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TrackerGeometryCompare.cc
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5 #include "CLHEP/Vector/RotationInterfaces.h"
16 
18 
23 
39 
40 //#include "Alignment/OfflineValidation/interface/ComparisonUtilities.h"
41 //#include "Alignment/CommonAlignment/interface/AlignTools.h"
42 
43 //#include "Alignment/OfflineValidation/plugins/TrackerGeometryCompare.h"
44 #include "TrackerGeometryCompare.h"
45 #include "TFile.h"
46 #include "CLHEP/Vector/ThreeVector.h"
47 
48 // Database
52 //#include "Geometry/Records/interface/PGeometricDetRcd.h"
53 
56 
57 #include <iostream>
58 #include <fstream>
59 #include <sstream>
60 
62  referenceTracker(nullptr),
63  dummyTracker(nullptr),
64  currentTracker(nullptr),
65  theSurveyIndex(0),
66  theSurveyValues(nullptr),
67  theSurveyErrors(nullptr),
68  _levelStrings(cfg.getUntrackedParameter< std::vector<std::string> >("levels")),
69  _writeToDB(cfg.getUntrackedParameter<bool>("writeToDB")),
70  _commonTrackerLevel(align::invalid),
71  _moduleListFile(nullptr),
72  _moduleList(0),
73  _inputRootFile1(nullptr),
74  _inputRootFile2(nullptr),
75  _inputTree01(nullptr),
76  _inputTree02(nullptr),
77  _inputTree11(nullptr),
78  _inputTree12(nullptr),
79  m_nBins(10000),
80  m_rangeLow(-.1),
81  m_rangeHigh(.1),
82  firstEvent_(true),
83  m_vtkmap(13)
84 {
85  _moduleListName = cfg.getUntrackedParameter< std::string > ("moduleList");
86 
87  //input is ROOT
88  _inputFilename1 = cfg.getUntrackedParameter< std::string > ("inputROOTFile1");
89  _inputFilename2 = cfg.getUntrackedParameter< std::string > ("inputROOTFile2");
90  _inputTreenameAlign = cfg.getUntrackedParameter< std::string > ("treeNameAlign");
91  _inputTreenameDeform = cfg.getUntrackedParameter< std::string > ("treeNameDeform");
92 
93  //output file
94  _filename = cfg.getUntrackedParameter< std::string > ("outputFile");
95 
96 
97  _weightBy = cfg.getUntrackedParameter< std::string > ("weightBy");
98  _setCommonTrackerSystem = cfg.getUntrackedParameter< std::string > ("setCommonTrackerSystem");
99  _detIdFlag = cfg.getUntrackedParameter< bool > ("detIdFlag");
100  _detIdFlagFile = cfg.getUntrackedParameter< std::string > ("detIdFlagFile");
101  _weightById = cfg.getUntrackedParameter< bool > ("weightById");
102  _weightByIdFile = cfg.getUntrackedParameter< std::string > ("weightByIdFile");
103 
104 
105  // if want to use, make id cut list
106  if (_detIdFlag){
107  std::ifstream fin;
108  fin.open( _detIdFlagFile.c_str() );
109 
110  while (!fin.eof() && fin.good() ){
111 
112  uint32_t id;
113  fin >> id;
114  _detIdFlagVector.push_back(id);
115  }
116  fin.close();
117  }
118 
119  // turn weightByIdFile into weightByIdVector
120  if (_weightById){
121  std::ifstream inFile;
122  inFile.open( _weightByIdFile.c_str() );
123  int ctr = 0;
124  while ( !inFile.eof() ){
125  ctr++;
126  unsigned int listId;
127  inFile >> listId;
128  inFile.ignore(256, '\n');
129 
130  _weightByIdVector.push_back( listId );
131  }
132  inFile.close();
133  }
134 
135  //root configuration
136  _theFile = new TFile(_filename.c_str(),"RECREATE");
137  _alignTree = new TTree("alignTree","alignTree");//,"id:level:mid:mlevel:sublevel:x:y:z:r:phi:a:b:c:dx:dy:dz:dr:dphi:da:db:dc");
138  _alignTree->Branch("id", &_id, "id/I");
139  _alignTree->Branch("badModuleQuality", &_badModuleQuality, "badModuleQuality/I");
140  _alignTree->Branch("inModuleList", &_inModuleList, "inModuleList/I");
141  _alignTree->Branch("level", &_level, "level/I");
142  _alignTree->Branch("mid", &_mid, "mid/I");
143  _alignTree->Branch("mlevel", &_mlevel, "mlevel/I");
144  _alignTree->Branch("sublevel", &_sublevel, "sublevel/I");
145  _alignTree->Branch("x", &_xVal, "x/F");
146  _alignTree->Branch("y", &_yVal, "y/F");
147  _alignTree->Branch("z", &_zVal, "z/F");
148  _alignTree->Branch("r", &_rVal, "r/F");
149  _alignTree->Branch("phi", &_phiVal, "phi/F");
150  _alignTree->Branch("eta", &_etaVal, "eta/F");
151  _alignTree->Branch("alpha", &_alphaVal, "alpha/F");
152  _alignTree->Branch("beta", &_betaVal, "beta/F");
153  _alignTree->Branch("gamma", &_gammaVal, "gamma/F");
154  _alignTree->Branch("dx", &_dxVal, "dx/F");
155  _alignTree->Branch("dy", &_dyVal, "dy/F");
156  _alignTree->Branch("dz", &_dzVal, "dz/F");
157  _alignTree->Branch("dr", &_drVal, "dr/F");
158  _alignTree->Branch("dphi", &_dphiVal, "dphi/F");
159  _alignTree->Branch("dalpha", &_dalphaVal, "dalpha/F");
160  _alignTree->Branch("dbeta", &_dbetaVal, "dbeta/F");
161  _alignTree->Branch("dgamma", &_dgammaVal, "dgamma/F");
162  _alignTree->Branch("du", &_duVal, "du/F");
163  _alignTree->Branch("dv", &_dvVal, "dv/F");
164  _alignTree->Branch("dw", &_dwVal, "dw/F");
165  _alignTree->Branch("da", &_daVal, "da/F");
166  _alignTree->Branch("db", &_dbVal, "db/F");
167  _alignTree->Branch("dg", &_dgVal, "dg/F");
168  _alignTree->Branch("useDetId", &_useDetId, "useDetId/I");
169  _alignTree->Branch("detDim", &_detDim, "detDim/I");
