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TrackerOfflineValidationSummary.cc
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1 // -*- C++ -*-
2 //
3 // Package: TrackerOfflineValidationSummary
4 // Class: TrackerOfflineValidationSummary
5 //
13 //
14 // Original Author: Johannes Hauk
15 // Created: Sat Aug 22 10:31:34 CEST 2009
16 // $Id: TrackerOfflineValidationSummary.cc,v 1.7 2012/06/30 09:09:47 eulisse Exp $
17 //
18 //
19 
20 // system include files
21 #include <memory>
22 
23 // user include files
26 
29 
31 
36 
37 #include "TTree.h"
38 //#include "Alignment/OfflineValidation/interface/TrackerValidationVariables.h"
40 
48 #include "TH1.h"
49 #include "TMath.h"
50 
53 
54 //
55 // class decleration
56 //
57 
59 public:
63 
64 private:
67 
68  struct ModuleHistos {
71  TH1* ResHisto;
77  };
78 
82  TH1* DmrXprime;
83  TH1* DmrYprime;
84  };
85 
88  HarvestingHierarchy(const std::string& name, const std::string& component, const std::vector<unsigned int>& entries)
89  : hierarchyName(name), componentName(component), treeEntries(entries) {}
90  // Needed for naming of histogram according to residual histograms
92  // "Pixel" or "Strip"
94  // Modules belonging to selected hierarchy
95  std::vector<unsigned int> treeEntries;
97  };
98 
99  void analyze(const edm::Event& evt, const edm::EventSetup&) override;
100  void endJob() override;
101 
102  void fillTree(TTree& tree,
103  std::map<int, TrackerOfflineValidationSummary::ModuleHistos>& moduleHist,
104  TkOffTreeVariables& treeMem,
105  const TrackerGeometry& tkgeom,
106  std::map<std::string, std::string>& substructureName,
107  const TrackerTopology* tTopo);
108 
109  std::pair<float, float> fitResiduals(TH1* hist) const;
110  float getMedian(const TH1* hist) const;
111 
114  std::map<std::string, std::string>& substructureName);
115 
116  void collateHarvestingHists(TTree& tree);
117  void applyHarvestingHierarchy(TTree& treeMem);
118  void bookHarvestingHists();
119  void getBinning(const std::string& binningPSetName, int& nBinsX, double& lowerBoundX, double& upperBoundX) const;
120  void fillHarvestingHists(TTree& tree);
121 
122  // ----------member data ---------------------------
123 
126 
127  // parameters from cfg to steer
129  const bool useFit_;
130 
132 
134 
135  std::map<int, TrackerOfflineValidationSummary::ModuleHistos> mPxbResiduals_;
136  std::map<int, TrackerOfflineValidationSummary::ModuleHistos> mPxeResiduals_;
137  std::map<int, TrackerOfflineValidationSummary::ModuleHistos> mTibResiduals_;
138  std::map<int, TrackerOfflineValidationSummary::ModuleHistos> mTidResiduals_;
139  std::map<int, TrackerOfflineValidationSummary::ModuleHistos> mTobResiduals_;
140  std::map<int, TrackerOfflineValidationSummary::ModuleHistos> mTecResiduals_;
141 
142  std::vector<HarvestingHierarchy> vHarvestingHierarchy_;
143 
145 };
146 
147 //
148 // constants, enums and typedefs
149 //
150 
151 //
152 // static data member definitions
153 //
154 
155 //
156 // constructors and destructor
157 //
159  : //geomToken_(esConsumes<edm::Transition::endJob>()), # this does not work
160  topoToken_(esConsumes()),
161  parSet_(iConfig),
162  moduleDirectory_(parSet_.getParameter<std::string>("moduleDirectoryInOutput")),
163  useFit_(parSet_.getParameter<bool>("useFit")),
164  dbe_(nullptr),
165  moduleMapsInitialized(false),
166  lastSetup_(nullptr) {
167  //now do what ever initialization is needed
168  dbe_ = edm::Service<DQMStore>().operator->();
169 }
170 
172  // do anything here that needs to be done at desctruction time
173  // (e.g. close files, deallocate resources etc.)
