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SiPixelTrackResidualSource.cc
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1 // Package: SiPixelMonitorTrack
2 // Class: SiPixelTrackResidualSource
3 //
4 // class SiPixelTrackResidualSource SiPixelTrackResidualSource.cc
5 // DQM/SiPixelMonitorTrack/src/SiPixelTrackResidualSource.cc
6 //
7 // Description: SiPixel hit-to-track residual data quality monitoring modules
8 // Implementation: prototype -> improved -> never final - end of the 1st step
9 //
10 // Original Author: Shan-Huei Chuang
11 // Created: Fri Mar 23 18:41:42 CET 2007
12 // Updated by Lukas Wehrli (plots for clusters on/off track added)
13 
14 #include <iostream>
15 #include <map>
16 #include <string>
17 #include <utility>
18 #include <vector>
19 
22 
24 
29 
32 
36 
39 
40 // Claudia new libraries
44 
45 using namespace std;
46 using namespace edm;
47 
49  : pSet_(pSet),
50  modOn(pSet.getUntrackedParameter<bool>("modOn", true)),
51  reducedSet(pSet.getUntrackedParameter<bool>("reducedSet", true)),
52  ladOn(pSet.getUntrackedParameter<bool>("ladOn", false)),
53  layOn(pSet.getUntrackedParameter<bool>("layOn", false)),
54  phiOn(pSet.getUntrackedParameter<bool>("phiOn", false)),
55  ringOn(pSet.getUntrackedParameter<bool>("ringOn", false)),
56  bladeOn(pSet.getUntrackedParameter<bool>("bladeOn", false)),
57  diskOn(pSet.getUntrackedParameter<bool>("diskOn", false)),
58  isUpgrade(pSet.getUntrackedParameter<bool>("isUpgrade", false)),
59  noOfLayers(0),
60  noOfDisks(0) {
61  pSet_ = pSet;
62  debug_ = pSet_.getUntrackedParameter<bool>("debug", false);
65  tracksrc_ = pSet_.getParameter<edm::InputTag>("trajectoryInput");
66  ttrhbuilder_ = pSet_.getParameter<std::string>("TTRHBuilder");
67  ptminres_ = pSet.getUntrackedParameter<double>("PtMinRes", 4.0);
68  beamSpotToken_ = consumes<reco::BeamSpot>(std::string("offlineBeamSpot"));
69  vtxsrc_ = pSet_.getUntrackedParameter<std::string>("vtxsrc", "offlinePrimaryVertices");
71  consumes<reco::VertexCollection>(vtxsrc_); // consumes<reco::VertexCollection>(std::string("hiSelectedVertex"));
72  // //"offlinePrimaryVertices"));
73  generalTracksToken_ = consumes<reco::TrackCollection>(pSet_.getParameter<edm::InputTag>("tracksrc"));
74  tracksrcToken_ = consumes<std::vector<Trajectory>>(pSet_.getParameter<edm::InputTag>("trajectoryInput"));
75  trackToken_ = consumes<std::vector<reco::Track>>(pSet_.getParameter<edm::InputTag>("trajectoryInput"));
77  consumes<TrajTrackAssociationCollection>(pSet_.getParameter<edm::InputTag>("trajectoryInput"));
78  clustersrcToken_ = consumes<edmNew::DetSetVector<SiPixelCluster>>(pSet_.getParameter<edm::InputTag>("clustersrc"));
80  digisrcToken_ = consumes<edm::DetSetVector<PixelDigi>>(pSet_.getParameter<edm::InputTag>("digisrc"));
81 
82  trackerTopoToken_ = esConsumes<TrackerTopology, TrackerTopologyRcd>();
83  trackerGeomToken_ = esConsumes<TrackerGeometry, TrackerDigiGeometryRecord>();
85  esConsumes<TransientTrackBuilder, TransientTrackRecord>(edm::ESInputTag("", "TransientTrackBuilder"));
87  esConsumes<TransientTrackingRecHitBuilder, TransientRecHitRecord>(edm::ESInputTag("", ttrhbuilder_));
88  trackerTopoTokenBeginRun_ = esConsumes<TrackerTopology, TrackerTopologyRcd, edm::Transition::BeginRun>();
89  trackerGeomTokenBeginRun_ = esConsumes<TrackerGeometry, TrackerDigiGeometryRecord, edm::Transition::BeginRun>();
90 
91  LogInfo("PixelDQM") << "SiPixelTrackResidualSource constructor" << endl;
92  LogInfo("PixelDQM") << "Mod/Lad/Lay/Phi " << modOn << "/" << ladOn << "/" << layOn << "/" << phiOn << std::endl;
93  LogInfo("PixelDQM") << "Blade/Disk/Ring" << bladeOn << "/" << diskOn << "/" << ringOn << std::endl;
94 
95  topFolderName_ = pSet_.getParameter<std::string>("TopFolderName");
96 
97  firstRun = true;
98  NTotal = 0;
99  NLowProb = 0;
100 }
101 
103  LogInfo("PixelDQM") << "SiPixelTrackResidualSource destructor" << endl;
104 
105  std::map<uint32_t, SiPixelTrackResidualModule *>::iterator struct_iter;
106  for (struct_iter = theSiPixelStructure.begin(); struct_iter != theSiPixelStructure.end(); struct_iter++) {
107  delete struct_iter->second;
108  struct_iter->second = nullptr;
109  }
110 }
111 
113  LogInfo("PixelDQM") << "SiPixelTrackResidualSource beginRun()" << endl;
114  // retrieve TrackerGeometry for pixel dets
116  if (debug_)
117  LogVerbatim("PixelDQM") << "TrackerGeometry " << &(*TG) << " size is " << TG->dets().size() << endl;
119  const TrackerTopology *pTT = tTopoHandle.product();
120 
121  // build theSiPixelStructure with the pixel barrel and endcap dets from
122  // TrackerGeometry
123  for (TrackerGeometry::DetContainer::const_iterator pxb = TG->detsPXB().begin(); pxb != TG->detsPXB().end(); pxb++) {
124  if (dynamic_cast<PixelGeomDetUnit const *>((*pxb)) != nullptr) {
125  SiPixelTrackResidualModule *module = new SiPixelTrackResidualModule((*pxb)->geographicalId().rawId());
126  theSiPixelStructure.insert(
127  pair<uint32_t, SiPixelTrackResidualModule *>((*pxb)->geographicalId().rawId(), module));
128  // int DBlayer = PixelBarrelNameWrapper(pSet_,
129  // DetId((*pxb)->geographicalId())).layerName();
130  int DBlayer = PixelBarrelName(DetId((*pxb)->geographicalId()), pTT, isUpgrade).layerName();
131  if (noOfLayers < DBlayer)
132  noOfLayers = DBlayer;
133  }
134  }
135  for (TrackerGeometry::DetContainer::const_iterator pxf = TG->detsPXF().begin(); pxf != TG->detsPXF().end(); pxf++) {
136  if (dynamic_cast<PixelGeomDetUnit const *>((*pxf)) != nullptr) {
137  SiPixelTrackResidualModule *module = new SiPixelTrackResidualModule((*pxf)->geographicalId().rawId());
138  theSiPixelStructure.insert(
139  pair<uint32_t, SiPixelTrackResidualModule *>((*pxf)->geographicalId().rawId(), module));
140  int DBdisk;
141  DBdisk = PixelEndcapName(DetId((*pxf)->geographicalId()), pTT, isUpgrade).diskName();
142  if (noOfDisks < DBdisk)
143  noOfDisks = DBdisk;
144  }
145  }
146  LogInfo("PixelDQM") << "SiPixelStructure size is " << theSiPixelStructure.size() << endl;
147 }
148 
150  edm::Run const &,
151  edm::EventSetup const &iSetup) {
152  // book residual histograms in theSiPixelFolder - one (x,y) pair of histograms
153  // per det
154  SiPixelFolderOrganizer theSiPixelFolder(false);
155 
157  const TrackerTopology *pTT = tTopoHandle.product();
158 
159  std::stringstream nameX, titleX, nameY, titleY;
160 
161  if (ladOn) {
162  iBooker.setCurrentFolder(topFolderName_ + "/Barrel");
163  for (int i = 1; i <= noOfLayers; i++) {
164  nameX.str(std::string());
165  nameX << "siPixelTrackResidualsX_SummedLayer_" << i;
166  titleX.str(std::string());
167  titleX << "Layer" << i << "Hit-to-Track Residual in r-phi";
168  meResidualXSummedLay.push_back(iBooker.book1D(nameX.str(), titleX.str(), 100, -150, 150));
169  meResidualXSummedLay.at(i - 1)->setAxisTitle("hit-to-track residual in r-phi (um)", 1);
170  nameY.str(std::string());
171  nameY << "siPixelTrackResidualsY_SummedLayer_" << i;
172  titleY.str(std::string());
173  titleY << "Layer" << i << "Hit-to-Track Residual in Z";
174  meResidualYSummedLay.push_back(iBooker.book1D(nameY.str(), titleY.str(), 100, -300, 300));
175  meResidualYSummedLay.at(i - 1)->setAxisTitle("hit-to-track residual in z (um)", 1);
176  }
177  }
178 
179  for (std::map<uint32_t, SiPixelTrackResidualModule *>::iterator pxd = theSiPixelStructure.begin();
180  pxd != theSiPixelStructure.end();
181  pxd++) {
182  if (modOn) {
183  if (theSiPixelFolder.setModuleFolder(iBooker, (*pxd).first, 0, isUpgrade))
184  (*pxd).second->book(pSet_, pTT, iBooker, reducedSet, 0, isUpgrade);
185  else
186  throw cms::Exception("LogicError") << "SiPixelTrackResidualSource Folder Creation Failed! ";
187  }
188  if (ladOn) {
189  if (theSiPixelFolder.setModuleFolder(iBooker, (*pxd).first, 1, isUpgrade)) {
190  (*pxd).second->book(pSet_, pTT, iBooker, reducedSet, 1, isUpgrade);
191  } else
192  throw cms::Exception("LogicError") << "SiPixelTrackResidualSource ladder Folder Creation Failed! ";
193  }
194  if (layOn) {
195  if (theSiPixelFolder.setModuleFolder(iBooker, (*pxd).first, 2, isUpgrade))
196  (*pxd).second->book(pSet_, pTT, iBooker, reducedSet, 2, isUpgrade);
197  else
198  throw cms::Exception("LogicError") << "SiPixelTrackResidualSource layer Folder Creation Failed! ";
199  }
200  if (phiOn) {
201  if (theSiPixelFolder.setModuleFolder(iBooker, (*pxd).first, 3, isUpgrade))
202  (*pxd).second->book(pSet_, pTT, iBooker, reducedSet, 3, isUpgrade);
203  else
204  throw cms::Exception("LogicError") << "SiPixelTrackResidualSource phi Folder Creation Failed! ";
205  }
206  if (bladeOn) {
207  if (theSiPixelFolder.setModuleFolder(iBooker, (*pxd).first, 4, isUpgrade))
208  (*pxd).second->book(pSet_, pTT, iBooker, reducedSet, 4, isUpgrade);
209  else
210  throw cms::Exception("LogicError") << "SiPixelTrackResidualSource Blade Folder Creation Failed! ";
211  }
212  if (diskOn) {
213  if (theSiPixelFolder.setModuleFolder(iBooker, (*pxd).first, 5, isUpgrade))
214  (*pxd).second->book(pSet_, pTT, iBooker, reducedSet, 5, isUpgrade);
215  else
216  throw cms::Exception("LogicError") << "SiPixelTrackResidualSource Disk Folder Creation Failed! ";
217  }
218  if (ringOn) {
219  if (theSiPixelFolder.setModuleFolder(iBooker, (*pxd).first, 6, isUpgrade))
220  (*pxd).second->book(pSet_, pTT, iBooker, reducedSet, 6, isUpgrade);
221  else
222  throw cms::Exception("LogicError") << "SiPixelTrackResidualSource Ring Folder Creation Failed! ";
223  }
224  }
225 
226  // edm::InputTag tracksrc =
227  // pSet_.getParameter<edm::InputTag>("trajectoryInput"); edm::InputTag
228  // clustersrc = pSet_.getParameter<edm::InputTag>("clustersrc");
229 
230  // number of tracks
231  iBooker.setCurrentFolder(topFolderName_ + "/Tracks");
232  meNofTracks_ = iBooker.book1D("ntracks_" + tracksrc_.label(), "Number of Tracks", 4, 0, 4);
233  meNofTracks_->setAxisTitle("Number of Tracks", 1);
234  meNofTracks_->setBinLabel(1, "All");
235  meNofTracks_->setBinLabel(2, "Pixel");
236  meNofTracks_->setBinLabel(3, "BPix");
237  meNofTracks_->setBinLabel(4, "FPix");
238 
239  // number of tracks in pixel fiducial volume
240  iBooker.setCurrentFolder(topFolderName_ + "/Tracks");
241  meNofTracksInPixVol_ = iBooker.book1D(
242  "ntracksInPixVol_" + tracksrc_.label(), "Number of Tracks crossing Pixel fiducial Volume", 2, 0, 2);
243  meNofTracksInPixVol_->setAxisTitle("Number of Tracks", 1);
244  meNofTracksInPixVol_->setBinLabel(1, "With Hits");
245  meNofTracksInPixVol_->setBinLabel(2, "Without Hits");
246 
247  // number of clusters (associated to track / not associated)
248  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OnTrack");
250  iBooker.book1D("nclusters_" + clustersrc_.label() + "_tot", "Number of Clusters (on track)", 3, 0, 3);
251  meNofClustersOnTrack_->setAxisTitle("Number of Clusters on Track", 1);
255  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OffTrack");
257  iBooker.book1D("nclusters_" + clustersrc_.label() + "_tot", "Number of Clusters (off track)", 3, 0, 3);