170  _alignTree->Branch("surW", &_surWidth, "surW/F");
171  _alignTree->Branch("surL", &_surLength, "surL/F");
172  _alignTree->Branch("surRot", &_surRot, "surRot[9]/D");
173  _alignTree->Branch("identifiers", &_identifiers, "identifiers[6]/I");
174  _alignTree->Branch("type", &_type, "type/I");
175  _alignTree->Branch("surfDeform", &_surfDeform, "surfDeform[13]/D");
176 
177  for (std::vector<TrackerMap>::iterator it = m_vtkmap.begin(); it != m_vtkmap.end(); ++it) {
178  it->setPalette(1) ;
179  it->addPixel(true) ;
180  }
181 
183  TFileDirectory subDir_All = fs->mkdir( "AllSubdetectors" );
184  TFileDirectory subDir_PXB = fs->mkdir( "PixelBarrel" );
185  TFileDirectory subDir_PXF = fs->mkdir( "PixelEndcap" );
186  for (int ii = 0; ii < 13; ++ii) {
187  std::stringstream histname0 ;
188  histname0 << "SurfDeform_Par_" << ii ;
189  m_h1[histname0.str()] = subDir_All.make<TH1D>((histname0.str()).c_str(),(histname0.str()).c_str(),m_nBins,m_rangeLow,m_rangeHigh);
190 
191  std::stringstream histname1 ;
192  histname1 << "SurfDeform_PixelBarrel_Par_" << ii ;
193  m_h1[histname1.str()] = subDir_PXB.make<TH1D>((histname1.str()).c_str(),(histname1.str()).c_str(),m_nBins,m_rangeLow,m_rangeHigh);
194 
195  std::stringstream histname2 ;
196  histname2 << "SurfDeform_PixelEndcap_Par_" << ii ;
197  m_h1[histname2.str()] = subDir_PXF.make<TH1D>((histname2.str()).c_str(),(histname2.str()).c_str(),m_nBins,m_rangeLow,m_rangeHigh);
198  }
199 
200 }
201 
203  firstEvent_ = true;
204 }
205 
207 
208  int iname(0) ;
209  for (std::vector<TrackerMap>::iterator it = m_vtkmap.begin(); it != m_vtkmap.end(); ++it) {
210  std::stringstream mapname ;
211  mapname << "TkMap_SurfDeform" << iname << ".png" ;
212  it->save(true,0,0,mapname.str());
213  mapname.str( std::string() );
214  mapname.clear() ;
215  mapname << "TkMap_SurfDeform" << iname << ".pdf" ;
216  it->save(true,0,0,mapname.str());
217  ++iname ;
218  }
219 
220  _theFile->cd();
221  _alignTree->Write();
222  _theFile->Close();
223 
224 }
225 
227 
228  if (firstEvent_) {
229 
230  //Retrieve tracker topology from geometry
231  edm::ESHandle<TrackerTopology> tTopoHandle;
232  iSetup.get<TrackerTopologyRcd>().get(tTopoHandle);
233  const TrackerTopology* const tTopo = tTopoHandle.product();
234 
235  //upload the ROOT geometries
236  createROOTGeometry(iSetup);
237 
238  //setting the levels being used in the geometry comparator
239  edm::LogInfo("TrackerGeometryCompare") << "levels: " << _levelStrings.size();
240  for (const auto& level: _levelStrings){
242  edm::LogInfo("TrackerGeometryCompare") << "level: " << level;
243  edm::LogInfo("TrackerGeometryCompare")
244  << "structure type: "
246  }
247 
248 
249  //set common tracker system first
250  // if setting the tracker common system
251  if (_setCommonTrackerSystem != "NONE"){
253  }
254 
255  //compare the goemetries
258 
259  //write out ntuple
260  //might be better to do within output module
261 
262  if (_writeToDB){
263  Alignments* myAlignments = currentTracker->alignments();
264  AlignmentErrorsExtended* myAlignmentErrorsExtended = currentTracker->alignmentErrors();
265 
266  // 2. Store alignment[Error]s to DB
268  // Call service
269  if( !poolDbService.isAvailable() ) // Die if not available
270  throw cms::Exception("NotAvailable") << "PoolDBOutputService not available";
271 
272  poolDbService->writeOne<Alignments>(&(*myAlignments), poolDbService->beginOfTime(), "TrackerAlignmentRcd");
273  poolDbService->writeOne<AlignmentErrorsExtended>(&(*myAlignmentErrorsExtended), poolDbService->beginOfTime(), "TrackerAlignmentErrorExtendedRcd");
274 
275  }
276 
277  firstEvent_ = false;
278  }
279 }
280 
282 
283  int inputRawId1, inputRawId2;
284  double inputX1, inputY1, inputZ1, inputX2, inputY2, inputZ2;
285  double inputAlpha1, inputBeta1, inputGamma1, inputAlpha2, inputBeta2, inputGamma2;
286 
287  //Retrieve tracker topology from geometry
288  edm::ESHandle<TrackerTopology> tTopoHandle;
289  iSetup.get<TrackerTopologyRcd>().get(tTopoHandle);
290  const TrackerTopology* const tTopo = tTopoHandle.product();
291 
292  // Fill module IDs from file into a list
294  if (_moduleListFile.is_open()){
296  while(!_moduleListFile.eof()){
297  std::getline(_moduleListFile,line);
298  _moduleList.push_back(std::atoi(line.c_str()));
299  }
300  }
301  else{
302  edm::LogInfo("TrackerGeometryCompare") << "Error: Module list not found! Please verify that given list exists!";
303  }
304 
305  //declare alignments
306  Alignments* alignments1 = new Alignments();
307  AlignmentErrorsExtended* alignmentErrors1 = new AlignmentErrorsExtended();
308  if (_inputFilename1 != "IDEAL"){
309  _inputRootFile1 = new TFile(_inputFilename1.c_str());
310  TTree* _inputTree01 = (TTree*) _inputRootFile1->Get(_inputTreenameAlign.c_str());
311  _inputTree01->SetBranchAddress("rawid", &inputRawId1);
312  _inputTree01->SetBranchAddress("x", &inputX1);
313  _inputTree01->SetBranchAddress("y", &inputY1);
314  _inputTree01->SetBranchAddress("z", &inputZ1);