174 }
175 
176 //
177 // member functions
178 //
179 
180 // ------------ method called to for each event ------------
182  lastSetup_ = &iSetup;
183 
184  // Access of EventSetup is needed to get the list of silicon-modules and their IDs
185  // Since they do not change, it is accessed only once
187  return;
188  tkGeom_ = iSetup.getHandle(geomToken_);
189  const TrackerGeometry* bareTkGeomPtr = &(*tkGeom_);
190 
191  const TrackingGeometry::DetIdContainer& detIdContainer = bareTkGeomPtr->detIds();
192  std::vector<DetId>::const_iterator iDet;
193  for (iDet = detIdContainer.begin(); iDet != detIdContainer.end(); ++iDet) {
194  const DetId& detId = *iDet;
195  const uint32_t rawId = detId.rawId();
196  const unsigned int subdetId = detId.subdetId();
197  if (subdetId == PixelSubdetector::PixelBarrel)
198  mPxbResiduals_[rawId];
199  else if (subdetId == PixelSubdetector::PixelEndcap)
200  mPxeResiduals_[rawId];
201  else if (subdetId == StripSubdetector::TIB)
202  mTibResiduals_[rawId];
203  else if (subdetId == StripSubdetector::TID)
204  mTidResiduals_[rawId];
205  else if (subdetId == StripSubdetector::TOB)
206  mTobResiduals_[rawId];
207  else if (subdetId == StripSubdetector::TEC)
208  mTecResiduals_[rawId];
209  else {
210  throw cms::Exception("Geometry Error")
211  << "[TrackerOfflineValidationSummary] Error, tried to get reference for non-tracker subdet " << subdetId
212  << " from detector " << detId.det();
213  }
214  }
215  moduleMapsInitialized = true;
216 }
217 
218 // ------------ method called once each job just after ending the event loop ------------
220  //Retrieve tracker topology from geometry
221  edm::ESHandle<TrackerTopology> tTopoHandle;
222  lastSetup_->get<TrackerTopologyRcd>().get(tTopoHandle);
223  const TrackerTopology* const tTopo = tTopoHandle.product();
224 
225  // do not know how to set the transition
226  //edm::ESHandle<TrackerTopology> tTopoHandle = lastSetup_->getHandle(topoToken_);
227  //const TrackerTopology *const tTopo = tTopoHandle.product();
228 
229  AlignableTracker aliTracker(&(*tkGeom_), tTopo);
230 
231  TTree* tree = new TTree("TkOffVal", "TkOffVal");
232 
233  TkOffTreeVariables* treeMemPtr = new TkOffTreeVariables;
234  // We create branches for all members of 'TkOffTreeVariables' (even if not needed).
235  // This works because we have a dictionary for 'TkOffTreeVariables'
236  // (see src/classes_def.xml and src/classes.h):
237  tree->Branch("TkOffTreeVariables", &treeMemPtr); // address of pointer!
238  // second branch needed for assigning names and titles to harvesting histograms consistent to others
239  std::map<std::string, std::string>* substructureName = new std::map<std::string, std::string>;
240  tree->Branch("SubstructureName", &substructureName, 32000, 00); // SplitLevel must be set to zero
241 
242  this->fillTree(*tree, mPxbResiduals_, *treeMemPtr, *tkGeom_, *substructureName, tTopo);
243  this->fillTree(*tree, mPxeResiduals_, *treeMemPtr, *tkGeom_, *substructureName, tTopo);
244  this->fillTree(*tree, mTibResiduals_, *treeMemPtr, *tkGeom_, *substructureName, tTopo);
245  this->fillTree(*tree, mTidResiduals_, *treeMemPtr, *tkGeom_, *substructureName, tTopo);
246  this->fillTree(*tree, mTobResiduals_, *treeMemPtr, *tkGeom_, *substructureName, tTopo);
247  this->fillTree(*tree, mTecResiduals_, *treeMemPtr, *tkGeom_, *substructureName, tTopo);
248 
249  //dbe_->save("dqmOut.root");
250 
251  // Method for filling histograms which show summarized values (mean, rms, median ...)
252  // of the module-based histograms from TrackerOfflineValidation
253  this->collateHarvestingHists(*tree);
254 
255  delete tree;
256  tree = nullptr;
257  delete treeMemPtr;
258  treeMemPtr = nullptr;
259  delete substructureName;
260  substructureName = nullptr;
261 }
262 
264  std::map<int, TrackerOfflineValidationSummary::ModuleHistos>& moduleHist,
265  TkOffTreeVariables& treeMem,
266  const TrackerGeometry& tkgeom,
267  std::map<std::string, std::string>& substructureName,
268  const TrackerTopology* tTopo) {
269  for (std::map<int, TrackerOfflineValidationSummary::ModuleHistos>::iterator it = moduleHist.begin(),
270  itEnd = moduleHist.end();
271  it != itEnd;
272  ++it) {
273  treeMem.clear(); // make empty/default
274 
275  //variables concerning the tracker components/hierarchy levels
276  const DetId detId = it->first;
277  treeMem.moduleId = detId;
278  treeMem.subDetId = detId.subdetId();
279 
280  if (treeMem.subDetId == PixelSubdetector::PixelBarrel) {
281  unsigned int whichHalfBarrel(1), rawId(detId.rawId()); //DetId does not know about halfBarrels is PXB ...