258  meNofClustersNotOnTrack_->setAxisTitle("Number of Clusters off Track", 1);
262 
263  // cluster charge and size
264  // charge
265  // on track
266  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OnTrack");
267  std::stringstream ss1, ss2;
268  meClChargeOnTrack_all = iBooker.book1D("charge_" + clustersrc_.label(), "Charge (on track)", 500, 0., 500.);
269  meClChargeOnTrack_all->setAxisTitle("Charge size (in ke)", 1);
271  iBooker.book1D("charge_" + clustersrc_.label() + "_Barrel", "Charge (on track, barrel)", 500, 0., 500.);
272  meClChargeOnTrack_bpix->setAxisTitle("Charge size (in ke)", 1);
274  iBooker.book1D("charge_" + clustersrc_.label() + "_Endcap", "Charge (on track, endcap)", 500, 0., 500.);
275  meClChargeOnTrack_fpix->setAxisTitle("Charge size (in ke)", 1);
276  for (int i = 1; i <= noOfLayers; i++) {
277  ss1.str(std::string());
278  ss1 << "charge_" + clustersrc_.label() + "_Layer_" << i;
279  ss2.str(std::string());
280  ss2 << "Charge (on track, layer" << i << ")";
281  meClChargeOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
282  meClChargeOnTrack_layers.at(i - 1)->setAxisTitle("Charge size (in ke)", 1);
283  }
284  for (int i = 1; i <= noOfDisks; i++) {
285  ss1.str(std::string());
286  ss1 << "charge_" + clustersrc_.label() + "_Disk_p" << i;
287  ss2.str(std::string());
288  ss2 << "Charge (on track, diskp" << i << ")";
289  meClChargeOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
290  meClChargeOnTrack_diskps.at(i - 1)->setAxisTitle("Charge size (in ke)", 1);
291  }
292  for (int i = 1; i <= noOfDisks; i++) {
293  ss1.str(std::string());
294  ss1 << "charge_" + clustersrc_.label() + "_Disk_m" << i;
295  ss2.str(std::string());
296  ss2 << "Charge (on track, diskm" << i << ")";
297  meClChargeOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
298  meClChargeOnTrack_diskms.at(i - 1)->setAxisTitle("Charge size (in ke)", 1);
299  }
300  // off track
301  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OffTrack");
302  meClChargeNotOnTrack_all = iBooker.book1D("charge_" + clustersrc_.label(), "Charge (off track)", 500, 0., 500.);
303  meClChargeNotOnTrack_all->setAxisTitle("Charge size (in ke)", 1);
305  iBooker.book1D("charge_" + clustersrc_.label() + "_Barrel", "Charge (off track, barrel)", 500, 0., 500.);
306  meClChargeNotOnTrack_bpix->setAxisTitle("Charge size (in ke)", 1);
308  iBooker.book1D("charge_" + clustersrc_.label() + "_Endcap", "Charge (off track, endcap)", 500, 0., 500.);
309  meClChargeNotOnTrack_fpix->setAxisTitle("Charge size (in ke)", 1);
310  for (int i = 1; i <= noOfLayers; i++) {
311  ss1.str(std::string());
312  ss1 << "charge_" + clustersrc_.label() + "_Layer_" << i;
313  ss2.str(std::string());
314  ss2 << "Charge (off track, layer" << i << ")";
315  meClChargeNotOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
316  meClChargeNotOnTrack_layers.at(i - 1)->setAxisTitle("Charge size (in ke)", 1);
317  }
318  for (int i = 1; i <= noOfDisks; i++) {
319  ss1.str(std::string());
320  ss1 << "charge_" + clustersrc_.label() + "_Disk_p" << i;
321  ss2.str(std::string());
322  ss2 << "Charge (off track, diskp" << i << ")";
323  meClChargeNotOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
324  meClChargeNotOnTrack_diskps.at(i - 1)->setAxisTitle("Charge size (in ke)", 1);
325  }
326  for (int i = 1; i <= noOfDisks; i++) {
327  ss1.str(std::string());
328  ss1 << "charge_" + clustersrc_.label() + "_Disk_m" << i;
329  ss2.str(std::string());
330  ss2 << "Charge (off track, diskm" << i << ")";
331  meClChargeNotOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
332  meClChargeNotOnTrack_diskms.at(i - 1)->setAxisTitle("Charge size (in ke)", 1);
333  }
334 
335  // size
336  // on track
337  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OnTrack");
338  meClSizeOnTrack_all = iBooker.book1D("size_" + clustersrc_.label(), "Size (on track)", 100, 0., 100.);
339  meClSizeOnTrack_all->setAxisTitle("Cluster size (in pixels)", 1);
341  iBooker.book1D("size_" + clustersrc_.label() + "_Barrel", "Size (on track, barrel)", 100, 0., 100.);
342  meClSizeOnTrack_bpix->setAxisTitle("Cluster size (in pixels)", 1);
344  iBooker.book1D("size_" + clustersrc_.label() + "_Endcap", "Size (on track, endcap)", 100, 0., 100.);
345  meClSizeOnTrack_fpix->setAxisTitle("Cluster size (in pixels)", 1);
346  for (int i = 1; i <= noOfLayers; i++) {
347  ss1.str(std::string());
348  ss1 << "size_" + clustersrc_.label() + "_Layer_" << i;
349  ss2.str(std::string());
350  ss2 << "Size (on track, layer" << i << ")";
351  meClSizeOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
352  meClSizeOnTrack_layers.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
353  }
354  for (int i = 1; i <= noOfDisks; i++) {
355  ss1.str(std::string());
356  ss1 << "size_" + clustersrc_.label() + "_Disk_p" << i;
357  ss2.str(std::string());
358  ss2 << "Size (on track, diskp" << i << ")";
359  meClSizeOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
360  meClSizeOnTrack_diskps.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
361  }
362  for (int i = 1; i <= noOfDisks; i++) {
363  ss1.str(std::string());
364  ss1 << "size_" + clustersrc_.label() + "_Disk_m1" << i;
365  ss2.str(std::string());
366  ss2 << "Size (on track, diskm" << i << ")";
367  meClSizeOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
368  meClSizeOnTrack_diskms.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
369  }
370  meClSizeXOnTrack_all = iBooker.book1D("sizeX_" + clustersrc_.label(), "SizeX (on track)", 100, 0., 100.);
371  meClSizeXOnTrack_all->setAxisTitle("Cluster sizeX (in pixels)", 1);
373  iBooker.book1D("sizeX_" + clustersrc_.label() + "_Barrel", "SizeX (on track, barrel)", 100, 0., 100.);
374  meClSizeXOnTrack_bpix->setAxisTitle("Cluster sizeX (in pixels)", 1);
376  iBooker.book1D("sizeX_" + clustersrc_.label() + "_Endcap", "SizeX (on track, endcap)", 100, 0., 100.);
377  meClSizeXOnTrack_fpix->setAxisTitle("Cluster sizeX (in pixels)", 1);
378  for (int i = 1; i <= noOfLayers; i++) {
379  ss1.str(std::string());
380  ss1 << "sizeX_" + clustersrc_.label() + "_Layer_" << i;
381  ss2.str(std::string());
382  ss2 << "SizeX (on track, layer" << i << ")";
383  meClSizeXOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
384  meClSizeXOnTrack_layers.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
385  }
386  for (int i = 1; i <= noOfDisks; i++) {
387  ss1.str(std::string());
388  ss1 << "sizeX_" + clustersrc_.label() + "_Disk_p" << i;
389  ss2.str(std::string());
390  ss2 << "SizeX (on track, diskp" << i << ")";
391  meClSizeXOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
392  meClSizeXOnTrack_diskps.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
393  }
394  for (int i = 1; i <= noOfDisks; i++) {
395  ss1.str(std::string());
396  ss1 << "sizeX_" + clustersrc_.label() + "_Disk_m" << i;
397  ss2.str(std::string());
398  ss2 << "SizeX (on track, diskm" << i << ")";
399  meClSizeXOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
400  meClSizeXOnTrack_diskms.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
401  }
402  meClSizeYOnTrack_all = iBooker.book1D("sizeY_" + clustersrc_.label(), "SizeY (on track)", 100, 0., 100.);
403  meClSizeYOnTrack_all->setAxisTitle("Cluster sizeY (in pixels)", 1);
405  iBooker.book1D("sizeY_" + clustersrc_.label() + "_Barrel", "SizeY (on track, barrel)", 100, 0., 100.);
406  meClSizeYOnTrack_bpix->setAxisTitle("Cluster sizeY (in pixels)", 1);
408  iBooker.book1D("sizeY_" + clustersrc_.label() + "_Endcap", "SizeY (on track, endcap)", 100, 0., 100.);
409  meClSizeYOnTrack_fpix->setAxisTitle("Cluster sizeY (in pixels)", 1);
410  for (int i = 1; i <= noOfLayers; i++) {
411  ss1.str(std::string());
412  ss1 << "sizeY_" + clustersrc_.label() + "_Layer_" << i;
413  ss2.str(std::string());
414  ss2 << "SizeY (on track, layer" << i << ")";
415  meClSizeYOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
416  meClSizeYOnTrack_layers.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
417  }
418  for (int i = 1; i <= noOfDisks; i++) {
419  ss1.str(std::string());
420  ss1 << "sizeY_" + clustersrc_.label() + "_Disk_p" << i;
421  ss2.str(std::string());
422  ss2 << "SizeY (on track, diskp" << i << ")";
423  meClSizeYOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
424  meClSizeYOnTrack_diskps.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
425  }
426  for (int i = 1; i <= noOfDisks; i++) {
427  ss1.str(std::string());
428  ss1 << "sizeY_" + clustersrc_.label() + "_Disk_m" << i;
429  ss2.str(std::string());
430  ss2 << "SizeY (on track, diskm" << i << ")";
431  meClSizeYOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
432  meClSizeYOnTrack_diskms.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
433  }
434  // off track
435  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OffTrack");
436  meClSizeNotOnTrack_all = iBooker.book1D("size_" + clustersrc_.label(), "Size (off track)", 100, 0., 100.);
437  meClSizeNotOnTrack_all->setAxisTitle("Cluster size (in pixels)", 1);
439  iBooker.book1D("size_" + clustersrc_.label() + "_Barrel", "Size (off track, barrel)", 100, 0., 100.);
440  meClSizeNotOnTrack_bpix->setAxisTitle("Cluster size (in pixels)", 1);
442  iBooker.book1D("size_" + clustersrc_.label() + "_Endcap", "Size (off track, endcap)", 100, 0., 100.);
443  meClSizeNotOnTrack_fpix->setAxisTitle("Cluster size (in pixels)", 1);
444  for (int i = 1; i <= noOfLayers; i++) {
445  ss1.str(std::string());
446  ss1 << "size_" + clustersrc_.label() + "_Layer_" << i;
447  ss2.str(std::string());
448  ss2 << "Size (off track, layer" << i << ")";
449  meClSizeNotOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
450  meClSizeNotOnTrack_layers.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
451  }
452 
453  for (int i = 1; i <= noOfLayers; i++) {
454  int ybins = -1;
455  float ymin = 0.;
456  float ymax = 0.;
457  if (i == 1) {
458  ybins = 42;
459  ymin = -10.5;
460  ymax = 10.5;
461  }
462  if (i == 2) {
463  ybins = 66;
464  ymin = -16.5;
465  ymax = 16.5;
466  }
467  if (i == 3) {
468  ybins = 90;
469  ymin = -22.5;
470  ymax = 22.5;
471  }
472  ss1.str(std::string());
473  ss1 << "pix_bar Occ_roc_offtrack" + digisrc_.label() + "_layer_" << i;
474  ss2.str(std::string());
475  ss2 << "Pixel Barrel Occupancy, ROC level (Off Track): Layer " << i;
476  meZeroRocLadvsModOffTrackBarrel.push_back(iBooker.book2D(ss1.str(), ss2.str(), 72, -4.5, 4.5, ybins, ymin, ymax));
477  meZeroRocLadvsModOffTrackBarrel.at(i - 1)->setAxisTitle("ROC / Module", 1);
478  meZeroRocLadvsModOffTrackBarrel.at(i - 1)->setAxisTitle("ROC / Ladder", 2);
479  }
480 
481  for (int i = 1; i <= noOfDisks; i++) {
482  ss1.str(std::string());
483  ss1 << "size_" + clustersrc_.label() + "_Disk_p" << i;
484  ss2.str(std::string());
485  ss2 << "Size (off track, diskp" << i << ")";
486  meClSizeNotOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
487  meClSizeNotOnTrack_diskps.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