315  _inputTree01->SetBranchAddress("alpha", &inputAlpha1);
316  _inputTree01->SetBranchAddress("beta", &inputBeta1);
317  _inputTree01->SetBranchAddress("gamma", &inputGamma1);
318 
319  int nEntries1 = _inputTree01->GetEntries();
320  //fill alignments
321  for (int i = 0; i < nEntries1; ++i){
322 
323  _inputTree01->GetEntry(i);
324  CLHEP::Hep3Vector translation1(inputX1, inputY1, inputZ1);
325  CLHEP::HepEulerAngles eulerangles1(inputAlpha1,inputBeta1,inputGamma1);
326  uint32_t detid1 = inputRawId1;
327  AlignTransform transform1(translation1, eulerangles1, detid1);
328  alignments1->m_align.push_back(transform1);
329 
330  //dummy errors
331  CLHEP::HepSymMatrix clhepSymMatrix(3,0);
332  AlignTransformErrorExtended transformError(clhepSymMatrix, detid1);
333  alignmentErrors1->m_alignError.push_back(transformError);
334  }
335 
336  // to get the right order
337  std::sort( alignments1->m_align.begin(), alignments1->m_align.end(), lessAlignmentDetId<AlignTransform>() );
338  std::sort( alignmentErrors1->m_alignError.begin(), alignmentErrors1->m_alignError.end(), lessAlignmentDetId<AlignTransformErrorExtended>() );
339  }
340  //------------------
341  Alignments* alignments2 = new Alignments();
342  AlignmentErrorsExtended* alignmentErrors2 = new AlignmentErrorsExtended();
343  if (_inputFilename2 != "IDEAL"){
344  _inputRootFile2 = new TFile(_inputFilename2.c_str());
345  TTree* _inputTree02 = (TTree*) _inputRootFile2->Get(_inputTreenameAlign.c_str());
346  _inputTree02->SetBranchAddress("rawid", &inputRawId2);
347  _inputTree02->SetBranchAddress("x", &inputX2);
348  _inputTree02->SetBranchAddress("y", &inputY2);
349  _inputTree02->SetBranchAddress("z", &inputZ2);
350  _inputTree02->SetBranchAddress("alpha", &inputAlpha2);
351  _inputTree02->SetBranchAddress("beta", &inputBeta2);
352  _inputTree02->SetBranchAddress("gamma", &inputGamma2);
353 
354  int nEntries2 = _inputTree02->GetEntries();
355  //fill alignments
356  for (int i = 0; i < nEntries2; ++i){
357 
358  _inputTree02->GetEntry(i);
359  CLHEP::Hep3Vector translation2(inputX2, inputY2, inputZ2);
360  CLHEP::HepEulerAngles eulerangles2(inputAlpha2,inputBeta2,inputGamma2);
361  uint32_t detid2 = inputRawId2;
362  AlignTransform transform2(translation2, eulerangles2, detid2);
363  alignments2->m_align.push_back(transform2);
364 
365  //dummy errors
366  CLHEP::HepSymMatrix clhepSymMatrix(3,0);
367  AlignTransformErrorExtended transformError(clhepSymMatrix, detid2);
368  alignmentErrors2->m_alignError.push_back(transformError);
369  }
370 
371  //to get the right order
372  std::sort( alignments2->m_align.begin(), alignments2->m_align.end(), lessAlignmentDetId<AlignTransform>() );
373  std::sort( alignmentErrors2->m_alignError.begin(), alignmentErrors2->m_alignError.end(), lessAlignmentDetId<AlignTransformErrorExtended>() );
374  }
375 
376  //accessing the initial geometry
378  iSetup.get<IdealGeometryRecord>().get(cpv);
379  edm::ESHandle<GeometricDet> theGeometricDet;
380  iSetup.get<IdealGeometryRecord>().get(theGeometricDet);
382  iSetup.get<PTrackerParametersRcd>().get( ptp );
383  TrackerGeomBuilderFromGeometricDet trackerBuilder;
384 
385  //reference tracker
386  TrackerGeometry* theRefTracker = trackerBuilder.build(&*theGeometricDet, *ptp, tTopo );
387  if (_inputFilename1 != "IDEAL"){
388  GeometryAligner aligner1;
389  aligner1.applyAlignments<TrackerGeometry>( &(*theRefTracker), &(*alignments1), &(*alignmentErrors1),
390  AlignTransform());
391  }
392  referenceTracker = new AlignableTracker(&(*theRefTracker), tTopo);
393  //referenceTracker->setSurfaceDeformation(surfDef1, true) ;
394 
395  int inputRawid1;
396  int inputRawid2;
397  int inputDtype1, inputDtype2 ;
398  std::vector<double> inputDpar1;
399  std::vector<double> inputDpar2 ;
400  std::vector<double>* p_inputDpar1 = &inputDpar1;
401  std::vector<double>* p_inputDpar2 = &inputDpar2;
402 
403  const auto& comp1 = referenceTracker->deepComponents();
404 
405  SurfaceDeformation * surfDef1;
406  if (_inputFilename1 != "IDEAL"){
407  TTree* _inputTree11 = (TTree*) _inputRootFile1->Get(_inputTreenameDeform.c_str());
408  _inputTree11->SetBranchAddress("irawid", &inputRawid1);
409  _inputTree11->SetBranchAddress("dtype", &inputDtype1);
410  _inputTree11->SetBranchAddress("dpar", &p_inputDpar1);
411 
412  unsigned int nEntries11 = _inputTree11->GetEntries();
413  edm::LogInfo("TrackerGeometryCompare") << " nentries11 = " << nEntries11;
414  for (unsigned int iEntry = 0; iEntry < nEntries11; ++iEntry) {
415  _inputTree11->GetEntry(iEntry) ;
416 
417  surfDef1 = SurfaceDeformationFactory::create( inputDtype1, inputDpar1);
418 
419  if (int(comp1[iEntry]->id()) == inputRawid1) {
420  comp1[iEntry]->setSurfaceDeformation(surfDef1, true) ;
421  }
422 
423  }
424  }
425 
426  //currernt tracker
427  TrackerGeometry* theCurTracker = trackerBuilder.build(&*theGeometricDet, *ptp, tTopo);
428  if (_inputFilename2 != "IDEAL"){
429  GeometryAligner aligner2;