282  if ((rawId >= 302056964 && rawId < 302059300) || (rawId >= 302123268 && rawId < 302127140) ||
283  (rawId >= 302189572 && rawId < 302194980))
284  whichHalfBarrel = 2;
285  treeMem.layer = tTopo->pxbLayer(detId);
286  treeMem.half = whichHalfBarrel;
287  treeMem.rod = tTopo->pxbLadder(
288  detId); // ... so, ladder is not per halfBarrel-Layer, but per barrel-layer! Needs complicated calculation in associateModuleHistsWithTree()
289  treeMem.module = tTopo->pxbModule(detId);
290  } else if (treeMem.subDetId == PixelSubdetector::PixelEndcap) {
291  unsigned int whichHalfCylinder(1), rawId(detId.rawId()); //DetId does not kmow about halfCylinders in PXF
292  if ((rawId >= 352394500 && rawId < 352406032) || (rawId >= 352460036 && rawId < 352471568) ||
293  (rawId >= 344005892 && rawId < 344017424) || (rawId >= 344071428 && rawId < 344082960))
294  whichHalfCylinder = 2;
295  treeMem.layer = tTopo->pxfDisk(detId);
296  treeMem.side = tTopo->pxfSide(detId);
297  treeMem.half = whichHalfCylinder;
298  treeMem.blade = tTopo->pxfBlade(detId);
299  treeMem.panel = tTopo->pxfPanel(detId);
300  treeMem.module = tTopo->pxfModule(detId);
301  } else if (treeMem.subDetId == StripSubdetector::TIB) {
302  unsigned int whichHalfShell(1), rawId(detId.rawId()); //DetId does not kmow about halfShells in TIB
303  if ((rawId >= 369120484 && rawId < 369120688) || (rawId >= 369121540 && rawId < 369121776) ||
304  (rawId >= 369136932 && rawId < 369137200) || (rawId >= 369137988 && rawId < 369138288) ||
305  (rawId >= 369153396 && rawId < 369153744) || (rawId >= 369154436 && rawId < 369154800) ||
306  (rawId >= 369169844 && rawId < 369170256) || (rawId >= 369170900 && rawId < 369171344) ||
307  (rawId >= 369124580 && rawId < 369124784) || (rawId >= 369125636 && rawId < 369125872) ||
308  (rawId >= 369141028 && rawId < 369141296) || (rawId >= 369142084 && rawId < 369142384) ||
309  (rawId >= 369157492 && rawId < 369157840) || (rawId >= 369158532 && rawId < 369158896) ||
310  (rawId >= 369173940 && rawId < 369174352) || (rawId >= 369174996 && rawId < 369175440))
311  whichHalfShell = 2;
312  treeMem.layer = tTopo->tibLayer(detId);
313  treeMem.side = tTopo->tibStringInfo(detId)[0];
314  treeMem.half = whichHalfShell;
315  treeMem.rod = tTopo->tibStringInfo(detId)[2];
316  treeMem.outerInner = tTopo->tibStringInfo(detId)[1];
317  treeMem.module = tTopo->tibModule(detId);
318  treeMem.isStereo = tTopo->tibStereo(detId);
319  treeMem.isDoubleSide = tTopo->tibIsDoubleSide(detId);
320  } else if (treeMem.subDetId == StripSubdetector::TID) {
321  treeMem.layer = tTopo->tidWheel(detId);
322  treeMem.side = tTopo->tidSide(detId);
323  treeMem.ring = tTopo->tidRing(detId);
324  treeMem.outerInner = tTopo->tidModuleInfo(detId)[0];
325  treeMem.module = tTopo->tidModuleInfo(detId)[1];
326  treeMem.isStereo = tTopo->tidStereo(detId);
327  treeMem.isDoubleSide = tTopo->tidIsDoubleSide(detId);
328  } else if (treeMem.subDetId == StripSubdetector::TOB) {
329  treeMem.layer = tTopo->tobLayer(detId);
330  treeMem.side = tTopo->tobRodInfo(detId)[0];
331  treeMem.rod = tTopo->tobRodInfo(detId)[1];
332  treeMem.module = tTopo->tobModule(detId);
333  treeMem.isStereo = tTopo->tobStereo(detId);
334  treeMem.isDoubleSide = tTopo->tobIsDoubleSide(detId);
335  } else if (treeMem.subDetId == StripSubdetector::TEC) {
336  treeMem.layer = tTopo->tecWheel(detId);
337  treeMem.side = tTopo->tecSide(detId);
338  treeMem.ring = tTopo->tecRing(detId);
339  treeMem.petal = tTopo->tecPetalInfo(detId)[1];
340  treeMem.outerInner = tTopo->tecPetalInfo(detId)[0];
341  treeMem.module = tTopo->tecModule(detId);
342  treeMem.isStereo = tTopo->tecStereo(detId);
343  treeMem.isDoubleSide = tTopo->tecIsDoubleSide(detId);
344  }
345 
346  //variables concerning the tracker geometry
347 
348  const Surface::PositionType& gPModule = tkgeom.idToDet(detId)->position();
349  treeMem.posPhi = gPModule.phi();
350  treeMem.posEta = gPModule.eta();
351  treeMem.posR = gPModule.perp();
352  treeMem.posX = gPModule.x();
353  treeMem.posY = gPModule.y();
354  treeMem.posZ = gPModule.z();
355 
356  const Surface& surface = tkgeom.idToDet(detId)->surface();
357 
358  //global Orientation of local coordinate system of dets/detUnits
359  LocalPoint lUDirection(1., 0., 0.), lVDirection(0., 1., 0.), lWDirection(0., 0., 1.);
360  GlobalPoint gUDirection = surface.toGlobal(lUDirection), gVDirection = surface.toGlobal(lVDirection),
361  gWDirection = surface.toGlobal(lWDirection);
362  double dR(999.), dPhi(999.), dZ(999.);
364  treeMem.subDetId == StripSubdetector::TOB) {
365  dR = gWDirection.perp() - gPModule.perp();
366  dPhi = deltaPhi(gUDirection.barePhi(), gPModule.barePhi());
367  dZ = gVDirection.z() - gPModule.z();
368  if (dZ >= 0.)
