  double PhiMin = conf_.getParameter<double>("PhiMin");
182  double PhiMax = conf_.getParameter<double>("PhiMax");
183 
184  int EtaBin = conf_.getParameter<int>( "EtaBin");
185  double EtaMin = conf_.getParameter<double>("EtaMin");
186  double EtaMax = conf_.getParameter<double>("EtaMax");
187 
188 
189  ntracks = iBooker.book1D("ntracks","number of PV tracks (p_{T} > 1 GeV)", TKNoBin, TKNoMin, TKNoMax);
190  ntracks->setAxisTitle("Number of PV Tracks (p_{T} > 1 GeV) per Event", 1);
191  ntracks->setAxisTitle("Number of Event", 2);
192 
193  weight = iBooker.book1D("weight","weight of PV tracks (p_{T} > 1 GeV)", 100, 0., 1.);
194  weight->setAxisTitle("weight of PV Tracks (p_{T} > 1 GeV) per Event", 1);
195  weight->setAxisTitle("Number of Event", 2);
196 
197  sumpt = iBooker.book1D("sumpt", "#Sum p_{T} of PV tracks (p_{T} > 1 GeV)", 100,-0.5,249.5);
198  chi2ndf = iBooker.book1D("chi2ndf", "PV tracks (p_{T} > 1 GeV) #chi^{2}/ndof", 100, 0., 20. );
199  chi2prob = iBooker.book1D("chi2prob","PV tracks (p_{T} > 1 GeV) #chi^{2} probability",100, 0., 1. );
200 
201  dxy = iBooker.book1D("dxy", "PV tracks (p_{T} > 1 GeV) d_{xy} (#mum)", DxyBin, DxyMin, DxyMax);
202  dxy2 = iBooker.book1D("dxyzoom", "PV tracks (p_{T} > 1 GeV) d_{xy} (#mum)", DxyBin, DxyMin/5., DxyMax/5.);
203  dxyErr = iBooker.book1D("dxyErr", "PV tracks (p_{T} > 1 GeV) d_{xy} error (#mum)", 100, 0., 2000. );
204  dz = iBooker.book1D("dz", "PV tracks (p_{T} > 1 GeV) d_{z} (#mum)", DzBin, DzMin, DzMax );
205  dzErr = iBooker.book1D("dzErr", "PV tracks (p_{T} > 1 GeV) d_{z} error(#mum)", 100, 0., 10000. );
206 
207  dxyVsPhi_pt1 = iBooker.bookProfile("dxyVsPhi_pt1", "PV tracks (p_{T} > 1 GeV) d_{xy} (#mum) VS track #phi",PhiBin, PhiMin, PhiMax, DxyBin, DxyMin, DxyMax,"");
208  dxyVsPhi_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) #phi", 1);
209  dxyVsPhi_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) d_{xy} (#mum)",2);
210 
211  dzVsPhi_pt1 = iBooker.bookProfile("dzVsPhi_pt1", "PV tracks (p_{T} > 1 GeV) d_{z} (#mum) VS track #phi", PhiBin, PhiMin, PhiMax, DzBin, DzMin, DzMax, "");
212  dzVsPhi_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) #phi", 1);
213  dzVsPhi_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) d_{z} (#mum)",2);
214 
215  dxyVsEta_pt1 = iBooker.bookProfile("dxyVsEta_pt1", "PV tracks (p_{T} > 1 GeV) d_{xy} (#mum) VS track #eta",EtaBin, EtaMin, EtaMax, DxyBin, DxyMin, DxyMax,"");
216  dxyVsEta_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) #eta", 1);
217  dxyVsEta_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) d_{xy} (#mum)",2);
218 
219  dzVsEta_pt1 = iBooker.bookProfile("dzVsEta_pt1", "PV tracks (p_{T} > 1 GeV) d_{z} (#mum) VS track #eta", EtaBin, EtaMin, EtaMax, DzBin, DzMin, DzMax, "");
220  dzVsEta_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) #eta", 1);
221  dzVsEta_pt1->setAxisTitle("PV track (p_{T} > 1 GeV) d_{z} (#mum)",2);
222 
223  dxyVsPhi_pt10 = iBooker.bookProfile("dxyVsPhi_pt10", "PV tracks (p_{T} > 10 GeV) d_{xy} (#mum) VS track #phi",PhiBin, PhiMin, PhiMax, DxyBin, DxyMin, DxyMax,"");
224  dxyVsPhi_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) #phi", 1);
225  dxyVsPhi_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) d_{xy} (#mum)",2);
226 
227  dzVsPhi_pt10 = iBooker.bookProfile("dzVsPhi_pt10", "PV tracks (p_{T} > 10 GeV) d_{z} (#mum) VS track #phi", PhiBin, PhiMin, PhiMax, DzBin, DzMin, DzMax, "");
228  dzVsPhi_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) #phi", 1);
229  dzVsPhi_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) d_{z} (#mum)",2);
230 
231  dxyVsEta_pt10 = iBooker.bookProfile("dxyVsEta_pt10", "PV tracks (p_{T} > 10 GeV) d_{xy} (#mum) VS track #eta",EtaBin, EtaMin, EtaMax, DxyBin, DxyMin, DxyMax,"");
232  dxyVsEta_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) #eta", 1);