488  }
489  for (int i = 1; i <= noOfDisks; i++) {
490  ss1.str(std::string());
491  ss1 << "size_" + clustersrc_.label() + "_Disk_m" << i;
492  ss2.str(std::string());
493  ss2 << "Size (off track, diskm" << i << ")";
494  meClSizeNotOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
495  meClSizeNotOnTrack_diskms.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
496  }
497  meClSizeXNotOnTrack_all = iBooker.book1D("sizeX_" + clustersrc_.label(), "SizeX (off track)", 100, 0., 100.);
498  meClSizeXNotOnTrack_all->setAxisTitle("Cluster sizeX (in pixels)", 1);
500  iBooker.book1D("sizeX_" + clustersrc_.label() + "_Barrel", "SizeX (off track, barrel)", 100, 0., 100.);
501  meClSizeXNotOnTrack_bpix->setAxisTitle("Cluster sizeX (in pixels)", 1);
503  iBooker.book1D("sizeX_" + clustersrc_.label() + "_Endcap", "SizeX (off track, endcap)", 100, 0., 100.);
504  meClSizeXNotOnTrack_fpix->setAxisTitle("Cluster sizeX (in pixels)", 1);
505  for (int i = 1; i <= noOfLayers; i++) {
506  ss1.str(std::string());
507  ss1 << "sizeX_" + clustersrc_.label() + "_Layer_" << i;
508  ss2.str(std::string());
509  ss2 << "SizeX (off track, layer" << i << ")";
510  meClSizeXNotOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
511  meClSizeXNotOnTrack_layers.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
512  }
513  for (int i = 1; i <= noOfDisks; i++) {
514  ss1.str(std::string());
515  ss1 << "sizeX_" + clustersrc_.label() + "_Disk_p" << i;
516  ss2.str(std::string());
517  ss2 << "SizeX (off track, diskp" << i << ")";
518  meClSizeXNotOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
519  meClSizeXNotOnTrack_diskps.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
520  }
521  for (int i = 1; i <= noOfDisks; i++) {
522  ss1.str(std::string());
523  ss1 << "sizeX_" + clustersrc_.label() + "_Disk_m" << i;
524  ss2.str(std::string());
525  ss2 << "SizeX (off track, diskm" << i << ")";
526  meClSizeXNotOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
527  meClSizeXNotOnTrack_diskms.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
528  }
529  meClSizeYNotOnTrack_all = iBooker.book1D("sizeY_" + clustersrc_.label(), "SizeY (off track)", 100, 0., 100.);
530  meClSizeYNotOnTrack_all->setAxisTitle("Cluster sizeY (in pixels)", 1);
532  iBooker.book1D("sizeY_" + clustersrc_.label() + "_Barrel", "SizeY (off track, barrel)", 100, 0., 100.);
533  meClSizeYNotOnTrack_bpix->setAxisTitle("Cluster sizeY (in pixels)", 1);
535  iBooker.book1D("sizeY_" + clustersrc_.label() + "_Endcap", "SizeY (off track, endcap)", 100, 0., 100.);
536  meClSizeYNotOnTrack_fpix->setAxisTitle("Cluster sizeY (in pixels)", 1);
537  for (int i = 1; i <= noOfLayers; i++) {
538  ss1.str(std::string());
539  ss1 << "sizeY_" + clustersrc_.label() + "_Layer_" << i;
540  ss2.str(std::string());
541  ss2 << "SizeY (off track, layer" << i << ")";
542  meClSizeYNotOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
543  meClSizeYNotOnTrack_layers.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
544  }
545  for (int i = 1; i <= noOfDisks; i++) {
546  ss1.str(std::string());
547  ss1 << "sizeY_" + clustersrc_.label() + "_Disk_p" << i;
548  ss2.str(std::string());
549  ss2 << "SizeY (off track, diskp" << i << ")";
550  meClSizeYNotOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
551  meClSizeYNotOnTrack_diskps.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
552  }
553  for (int i = 1; i <= noOfDisks; i++) {
554  ss1.str(std::string());
555  ss1 << "sizeY_" + clustersrc_.label() + "_Disk_m" << i;
556  ss2.str(std::string());
557  ss2 << "SizeY (off track, diskm" << i << ")";
558  meClSizeYNotOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
559  meClSizeYNotOnTrack_diskms.at(i - 1)->setAxisTitle("Cluster size (in pixels)", 1);
560  }
561 
562  // cluster global position
563  // on track
564  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OnTrack");
565  // bpix
566  for (int i = 1; i <= noOfLayers; i++) {
567  ss1.str(std::string());
568  ss1 << "position_" + clustersrc_.label() + "_Layer_" << i;
569  ss2.str(std::string());
570  ss2 << "Clusters Layer" << i << " (on track)";
571  meClPosLayersOnTrack.push_back(iBooker.book2D(ss1.str(), ss2.str(), 200, -30., 30., 128, -3.2, 3.2));
572  meClPosLayersOnTrack.at(i - 1)->setAxisTitle("Global Z (cm)", 1);
573  meClPosLayersOnTrack.at(i - 1)->setAxisTitle("Global #phi", 2);
574 
575  int ybins = -1;
576  float ymin = 0.;
577  float ymax = 0.;
578  if (i == 1) {
579  ybins = 23;
580  ymin = -11.5;
581  ymax = 11.5;
582  }
583  if (i == 2) {
584  ybins = 33;
585  ymin = -17.5;
586  ymax = 17.5;
587  }
588  if (i == 3) {
589  ybins = 45;
590  ymin = -24.5;
591  ymax = 24.5;
592  }
593  ss1.str(std::string());
594  ss1 << "position_" + clustersrc_.label() + "_LadvsMod_Layer_" << i;
595  ss2.str(std::string());
596  ss2 << "Clusters Layer" << i << "_LadvsMod (on track)";
597  meClPosLayersLadVsModOnTrack.push_back(iBooker.book2D(ss1.str(), ss2.str(), 11, -5.5, 5.5, ybins, ymin, ymax));
598  meClPosLayersLadVsModOnTrack.at(i - 1)->setAxisTitle("z-module", 1);
599  meClPosLayersLadVsModOnTrack.at(i - 1)->setAxisTitle("Ladder", 2);
600  }
601 
602  for (int i = 1; i <= noOfLayers; i++) {
603  int ybins = -1;
604  float ymin = 0.;
605  float ymax = 0.;
606  if (i == 1) {
607  ybins = 42;
608  ymin = -10.5;
609  ymax = 10.5;
610  }
611  if (i == 2) {
612  ybins = 66;
613  ymin = -16.5;
614  ymax = 16.5;
615  }
616  if (i == 3) {
617  ybins = 90;
618  ymin = -22.5;
619  ymax = 22.5;
620  }
621  ss1.str(std::string());
622  ss1 << "pix_bar Occ_roc_ontrack" + digisrc_.label() + "_layer_" << i;
623  ss2.str(std::string());
624  ss2 << "Pixel Barrel Occupancy, ROC level (On Track): Layer " << i;
625  meZeroRocLadvsModOnTrackBarrel.push_back(iBooker.book2D(ss1.str(), ss2.str(), 72, -4.5, 4.5, ybins, ymin, ymax));
626  meZeroRocLadvsModOnTrackBarrel.at(i - 1)->setAxisTitle("ROC / Module", 1);
627  meZeroRocLadvsModOnTrackBarrel.at(i - 1)->setAxisTitle("ROC / Ladder", 2);
628  }
629 
630  for (int i = 1; i <= noOfLayers; i++) {
631  ss1.str(std::string());
632  ss1 << "nclustersvsPhi_" + clustersrc_.label() + "_Layer_" << i;
633  ss2.str(std::string());
634  ss2 << "nclusters (on track, layer" << i << ")";
635  meNofClustersvsPhiOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 1400., -3.5, 3.5));
636  meNofClustersvsPhiOnTrack_layers.at(i - 1)->setAxisTitle("Global #Phi", 1);
637  meNofClustersvsPhiOnTrack_layers.at(i - 1)->setAxisTitle("Number of Clusters/Layer on Track", 2);
638  }
639 
640  // fpix
641  for (int i = 1; i <= noOfDisks; i++) {
642  ss1.str(std::string());
643  ss1 << "position_" + clustersrc_.label() + "_pz_Disk_" << i;
644  ss2.str(std::string());
645  ss2 << "Clusters +Z Disk" << i << " (on track)";
646  meClPosDiskspzOnTrack.push_back(iBooker.book2D(ss1.str(), ss2.str(), 80, -20., 20., 80, -20., 20.));
647  meClPosDiskspzOnTrack.at(i - 1)->setAxisTitle("Global X (cm)", 1);
648  meClPosDiskspzOnTrack.at(i - 1)->setAxisTitle("Global Y (cm)", 2);
649  }
650  for (int i = 1; i <= noOfDisks; i++) {
651  ss1.str(std::string());
652  ss1 << "position_" + clustersrc_.label() + "_mz_Disk_" << i;
653  ss2.str(std::string());
654  ss2 << "Clusters -Z Disk" << i << " (on track)";
655  meClPosDisksmzOnTrack.push_back(iBooker.book2D(ss1.str(), ss2.str(), 80, -20., 20., 80, -20., 20.));
656  meClPosDisksmzOnTrack.at(i - 1)->setAxisTitle("Global X (cm)", 1);
657  meClPosDisksmzOnTrack.at(i - 1)->setAxisTitle("Global Y (cm)", 2);
658  }
660  iBooker.book1D("nclusters_" + clustersrc_.label(), "Number of Clusters (on Track)", 50, 0., 50.);
661  meNClustersOnTrack_all->setAxisTitle("Number of Clusters", 1);
663  "nclusters_" + clustersrc_.label() + "_Barrel", "Number of Clusters (on track, barrel)", 50, 0., 50.);
664  meNClustersOnTrack_bpix->setAxisTitle("Number of Clusters", 1);
666  "nclusters_" + clustersrc_.label() + "_Endcap", "Number of Clusters (on track, endcap)", 50, 0., 50.);
667  meNClustersOnTrack_fpix->setAxisTitle("Number of Clusters", 1);
668  for (int i = 1; i <= noOfLayers; i++) {
669  ss1.str(std::string());
670  ss1 << "nclusters_" + clustersrc_.label() + "_Layer_" << i;
671  ss2.str(std::string());
672  ss2 << "Number of Clusters (on track, layer" << i << ")";
673  meNClustersOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
674  meNClustersOnTrack_layers.at(i - 1)->setAxisTitle("Number of Clusters", 1);
675  }
676  for (int i = 1; i <= noOfDisks; i++) {
677  ss1.str(std::string());
678  ss1 << "nclusters_" + clustersrc_.label() + "_Disk_p" << i;
679  ss2.str(std::string());
680  ss2 << "Number of Clusters (on track, diskp" << i << ")";
681  meNClustersOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 50, 0., 50.));
682  meNClustersOnTrack_diskps.at(i - 1)->setAxisTitle("Number of Clusters", 1);
683 
684  ss1.str(std::string());
685  ss1 << "nclustersvsPhi_" + clustersrc_.label() + "_Disk_p" << i;
686  ss2.str(std::string());
687  ss2 << "nclusters (on track, diskp" << i << ")";
688  meNofClustersvsPhiOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 1400., -3.5, 3.5));
689  meNofClustersvsPhiOnTrack_diskps.at(i - 1)->setAxisTitle("Global #Phi", 1);
690  meNofClustersvsPhiOnTrack_diskps.at(i - 1)->setAxisTitle("Number of Clusters/Disk on Track", 2);
691  }
692  for (int i = 1; i <= noOfDisks; i++) {
693  ss1.str(std::string());
694  ss1 << "nclusters_" + clustersrc_.label() + "_Disk_m" << i;
695  ss2.str(std::string());
696  ss2 << "Number of Clusters (on track, diskm" << i << ")";
697  meNClustersOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
698  meNClustersOnTrack_diskms.at(i - 1)->setAxisTitle("Number of Clusters", 1);
699 
700  ss1.str(std::string());
701  ss1 << "nclustersvsPhi_" + clustersrc_.label() + "_Disk_m" << i;
702  ss2.str(std::string());
703  ss2 << "nclusters (on track, diskm" << i << ")";
704  meNofClustersvsPhiOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 1400., -3.5, 3.5));
705  meNofClustersvsPhiOnTrack_diskms.at(i - 1)->setAxisTitle("Global #Phi", 1);
706  meNofClustersvsPhiOnTrack_diskms.at(i - 1)->setAxisTitle("Number of Clusters/Disk on Track", 2);
707  }
708 
710  "ROC_endcap_occupancy_ontrk", "Pixel Endcap Occupancy, ROC level (On Track)", 72, -4.5, 4.5, 288, -12.5, 12.5);
711  meRocBladevsDiskEndcapOnTrk->setBinLabel(1, "Disk-2 Pnl2", 1);
712  meRocBladevsDiskEndcapOnTrk->setBinLabel(9, "Disk-2 Pnl1", 1);
713  meRocBladevsDiskEndcapOnTrk->setBinLabel(19, "Disk-1 Pnl2", 1);
714  meRocBladevsDiskEndcapOnTrk->setBinLabel(27, "Disk-1 Pnl1", 1);
715  meRocBladevsDiskEndcapOnTrk->setBinLabel(41, "Disk+1 Pnl1", 1);
716  meRocBladevsDiskEndcapOnTrk->setBinLabel(49, "Disk+1 Pnl2", 1);
717  meRocBladevsDiskEndcapOnTrk->setBinLabel(59, "Disk+2 Pnl1", 1);
718  meRocBladevsDiskEndcapOnTrk->setBinLabel(67, "Disk+2 Pnl2", 1);
719  meRocBladevsDiskEndcapOnTrk->setAxisTitle("Blades in Inner (>0) / Outer(<) Halves", 2);