369  treeMem.rOrZDirection = 1;
370  else
371  treeMem.rOrZDirection = -1;
372  } else if (treeMem.subDetId == PixelSubdetector::PixelEndcap) {
373  dR = gUDirection.perp() - gPModule.perp();
374  dPhi = deltaPhi(gVDirection.barePhi(), gPModule.barePhi());
375  dZ = gWDirection.z() - gPModule.z();
376  if (dR >= 0.)
377  treeMem.rOrZDirection = 1;
378  else
379  treeMem.rOrZDirection = -1;
380  } else if (treeMem.subDetId == StripSubdetector::TID || treeMem.subDetId == StripSubdetector::TEC) {
381  dR = gVDirection.perp() - gPModule.perp();
382  dPhi = deltaPhi(gUDirection.barePhi(), gPModule.barePhi());
383  dZ = gWDirection.z() - gPModule.z();
384  if (dR >= 0.)
385  treeMem.rOrZDirection = 1;
386  else
387  treeMem.rOrZDirection = -1;
388  }
389  if (dR >= 0.)
390  treeMem.rDirection = 1;
391  else
392  treeMem.rDirection = -1;
393  if (dPhi >= 0.)
394  treeMem.phiDirection = 1;
395  else
396  treeMem.phiDirection = -1;
397  if (dZ >= 0.)
398  treeMem.zDirection = 1;
399  else
400  treeMem.zDirection = -1;
401 
402  // Assign histos from first step (TrackerOfflineValidation) to the module's entry in the TTree for retrieving mean, rms, median ...
403  const std::string histDir = associateModuleHistsWithTree(treeMem, it->second, substructureName);
404 
405  //mean and RMS values (extracted from histograms Xprime on module level)
406  treeMem.entries = static_cast<UInt_t>(it->second.ResXprimeHisto->GetEntries());
407  treeMem.meanX = it->second.ResXprimeHisto->GetMean();
408  treeMem.rmsX = it->second.ResXprimeHisto->GetRMS();
409  //treeMem.sigmaX = Fwhm(it->second.ResXprimeHisto)/2.355;
410  if (useFit_) {
411  //call fit function which returns mean and sigma from the fit
412  //for absolute residuals
413  std::pair<float, float> fitResult1 = this->fitResiduals(it->second.ResXprimeHisto);
414  treeMem.fitMeanX = fitResult1.first;
415  treeMem.fitSigmaX = fitResult1.second;
416  //for normalized residuals
417  std::pair<float, float> fitResult2 = this->fitResiduals(it->second.NormResXprimeHisto);
418  treeMem.fitMeanNormX = fitResult2.first;
419  treeMem.fitSigmaNormX = fitResult2.second;
420  }
421 
422  //get median for absolute residuals
423  treeMem.medianX = this->getMedian(it->second.ResXprimeHisto);
424 
425  int numberOfBins = it->second.ResXprimeHisto->GetNbinsX();
426  treeMem.numberOfUnderflows = it->second.ResXprimeHisto->GetBinContent(0);
427  treeMem.numberOfOverflows = it->second.ResXprimeHisto->GetBinContent(numberOfBins + 1);
428  treeMem.numberOfOutliers =
429  it->second.ResXprimeHisto->GetBinContent(0) + it->second.ResXprimeHisto->GetBinContent(numberOfBins + 1);
430  //mean and RMS values (extracted from histograms(normalized Xprime on module level)
431  treeMem.meanNormX = it->second.NormResXprimeHisto->GetMean();
432  treeMem.rmsNormX = it->second.NormResXprimeHisto->GetRMS();
433 
434  double stats[20];
435  it->second.NormResXprimeHisto->GetStats(stats);
436  // GF treeMem.chi2PerDofX = stats[3]/(stats[0]-1);
437  if (stats[0])
438  treeMem.chi2PerDofX = stats[3] / stats[0];
439 
440  //treeMem.sigmaNormX = Fwhm(it->second.NormResXprimeHisto)/2.355;
441  treeMem.histNameX = it->second.ResXprimeHisto->GetName();
442  treeMem.histNameNormX = it->second.NormResXprimeHisto->GetName();
443 
444  // fill tree variables in local coordinates if set in cfg of TrackerOfllineValidation
445  if (it->second.ResHisto && it->second.NormResHisto) { // if(lCoorHistOn_) {
446  treeMem.meanLocalX = it->second.ResHisto->GetMean();
447  treeMem.rmsLocalX = it->second.ResHisto->GetRMS();
448  treeMem.meanNormLocalX = it->second.NormResHisto->GetMean();
449  treeMem.rmsNormLocalX = it->second.NormResHisto->GetRMS();
450  treeMem.histNameLocalX = it->second.ResHisto->GetName();
451  treeMem.histNameNormLocalX = it->second.NormResHisto->GetName();
452  }
453 
454  // mean and RMS values in local y (extracted from histograms Yprime on module level)
455  // might exist in pixel only
456  if (it->second.ResYprimeHisto) { //(stripYResiduals_){
457  TH1* h = it->second.ResYprimeHisto;
458  treeMem.meanY = h->GetMean();
459  treeMem.rmsY = h->GetRMS();
460 
461  if (useFit_) { // fit function which returns mean and sigma from the fit