233  dxyVsEta_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) d_{xy} (#mum)",2);
234 
235  dzVsEta_pt10 = iBooker.bookProfile("dzVsEta_pt10", "PV tracks (p_{T} > 10 GeV) d_{z} (#mum) VS track #eta", EtaBin, EtaMin, EtaMax, DzBin, DzMin, DzMax, "");
236  dzVsEta_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) #eta", 1);
237  dzVsEta_pt10->setAxisTitle("PV track (p_{T} > 10 GeV) d_{z} (#mum)",2);
238 
239 }
240 
241 
243 {}
244 
246 {
247 
249  iEvent.getByToken(vertexToken_, recVtxs);
250 
251  Handle<VertexScore> scores;
252  iEvent.getByToken(scoreToken_, scores);
253 
254 
255  edm::Handle<reco::BeamSpot> beamSpotHandle;
256  iEvent.getByToken(beamspotToken_,beamSpotHandle);
257 
258  //
259  // check for absent products and simply "return" in that case
260  //
261  if (recVtxs.isValid() == false || beamSpotHandle.isValid()== false){
262  edm::LogWarning("PrimaryVertexMonitor")
263  <<" Some products not available in the event: VertexCollection "
264  <<vertexInputTag_<<" "
265  <<recVtxs.isValid() <<" BeamSpot "
266  <<beamSpotInputTag_<<" "
267  <<beamSpotHandle.isValid()<<". Skipping plots for this event";
268  return;
269  }
270 
271  // check upfront that refs to track are (likely) to be valid
272  {
273  bool ok = true;
274  for(const auto& v: *recVtxs) {
275  if(v.tracksSize() > 0) {
276  const auto& ref = v.trackRefAt(0);
277  if(ref.isNull() || !ref.isAvailable()) {
278  if (!errorPrinted_)
279  edm::LogWarning("PrimaryVertexMonitor")
280  << "Skipping vertex collection: " << vertexInputTag_ << " since likely the track collection the vertex has refs pointing to is missing (at least the first TrackBaseRef is null or not available)";
281  else
282  errorPrinted_ = true;
283  ok = false;
284  }
285  }
286  }
287  if(!ok)
288  return;
289  }
290 
291  BeamSpot beamSpot = *beamSpotHandle;
292 
293  nbvtx->Fill(recVtxs->size()*1.);
294  int ng=0;
295  for (auto const & vx : (*recVtxs) )
296  if (vx.isValid() && !vx.isFake() && vx.ndof()>=ndof_) ++ng;
297  nbgvtx->Fill(ng*1.);
298 
299  if (scores.isValid() && (*scores).size()>0) {
300  auto pvScore = (*scores).get(0);
301  score[1]->Fill(std::sqrt(pvScore));
302  for (unsigned int i=1; i<(*scores).size(); ++i)
303  score[0]->Fill(std::sqrt((*scores).get(i)));
304  }
305 
306  // fill PV tracks MEs (as now, for alignment)
307  if (recVtxs->size() > 0) {
308 
309  vertexPlots (recVtxs->front(), beamSpot, 1);
310  pvTracksPlots(recVtxs->front());
311 
312  for(reco::VertexCollection::const_iterator v=recVtxs->begin()+1;
313  v!=recVtxs->end(); ++v)
314  vertexPlots(*v, beamSpot, 0);
315  }
316 
317  // Beamline plots:
318  bsX->Fill(beamSpot.x0());
319  bsY->Fill(beamSpot.y0());
320  bsZ->Fill(beamSpot.z0());
321  bsSigmaZ->Fill(beamSpot.sigmaZ());
322  bsDxdz->Fill(beamSpot.dxdz());
323  bsDydz->Fill(beamSpot.dydz());
324  bsBeamWidthX->Fill(beamSpot.BeamWidthX()*10000);
325  bsBeamWidthY->Fill(beamSpot.BeamWidthY()*10000);
326  // bsType->Fill(beamSpot.type());
327 
328 }
329 
330 void
332 {
333 
334  if ( !v.isValid() ) return;
335  if ( v.isFake() ) return;
336 
337  if ( v.tracksSize() == 0 ) {
338  ntracks -> Fill ( 0 );
339  return;
340  }
341 
342  const math::XYZPoint myVertex(v.position().x(),v.position().y(),v.position().z());
343 
344  size_t nTracks = 0;
345  float sumPT = 0.;
346  const int cmToUm = 10000;
347 
349 
350  bool isHighPurity = (**t).quality(reco::TrackBase::highPurity);
351  if ( !isHighPurity ) continue;
352 
353  float pt = (**t).pt();
354  if ( pt < 1. ) continue;
355 
356  nTracks++;
357 
358  float eta = (**t).eta();
359  float phi = (**t).phi();
360 
361  float w = v.trackWeight(*t);
362  float chi2NDF = (**t).normalizedChi2();
363  float chi2Prob = TMath::Prob((**t).chi2(),(int)(**t).ndof());
364  float Dxy = (**t).dxy(myVertex)*cmToUm; // is it needed ?