430  aligner2.applyAlignments<TrackerGeometry>( &(*theCurTracker), &(*alignments2), &(*alignmentErrors2),
431  AlignTransform());
432  }
433  currentTracker = new AlignableTracker(&(*theCurTracker), tTopo);
434 
435  const auto& comp2 = currentTracker->deepComponents();
436 
437  SurfaceDeformation * surfDef2 ;
438  if (_inputFilename2 != "IDEAL"){
439  TTree* _inputTree12 = (TTree*) _inputRootFile2->Get(_inputTreenameDeform.c_str());
440  _inputTree12->SetBranchAddress("irawid", &inputRawid2);
441  _inputTree12->SetBranchAddress("dtype", &inputDtype2);
442  _inputTree12->SetBranchAddress("dpar", &p_inputDpar2);
443 
444  unsigned int nEntries12 = _inputTree12->GetEntries();
445  edm::LogInfo("TrackerGeometryCompare") << " nentries12 = " << nEntries12;
446  for (unsigned int iEntry = 0; iEntry < nEntries12; ++iEntry) {
447  _inputTree12->GetEntry(iEntry) ;
448 
449  surfDef2 = SurfaceDeformationFactory::create( inputDtype2, inputDpar2);
450 
451  if (int(comp2[iEntry]->id()) == inputRawid2) {
452  comp2[iEntry]->setSurfaceDeformation(surfDef2, true) ;
453  }
454 
455  }
456  }
457 
458  delete alignments1;
459  delete alignmentErrors1;
460  delete alignments2;
461  delete alignmentErrors2;
462 
463 }
464 
465 void TrackerGeometryCompare::compareSurfaceDeformations(TTree* refTree, TTree* curTree) {
466 
467  if (_inputFilename1 != "IDEAL" && _inputFilename2 != "IDEAL") {
468 
469  int inputRawid1;
470  int inputRawid2;
471  int inputSubdetid1, inputSubdetid2 ;
472  int inputDtype1, inputDtype2 ;
473  std::vector<double> inputDpar1;
474  std::vector<double> inputDpar2 ;
475  std::vector<double>* p_inputDpar1 = &inputDpar1;
476  std::vector<double>* p_inputDpar2 = &inputDpar2;
477 
478  TTree* refTree = (TTree*) _inputRootFile1->Get(_inputTreenameDeform.c_str());
479  refTree->SetBranchAddress("irawid", &inputRawid1);
480  refTree->SetBranchAddress("subdetid", &inputSubdetid1);
481  refTree->SetBranchAddress("dtype", &inputDtype1);
482  refTree->SetBranchAddress("dpar", &p_inputDpar1);
483 
484  TTree* curTree = (TTree*) _inputRootFile2->Get(_inputTreenameDeform.c_str());
485  curTree->SetBranchAddress("irawid", &inputRawid2);
486  curTree->SetBranchAddress("subdetid", &inputSubdetid2);
487  curTree->SetBranchAddress("dtype", &inputDtype2);
488  curTree->SetBranchAddress("dpar", &p_inputDpar2);
489 
490  unsigned int nEntries11 = refTree->GetEntries();
491  unsigned int nEntries12 = curTree->GetEntries();
492 
493  if (nEntries11 != nEntries12) {
494  edm::LogError("TrackerGeometryCompare") << " Surface deformation parameters in two geometries differ!\n" ;
495  return ;
496  }
497 
498  for (unsigned int iEntry = 0; iEntry < nEntries12; ++iEntry) {
499  refTree->GetEntry(iEntry) ;
500  curTree->GetEntry(iEntry) ;
501  for (int ii = 0; ii < 13; ++ii) { _surfDeform[ii] = -1.0 ; }
502  for (int npar = 0; npar < int(inputDpar2.size()); ++npar ) {
503  if (inputRawid1 == inputRawid2) {
504  _surfDeform[npar] = inputDpar2.at(npar) - inputDpar1.at(npar) ;
505  std::stringstream histname0 ;
506  histname0 << "SurfDeform_Par_" << npar ;
507  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname0.str()]->Fill(_surfDeform[npar]) ;
508  if (inputSubdetid1 == 1 && inputSubdetid2 == 1) {
509  std::stringstream histname1 ;
510  histname1 << "SurfDeform_PixelBarrel_Par_" << npar ;
511  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname1.str()]->Fill(_surfDeform[npar]) ;
512  }
513  if (inputSubdetid1 == 2 && inputSubdetid2 == 2) {
514  std::stringstream histname2 ;
515  histname2 << "SurfDeform_PixelEndcap_Par_" << npar ;
516  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname2.str()]->Fill(_surfDeform[npar]) ;
517  }
518  (m_vtkmap.at(npar)).fill_current_val(inputRawid1,_surfDeform[npar]) ;
519  }
520  }
521  }
522 
523  } else if ( _inputFilename1 == "IDEAL" && _inputFilename2 != "IDEAL" ) {
524 
525  int inputRawid2;
526  int inputSubdetid2 ;
527  int inputDtype2 ;
528  std::vector<double> inputDpar2 ;
529  std::vector<double>* p_inputDpar2 = &inputDpar2;
530 
531  TTree* curTree = (TTree*) _inputRootFile2->Get(_inputTreenameDeform.c_str());
532  curTree->SetBranchAddress("irawid", &inputRawid2);
533  curTree->SetBranchAddress("subdetid", &inputSubdetid2);
534  curTree->SetBranchAddress("dtype", &inputDtype2);
535  curTree->SetBranchAddress("dpar", &p_inputDpar2);
536 
537  unsigned int nEntries12 = curTree->GetEntries();
538 
539  for (unsigned int iEntry = 0; iEntry < nEntries12; ++iEntry) {
540  curTree->GetEntry(iEntry) ;
541  for (int ii = 0; ii < 12; ++ii) { _surfDeform[ii] = -1.0 ; }
542  for (int npar = 0; npar < int(inputDpar2.size()); ++npar ) {
543  _surfDeform[npar] = inputDpar2.at(npar) ;
544  std::stringstream histname0 ;
545  histname0 << "SurfDeform_Par_" << npar ;
546  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname0.str()]->Fill(_surfDeform[npar]) ;
547  if (inputSubdetid2 == 1) {
548  std::stringstream histname1 ;
549  histname1 << "SurfDeform_PixelBarrel_Par_" << npar ;