462  std::pair<float, float> fitMeanSigma = this->fitResiduals(h);
463  treeMem.fitMeanY = fitMeanSigma.first;
464  treeMem.fitSigmaY = fitMeanSigma.second;
465  }
466 
467  //get median for absolute residuals
468  treeMem.medianY = this->getMedian(h);
469 
470  treeMem.histNameY = h->GetName();
471  }
472 
473  if (it->second.NormResYprimeHisto) {
474  TH1* h = it->second.NormResYprimeHisto;
475  treeMem.meanNormY = h->GetMean();
476  treeMem.rmsNormY = h->GetRMS();
477  h->GetStats(stats); // stats buffer defined above
478  if (stats[0])
479  treeMem.chi2PerDofY = stats[3] / stats[0];
480 
481  if (useFit_) { // fit function which returns mean and sigma from the fit
482  std::pair<float, float> fitMeanSigma = this->fitResiduals(h);
483  treeMem.fitMeanNormY = fitMeanSigma.first;
484  treeMem.fitSigmaNormY = fitMeanSigma.second;
485  }
486  treeMem.histNameNormY = h->GetName();
487  }
488 
489  tree.Fill();
490  }
491 }
492 
494  const TkOffTreeVariables& treeMem,
496  std::map<std::string, std::string>& substructureName) {
497  std::stringstream histDir, sSubdetName;
498  std::string componentName;
499  if (moduleDirectory_.length() != 0)
500  histDir << moduleDirectory_ << "/";
501  std::string wheelOrLayer("_layer_");
502  if (treeMem.subDetId == PixelSubdetector::PixelBarrel) {
503  unsigned int half(treeMem.half), layer(treeMem.layer), ladder(0);
504  if (layer == 1) {
505  if (half == 2)
506  ladder = treeMem.rod - 5;
507  else if (treeMem.rod > 15)
508  ladder = treeMem.rod - 10;
509  else
510  ladder = treeMem.rod;
511  } else if (layer == 2) {
512  if (half == 2)
513  ladder = treeMem.rod - 8;
514  else if (treeMem.rod > 24)
515  ladder = treeMem.rod - 16;
516  else
517  ladder = treeMem.rod;
518  } else if (layer == 3) {
519  if (half == 2)
520  ladder = treeMem.rod - 11;
521  else if (treeMem.rod > 33)
522  ladder = treeMem.rod - 22;
523  else
524  ladder = treeMem.rod;
525  }
526  componentName = "Pixel";
527  sSubdetName << "TPBBarrel_1";
528  histDir << componentName << "/" << sSubdetName.str() << "/TPBHalfBarrel_" << treeMem.half << "/TPBLayer_"
529  << treeMem.layer << "/TPBLadder_" << ladder;
530  } else if (treeMem.subDetId == PixelSubdetector::PixelEndcap) {
531  unsigned int side(treeMem.side), half(treeMem.half), blade(0);
532  if (side == 1)
533  side = 3;
534  if (half == 2)
535  blade = treeMem.blade - 6;
536  else if (treeMem.blade > 18)
537  blade = treeMem.blade - 12;
538  else
539  blade = treeMem.blade;
540  componentName = "Pixel";
541  sSubdetName << "TPEEndcap_" << side;
542  histDir << componentName << "/" << sSubdetName.str() << "/TPEHalfCylinder_" << treeMem.half << "/TPEHalfDisk_"
543  << treeMem.layer << "/TPEBlade_" << blade << "/TPEPanel_" << treeMem.panel;
544  wheelOrLayer = "_wheel_";
545  } else if (treeMem.subDetId == StripSubdetector::TIB) {
546  unsigned int half(treeMem.half), layer(treeMem.layer), surface(treeMem.outerInner), string(0);
547  if (half == 2) {
548  if (layer == 1) {
549  if (surface == 1)
550  string = treeMem.rod - 13;
551  else if (surface == 2)
552  string = treeMem.rod - 15;
553  }
554  if (layer == 2) {
555  if (surface == 1)
556  string = treeMem.rod - 17;
557  else if (surface == 2)
558  string = treeMem.rod - 19;
559  }
560  if (layer == 3) {
561  if (surface == 1)
562  string = treeMem.rod - 22;
563  else if (surface == 2)
564  string = treeMem.rod - 23;
565  }
566  if (layer == 4) {
567  if (surface == 1)
568  string = treeMem.rod - 26;
569  else if (surface == 2)
570  string = treeMem.rod - 28;
571  }
572  } else
573  string = treeMem.rod;
574  std::stringstream detString;
575  if (treeMem.layer < 3 && !treeMem.isDoubleSide)
576  detString << "/Det_" << treeMem.module;
577  else
578  detString << "";
579  componentName = "Strip";
580  sSubdetName << "TIBBarrel_1";
581  histDir << componentName << "/" << sSubdetName.str() << "/TIBHalfBarrel_" << treeMem.side << "/TIBLayer_"
582  << treeMem.layer << "/TIBHalfShell_" << treeMem.half << "/TIBSurface_" << treeMem.outerInner
583  << "/TIBString_" << string << detString.str();
584  } else if (treeMem.subDetId == StripSubdetector::TID) {