365  float Dz = (**t).dz(myVertex)*cmToUm; // is it needed ?
366  float DxyErr = (**t).dxyError()*cmToUm;
367  float DzErr = (**t).dzError()*cmToUm;
368 
369  sumPT += pt*pt;
370 
371  // fill MEs
372  weight -> Fill (w);
373  chi2ndf -> Fill (chi2NDF);
374  chi2prob -> Fill (chi2Prob);
375  dxy -> Fill (Dxy);
376  dxy2 -> Fill (Dxy);
377  dz -> Fill (Dz);
378  dxyErr -> Fill (DxyErr);
379  dzErr -> Fill (DzErr);
380 
381  dxyVsPhi_pt1 -> Fill (phi,Dxy);
382  dzVsPhi_pt1 -> Fill (phi,Dz);
383  dxyVsEta_pt1 -> Fill (eta,Dxy);
384  dzVsEta_pt1 -> Fill (eta,Dz);
385 
386  if ( pt < 10. ) continue;
387  dxyVsPhi_pt10 -> Fill (phi,Dxy);
388  dzVsPhi_pt10 -> Fill (phi,Dz);
389  dxyVsEta_pt10 -> Fill (eta,Dxy);
390  dzVsEta_pt10 -> Fill (eta,Dz);
391  }
392  ntracks -> Fill (float(nTracks));
393  sumpt -> Fill (sumPT);
394 
395 }
396 
398 {
399 
400  if (i < 0 || i > 1) return;
401  if (!v.isValid()) type[i]->Fill(2.);
402  else if (v.isFake()) type[i]->Fill(1.);
403  else type[i]->Fill(0.);
404 
405  if (v.isValid() && !v.isFake()) {
406  float weight = 0;
408  t!=v.tracks_end(); t++) weight+= v.trackWeight(*t);
409  trksWeight[i]->Fill(weight);
410  nbtksinvtx[i]->Fill(v.tracksSize());
411  ntracksVsZ[i]->Fill(v.position().z()- beamSpot.z0(),v.tracksSize());
412 
413  vtxchi2[i]->Fill(v.chi2());
414  vtxndf[i]->Fill(v.ndof());
416 
417  xrec[i]->Fill(v.position().x());
418  yrec[i]->Fill(v.position().y());
419  zrec[i]->Fill(v.position().z());
420 
421  float xb = beamSpot.x0() + beamSpot.dxdz() * (v.position().z() - beamSpot.z0());
422  float yb = beamSpot.y0() + beamSpot.dydz() * (v.position().z() - beamSpot.z0());
423  xDiff[i]->Fill((v.position().x() - xb)*10000);
424  yDiff[i]->Fill((v.position().y() - yb)*10000);
425 
426  xerr[i]->Fill(v.xError()*10000);
427  yerr[i]->Fill(v.yError()*10000);
428  zerr[i]->Fill(v.zError()*10000);
429  xerrVsTrks[i]->Fill(weight, v.xError()*10000);
430  yerrVsTrks[i]->Fill(weight, v.yError()*10000);
431  zerrVsTrks[i]->Fill(weight, v.zError()*10000);
432 
433  nans[i]->Fill(1.,edm::isNotFinite(v.position().x())*1.);
434  nans[i]->Fill(2.,edm::isNotFinite(v.position().y())*1.);
435  nans[i]->Fill(3.,edm::isNotFinite(v.position().z())*1.);
436 
437  int index = 3;
438  for (int k = 0; k != 3; k++) {
439  for (int j = k; j != 3; j++) {
440  index++;
441  nans[i]->Fill(index*1., edm::isNotFinite(v.covariance(k, j))*1.);
442  // in addition, diagonal element must be positive
443  if (j == k && v.covariance(k, j) < 0) {
444  nans[i]->Fill(index*1., 1.);
445  }
446  }
447  }
448  }
449 }
450 
451 //define this as a plug-in
type
Definition: HCALResponse.h:21
MonitorElement * xerrVsTrks[2]
T getParameter(std::string const &) const
double z0() const
z coordinate
Definition: BeamSpot.h:68
MonitorElement * xerr[2]
const unsigned int nTracks(const reco::Vertex &sv)
MonitorElement * vtxndf[2]
MonitorElement * dxyVsEta_pt1
MonitorElement * dzVsPhi_pt10
MonitorElement * dzVsPhi_pt1
const double w
Definition: UKUtility.cc:23
void pvTracksPlots(const reco::Vertex &v)
trackRef_iterator tracks_end() const
last iterator over tracks
Definition: Vertex.cc:81
MonitorElement * bookProfile(Args &&...args)
Definition: DQMStore.h:157
void vertexPlots(const reco::Vertex &v, const reco::BeamSpot &beamSpot, int i)
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:460
double zError() const
error on z
Definition: Vertex.h:123
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
MonitorElement * bsSigmaZ
edm::InputTag beamSpotInputTag_
bool isValid() const
Tells whether the vertex is valid.