550  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname1.str()]->Fill(_surfDeform[npar]) ;
551  }
552  if (inputSubdetid2 == 2) {
553  std::stringstream histname2 ;
554  histname2 << "SurfDeform_PixelEndcap_Par_" << npar ;
555  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname2.str()]->Fill(_surfDeform[npar]) ;
556  }
557  (m_vtkmap.at(npar)).fill_current_val(inputRawid2,_surfDeform[npar]) ;
558  }
559  }
560 
561  } else if ( _inputFilename1 != "IDEAL" && _inputFilename2 == "IDEAL" ) {
562 
563  int inputRawid1;
564  int inputSubdetid1 ;
565  int inputDtype1 ;
566  std::vector<double> inputDpar1;
567  std::vector<double>* p_inputDpar1 = &inputDpar1;
568 
569  TTree* refTree = (TTree*) _inputRootFile1->Get(_inputTreenameDeform.c_str());
570  refTree->SetBranchAddress("irawid", &inputRawid1);
571  refTree->SetBranchAddress("subdetid", &inputSubdetid1);
572  refTree->SetBranchAddress("dtype", &inputDtype1);
573  refTree->SetBranchAddress("dpar", &p_inputDpar1);
574 
575  unsigned int nEntries11 = refTree->GetEntries();
576 
577  for (unsigned int iEntry = 0; iEntry < nEntries11; ++iEntry) {
578  refTree->GetEntry(iEntry) ;
579  for (int ii = 0; ii < 12; ++ii) { _surfDeform[ii] = -1.0 ; }
580  for (int npar = 0; npar < int(inputDpar1.size()); ++npar ) {
581  _surfDeform[npar] = - inputDpar1.at(npar) ;
582  std::stringstream histname0 ;
583  histname0 << "SurfDeform_Par_" << npar ;
584  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname0.str()]->Fill(_surfDeform[npar]) ;
585  if (inputSubdetid1 == 1) {
586  std::stringstream histname1 ;
587  histname1 << "SurfDeform_PixelBarrel_Par_" << npar ;
588  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname1.str()]->Fill(_surfDeform[npar]) ;
589  }
590  if (inputSubdetid1 == 2) {
591  std::stringstream histname2 ;
592  histname2 << "SurfDeform_PixelEndcap_Par_" << npar ;
593  if ( TMath::Abs(_surfDeform[npar]) > (m_rangeHigh - m_rangeLow)/(10.*m_nBins) ) m_h1[histname2.str()]->Fill(_surfDeform[npar]) ;
594  }
595  (m_vtkmap.at(npar)).fill_current_val(inputRawid1,_surfDeform[npar]) ;
596  }
597  }
598 
599  } else if ( _inputFilename1 == "IDEAL" && _inputFilename2 == "IDEAL" ) {
600 
601  edm::LogInfo("TrackerGeometryCompare") << ">>>> Comparing IDEAL with IDEAL: nothing to do! <<<<\n" ;
602 
603  }
604 
605  return ;
606 }
607 
609 
610  using namespace align ;
611 
612  const auto& refComp = refAli->components();
613  const auto& curComp = curAli->components();
614 
615  unsigned int nComp = refComp.size();
616  //only perform for designate levels
617  bool useLevel = false;
618  for (unsigned int i = 0; i < m_theLevels.size(); ++i){
619  if (refAli->alignableObjectId() == m_theLevels[i]) useLevel = true;
620  }
621 
622  //another added level for difference between det and detunit
623  //if ((refAli->alignableObjectId()==2)&&(nComp == 1)) useLevel = false;
624 
625  //coordinate matching, etc etc
626  if (useLevel){
627  DetId detid(refAli->id());
628 
629  CLHEP::Hep3Vector Rtotal, Wtotal, lRtotal, lWtotal;
630  Rtotal.set(0.,0.,0.);
631  Wtotal.set(0.,0.,0.);
632  lRtotal.set(0.,0.,0.);
633  lWtotal.set(0.,0.,0.);
634 
635  bool converged = false;
636 
638 
639  for (int i = 0; i < 100; i++){
640 
641  // Get differences between alignments for rotations and translations
642  // both local and global
644 
645  // 'diffAlignables' returns 'refAli - curAli' for translations and 'curAli - refAli' for rotations.
646  // The plan is to unify this at some point, but a simple change of the sign for one of them was postponed
647  // to do some further checks to understand the rotations better
648  CLHEP::Hep3Vector dR(diff[0],diff[1],diff[2]);
649  CLHEP::Hep3Vector dW(diff[3],diff[4],diff[5]);
650  CLHEP::Hep3Vector dRLocal(diff[6],diff[7],diff[8]);
651  CLHEP::Hep3Vector dWLocal(diff[9],diff[10],diff[11]);
652 
653  // Translations
654  Rtotal+=dR;
655  lRtotal+=dRLocal;
656 
657  //Rotations
658  CLHEP::HepRotation rot(Wtotal.unit(),Wtotal.mag());
659  CLHEP::HepRotation drot(dW.unit(),dW.mag());
660  rot*=drot;
661  Wtotal.set(rot.axis().x()*rot.delta(), rot.axis().y()*rot.delta(), rot.axis().z()*rot.delta());
662 
663  CLHEP::HepRotation rotLocal(lWtotal.unit(),lWtotal.mag());
664  CLHEP::HepRotation drotLocal(dWLocal.unit(),dWLocal.mag());
665  rotLocal*=drotLocal;
666  lWtotal.set(rotLocal.axis().x()*rotLocal.delta(), rotLocal.axis().y()*rotLocal.delta(), rotLocal.axis().z()*rotLocal.delta());
667 
668  // Move current alignable by shift and check if difference
669  // is smaller than tolerance value
670  // if true, break the loop
671  align::moveAlignable(curAli, diff);
672  float tolerance = 1e-7;
674  align::GlobalVector checkR(check[0],check[1],check[2]);
675  align::GlobalVector checkW(check[3],check[4],check[5]);
676  if ((checkR.mag() < tolerance)&&(checkW.mag() < tolerance))
677  {
678  converged = true;
679  break;
680  }
681  }
682 
683  // give an exception if difference has not fallen below tolerance level