720  meRocBladevsDiskEndcapOnTrk->setAxisTitle("ROC occupancy", 3);
721 
722  // not on track
723  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OffTrack");
724  // bpix
725  for (int i = 1; i <= noOfLayers; i++) {
726  ss1.str(std::string());
727  ss1 << "position_" + clustersrc_.label() + "_Layer_" << i;
728  ss2.str(std::string());
729  ss2 << "Clusters Layer" << i << " (off track)";
730  meClPosLayersNotOnTrack.push_back(iBooker.book2D(ss1.str(), ss2.str(), 200, -30., 30., 128, -3.2, 3.2));
731  meClPosLayersNotOnTrack.at(i - 1)->setAxisTitle("Global Z (cm)", 1);
732  meClPosLayersNotOnTrack.at(i - 1)->setAxisTitle("Global #phi", 2);
733  }
734  // fpix
735  for (int i = 1; i <= noOfDisks; i++) {
736  ss1.str(std::string());
737  ss1 << "position_" + clustersrc_.label() + "_pz_Disk_" << i;
738  ss2.str(std::string());
739  ss2 << "Clusters +Z Disk" << i << " (off track)";
740  meClPosDiskspzNotOnTrack.push_back(iBooker.book2D(ss1.str(), ss2.str(), 80, -20., 20., 80, -20., 20.));
741  meClPosDiskspzNotOnTrack.at(i - 1)->setAxisTitle("Global X (cm)", 1);
742  meClPosDiskspzNotOnTrack.at(i - 1)->setAxisTitle("Global Y (cm)", 2);
743  }
744  for (int i = 1; i <= noOfDisks; i++) {
745  ss1.str(std::string());
746  ss1 << "position_" + clustersrc_.label() + "_mz_Disk_" << i;
747  ss2.str(std::string());
748  ss2 << "Clusters -Z Disk" << i << " (off track)";
749  meClPosDisksmzNotOnTrack.push_back(iBooker.book2D(ss1.str(), ss2.str(), 80, -20., 20., 80, -20., 20.));
750  meClPosDisksmzNotOnTrack.at(i - 1)->setAxisTitle("Global X (cm)", 1);
751  meClPosDisksmzNotOnTrack.at(i - 1)->setAxisTitle("Global Y (cm)", 2);
752  }
754  iBooker.book1D("nclusters_" + clustersrc_.label(), "Number of Clusters (off Track)", 50, 0., 50.);
755  meNClustersNotOnTrack_all->setAxisTitle("Number of Clusters", 1);
757  "nclusters_" + clustersrc_.label() + "_Barrel", "Number of Clusters (off track, barrel)", 50, 0., 50.);
758  meNClustersNotOnTrack_bpix->setAxisTitle("Number of Clusters", 1);
760  "nclusters_" + clustersrc_.label() + "_Endcap", "Number of Clusters (off track, endcap)", 50, 0., 50.);
761  meNClustersNotOnTrack_fpix->setAxisTitle("Number of Clusters", 1);
762  for (int i = 1; i <= noOfLayers; i++) {
763  ss1.str(std::string());
764  ss1 << "nclusters_" + clustersrc_.label() + "_Layer_" << i;
765  ss2.str(std::string());
766  ss2 << "Number of Clusters (off track, layer" << i << ")";
767  meNClustersNotOnTrack_layers.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
768  meNClustersNotOnTrack_layers.at(i - 1)->setAxisTitle("Number of Clusters", 1);
769  }
770  for (int i = 1; i <= noOfDisks; i++) {
771  ss1.str(std::string());
772  ss1 << "nclusters_" + clustersrc_.label() + "_Disk_p" << i;
773  ss2.str(std::string());
774  ss2 << "Number of Clusters (off track, diskp" << i << ")";
775  meNClustersNotOnTrack_diskps.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
776  meNClustersNotOnTrack_diskps.at(i - 1)->setAxisTitle("Number of Clusters", 1);
777  }
778  for (int i = 1; i <= noOfDisks; i++) {
779  ss1.str(std::string());
780  ss1 << "nclusters_" + clustersrc_.label() + "_Disk_m" << i;
781  ss2.str(std::string());
782  ss2 << "Number of Clusters (off track, diskm" << i << ")";
783  meNClustersNotOnTrack_diskms.push_back(iBooker.book1D(ss1.str(), ss2.str(), 500, 0., 500.));
784  meNClustersNotOnTrack_diskms.at(i - 1)->setAxisTitle("Number of Clusters", 1);
785  }
786 
788  "ROC_endcap_occupancy_offtrk", "Pixel Endcap Occupancy, ROC level (Off Track)", 72, -4.5, 4.5, 288, -12.5, 12.5);
789  meRocBladevsDiskEndcapOffTrk->setBinLabel(1, "Disk-2 Pnl2", 1);
790  meRocBladevsDiskEndcapOffTrk->setBinLabel(9, "Disk-2 Pnl1", 1);
791  meRocBladevsDiskEndcapOffTrk->setBinLabel(19, "Disk-1 Pnl2", 1);
792  meRocBladevsDiskEndcapOffTrk->setBinLabel(27, "Disk-1 Pnl1", 1);
793  meRocBladevsDiskEndcapOffTrk->setBinLabel(41, "Disk+1 Pnl1", 1);
794  meRocBladevsDiskEndcapOffTrk->setBinLabel(49, "Disk+1 Pnl2", 1);
795  meRocBladevsDiskEndcapOffTrk->setBinLabel(59, "Disk+2 Pnl1", 1);
796  meRocBladevsDiskEndcapOffTrk->setBinLabel(67, "Disk+2 Pnl2", 1);
797  meRocBladevsDiskEndcapOffTrk->setAxisTitle("Blades in Inner (>0) / Outer(<) Halves", 2);
798  meRocBladevsDiskEndcapOffTrk->setAxisTitle("ROC occupancy", 3);
799 
800  // HitProbability
801  // on track
802  iBooker.setCurrentFolder(topFolderName_ + "/Clusters/OnTrack");
803  meHitProbability = iBooker.book1D(
804  "FractionLowProb", "Fraction of hits with low probability;FractionLowProb;#HitsOnTrack", 100, 0., 1.);
805 
806  if (debug_) {
807  // book summary residual histograms in a debugging folder - one (x,y) pair
808  // of histograms per subdetector
809  iBooker.setCurrentFolder("debugging");
810  char hisID[80];
811  for (int s = 0; s < 3; s++) {
812  sprintf(hisID, "residual_x_subdet_%i", s);
813  meSubdetResidualX[s] = iBooker.book1D(hisID, "Pixel Hit-to-Track Residual in X", 500, -5., 5.);
814 
815  sprintf(hisID, "residual_y_subdet_%i", s);
816  meSubdetResidualY[s] = iBooker.book1D(hisID, "Pixel Hit-to-Track Residual in Y", 500, -5., 5.);
817  }
818  }
819 
820  firstRun = false;
821 }
822 
824  // Retrieve tracker topology from geometry
826  const TrackerTopology *tTopo = tTopoHandle.product();
827 
828  // retrieve TrackerGeometry again and MagneticField for use in transforming
829  // a TrackCandidate's P(ersistent)TrajectoryStateoOnDet (PTSoD) to a
830  // TrajectoryStateOnSurface (TSoS)
832  const TrackerGeometry *theTrackerGeometry = TG.product();
833 
834  // analytic triplet method to calculate the track residuals in the pixe barrel
835  // detector
836 
837  //--------------------------------------------------------------------
838  // beam spot:
839  //
841  // iEvent.getByLabel( "offlineBeamSpot", rbs );
842  iEvent.getByToken(beamSpotToken_, rbs);
843  math::XYZPoint bsP = math::XYZPoint(0, 0, 0);
844  if (!rbs.failedToGet() && rbs.isValid()) {
845  bsP = math::XYZPoint(rbs->x0(), rbs->y0(), rbs->z0());
846  }
847 
848  //--------------------------------------------------------------------
849  // primary vertices:
850  //
852  // iEvent.getByLabel("offlinePrimaryVertices", vertices );
854 
855  if (vertices.failedToGet())
856  return;
857  if (!vertices.isValid())
858  return;
859 
860  math::XYZPoint vtxN = math::XYZPoint(0, 0, 0);
861  math::XYZPoint vtxP = math::XYZPoint(0, 0, 0);
862 
863  double bestNdof = 0.0;
864  double maxSumPt = 0.0;
865  reco::Vertex bestPvx;
866  for (reco::VertexCollection::const_iterator iVertex = vertices->begin(); iVertex != vertices->end(); ++iVertex) {
867  if (iVertex->ndof() > bestNdof) {
868  bestNdof = iVertex->ndof();
869  vtxN = math::XYZPoint(iVertex->x(), iVertex->y(), iVertex->z());
870  } // ndof
871  if (iVertex->p4().pt() > maxSumPt) {
872  maxSumPt = iVertex->p4().pt();
873  vtxP = math::XYZPoint(iVertex->x(), iVertex->y(), iVertex->z());
874  bestPvx = *iVertex;
875  } // sumpt
876 
877  } // vertex
878 
879  if (maxSumPt < 1.0)
880  vtxP = vtxN;
881 
882  //---------------------------------------------
883  // get Tracks
884  //
886  // iEvent.getByLabel( "generalTracks", TracksForRes );
887  iEvent.getByToken(generalTracksToken_, TracksForRes);
888 
889  if (debug_) {
891  labelsForToken(generalTracksToken_, labels);
892  std::cout << "Track for Res from " << labels.module << std::endl;
893  }
894 
895  //
896  // transient track builder, needs B-field from data base (global tag in .py)
897  //
899 
900  // get the TransienTrackingRecHitBuilder needed for extracting the global
901  // position of the hits in the pixel
902  edm::ESHandle<TransientTrackingRecHitBuilder> theTrackerRecHitBuilder =
904 
905  // check that tracks are valid
906  if (TracksForRes.failedToGet())
907  return;
908  if (!TracksForRes.isValid())
909  return;
910 
911  int kk = -1;
912  //----------------------------------------------------------------------------
913  // Residuals:
914  //
915  for (reco::TrackCollection::const_iterator iTrack = TracksForRes->begin(); iTrack != TracksForRes->end(); ++iTrack) {
916  // count
917  kk++;
918  // Calculate minimal track pt before curling
919  // cpt = cqRB = 0.3*R[m]*B[T] = 1.14*R[m] for B=3.8T
920  // D = 2R = 2*pt/1.14
921  // calo: D = 1.3 m => pt = 0.74 GeV/c
922  double pt = iTrack->pt();
923  if (pt < 0.75)
924  continue; // curls up
925  if (abs(iTrack->dxy(vtxP)) > 5 * iTrack->dxyError())
926  continue; // not prompt
927 
928  double charge = iTrack->charge();
929 
930  reco::TransientTrack tTrack = theB->build(*iTrack);
931  // get curvature of the track, needed for the residuals
932  double kap = tTrack.initialFreeState().transverseCurvature();
933  // needed for the TransienTrackingRecHitBuilder
935  if (iTrack->extra().isNonnull() && iTrack->extra().isAvailable()) {
936  double x1 = 0;
937  double y1 = 0;
938  double z1 = 0;
939  double x2 = 0;
940  double y2 = 0;
941  double z2 = 0;
942  double x3 = 0;
943  double y3 = 0;
944  double z3 = 0;
945  int n1 = 0;
946  int n2 = 0;
947  int n3 = 0;
948 
949  // for saving the pixel barrel hits
950  vector<TransientTrackingRecHit::RecHitPointer> GoodPixBarrelHits;
951  // looping through the RecHits of the track
952  for (trackingRecHit_iterator irecHit = iTrack->recHitsBegin(); irecHit != iTrack->recHitsEnd(); ++irecHit) {
953  if ((*irecHit)->isValid()) {
954  DetId detId = (*irecHit)->geographicalId();
955  // enum Detector { Tracker=1, Muon=2, Ecal=3, Hcal=4, Calo=5 };
956  if (detId.det() != 1) {
957  if (debug_) {
958  cout << "rec hit ID = " << detId.det() << " not in tracker!?!?\n";
959  }
960  continue;
961  }
962  uint32_t subDet = detId.subdetId();
963 
964  // enum SubDetector{ PixelBarrel=1, PixelEndcap=2 };
965  // enum SubDetector{ TIB=3, TID=4, TOB=5, TEC=6 };
966 
967  TransientTrackingRecHit::RecHitPointer trecHit = theTrackerRecHitBuilder->build(&*(*irecHit), initialTSOS);
968 
969  double gX = trecHit->globalPosition().x();
970  double gY = trecHit->globalPosition().y();
971  double gZ = trecHit->globalPosition().z();
972 
973  if (subDet == PixelSubdetector::PixelBarrel) {
974  int ilay = tTopo->pxbLayer(detId);
975 
976  if (ilay == 1) {
977  n1++;
978  x1 = gX;
979  y1 = gY;
980  z1 = gZ;
981 
982  GoodPixBarrelHits.push_back((trecHit));
983  } // PXB1
984  if (ilay == 2) {
985  n2++;
986  x2 = gX;
987  y2 = gY;
988  z2 = gZ;
989 
990  GoodPixBarrelHits.push_back((trecHit));
991 
992  } // PXB2
993  if (ilay == 3) {
994  n3++;
995  x3 = gX;
996  y3 = gY;
997  z3 = gZ;
998  GoodPixBarrelHits.push_back((trecHit));
999  }
1000  } // PXB
1001 
1002  } // valid
1003  } // loop rechits
1004 
1005  // CS extra plots
1006 
1007  if (n1 + n2 + n3 == 3 && n1 * n2 * n3 > 0) {
1008  for (unsigned int i = 0; i < GoodPixBarrelHits.size(); i++) {
1009  if (GoodPixBarrelHits[i]->isValid()) {
1010  DetId detId = GoodPixBarrelHits[i]->geographicalId().rawId();
1011  int ilay = tTopo->pxbLayer(detId);
1012  if (pt > ptminres_) {
1013  double dca2 = 0.0, dz2 = 0.0;
1014  double ptsig = pt;
1015  if (charge < 0.)