585  unsigned int side(treeMem.side), outerInner(0);
586  if (side == 1)
587  side = 3;
588  if (treeMem.outerInner == 1)
589  outerInner = 2;
590  else if (treeMem.outerInner == 2)
591  outerInner = 1;
592  std::stringstream detString;
593  if (treeMem.ring < 3 && !treeMem.isDoubleSide)
594  detString << "/Det_" << treeMem.module;
595  else
596  detString << "";
597  componentName = "Strip";
598  sSubdetName << "TIDEndcap_" << side;
599  histDir << componentName << "/" << sSubdetName.str() << "/TIDDisk_" << treeMem.layer << "/TIDRing_" << treeMem.ring
600  << "/TIDSide_" << outerInner << detString.str();
601  wheelOrLayer = "_wheel_";
602  } else if (treeMem.subDetId == StripSubdetector::TOB) {
603  std::stringstream detString;
604  if (treeMem.layer < 3 && !treeMem.isDoubleSide)
605  detString << "/Det_" << treeMem.module;
606  else
607  detString << "";
608  componentName = "Strip";
609  sSubdetName << "TOBBarrel_4";
610  histDir << componentName << "/" << sSubdetName.str() << "/TOBHalfBarrel_" << treeMem.side << "/TOBLayer_"
611  << treeMem.layer << "/TOBRod_" << treeMem.rod << detString.str();
612  } else if (treeMem.subDetId == StripSubdetector::TEC) {
613  unsigned int side(0), outerInner(0), ring(0);
614  if (treeMem.side == 1)
615  side = 6;
616  else if (treeMem.side == 2)
617  side = 5;
618  if (treeMem.outerInner == 1)
619  outerInner = 2;
620  else if (treeMem.outerInner == 2)
621  outerInner = 1;
622  if (treeMem.layer > 3 && treeMem.layer < 7)
623  ring = treeMem.ring - 1;
624  else if (treeMem.layer == 7 || treeMem.layer == 8)
625  ring = treeMem.ring - 2;
626  else if (treeMem.layer == 9)
627  ring = treeMem.ring - 3;
628  else
629  ring = treeMem.ring;
630  std::stringstream detString;
631  if ((treeMem.ring < 3 || treeMem.ring == 5) && !treeMem.isDoubleSide)
632  detString << "/Det_" << treeMem.module;
633  else
634  detString << "";
635  componentName = "Strip";
636  sSubdetName << "TECEndcap_" << side;
637  histDir << componentName << "/" << sSubdetName.str() << "/TECDisk_" << treeMem.layer << "/TECSide_" << outerInner
638  << "/TECPetal_" << treeMem.petal << "/TECRing_" << ring << detString.str();
639  wheelOrLayer = "_wheel_";
640  }
641 
642  substructureName["component"] = componentName;
643  substructureName["subdet"] = sSubdetName.str();
644 
645  std::stringstream histName;
646  histName << "residuals_subdet_" << treeMem.subDetId << wheelOrLayer << treeMem.layer << "_module_"
647  << treeMem.moduleId;
648 
650  fullPath = histDir.str() + "/h_xprime_" + histName.str();
651  if (dbe_->get(fullPath))
652  moduleHists.ResXprimeHisto = dbe_->get(fullPath)->getTH1();
653  else {
654  edm::LogError("TrackerOfflineValidationSummary")
655  << "Problem with names in input file produced in TrackerOfflineValidation ...\n"
656  << "This histogram should exist in every configuration, "
657  << "but no histogram with name " << fullPath << " is found!";
658  return "";
659  }
660  fullPath = histDir.str() + "/h_normxprime" + histName.str();
661  if (dbe_->get(fullPath))
662  moduleHists.NormResXprimeHisto = dbe_->get(fullPath)->getTH1();
663  fullPath = histDir.str() + "/h_yprime_" + histName.str();
664  if (dbe_->get(fullPath))
665  moduleHists.ResYprimeHisto = dbe_->get(fullPath)->getTH1();
666  fullPath = histDir.str() + "/h_normyprime" + histName.str();
667  if (dbe_->get(fullPath))
668  moduleHists.NormResYprimeHisto = dbe_->get(fullPath)->getTH1();
669  fullPath = histDir.str() + "/h_" + histName.str();
670  if (dbe_->get(fullPath))
671  moduleHists.ResHisto = dbe_->get(fullPath)->getTH1();
672  fullPath = histDir.str() + "/h_norm" + histName.str();
673  if (dbe_->get(fullPath))
674  moduleHists.NormResHisto = dbe_->get(fullPath)->getTH1();
675 
676  return histDir.str();
677 }
678 
679 std::pair<float, float> TrackerOfflineValidationSummary::fitResiduals(TH1* hist) const {
680  std::pair<float, float> fitResult(9999., 9999.);
681  if (!hist || hist->GetEntries() < 20)
682  return fitResult;
683 
684  float mean = hist->GetMean();
685  float sigma = hist->GetRMS();
686 
687  try { // for < CMSSW_2_2_0 since ROOT warnings from fit are converted to exceptions
688  // Remove the try/catch for more recent CMSSW!