684  // i.e. method has not converged
685  if (!converged){
686  edm::LogInfo("TrackerGeometryCompare") << "Tolerance Exceeded!(alObjId: " << refAli->alignableObjectId()
687  << ", rawId: " << refAli->geomDetId().rawId()
688  << ", subdetId: "<< detid.subdetId() << "): " << diff << check;
689  throw cms::Exception("Tolerance in TrackerGeometryCompare exceeded");
690  }
691 
692  AlgebraicVector TRtot(12);
693  // global
694  TRtot(1) = Rtotal.x(); TRtot(2) = Rtotal.y(); TRtot(3) = Rtotal.z();
695  TRtot(4) = Wtotal.x(); TRtot(5) = Wtotal.y(); TRtot(6) = Wtotal.z();
696  // local
697  TRtot(7) = lRtotal.x(); TRtot(8) = lRtotal.y(); TRtot(9) = lRtotal.z();
698  TRtot(10) = lWtotal.x(); TRtot(11) = lWtotal.y(); TRtot(12) = lWtotal.z();
699 
700  fillTree(refAli, TRtot, tTopo, iSetup);
701  }
702 
703  // another added level for difference between det and detunit
704  for (unsigned int i = 0; i < nComp; ++i)
705  compareGeometries(refComp[i],curComp[i],tTopo,iSetup);
706 
707 }
708 
710 
711  edm::LogInfo("TrackerGeometryCompare") << "Setting Common Tracker System....";
712 
713  // DM_534??AlignableObjectId dummy;
714  // DM_534??_commonTrackerLevel = dummy.nameToType(_setCommonTrackerSystem);
716 
718 
719  align::EulerAngles dOmega(3); dOmega[0] = _TrackerCommonR.x() ; dOmega[1] = _TrackerCommonR.y(); dOmega[2] = _TrackerCommonR.z();
722 
723  edm::LogInfo("TrackerGeometryCompare") << "what we get from overlaying the pixels..." << theR << ", " << rot;
724 
725  //transform to the Tracker System
727  align::GlobalVector cmDiff( trackerCM.x()-_TrackerCommonCM.x(), trackerCM.y()-_TrackerCommonCM.y(), trackerCM.z()-_TrackerCommonCM.z() );
728 
729  edm::LogInfo("TrackerGeometryCompare") << "Pixel CM: " << _TrackerCommonCM << ", tracker CM: " << trackerCM;
730 
731  //adjust translational difference factoring in different rotational CM
732  //needed because rotateInGlobalFrame is about CM of alignable, not Tracker
733  const align::GlobalVector::BasicVectorType& lpvgf = cmDiff.basicVector();
734  align::GlobalVector moveV( rot.multiplyInverse(lpvgf) - lpvgf);
735  align::GlobalVector theRprime(theR + moveV);
736 
737  AlgebraicVector TrackerCommonTR(6);
738  TrackerCommonTR(1) = theRprime.x(); TrackerCommonTR(2) = theRprime.y(); TrackerCommonTR(3) = theRprime.z();
739  TrackerCommonTR(4) = _TrackerCommonR.x(); TrackerCommonTR(5) = _TrackerCommonR.y(); TrackerCommonTR(6) = _TrackerCommonR.z();
740 
741  edm::LogInfo("TrackerGeometryCompare") << "and after the transformation: " << TrackerCommonTR;
742 
743  align::moveAlignable(currentTracker, TrackerCommonTR );
744 
745 }
746 
748 
749  const auto& refComp = refAli->components();
750  const auto& curComp = curAli->components();
751 
752  unsigned int nComp = refComp.size();
753  //only perform for designate levels
754  bool useLevel = false;
755  if (refAli->alignableObjectId() == _commonTrackerLevel) useLevel = true;
756 
757  //useLevel = false;
758  if (useLevel){
759  CLHEP::Hep3Vector Rtotal, Wtotal;
760  Rtotal.set(0.,0.,0.); Wtotal.set(0.,0.,0.);
761 
763  CLHEP::Hep3Vector dR(diff[0],diff[1],diff[2]);
764  Rtotal+=dR;
765  CLHEP::Hep3Vector dW(diff[3],diff[4],diff[5]);
766  CLHEP::HepRotation rot(Wtotal.unit(),Wtotal.mag());
767  CLHEP::HepRotation drot(dW.unit(),dW.mag());
768  rot*=drot;
769  Wtotal.set(rot.axis().x()*rot.delta(), rot.axis().y()*rot.delta(), rot.axis().z()*rot.delta());
770  /*
771  //std::cout << "a";
772  //if (refAli->alignableObjectId() == 1) std::cout << "DIFF: " << diff << std::endl;
773  align::moveAlignable(curAli, diff);
774  float tolerance = 1e-7;
775  AlgebraicVector check = align::diffAlignables(refAli,curAli, _weightBy, _weightById, _weightByIdVector);
776  align::GlobalVector checkR(check[0],check[1],check[2]);
777  align::GlobalVector checkW(check[3],check[4],check[5]);
778  DetId detid(refAli->id());
779  if ((checkR.mag() > tolerance)||(checkW.mag() > tolerance)){
780  edm::LogInfo("TrackerGeometryCompare") << "Tolerance Exceeded!(alObjId: " << refAli->alignableObjectId()
781  << ", rawId: " << refAli->geomDetId().rawId()
782  << ", subdetId: "<< detid.subdetId() << "): " << diff;
783  }
784  else{
785  break;
786  }
787  }
788  */
789 
790  //_TrackerCommonT.set(Rtotal.x(), Rtotal.y(), Rtotal.z());
791  _TrackerCommonT = align::GlobalVector(Rtotal.x(), Rtotal.y(), Rtotal.z());
792  _TrackerCommonR = align::GlobalVector(Wtotal.x(), Wtotal.y(), Wtotal.z());
793  _TrackerCommonCM = curAli->globalPosition();
794  //_TrackerCommonTR(1) = Rtotal.x(); _TrackerCommonTR(2) = Rtotal.y(); _TrackerCommonTR(3) = Rtotal.z();
795  //_TrackerCommonTR(4) = Wtotal.x(); _TrackerCommonTR(5) = Wtotal.y(); _TrackerCommonTR(6) = Wtotal.z();
796 
797 
798  }
799  else{
800  for (unsigned int i = 0; i < nComp; ++i) diffCommonTrackerSystem(refComp[i],curComp[i]);
801  }
802 
803 
804 }
805 
807 
808  //Get bad modules
809  edm::ESHandle<SiPixelQuality> SiPixelModules;
810  iSetup.get<SiPixelQualityRcd>().get(SiPixelModules);