Definition: Vertex.h:68
edm::EDGetTokenT< VertexScore > scoreToken_
#define NULL
Definition: scimark2.h:8
Definition: weight.py:1
MonitorElement * chi2ndf
double covariance(int i, int j) const
(i, j)-th element of error matrix, i, j = 0, ... 2
Definition: Vertex.h:130
MonitorElement * dxyVsPhi_pt10
const double EtaMax[kNumberCalorimeter]
MonitorElement * xDiff[2]
const Point & position() const
position
Definition: Vertex.h:109
MonitorElement * dzVsEta_pt1
MonitorElement * ntracksVsZ[2]
edm::ParameterSet conf_
void Fill(long long x)
MonitorElement * zerrVsTrks[2]
MonitorElement * nans[2]
double dydz() const
dydz slope
Definition: BeamSpot.h:84
int iEvent
Definition: GenABIO.cc:230
bool isNotFinite(T x)
Definition: isFinite.h:10
MonitorElement * yerrVsTrks[2]
virtual void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
MonitorElement * dxyVsEta_pt10
void Fill(HcalDetId &id, double val, std::vector< TH2F > &depth)
MonitorElement * zerr[2]
T sqrt(T t)
Definition: SSEVec.h:18
MonitorElement * yrec[2]
MonitorElement * book1D(Args &&...args)
Definition: DQMStore.h:115
double chi2() const
chi-squares
Definition: Vertex.h:98
float ChiSquaredProbability(double chiSquared, double nrDOF)
double BeamWidthX() const
beam width X
Definition: BeamSpot.h:86
MonitorElement * zrec[2]
const double EtaMin[kNumberCalorimeter]
float trackWeight(const TREF &r) const
returns the weight with which a Track has contributed to the vertex-fit.
Definition: Vertex.h:81
MonitorElement * vtxchi2[2]
edm::EDGetTokenT< reco::BeamSpot > beamspotToken_
edm::EDGetTokenT< reco::VertexCollection > vertexToken_
bool isValid() const
Definition: HandleBase.h:74
double dxdz() const
dxdz slope
Definition: BeamSpot.h:82
double ndof() const
Definition: Vertex.h:105
MonitorElement * dzVsEta_pt10
int k[5][pyjets_maxn]
double xError() const
error on x
Definition: Vertex.h:119
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:277
bool isFake() const
Definition: Vertex.h:72
MonitorElement * chi2prob
MonitorElement * book2D(Args &&...args)
Definition: DQMStore.h:133
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
MonitorElement * nbtksinvtx[2]
double sigmaZ() const
sigma z
Definition: BeamSpot.h:80
TH1F * getTH1F(void) const
double BeamWidthY() const
beam width Y
Definition: BeamSpot.h:88
std::string const & label() const
Definition: InputTag.h:36
MonitorElement * yerr[2]
fixed size matrix
HLT enums.
virtual void analyze(const edm::Event &, const edm::EventSetup &) override
std::vector< TrackBaseRef >::const_iterator trackRef_iterator
The iteratator for the vector<TrackRef>
Definition: Vertex.h:37
double y0() const
y coordinate
Definition: BeamSpot.h:66
MonitorElement * xrec[2]
MonitorElement * vtxprob[2]
MonitorElement * ntracks
trackRef_iterator tracks_begin() const
first iterator over tracks
Definition: Vertex.cc:76
MonitorElement * bsBeamWidthY
MonitorElement * score[2]
void setAxisTitle(const std::string &title, int axis=1)
set x-, y- or z-axis title (axis=1, 2, 3 respectively)
MonitorElement * yDiff[2]
double yError() const
error on y
Definition: Vertex.h:121
MonitorElement * trksWeight[2]
size_t tracksSize() const
number of tracks
Definition: Vertex.cc:71
PrimaryVertexMonitor(const edm::ParameterSet &pSet)
Definition: Run.h:42
MonitorElement * bsBeamWidthX
MonitorElement * dxyVsPhi_pt1
double x0() const
x coordinate
Definition: BeamSpot.h:64