1016  ptsig = -pt;
1017  // Filling the histograms in modules
1018 
1019  MeasurementPoint Test;
1020  MeasurementPoint Test2;
1021  Test = MeasurementPoint(0, 0);
1022  Test2 = MeasurementPoint(0, 0);
1023  Measurement2DVector residual;
1024 
1025  if (ilay == 1) {
1026  triplets(x2, y2, z2, x1, y1, z1, x3, y3, z3, ptsig, dca2, dz2, kap);
1027 
1028  Test = MeasurementPoint(dca2 * 1E4, dz2 * 1E4);
1029  residual = Test - Test2;
1030  }
1031 
1032  if (ilay == 2) {
1033  triplets(x1, y1, z1, x2, y2, z2, x3, y3, z3, ptsig, dca2, dz2, kap);
1034 
1035  Test = MeasurementPoint(dca2 * 1E4, dz2 * 1E4);
1036  residual = Test - Test2;
1037  }
1038 
1039  if (ilay == 3) {
1040  triplets(x1, y1, z1, x3, y3, z3, x2, y2, z2, ptsig, dca2, dz2, kap);
1041 
1042  Test = MeasurementPoint(dca2 * 1E4, dz2 * 1E4);
1043  residual = Test - Test2;
1044  }
1045  // fill the residual histograms
1046 
1047  std::map<uint32_t, SiPixelTrackResidualModule *>::iterator pxd = theSiPixelStructure.find(detId);
1048  if (pxd != theSiPixelStructure.end())
1049  (*pxd).second->fill(residual, reducedSet, modOn, ladOn, layOn, phiOn, bladeOn, diskOn, ringOn);
1050 
1051  if (ladOn && pxd != theSiPixelStructure.end()) {
1052  meResidualXSummedLay.at(PixelBarrelNameUpgrade((*pxd).first).layerName() - 1)->Fill(residual.x());
1053  meResidualYSummedLay.at(PixelBarrelNameUpgrade((*pxd).first).layerName() - 1)->Fill(residual.y());
1054  }
1055 
1056  } // three hits
1057  } // is valid
1058  } // rechits loop
1059  } // pt 4
1060  }
1061 
1062  } //-----Tracks
1064  // get tracks
1065  edm::Handle<std::vector<reco::Track>> trackCollectionHandle;
1066  // iEvent.getByLabel(tracksrc_,trackCollectionHandle);
1067  iEvent.getByToken(trackToken_, trackCollectionHandle);
1068  auto const &trackColl = *(trackCollectionHandle.product());
1069 
1070  // get clusters
1072  // iEvent.getByLabel( clustersrc_, clusterColl );
1073  iEvent.getByToken(clustersrcToken_, clusterColl);
1074  auto const &clustColl = *(clusterColl.product());
1075 
1076  // get digis
1078  iEvent.getByToken(digisrcToken_, digiinput);
1079  edm::DetSetVector<PixelDigi> const &diginp = *(digiinput.product());
1080 
1081  std::set<SiPixelCluster> clusterSet;
1082  TrajectoryStateCombiner tsoscomb;
1083  int tracks = 0, pixeltracks = 0, bpixtracks = 0, fpixtracks = 0;
1084  int trackclusters = 0, barreltrackclusters = 0, endcaptrackclusters = 0;
1085  int otherclusters = 0, barrelotherclusters = 0, endcapotherclusters = 0;
1086 
1087  // get trajectories
1088  edm::Handle<std::vector<Trajectory>> trajCollectionHandle;
1089  iEvent.getByToken(tracksrcToken_, trajCollectionHandle);
1090 
1091  if (debug_) {
1093  labelsForToken(tracksrcToken_, labels);
1094  std::cout << "Trajectories for Res from " << labels.module << std::endl;
1095  }
1096 
1097  if (trajCollectionHandle.isValid()) {
1098  auto const &trajColl = *(trajCollectionHandle.product());
1099  // get the map
1101  iEvent.getByToken(trackAssociationToken_, match);
1102  auto const &ttac = *(match.product());
1103 
1104  if (debug_) {
1105  std::cout << "Trajectories\t : " << trajColl.size() << std::endl;
1106  std::cout << "recoTracks \t : " << trackColl.size() << std::endl;
1107  std::cout << "Map entries \t : " << ttac.size() << std::endl;
1108  }
1109 
1110  // Loop over map entries
1111  for (TrajTrackAssociationCollection::const_iterator it = ttac.begin(); it != ttac.end(); ++it) {
1112  const edm::Ref<std::vector<Trajectory>> traj_iterator = it->key;
1113  // Trajectory Map, extract Trajectory for this track
1114  reco::TrackRef trackref = it->val;
1115  tracks++;
1116 
1117  bool isBpixtrack = false, isFpixtrack = false, crossesPixVol = false;
1118 
1119  // find out whether track crosses pixel fiducial volume (for cosmic
1120  // tracks)
1121 
1122  double d0 = (*trackref).d0(), dz = (*trackref).dz();
1123 
1124  if (abs(d0) < 15 && abs(dz) < 50)
1125  crossesPixVol = true;
1126 
1127  const std::vector<TrajectoryMeasurement> &tmeasColl = traj_iterator->measurements();
1128  std::vector<TrajectoryMeasurement>::const_iterator tmeasIt;
1129  // loop on measurements to find out whether there are bpix and/or fpix
1130  // hits
1131  for (tmeasIt = tmeasColl.begin(); tmeasIt != tmeasColl.end(); tmeasIt++) {
1132  if (!tmeasIt->updatedState().isValid())
1133  continue;
1134  TransientTrackingRecHit::ConstRecHitPointer testhit = tmeasIt->recHit();
1135  if (!testhit->isValid() || testhit->geographicalId().det() != DetId::Tracker)
1136  continue;
1137  uint testSubDetID = (testhit->geographicalId().subdetId());
1138  if (testSubDetID == PixelSubdetector::PixelBarrel)
1139  isBpixtrack = true;
1140  if (testSubDetID == PixelSubdetector::PixelEndcap)
1141  isFpixtrack = true;
1142  } // end loop on measurements
1143  if (isBpixtrack) {
1144  bpixtracks++;
1145  if (debug_)
1146  std::cout << "bpixtrack\n";
1147  }
1148  if (isFpixtrack) {
1149  fpixtracks++;
1150  if (debug_)
1151  std::cout << "fpixtrack\n";
1152  }
1153  if (isBpixtrack || isFpixtrack) {
1154  pixeltracks++;
1155 
1156  if (crossesPixVol)
1157  meNofTracksInPixVol_->Fill(0, 1);
1158 
1159  const std::vector<TrajectoryMeasurement> &tmeasColl = traj_iterator->measurements();
1160  for (std::vector<TrajectoryMeasurement>::const_iterator tmeasIt = tmeasColl.begin(); tmeasIt != tmeasColl.end();
1161  tmeasIt++) {
1162  if (!tmeasIt->updatedState().isValid())
1163  continue;
1164 
1165  TrajectoryStateOnSurface tsos = tsoscomb(tmeasIt->forwardPredictedState(), tmeasIt->backwardPredictedState());
1166  if (!tsos.isValid())
1167  continue; // Happens rarely, due to singular matrix or similar
1168 
1170  if (!hit->isValid() || hit->geographicalId().det() != DetId::Tracker) {
1171  continue;
1172  } else {
1173  // //residual
1174  const DetId &hit_detId = hit->geographicalId();
1175  // uint IntRawDetID = (hit_detId.rawId());
1176  uint IntSubDetID = (hit_detId.subdetId());
1177 
1178  if (IntSubDetID == 0)
1179  continue; // don't look at SiStrip hits!
1180 
1181  // get the enclosed persistent hit
1182  const TrackingRecHit *persistentHit = hit->hit();
1183  // check if it's not null, and if it's a valid pixel hit
1184  if ((persistentHit != nullptr) && (typeid(*persistentHit) == typeid(SiPixelRecHit))) {
1185  // tell the C++ compiler that the hit is a pixel hit
1186  const SiPixelRecHit *pixhit = static_cast<const SiPixelRecHit *>(hit->hit());
1187  // Hit probability:
1188  float hit_prob = -1.;
1189  if (pixhit->hasFilledProb()) {
1190  hit_prob = pixhit->clusterProbability(0);
1191  // std::cout<<"HITPROB= "<<hit_prob<<std::endl;
1192  if (hit_prob < pow(10., -15.))