811  edm::ESHandle<SiStripQuality> SiStripModules;
812  iSetup.get<SiStripQualityRcd>().get(SiStripModules);
813 
814  _id = refAli->id();
815 
816  _badModuleQuality = 0;
817  //check if module has a bad quality tag
818  if (SiPixelModules->IsModuleBad(_id)){
819  _badModuleQuality = 1;
820 
821  }
822  if (SiStripModules->IsModuleBad(_id)){
823  _badModuleQuality = 1;
824  }
825 
826  //check if module is in a given list of bad/untouched etc. modules
827  _inModuleList = 0;
828  for (unsigned int i = 0 ; i< _moduleList.size(); i++){
829  if ( _moduleList[i] == _id)
830  {
831  _inModuleList = 1;
832  break;
833  }
834  }
835 
836  _level = refAli->alignableObjectId();
837  //need if ali has no mother
838  if (refAli->mother()){
839  _mid = refAli->mother()->geomDetId().rawId();
840  _mlevel = refAli->mother()->alignableObjectId();
841  }
842  else{
843  _mid = -1;
844  _mlevel = -1;
845  }
846  DetId detid(_id);
847  _sublevel = detid.subdetId();
848  fillIdentifiers(_sublevel, _id , tTopo);
849  _xVal = refAli->globalPosition().x();
850  _yVal = refAli->globalPosition().y();
851  _zVal = refAli->globalPosition().z();
853  _rVal = vec.perp();
854  _phiVal = vec.phi();
855  _etaVal = vec.eta();
857  align::EulerAngles eulerAngles = align::toAngles(rot);
858  _alphaVal = eulerAngles[0];
859  _betaVal = eulerAngles[1];
860  _gammaVal = eulerAngles[2];
861  // global
862  _dxVal = diff[0];
863  _dyVal = diff[1];
864  _dzVal = diff[2];
865  // local
866  _duVal = diff[6];
867  _dvVal = diff[7];
868  _dwVal = diff[8];
869  //...TODO...
871  //getting dR and dPhi
874  _drVal = vCur.perp() - vRef.perp();
875  _dphiVal = vCur.phi() - vRef.phi();
876  // global
877  _dalphaVal = diff[3];
878  _dbetaVal = diff[4];
879  _dgammaVal = diff[5];
880  // local
881  _daVal = diff[9];
882  _dbVal = diff[10];
883  _dgVal = diff[11];
884 
885  //detIdFlag
886  if (refAli->alignableObjectId() == align::AlignableDetUnit){
887  if (_detIdFlag){
888  if ((passIdCut(refAli->id()))||(passIdCut(refAli->mother()->id()))){
889  _useDetId = 1;
890  }
891  else{
892  _useDetId = 0;
893  }
894  }
895  }
896  // det module dimension
897  if (refAli->alignableObjectId() == align::AlignableDetUnit){
898  if (refAli->mother()->alignableObjectId() != align::AlignableDet) _detDim = 1;
899  else if (refAli->mother()->alignableObjectId() == align::AlignableDet) _detDim = 2;
900  }
901  else _detDim = 0;
902 
903  _surWidth = refAli->surface().width();
904  _surLength = refAli->surface().length();
905  align::RotationType rt = refAli->globalRotation();
906  _surRot[0] = rt.xx(); _surRot[1] = rt.xy(); _surRot[2] = rt.xz();
907  _surRot[3] = rt.yx(); _surRot[4] = rt.yy(); _surRot[5] = rt.yz();
908  _surRot[6] = rt.zx(); _surRot[7] = rt.zy(); _surRot[8] = rt.zz();
909 
910  //Fill
911  _alignTree->Fill();
912 
913 }
914 
916 
917  //getting the right alignables for the alignment record
918  auto detPB = ali->pixelHalfBarrelGeomDets();
919  auto detPEC = ali->pixelEndcapGeomDets();
920  auto detTIB = ali->innerBarrelGeomDets();
921  auto detTID = ali->TIDGeomDets();
922  auto detTOB = ali->outerBarrelGeomDets();
923  auto detTEC = ali->endcapGeomDets();
924 
925  align::Alignables allGeomDets;
926  std::copy(detPB.begin(), detPB.end(), std::back_inserter(allGeomDets));
927  std::copy(detPEC.begin(), detPEC.end(), std::back_inserter(allGeomDets));
928  std::copy(detTIB.begin(), detTIB.end(), std::back_inserter(allGeomDets));
929  std::copy(detTID.begin(), detTID.end(), std::back_inserter(allGeomDets));
930  std::copy(detTOB.begin(), detTOB.end(), std::back_inserter(allGeomDets));
931  std::copy(detTEC.begin(), detTEC.end(), std::back_inserter(allGeomDets));
932 
933  align::Alignables rcdAlis;
934  for (const auto& i: allGeomDets){
935  if (i->components().size() == 1){
936  rcdAlis.push_back(i);
937  }
938  else if (i->components().size() > 1){
939  rcdAlis.push_back(i);
940  const auto& comp = i->components();
941  for (const auto& j: comp) rcdAlis.push_back(j);
942  }
943  }
944 
945  //turning them into alignments
946  for(const auto& k: rcdAlis) {
947  const SurveyDet* surveyInfo = k->survey();
948  const align::PositionType& pos(surveyInfo->position());
949  align::RotationType rot(surveyInfo->rotation());
950  CLHEP::Hep3Vector clhepVector(pos.x(),pos.y(),pos.z());
951  CLHEP::HepRotation clhepRotation( CLHEP::HepRep3x3(rot.xx(),rot.xy(),rot.xz(),rot.yx(),rot.yy(),rot.yz(),rot.zx(),rot.zy(),rot.zz()));
952  AlignTransform transform(clhepVector, clhepRotation, k->id());
953  AlignTransformErrorExtended transformError(CLHEP::HepSymMatrix(3,1), k->id());
954  alignVals->m_align.push_back(transform);
955  alignErrors->m_alignError.push_back(transformError);
956  }
957 
958  //to get the right order
959  std::sort( alignVals->m_align.begin(), alignVals->m_align.end(), lessAlignmentDetId<AlignTransform>() );
960  std::sort( alignErrors->m_alignError.begin(), alignErrors->m_alignError.end(), lessAlignmentDetId<AlignTransformErrorExtended>() );