689  // first fit: two RMS around mean
690  TF1 func("tmp", "gaus", mean - 2. * sigma, mean + 2. * sigma);
691  if (0 == hist->Fit(&func, "QNR")) { // N: do not blow up file by storing fit!
692  mean = func.GetParameter(1);
693  sigma = func.GetParameter(2);
694  // second fit: three sigma of first fit around mean of first fit
695  func.SetRange(mean - 3. * sigma, mean + 3. * sigma);
696  // I: integral gives more correct results if binning is too wide
697  // L: Likelihood can treat empty bins correctly (if hist not weighted...)
698  if (0 == hist->Fit(&func, "Q0LR")) {
699  if (hist->GetFunction(func.GetName())) { // Take care that it is later on drawn:
700  hist->GetFunction(func.GetName())->ResetBit(TF1::kNotDraw);
701  }
702  fitResult.first = func.GetParameter(1);
703  fitResult.second = func.GetParameter(2);
704  }
705  }
706  } catch (cms::Exception const& e) {
707  edm::LogWarning("Alignment") << "@SUB=TrackerOfflineValidation::fitResiduals"
708  << "Caught this exception during ROOT fit: " << e.what();
709  }
710  return fitResult;
711 }
712 
714  float median = 999;
715  const int nbins = histo->GetNbinsX();
716 
717  //extract median from histogram
718  double* x = new double[nbins];
719  double* y = new double[nbins];
720  for (int j = 0; j < nbins; j++) {
721  x[j] = histo->GetBinCenter(j + 1);
722  y[j] = histo->GetBinContent(j + 1);
723  }
724  median = TMath::Median(nbins, x, y);
725 
726  delete[] x;
727  x = nullptr;
728  delete[] y;
729  y = nullptr;
730 
731  return median;
732 }
733 
735  this->applyHarvestingHierarchy(tree);
736  this->fillHarvestingHists(tree);
737 }
738 
740  TkOffTreeVariables* treeMemPtr = nullptr;
741  std::map<std::string, std::string>* substructureName = nullptr;
742  tree.SetBranchAddress("TkOffTreeVariables", &treeMemPtr);
743  tree.SetBranchAddress("SubstructureName", &substructureName);
744 
745  // Loop over modules to select accumulation criteria for harvesting plots
746  for (unsigned int iSubdet = 1; iSubdet < 7; ++iSubdet) {
747  std::string hierarchyName("");
748  std::string componentName("");
749  std::vector<unsigned int> treeEntries;
750  for (unsigned int iSide = 1; iSide < 3; ++iSide) {
751  // Set up only one collection for Barrels, not separated for side
752  if (iSide == 1 && (iSubdet == PixelSubdetector::PixelBarrel || iSubdet == StripSubdetector::TIB ||
753  iSubdet == StripSubdetector::TOB))
754  continue;
755  for (int iTree = 0; iTree < tree.GetEntries(); ++iTree) {
756  tree.GetEntry(iTree);
757  // Do not use glued Dets
758  if (treeMemPtr->isDoubleSide)
759  continue;
760  if (treeMemPtr->subDetId == iSubdet) {
761  if (iSide != treeMemPtr->side && (iSubdet == PixelSubdetector::PixelEndcap ||
762  iSubdet == StripSubdetector::TID || iSubdet == StripSubdetector::TEC))
763  continue;
764  treeEntries.push_back(iTree);
765  if (hierarchyName.length() == 0) {
766  hierarchyName = (*substructureName)["subdet"];
767  componentName = (*substructureName)["component"];
768  }
769  }
770  }
771  HarvestingHierarchy harvestingHierarchy(hierarchyName, componentName, treeEntries);
772  vHarvestingHierarchy_.push_back(harvestingHierarchy);
773  hierarchyName = "";
774  componentName = "";
775  treeEntries.clear();
776  }
777  }
778  // Here could be a further separation of the HarvestingHierarchy.