1193  NLowProb++;
1194  NTotal++;
1195  if (NTotal > 0)
1196  meHitProbability->Fill(float(NLowProb / NTotal));
1197  }
1198 
1199  // get the edm::Ref to the cluster
1200  edm::Ref<edmNew::DetSetVector<SiPixelCluster>, SiPixelCluster> const &clust = (*pixhit).cluster();
1201 
1202  // check if the ref is not null
1203  if (clust.isNonnull()) {
1204  // define tracker and pixel geometry and topology
1205  const TrackerGeometry &theTracker(*theTrackerGeometry);
1206  const PixelGeomDetUnit *theGeomDet =
1207  static_cast<const PixelGeomDetUnit *>(theTracker.idToDet(hit_detId));
1208 
1209  // test if PixelGeomDetUnit exists
1210  if (theGeomDet == nullptr) {
1211  if (debug_)
1212  std::cout << "NO THEGEOMDET\n";
1213  continue;
1214  }
1215 
1216  const PixelTopology *topol = &(theGeomDet->specificTopology());
1217  // fill histograms for clusters on tracks
1218  // correct SiPixelTrackResidualModule
1219  std::map<uint32_t, SiPixelTrackResidualModule *>::iterator pxd =
1220  theSiPixelStructure.find((*hit).geographicalId().rawId());
1221 
1222  // CHARGE CORRECTION (for track impact angle)
1223  // calculate alpha and beta from cluster position
1225  LocalVector localDir = ltp.momentum() / ltp.momentum().mag();
1226 
1227  float clust_alpha = atan2(localDir.z(), localDir.x());
1228  float clust_beta = atan2(localDir.z(), localDir.y());
1229  double corrCharge = clust->charge() *
1230  sqrt(1.0 / (1.0 / pow(tan(clust_alpha), 2) + 1.0 / pow(tan(clust_beta), 2) + 1.0)) /
1231  1000.;
1232 
1233  if (pxd != theSiPixelStructure.end())
1234  (*pxd).second->fill(
1235  (*clust), true, corrCharge, reducedSet, modOn, ladOn, layOn, phiOn, bladeOn, diskOn, ringOn);
1236 
1237  trackclusters++;
1238  // CORR CHARGE
1239  meClChargeOnTrack_all->Fill(corrCharge);
1240  meClSizeOnTrack_all->Fill((*clust).size());
1241  meClSizeXOnTrack_all->Fill((*clust).sizeX());
1242  meClSizeYOnTrack_all->Fill((*clust).sizeY());
1243  clusterSet.insert(*clust);
1244 
1245  // find cluster global position (rphi, z)
1246  // get cluster center of gravity (of charge)
1247  float xcenter = clust->x();
1248  float ycenter = clust->y();
1249  // get the cluster position in local coordinates (cm)
1250  LocalPoint clustlp = topol->localPosition(MeasurementPoint(xcenter, ycenter));
1251  // get the cluster position in global coordinates (cm)
1252  GlobalPoint clustgp = theGeomDet->surface().toGlobal(clustlp);
1253 
1254  // find location of hit (barrel or endcap, same for cluster)
1255  bool barrel =
1256  DetId((*hit).geographicalId()).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
1257  bool endcap =
1258  DetId((*hit).geographicalId()).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
1259  if (barrel) {
1260  barreltrackclusters++;
1261 
1262  DetId detId = (*hit).geographicalId();
1263  if (detId >= 302055684 && detId <= 352477708) {
1264  getrococcupancy(detId, diginp, tTopo, meZeroRocLadvsModOnTrackBarrel);
1265  }
1266 
1267  // CORR CHARGE
1268  meClChargeOnTrack_bpix->Fill(corrCharge);
1269  meClSizeOnTrack_bpix->Fill((*clust).size());
1270  meClSizeXOnTrack_bpix->Fill((*clust).sizeX());
1271  meClSizeYOnTrack_bpix->Fill((*clust).sizeY());
1272  int DBlayer;
1273  DBlayer = PixelBarrelName(DetId((*hit).geographicalId()), tTopo, isUpgrade).layerName();
1274  float phi = clustgp.phi();
1275  float z = clustgp.z();
1276 
1277  PixelBarrelName pbn(DetId((*hit).geographicalId()), tTopo, isUpgrade);
1278  int ladder = pbn.ladderName();
1279  int module = pbn.moduleName();
1280 
1281  PixelBarrelName::Shell sh = pbn.shell(); // enum
1282  int ladderSigned = ladder;
1283  int moduleSigned = module;
1284  // Shell { mO = 1, mI = 2 , pO =3 , pI =4 };
1285  int shell = int(sh);
1286  // change the module sign for z<0
1287  if (shell == 1 || shell == 2) {
1288  moduleSigned = -module;
1289  }
1290  // change ladeer sign for Outer )x<0)
1291  if (shell == 1 || shell == 3) {
1292  ladderSigned = -ladder;
1293  }
1294 
1295  for (int i = 0; i < noOfLayers; i++) {
1296  if (DBlayer == i + 1) {
1297  meClPosLayersOnTrack.at(i)->Fill(z, phi);
1298  meClPosLayersLadVsModOnTrack.at(i)->Fill(moduleSigned, ladderSigned);
1299  meClChargeOnTrack_layers.at(i)->Fill(corrCharge);
1300  meClSizeOnTrack_layers.at(i)->Fill((*clust).size());
1301  meClSizeXOnTrack_layers.at(i)->Fill((*clust).sizeX());
1302  meClSizeYOnTrack_layers.at(i)->Fill((*clust).sizeY());
1304  }
1305  }
1306  }
1307  if (endcap) {
1308  endcaptrackclusters++;
1309  // CORR CHARGE
1310  meClChargeOnTrack_fpix->Fill(corrCharge);
1311  meClSizeOnTrack_fpix->Fill((*clust).size());
1312  meClSizeXOnTrack_fpix->Fill((*clust).sizeX());
1313  meClSizeYOnTrack_fpix->Fill((*clust).sizeY());
1314  int DBdisk = 0;
1315  DBdisk = PixelEndcapName(DetId((*hit).geographicalId()), tTopo, isUpgrade).diskName();
1316  float x = clustgp.x();
1317  float y = clustgp.y();
1318  float z = clustgp.z();
1319  float phi = clustgp.phi();
1320 
1321  float xclust = clust->x();
1322  float yclust = clust->y();
1323 
1324  getepixrococcupancyontrk(tTopo, hit, xclust, yclust, z, meRocBladevsDiskEndcapOnTrk);
1325 
1326  if (z > 0) {
1327  for (int i = 0; i < noOfDisks; i++) {
1328  if (DBdisk == i + 1) {
1329  meClPosDiskspzOnTrack.at(i)->Fill(x, y);
1330  meClChargeOnTrack_diskps.at(i)->Fill(corrCharge);
1331  meClSizeOnTrack_diskps.at(i)->Fill((*clust).size());
1332  meClSizeXOnTrack_diskps.at(i)->Fill((*clust).sizeX());
1333  meClSizeYOnTrack_diskps.at(i)->Fill((*clust).sizeY());
1335  }
1336  }
1337  } else {
1338  for (int i = 0; i < noOfDisks; i++) {
1339  if (DBdisk == i + 1) {
1340  meClPosDisksmzOnTrack.at(i)->Fill(x, y);
1341  meClChargeOnTrack_diskms.at(i)->Fill(corrCharge);
1342  meClSizeOnTrack_diskms.at(i)->Fill((*clust).size());
1343  meClSizeXOnTrack_diskms.at(i)->Fill((*clust).sizeX());
1344  meClSizeYOnTrack_diskms.at(i)->Fill((*clust).sizeY());
1346  }
1347  }
1348  }
1349  }
1350 
1351  } // end if (cluster exists)
1352 
1353  } // end if (persistent hit exists and is pixel hit)
1354 
1355  } // end of else
1356 
1357  } // end for (all traj measurements of pixeltrack)
1358  } // end if (is pixeltrack)
1359  else {
1360  if (debug_)
1361  std::cout << "no pixeltrack:\n";
1362  if (crossesPixVol)
1363  meNofTracksInPixVol_->Fill(1, 1);
1364  }
1365 
1366  } // end loop on map entries
1367 
1368  } // end valid trajectory:
1369 
1370  // find clusters that are NOT on track
1371  // edmNew::DetSet<SiPixelCluster>::const_iterator di;
1372  if (debug_)
1373  std::cout << "clusters not on track: (size " << clustColl.size() << ") ";
1374 
1375  for (TrackerGeometry::DetContainer::const_iterator it = TG->dets().begin(); it != TG->dets().end(); it++) {
1376  // if(dynamic_cast<PixelGeomDetUnit const *>((*it))!=0){
1377  DetId detId = (*it)->geographicalId();
1378  if (detId >= 302055684 && detId <= 352477708) { // make sure it's a Pixel module WITHOUT using
1379  // dynamic_cast!
1380  int nofclOnTrack = 0, nofclOffTrack = 0;
1381  float z = 0.;
1382  edmNew::DetSetVector<SiPixelCluster>::const_iterator isearch = clustColl.find(detId);
1383  if (isearch != clustColl.end()) { // Not an empty iterator
1385  for (di = isearch->begin(); di != isearch->end(); di++) {
1386  unsigned int temp = clusterSet.size();
1387  clusterSet.insert(*di);
1388  // check if cluster is off track
1389  if (clusterSet.size() > temp) {
1390  otherclusters++;
1391  nofclOffTrack++;
1392  // fill histograms for clusters off tracks
1393  // correct SiPixelTrackResidualModule
1394  bool barrel = DetId(detId).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
1395  if (barrel) {
1396  getrococcupancy(detId, diginp, tTopo, meZeroRocLadvsModOffTrackBarrel);
1397  }
1398 
1399  std::map<uint32_t, SiPixelTrackResidualModule *>::iterator pxd =
1400  theSiPixelStructure.find((*it)->geographicalId().rawId());
1401 
1402  if (pxd != theSiPixelStructure.end())
1403  (*pxd).second->fill((*di), false, -1., reducedSet, modOn, ladOn, layOn, phiOn, bladeOn, diskOn, ringOn);
1404 
1405  meClSizeNotOnTrack_all->Fill((*di).size());
1406  meClSizeXNotOnTrack_all->Fill((*di).sizeX());
1407  meClSizeYNotOnTrack_all->Fill((*di).sizeY());
1408  meClChargeNotOnTrack_all->Fill((*di).charge() / 1000);
1409 
1411  // find cluster global position (rphi, z) get cluster
1412  // define tracker and pixel geometry and topology
1413  const TrackerGeometry &theTracker(*theTrackerGeometry);
1414  const PixelGeomDetUnit *theGeomDet = static_cast<const PixelGeomDetUnit *>(theTracker.idToDet(detId));
1415  // test if PixelGeomDetUnit exists
1416  if (theGeomDet == nullptr) {
1417  if (debug_)
1418  std::cout << "NO THEGEOMDET\n";
1419  continue;
1420  }
1421  const PixelTopology *topol = &(theGeomDet->specificTopology());
1422 
1423  // center of gravity (of charge)
1424  float xcenter = di->x();
1425  float ycenter = di->y();
1426  // get the cluster position in local coordinates (cm)
1427  LocalPoint clustlp = topol->localPosition(MeasurementPoint(xcenter, ycenter));
1428  // get the cluster position in global coordinates (cm)
1429  GlobalPoint clustgp = theGeomDet->surface().toGlobal(clustlp);
1430 
1432 
1433  // barrel
1434  if (DetId(detId).subdetId() == 1) {
1435  meClSizeNotOnTrack_bpix->Fill((*di).size());
1436  meClSizeXNotOnTrack_bpix->Fill((*di).sizeX());
1437  meClSizeYNotOnTrack_bpix->Fill((*di).sizeY());
1438  meClChargeNotOnTrack_bpix->Fill((*di).charge() / 1000);
1439  barrelotherclusters++;
1440  int DBlayer = PixelBarrelName(DetId(detId), tTopo, isUpgrade).layerName();
1441  float phi = clustgp.phi();
1442  // float r = clustgp.perp();
1443  z = clustgp.z();
1444  for (int i = 0; i < noOfLayers; i++) {
1445  if (DBlayer == i + 1) {
1446  meClPosLayersNotOnTrack.at(i)->Fill(z, phi);
1447  meClSizeNotOnTrack_layers.at(i)->Fill((*di).size());
1448  meClSizeXNotOnTrack_layers.at(i)->Fill((*di).sizeX());
1449  meClSizeYNotOnTrack_layers.at(i)->Fill((*di).sizeY());
1450  meClChargeNotOnTrack_layers.at(i)->Fill((*di).charge() / 1000);
1451  }
1452  }
1453  }
1454  // endcap
1455  if (DetId(detId).subdetId() == 2) {
1456  meClSizeNotOnTrack_fpix->Fill((*di).size());
1457  meClSizeXNotOnTrack_fpix->Fill((*di).sizeX());
1458  meClSizeYNotOnTrack_fpix->Fill((*di).sizeY());
1459  meClChargeNotOnTrack_fpix->Fill((*di).charge() / 1000);
1460  endcapotherclusters++;
1461  int DBdisk = PixelEndcapName(DetId(detId), tTopo, isUpgrade).diskName();
1462  float x = clustgp.x();
1463  float y = clustgp.y();
1464  z = clustgp.z();
1465 
1466  getepixrococcupancyofftrk(DetId(detId), tTopo, xcenter, ycenter, z, meRocBladevsDiskEndcapOffTrk);
1467 
1468  if (z > 0) {
1469  for (int i = 0; i < noOfDisks; i++) {
1470  if (DBdisk == i + 1) {
1471  meClPosDiskspzNotOnTrack.at(i)->Fill(x, y);
1472  meClSizeNotOnTrack_diskps.at(i)->Fill((*di).size());
1473  meClSizeXNotOnTrack_diskps.at(i)->Fill((*di).sizeX());
1474  meClSizeYNotOnTrack_diskps.at(i)->Fill((*di).sizeY());
1475  meClChargeNotOnTrack_diskps.at(i)->Fill((*di).charge() / 1000);
1476  }
1477  }
1478  } else {
1479  for (int i = 0; i < noOfDisks; i++) {
1480  if (DBdisk == i + 1) {
1481  meClPosDisksmzNotOnTrack.at(i)->Fill(x, y);
1482  meClSizeNotOnTrack_diskms.at(i)->Fill((*di).size());
1483  meClSizeXNotOnTrack_diskms.at(i)->Fill((*di).sizeX());
1484  meClSizeYNotOnTrack_diskms.at(i)->Fill((*di).sizeY());
1485  meClChargeNotOnTrack_diskms.at(i)->Fill((*di).charge() / 1000);
1486  }
1487  }
1488  }
1489  }
1490  } // end "if cluster off track"
1491  else {
1492  nofclOnTrack++;
1493  if (z == 0) {
1494  // find cluster global position (rphi, z) get cluster
1495  // define tracker and pixel geometry and topology
1496  const TrackerGeometry &theTracker(*theTrackerGeometry);
1497  const PixelGeomDetUnit *theGeomDet = static_cast<const PixelGeomDetUnit *>(theTracker.idToDet(detId));
1498  // test if PixelGeomDetUnit exists
1499  if (theGeomDet == nullptr) {
1500  if (debug_)
1501  std::cout << "NO THEGEOMDET\n";
1502  continue;
1503  }
1504  const PixelTopology *topol = &(theGeomDet->specificTopology());
1505  // center of gravity (of charge)
1506  float xcenter = di->x();
1507  float ycenter = di->y();
1508  // get the cluster position in local coordinates (cm)
1509  LocalPoint clustlp = topol->localPosition(MeasurementPoint(xcenter, ycenter));
1510  // get the cluster position in global coordinates (cm)
1511  GlobalPoint clustgp = theGeomDet->surface().toGlobal(clustlp);
1512  z = clustgp.z();
1513  }
1514  }
1515  }
1516  }
1517  //++ fill the number of clusters on a module
1518  std::map<uint32_t, SiPixelTrackResidualModule *>::iterator pxd =
1519  theSiPixelStructure.find((*it)->geographicalId().rawId());
1520  if (pxd != theSiPixelStructure.end())
1521  (*pxd).second->nfill(
1522  nofclOnTrack, nofclOffTrack, reducedSet, modOn, ladOn, layOn, phiOn, bladeOn, diskOn, ringOn);
1523  if (nofclOnTrack != 0)
1524  meNClustersOnTrack_all->Fill(nofclOnTrack);
1525  if (nofclOffTrack != 0)
1526  meNClustersNotOnTrack_all->Fill(nofclOffTrack);
1527  // barrel
1528  if (DetId(detId).subdetId() == 1) {
1529  if (nofclOnTrack != 0)
1530  meNClustersOnTrack_bpix->Fill(nofclOnTrack);
1531  if (nofclOffTrack != 0)
1532  meNClustersNotOnTrack_bpix->Fill(nofclOffTrack);
1533  int DBlayer = PixelBarrelName(DetId(detId), tTopo, isUpgrade).layerName();
1534  for (int i = 0; i < noOfLayers; i++) {
1535  if (DBlayer == i + 1) {
1536  if (nofclOnTrack != 0)
1537  meNClustersOnTrack_layers.at(i)->Fill(nofclOnTrack);
1538  if (nofclOffTrack != 0)
1539  meNClustersNotOnTrack_layers.at(i)->Fill(nofclOffTrack);
1540  }
1541  }
1542  } // end barrel
1543  // endcap
1544  if (DetId(detId).subdetId() == 2) {
1545  int DBdisk = PixelEndcapName(DetId(detId)).diskName();
1546  // z = clustgp.z();
1547  if (nofclOnTrack != 0)
1548  meNClustersOnTrack_fpix->Fill(nofclOnTrack);
1549  if (nofclOffTrack != 0)
1550  meNClustersNotOnTrack_fpix->Fill(nofclOffTrack);
1551  if (z > 0) {
1552  for (int i = 0; i < noOfDisks; i++) {
1553  if (DBdisk == i + 1) {
1554  if (nofclOnTrack != 0)
1555  meNClustersOnTrack_diskps.at(i)->Fill(nofclOnTrack);
1556  if (nofclOffTrack != 0)
1557  meNClustersNotOnTrack_diskps.at(i)->Fill(nofclOffTrack);
1558  }
1559  }
1560  }
1561  if (z < 0) {
1562  for (int i = 0; i < noOfDisks; i++) {
1563  if (DBdisk == i + 1) {
1564  if (nofclOnTrack != 0)
1565  meNClustersOnTrack_diskms.at(i)->Fill(nofclOnTrack);
1566  if (nofclOffTrack != 0)
1567  meNClustersNotOnTrack_diskms.at(i)->Fill(nofclOffTrack);
1568  }
1569  }
1570  }
1571  }
1572 
1573  } // end if it's a Pixel module
1574  } // end for loop over tracker detector geometry modules
1575 
1576  if (trackclusters > 0)
1577  (meNofClustersOnTrack_)->Fill(0, trackclusters);
1578  if (barreltrackclusters > 0)
1579  (meNofClustersOnTrack_)->Fill(1, barreltrackclusters);
1580  if (endcaptrackclusters > 0)
1581  (meNofClustersOnTrack_)->Fill(2, endcaptrackclusters);
1582  if (otherclusters > 0)
1583  (meNofClustersNotOnTrack_)->Fill(0, otherclusters);
1584  if (barrelotherclusters > 0)
1585  (meNofClustersNotOnTrack_)->Fill(1, barrelotherclusters);
1586  if (endcapotherclusters > 0)
1587  (meNofClustersNotOnTrack_)->Fill(2, endcapotherclusters);
1588  if (tracks > 0)
1589  (meNofTracks_)->Fill(0, tracks);
1590  if (pixeltracks > 0)
1591  (meNofTracks_)->Fill(1, pixeltracks);
1592  if (bpixtracks > 0)
1593  (meNofTracks_)->Fill(2, bpixtracks);
1594  if (fpixtracks > 0)
1595  (meNofTracks_)->Fill(3, fpixtracks);
1596 }
1597 
1599  const edm::DetSetVector<PixelDigi> &diginp,
1600  const TrackerTopology *tTopo,
1601  std::vector<MonitorElement *> meinput) {
1602  edm::DetSetVector<PixelDigi>::const_iterator ipxsearch = diginp.find(detId);
1603  if (ipxsearch != diginp.end()) {
1604  // Look at digis now
1606  for (pxdi = ipxsearch->begin(); pxdi != ipxsearch->end(); pxdi++) {
1607  bool isHalfModule = PixelBarrelName(DetId(detId), tTopo, isUpgrade).isHalfModule();
1608  int DBlayer = PixelBarrelName(DetId(detId), tTopo, isUpgrade).layerName();
1609  int DBmodule = PixelBarrelName(DetId(detId), tTopo, isUpgrade).moduleName();
1610  int DBladder = PixelBarrelName(DetId(detId), tTopo, isUpgrade).ladderName();
1611  int DBshell = PixelBarrelName(DetId(detId), tTopo, isUpgrade).shell();
1612 
1613  // add sign to the modules
1614  if (DBshell == 1 || DBshell == 2) {
1615  DBmodule = -DBmodule;
1616  }
1617  if (DBshell == 1 || DBshell == 3) {
1618  DBladder = -DBladder;
1619  }
1620 
1621  int col = pxdi->column();
1622  int row = pxdi->row();
1623 
1624  float modsign = (float)DBmodule / (abs((float)DBmodule));
1625  float ladsign = (float)DBladder / (abs((float)DBladder));
1626  float rocx = ((float)col / (52. * 8.)) * modsign + ((float)DBmodule - (modsign)*0.5);
1627  float rocy = ((float)row / (80. * 2.)) * ladsign + ((float)DBladder - (ladsign)*0.5);
1628 
1629  // do the flip where need
1630  bool flip = false;
1631  if ((DBladder % 2 == 0) && (!isHalfModule)) {
1632  flip = true;
1633  }
1634  if ((flip) && (DBladder > 0)) {
1635  if ((((float)DBladder - (ladsign)*0.5) <= rocy) && (rocy < (float)DBladder)) {
1636  rocy = rocy + ladsign * 0.5;
1637  } else if ((((float)DBladder) <= rocy) && (rocy < ((float)DBladder + (ladsign)*0.5))) {
1638  rocy = rocy - ladsign * 0.5;
1639  }
1640  }
1641 
1642  // tweak border effect for negative modules/ladders
1643  if (modsign < 0) {
1644  rocx = rocx - 0.0001;
1645  }
1646  if (ladsign < 0) {
1647  rocy = rocy - 0.0001;
1648  } else {
1649  rocy = rocy + 0.0001;
1650  }
1651  if (abs(DBladder) == 1) {
1652  rocy = rocy + ladsign * 0.5;
1653  } // take care of the half module
1654 
1655  if (DBlayer == 1) {
1656  meinput.at(0)->Fill(rocx, rocy);
1657  }
1658  if (DBlayer == 2) {
1659  meinput.at(1)->Fill(rocx, rocy);
1660  }
1661  if (DBlayer == 3) {
1662  meinput.at(2)->Fill(rocx, rocy);
1663  }
1664  } // end of looping over pxdi
1665  }
1666 }
1667 
1669  double y1,
1670  double z1,
1671  double x2,
1672  double y2,
1673  double z2,
1674  double x3,
1675  double y3,
1676  double z3,
1677  double ptsig,
1678  double &dca2,
1679  double &dz2,
1680  double kap) {
1681  // Define some constants
1682  using namespace std;
1683 
1684  // Curvature kap from global Track
1685 
1686  // inverse of the curvature is the radius in the transverse plane
1687  double rho = 1 / kap;
1688  // Check that the hits are in the correct layers
1689  double r1 = sqrt(x1 * x1 + y1 * y1);
1690  double r3 = sqrt(x3 * x3 + y3 * y3);
1691 
1692  if (r3 - r1 < 2.0)
1693  cout << "warn r1 = " << r1 << ", r3 = " << r3 << endl;
1694 
1695  // Calculate the centre of the helix in xy-projection with radius rho from the
1696  // track.
1697  // start with a line (sekante) connecting the two points (x1,y1) and (x3,y3)
1698  // vec_L = vec_x3-vec_x1 with L being the length of that vector.
1699  double L = sqrt((x3 - x1) * (x3 - x1) + (y3 - y1) * (y3 - y1));
1700  // lam is the line from the middel point of vec_q towards the center of the
1701  // circle X0,Y0
1702  // we already have kap and rho = 1/kap
1703  double lam = sqrt(rho * rho - L * L / 4);
1704 
1705  // There are two solutions, the sign of kap gives the information
1706  // which of them is correct.
1707  //
1708  if (kap > 0)
1709  lam = -lam;
1710 
1711  //
1712  // ( X0, Y0 ) is the centre of the circle that describes the helix in
1713  // xy-projection.
1714  //
1715  double x0 = 0.5 * (x1 + x3) + lam / L * (-y1 + y3);
1716  double y0 = 0.5 * (y1 + y3) + lam / L * (x1 - x3);
1717 
1718  // Calculate the dipangle in z direction (needed later for z residual) :
1719  // Starting from the heliz equation whihc has to hold for both points z1,z3
1720  double num = (y3 - y0) * (x1 - x0) - (x3 - x0) * (y1 - y0);
1721  double den = (x1 - x0) * (x3 - x0) + (y1 - y0) * (y3 - y0);
1722  double tandip = kap * (z3 - z1) / atan(num / den);
1723 
1724  // angle from first hit to dca point:
1725  //
1726  double dphi = atan(((x1 - x0) * y0 - (y1 - y0) * x0) / ((x1 - x0) * x0 + (y1 - y0) * y0));
1727  // z position of the track based on the middle of the circle
1728  // track equation for the z component
1729  double uz0 = z1 + tandip * dphi * rho;
1730 
1732  // RESIDUAL IN R-PHI
1734  // Calculate distance dca2 from point (x2,y2) to the circle which is given by
1735  // the distance of the point to the middlepoint dcM = sqrt((x0-x2)^2+(y0-y2))
1736  // and rho dca = rho +- dcM
1737  if (kap > 0)
1738  dca2 = rho - sqrt((x0 - x2) * (x0 - x2) + (y0 - y2) * (y0 - y2));
1739  else
1740  dca2 = rho + sqrt((-x0 + x2) * (-x0 + x2) + (-y0 + y2) * (-y0 + y2));
1741 
1743  // RESIDUAL IN Z
1745  double xx = 0;
1746  double yy = 0;
1747  // sign of kappa determines the calculation
1748  // xx and yy are the new coordinates starting from x2, y2 that are on the
1749  // track itself vec_X2+-dca2*vec(X0-X2)/|(X0-X2)|
1750  if (kap < 0) {
1751  xx = x2 + (dca2 * ((x0 - x2)) / sqrt((x0 - x2) * (x0 - x2) + (y0 - y2) * (y0 - y2)));
1752  yy = y2 + (dca2 * ((y0 - y2)) / sqrt((x0 - x2) * (x0 - x2) + (y0 - y2) * (y0 - y2)));
1753  } else if (kap >= 0) {
1754  xx = x2 - (dca2 * ((x0 - x2)) / sqrt((x0 - x2) * (x0 - x2) + (y0 - y2) * (y0 - y2)));
1755  yy = y2 - (dca2 * ((y0 - y2)) / sqrt((x0 - x2) * (x0 - x2) + (y0 - y2) * (y0 - y2)));
1756  }
1757 
1758  // to get residual in z start with calculating the new uz2 position if one has
1759  // moved to xx, yy on the track. First calculate the change in phi2 with
1760  // respect to the center X0, Y0
1761  double dphi2 = atan(((xx - x0) * y0 - (yy - y0) * x0) / ((xx - x0) * x0 + (yy - y0) * y0));
1762  // Solve track equation for this new z depending on the dip angle of the track
1763  // (see above calculated based on X1, X3 and X0, use uz0 as reference point
1764  // again.