779  // E.g. separate the existing ones by layer and add them to the vector without deleting any element from the vector.
780  // The existing hists will stay and the new ones are added
781 
782  // Now, book the corresponding histos
783  this->bookHarvestingHists();
784 }
785 
787  edm::LogInfo("TrackerOfflineValidationSummary") << "Harvesting histograms will be booked for "
788  << vHarvestingHierarchy_.size() << " different hierarchy selections";
789  for (std::vector<HarvestingHierarchy>::iterator iHier = vHarvestingHierarchy_.begin();
790  iHier != vHarvestingHierarchy_.end();
791  ++iHier) {
792  std::stringstream dmrXprimeHistoName, dmrYprimeHistoName, dmrXprimeHistoTitle, dmrYprimeHistoTitle;
793  dmrXprimeHistoName << "h_DmrXprime_" << iHier->hierarchyName;
794  dmrYprimeHistoName << "h_DmrYprime_" << iHier->hierarchyName;
795  dmrXprimeHistoTitle << "DMR for " << iHier->hierarchyName << ";<#DeltaX> [cm];# modules";
796  dmrYprimeHistoTitle << "DMR for " << iHier->hierarchyName << ";<#DeltaY> [cm];# modules";
797 
798  std::string directoryString(moduleDirectory_);
799  if (directoryString.length() != 0)
800  directoryString += "/";
801  directoryString += iHier->componentName;
802  dbe_->setCurrentFolder(directoryString);
803 
804  int nBinsX(0);
805  double xMin(0.), xMax(0.);
806  if (iHier->componentName == "Pixel") {
807  this->getBinning("TH1DmrXprimePixelModules", nBinsX, xMin, xMax);
808  iHier->harvestingHistos.DmrXprime =
809  dbe_->book1D(dmrXprimeHistoName.str(), dmrXprimeHistoTitle.str(), nBinsX, xMin, xMax)->getTH1();
810  this->getBinning("TH1DmrYprimePixelModules", nBinsX, xMin, xMax);
811  iHier->harvestingHistos.DmrYprime =
812  dbe_->book1D(dmrYprimeHistoName.str(), dmrYprimeHistoTitle.str(), nBinsX, xMin, xMax)->getTH1();
813  } else if (iHier->componentName == "Strip") {
814  this->getBinning("TH1DmrXprimeStripModules", nBinsX, xMin, xMax);
815  iHier->harvestingHistos.DmrXprime =
816  dbe_->book1D(dmrXprimeHistoName.str(), dmrXprimeHistoTitle.str(), nBinsX, xMin, xMax)->getTH1();
817  if (!parSet_.getParameter<bool>("stripYDmrs"))
818  continue;
819  this->getBinning("TH1DmrYprimeStripModules", nBinsX, xMin, xMax);
820  iHier->harvestingHistos.DmrYprime =
821  dbe_->book1D(dmrYprimeHistoName.str(), dmrYprimeHistoTitle.str(), nBinsX, xMin, xMax)->getTH1();
822  }
823  }
824 }
825 
827  int& nBinsX,
828  double& lowerBoundX,
829  double& upperBoundX) const {
830  const edm::ParameterSet& binningPSet = parSet_.getParameter<edm::ParameterSet>(binningPSetName);
831  nBinsX = binningPSet.getParameter<int>("Nbinx");
832  lowerBoundX = binningPSet.getParameter<double>("xmin");
833  upperBoundX = binningPSet.getParameter<double>("xmax");
834 }
835 
837  TkOffTreeVariables* treeMemPtr = nullptr;
838  std::map<std::string, std::string>* substructureName = nullptr;
839  tree.SetBranchAddress("TkOffTreeVariables", &treeMemPtr);
840  tree.SetBranchAddress("SubstructureName", &substructureName);
841 
842  const unsigned int minEntriesPerModule(parSet_.getParameter<unsigned int>("minEntriesPerModuleForDmr"));
843  edm::LogInfo("TrackerOfflineValidationSummary")
844  << "Median of a module is added to DMR plots if it contains at least " << minEntriesPerModule << " hits";
845 
846  for (std::vector<HarvestingHierarchy>::iterator iHier = vHarvestingHierarchy_.begin();
847  iHier != vHarvestingHierarchy_.end();
848  ++iHier) {
849  for (std::vector<unsigned int>::const_iterator iTreeEntries = iHier->treeEntries.begin();
850  iTreeEntries != iHier->treeEntries.end();
851  ++iTreeEntries) {
852  tree.GetEntry(*iTreeEntries);
853  if (treeMemPtr->entries < minEntriesPerModule)
854  continue;
855  iHier->harvestingHistos.DmrXprime->Fill(treeMemPtr->medianX);
856  if (iHier->harvestingHistos.DmrYprime)
857  iHier->harvestingHistos.DmrYprime->Fill(treeMemPtr->medianY);
858  }
859  }
860 }
861 
862 //define this as a plug-in
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Definition: TkOffTreeVariables.h:9
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Definition: TrackerTopology.h:184
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