1765  double uz2 = uz0 - dphi2 * tandip * rho;
1766 
1767  // subtract new z position from the old one
1768  dz2 = z2 - uz2;
1769 
1770  // if we are interested in the arclength this is unsigned though
1771  // double cosphi2 = (x2*xx+y2*yy)/(sqrt(x2*x2+y2*y2)*sqrt(xx*xx+yy*yy));
1772  // double arcdca2=sqrt(x2*x2+y2*y2)*acos(cosphi2);
1773 }
1774 
1777  float xclust,
1778  float yclust,
1779  float z,
1780  MonitorElement *meinput) {
1781  int pxfpanel = tTopo->pxfPanel((*hit).geographicalId());
1782  int pxfmodule = tTopo->pxfModule((*hit).geographicalId());
1783  int pxfdisk = tTopo->pxfDisk((*hit).geographicalId());
1784  int pxfblade_off = tTopo->pxfBlade((*hit).geographicalId());
1785 
1786  // translate to online conventions
1787  // each EPIX disk is split in 2 half-disk - each one consists of 12 blades
1788  // in offline: blades num 0->24; here translate numbering to online convetion
1789  // positive blades pointing to beam; negative pointing away
1790  // each blade has two panels: each consisting of an array of ROC plaquettes
1791  // front (rear) pannel: 3 (4) plaquettes
1792  // number of ROCs in each plaquette depends on the position on the panel
1793  // each ROC has 80x52 pixel cells
1794  if (z < 0.) {
1795  pxfdisk = -1. * pxfdisk;
1796  }
1797  int pxfblade = -99;
1798  if (pxfblade_off <= 6 && pxfblade_off >= 1) {
1799  pxfblade = 7 - pxfblade_off;
1800  } else if (pxfblade_off <= 18 && pxfblade_off >= 7) {
1801  pxfblade = 6 - pxfblade_off;
1802  } else if (pxfblade_off <= 24 && pxfblade_off >= 19) {
1803  pxfblade = 31 - pxfblade_off;
1804  }
1805 
1806  int clu_sdpx = ((pxfdisk > 0) ? 1 : -1) * (2 * (abs(pxfdisk) - 1) + pxfpanel);
1807  int binselx = (pxfpanel == 1 && (pxfmodule == 1 || pxfmodule == 4))
1808  ? (pxfmodule == 1)
1809  : ((pxfpanel == 1 && xclust < 80.0) || (pxfpanel == 2 && xclust >= 80.0));
1810  int nperpan = 2 * pxfmodule + pxfpanel - 1 + binselx;
1811  int clu_roc_binx =
1812  ((pxfdisk > 0) ? nperpan : 9 - nperpan) + (clu_sdpx + 4) * 8 - 2 * ((abs(pxfdisk) == 1) ? pxfdisk : 0);
1813 
1814  int clu_roc_biny = -99.;
1815  int nrocly = pxfmodule + pxfpanel;
1816  for (int i = 0; i < nrocly; i++) {
1817  int j = (pxfdisk < 0) ? i : nrocly - 1 - i;
1818  if (yclust >= (j * 52.0) && yclust < ((j + 1) * 52.0))
1819  clu_roc_biny = 6 - nrocly + 2 * i + ((pxfblade > 0) ? pxfblade - 1 : pxfblade + 12) * 12 + 1;
1820  }
1821  if (pxfblade > 0) {
1822  clu_roc_biny = clu_roc_biny + 144;
1823  }
1824 
1825  meinput->setBinContent(clu_roc_binx, clu_roc_biny, meinput->getBinContent(clu_roc_binx, clu_roc_biny) + 1);
1826  meinput->setBinContent(clu_roc_binx, clu_roc_biny + 1, meinput->getBinContent(clu_roc_binx, clu_roc_biny + 1) + 1);
1827 }
1828 
1830  DetId detId, const TrackerTopology *tTopo, float xclust, float yclust, float z, MonitorElement *meinput) {
1831  PXFDetId pxfid = PXFDetId(detId);
1832 
1833  // int pxfside = PixelEndcapName(detId,tTopo,isUpgrade).halfCylinder();
1834  int pxfpanel = pxfid.panel();
1835  int pxfmodule = pxfid.module();
1836  int pxfdisk = pxfid.disk();
1837  int pxfblade_off = pxfid.blade();
1838 
1839  if (z < 0.) {
1840  pxfdisk = -1. * pxfdisk;
1841  }
1842 
1843  int pxfblade = -99;
1844  if (pxfblade_off <= 6 && pxfblade_off >= 1) {
1845  pxfblade = 7 - pxfblade_off;
1846  } else if (pxfblade_off <= 18 && pxfblade_off >= 7) {
1847  pxfblade = 6 - pxfblade_off;
1848  } else if (pxfblade_off <= 24 && pxfblade_off >= 19) {
1849  pxfblade = 31 - pxfblade_off;
1850  }
1851 
1852  int clu_sdpx = ((pxfdisk > 0) ? 1 : -1) * (2 * (abs(pxfdisk) - 1) + pxfpanel);
1853  int binselx = (pxfpanel == 1 && (pxfmodule == 1 || pxfmodule == 4))
1854  ? (pxfmodule == 1)
1855  : ((pxfpanel == 1 && xclust < 80.0) || (pxfpanel == 2 && xclust >= 80.0));
1856  int nperpan = 2 * pxfmodule + pxfpanel - 1 + binselx;
1857  int clu_roc_binx =
1858  ((pxfdisk > 0) ? nperpan : 9 - nperpan) + (clu_sdpx + 4) * 8 - 2 * ((abs(pxfdisk) == 1) ? pxfdisk : 0);
1859 
1860  int clu_roc_biny = -99.;
1861  int nrocly = pxfmodule + pxfpanel;
1862  for (int i = 0; i < nrocly; i++) {
1863  int j = (pxfdisk < 0) ? i : nrocly - 1 - i;
1864  if (yclust >= (j * 52.0) && yclust < ((j + 1) * 52.0))
1865  clu_roc_biny = 6 - nrocly + 2 * i + ((pxfblade > 0) ? pxfblade - 1 : pxfblade + 12) * 12 + 1;
1866  }
1867  if (pxfblade > 0) {
1868  clu_roc_biny = clu_roc_biny + 144;
1869  }
1870 
1871  meinput->setBinContent(clu_roc_binx, clu_roc_biny, meinput->getBinContent(clu_roc_binx, clu_roc_biny) + 1);
1872  meinput->setBinContent(clu_roc_binx, clu_roc_biny + 1, meinput->getBinContent(clu_roc_binx, clu_roc_biny + 1) + 1);
1873 }
1874 
1875 DEFINE_FWK_MODULE(SiPixelTrackResidualSource); // define this as a plug-in
Vector3DBase< float, LocalTag >
TrackerGeometry::idToDet
const TrackerGeomDet * idToDet(DetId) const override
Definition: TrackerGeometry.cc:193
TrajectoryStateCombiner.h
SiPixelTrackResidualSource::meNClustersNotOnTrack_diskps
std::vector< MonitorElement * > meNClustersNotOnTrack_diskps
Definition: SiPixelTrackResidualSource.h:186
SummaryClient_cfi.labels
labels
Definition: SummaryClient_cfi.py:61
edm::ESHandle::product
T const * product() const
Definition: ESHandle.h:86
edm::DetSetVector< PixelDigi >
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Return an iterator to the first DetSet.
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T getUntrackedParameter(std::string const &, T const &) const
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Definition: SiPixelTrackResidualSource.h:129
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Definition: SiPixelTrackResidualSource.cc:1775
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Definition: AlignmentTracksFromVertexSelector_cfi.py:5
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Definition: SiPixelTrackResidualSource.h:214
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Definition: SiPixelTrackResidualSource.h:75
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Definition: SiPixelRecHit.h:104
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Definition: PV3DBase.h:61
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Definition: TrackerTopology.h:450
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Definition: LocalTrajectoryParameters.h:25
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Definition: InputTag.h:36
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Definition: DetId.h:17
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Definition: SiPixelTrackResidualSource.h:128
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const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:37
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Definition: TrajectoryStateOnSurface.h:16
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Definition: alignCSCRings.py:92
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Definition: PixelEndcapName.h:16
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Definition: SiPixelTrackResidualSource.h:121
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Definition: SiPixelTrackResidualSource.h:107
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Definition: SiPixelTrackResidualSource.h:114
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Definition: PixelGeomDetUnit.h:15
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Definition: SSEVec.h:19
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Definition: MonitorElement.h:290
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Definition: SiPixelTrackResidualSource.h:163
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Definition: Surface.h:79
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Definition: SiPixelTrackResidualSource.h:145
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Definition: SiPixelOfflineDQM_source_cff.py:51
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Definition: SiPixelTrackResidualSource.cc:48
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Definition: SiPixelTrackResidualSource.h:102
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Definition: TrackerGeometry.cc:173
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Definition: SiPixelTrackResidualSource.h:84
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Definition: Vector2DBase.h:8
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Definition: PXFDetId.h:15
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Definition: SiStripSpyUtilities.cc:124
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Definition: PixelTopology.h:10
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void triplets(double x1, double y1, double z1, double x2, double y2, double z2, double x3, double y3, double z3, double ptsig, double &dc, double &dz, double kap)
Definition: SiPixelTrackResidualSource.cc:1668
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Definition: SiPixelTrackResidualSource.h:166
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Definition: SiPixelTrackResidualSource.h:162
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Definition: SiPixelTrackResidualSource.h:150
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Definition: PixelBarrelName.h:49
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Definition: SiPixelTrackResidualSource.cc:823
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Definition: OwnVector.h:41
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constexpr int subdetId() const
get the contents of the subdetector field (not cast into any detector's numbering enum)
Definition: DetId.h:48
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Definition: SiPixelTrackResidualSource.h:165
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const LocalTrajectoryParameters & localParameters() const
Definition: TrajectoryStateOnSurface.h:73
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Definition: ALCARECOTkAlJpsiMuMu_cff.py:47
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Definition: testProducerWithPsetDescEmpty_cfi.py:30
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Definition: AssociationMap.h:274
MeasurementPoint
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Measurement points are two-dimensional by default.
Definition: MeasurementPoint.h:12
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Definition: Factorize.h:173
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Definition: SiPixelTrackResidualSource.h:122
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Definition: TrajectoryStateCombiner.h:13
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Definition: SiPixelTrackResidualSource.h:117
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Definition: HandleBase.h:72
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Definition: PXFDetId.h:38
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Definition: SiPixelTrackResidualSource.h:178
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Definition: SiPixelTrackResidualSource.h:78
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Definition: ParameterSet.h:47
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XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
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Definition: DetId.h:25
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Definition: SiPixelTrackResidualSource.h:215
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Definition: geometryCSVtoXML.py:19
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const uint32_t *__restrict__ const HitContainer *__restrict__ TkSoA *__restrict__ tracks
Definition: CAHitNtupletGeneratorKernelsImpl.h:176
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Definition: PixelBarrelName.h:40
SiPixelTrackResidualSource.h
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Definition: PXFDetId.h:44
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Definition: PV2DBase.h:44
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Definition: PXFDetId.h:35
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Definition: DetSetVector.h:102
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virtual const PixelTopology & specificTopology() const
Returns a reference to the pixel proxy topology.
Definition: PixelGeomDetUnit.cc:17
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bool isNonnull() const
Checks for non-null.
Definition: Ref.h:238
PV2DBase::x
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Definition: PV2DBase.h:43
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std::pair< typename Association::data_type::first_type, double > match(Reference key, Association association, bool bestMatchByMaxValue)
Generic matching function.
Definition: Utils.h:10
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std::vector< MonitorElement * > meNClustersOnTrack_diskms
Definition: SiPixelTrackResidualSource.h:181
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Definition: SiPixelTrackResidualSource.h:92
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MonitorElement * meClSizeXNotOnTrack_fpix
Definition: SiPixelTrackResidualSource.h:158
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std::vector< MonitorElement * > meClChargeOnTrack_diskms
Definition: SiPixelTrackResidualSource.h:131
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Definition: SiPixelTrackResidualSource.h:81
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T y() const
Definition: PV3DBase.h:60
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Definition: Tan.h:22
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std::vector< MonitorElement * > meClSizeXNotOnTrack_layers
Definition: SiPixelTrackResidualSource.h:159
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Definition: DetSetVector.h:264
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Definition: TrackingRecHit.h:25
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Definition: SiPixelTrackResidualSource.h:79
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Definition: SiPixelTrackResidualSource.h:177
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Definition: createfilelist.py:10
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Definition: GenABIO.cc:224
TrackerTopology::pxfModule
unsigned int pxfModule(const DetId &id) const
Definition: TrackerTopology.h:163
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MonitorElement * meNClustersNotOnTrack_fpix
Definition: SiPixelTrackResidualSource.h:184
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unsigned int pxfDisk(const DetId &id) const
Definition: TrackerTopology.h:446
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virtual void setBinLabel(int bin, const std::string &label, int axis=1)
set bin label for x, y or z axis (axis=1, 2, 3 respectively)
Definition: MonitorElement.cc:771
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Definition: SiPixelTrackResidualSource.h:87
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ESHandle< T > getHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:155
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std::vector< MonitorElement * > meClPosLayersOnTrack
Definition: SiPixelTrackResidualSource.h:190
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Definition: SiPixelTrackResidualSource.h:76
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Definition: EventSetup.h:58
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Definition: PixelBarrelName.h:18
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const DetContainer & dets() const override
Returm a vector of all GeomDet (including all GeomDetUnits)
Definition: TrackerGeometry.h:62
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edm::InputTag digisrc_
Definition: SiPixelTrackResidualSource.h:88
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int moduleName() const
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Definition: PixelBarrelName.h:46
SiPixelTrackResidualSource::meZeroRocLadvsModOnTrackBarrel
std::vector< MonitorElement * > meZeroRocLadvsModOnTrackBarrel
Definition: SiPixelTrackResidualSource.h:198
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void getrococcupancy(DetId detId, const edm::DetSetVector< PixelDigi > &diginp, const TrackerTopology *const tTopo, std::vector< MonitorElement * > meinput)
Definition: SiPixelTrackResidualSource.cc:1598
SiPixelTrackResidualSource::meClPosDiskspzOnTrack
std::vector< MonitorElement * > meClPosDiskspzOnTrack
Definition: SiPixelTrackResidualSource.h:193
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