961 
962 }
963 
965 
966  const auto& comp = ali->components();
967 
968  unsigned int nComp = comp.size();
969 
970  for (unsigned int i = 0; i < nComp; ++i) addSurveyInfo(comp[i]);
971 
973 
974  if ( ali->geomDetId().rawId() != error.rawId() ||
975  ali->alignableObjectId() != error.structureType() )
976  {
977  throw cms::Exception("DatabaseError")
978  << "Error reading survey info from DB. Mismatched id!";
979  }
980 
981  const CLHEP::Hep3Vector& pos = theSurveyValues->m_align[theSurveyIndex].translation();
982  const CLHEP::HepRotation& rot = theSurveyValues->m_align[theSurveyIndex].rotation();
983 
984  AlignableSurface surf( align::PositionType( pos.x(), pos.y(), pos.z() ),
985  align::RotationType( rot.xx(), rot.xy(), rot.xz(),
986  rot.yx(), rot.yy(), rot.yz(),
987  rot.zx(), rot.zy(), rot.zz() ) );
988 
989  surf.setWidth( ali->surface().width() );
990  surf.setLength( ali->surface().length() );
991 
992  ali->setSurvey( new SurveyDet( surf, error.matrix() ) );
993 
994  ++theSurveyIndex;
995 
996 }
997 
999 
1000  bool pass = false;
1001  int nEntries = _detIdFlagVector.size();
1002 
1003  for (int i = 0; i < nEntries; i++){
1004  if (_detIdFlagVector[i] == id) pass = true;
1005  }
1006 
1007  return pass;
1008 
1009 }
1010 
1011 void TrackerGeometryCompare::fillIdentifiers( int subdetlevel, int rawid, const TrackerTopology* tTopo){
1012 
1013 
1014  switch( subdetlevel ){
1015 
1016  case 1:
1017  {
1018 
1019  _identifiers[0] = tTopo->pxbModule( rawid );
1020  _identifiers[1] = tTopo->pxbLadder( rawid );
1021  _identifiers[2] = tTopo->pxbLayer( rawid );
1022  _identifiers[3] = 999;
1023  _identifiers[4] = 999;
1024  _identifiers[5] = 999;
1025  break;
1026  }
1027  case 2:
1028  {
1029 
1030  _identifiers[0] = tTopo->pxfModule( rawid );
1031  _identifiers[1] = tTopo->pxfPanel( rawid );
1032  _identifiers[2] = tTopo->pxfBlade( rawid );
1033  _identifiers[3] = tTopo->pxfDisk( rawid );
1034  _identifiers[4] = tTopo->pxfSide( rawid );
1035  _identifiers[5] = 999;
1036  break;
1037  }
1038  case 3:
1039  {
1040 
1041  _identifiers[0] = tTopo->tibModule( rawid );
1042  _identifiers[1] = tTopo->tibStringInfo( rawid )[0];
1043  _identifiers[2] = tTopo->tibStringInfo( rawid )[1];
1044  _identifiers[3] = tTopo->tibStringInfo( rawid )[2];
1045  _identifiers[4] = tTopo->tibLayer( rawid );
1046  _identifiers[5] = 999;
1047  break;
1048  }
1049  case 4:
1050  {
1051 
1052  _identifiers[0] = tTopo->tidModuleInfo( rawid )[0];
1053  _identifiers[1] = tTopo->tidModuleInfo( rawid )[1];
1054  _identifiers[2] = tTopo->tidRing( rawid );
1055  _identifiers[3] = tTopo->tidWheel( rawid );
1056  _identifiers[4] = tTopo->tidSide( rawid );
1057  _identifiers[5] = 999;
1058  break;
1059  }
1060  case 5:
1061  {
1062 
1063  _identifiers[0] = tTopo->tobModule( rawid );
1064  _identifiers[1] = tTopo->tobRodInfo( rawid )[0];
1065  _identifiers[2] = tTopo->tobRodInfo( rawid )[1];
1066  _identifiers[3] = tTopo->tobLayer( rawid );
1067  _identifiers[4] = 999;
1068  _identifiers[5] = 999;
1069  break;
1070  }
1071  case 6:
1072  {
1073 
1074  _identifiers[0] = tTopo->tecModule( rawid );
1075  _identifiers[1] = tTopo->tecRing( rawid );
1076  _identifiers[2] = tTopo->tecPetalInfo( rawid )[0];
1077  _identifiers[3] = tTopo->tecPetalInfo( rawid )[1];
1078  _identifiers[4] = tTopo->tecWheel( rawid );
1079  _identifiers[5] = tTopo->tecSide( rawid );
1080  break;
1081  }
1082  default:
1083  {
1084  edm::LogInfo("TrackerGeometryCompare") << "Error: bad subdetid!!";
1085  break;
1086  }
1087 
1088  }
1089 }
1090 
1091 
T xx() const
align::Scalar width() const
align::StructureType stringToId(const char *) const
align::ID id() const
Return the ID of Alignable, i.e. DetId of &#39;first&#39; component GeomDet(Unit).
Definition: Alignable.h:189
T getUntrackedParameter(std::string const &, T const &) const
Alignables & pixelHalfBarrelGeomDets()
Return pixel barrel GeomDets.
align::GlobalVector _TrackerCommonR
T perp() const
Definition: PV3DBase.h:72
unsigned int tibLayer(const DetId &id) const
unsigned int tidRing(const DetId &id) const
def copy(args, dbName)
Vector3DBase< Scalar, GlobalTag > GlobalVector
Definition: Definitions.h:33
void compareGeometries(Alignable *refAli, Alignable *curAli, const TrackerTopology *tTopo, const edm::EventSetup &iSetup)
Class to update a given geometry with a set of alignments.
std::vector< unsigned int > tidModuleInfo(const DetId &id) const
std::vector< align::StructureType > m_theLevels
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
unsigned int pxfDisk(const DetId &id) const
ErrorMatrix matrix() const
Definition: SurveyError.h:76
const Alignments * theSurveyValues
unsigned int tecRing(const DetId &id) const
ring id
void addSurveyInfo(Alignable *ali)
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
unsigned int pxbLadder(const DetId &id) const
align::GlobalVector _TrackerCommonT
T y() const
Definition: PV3DBase.h:63
T yx() const
AlgebraicVector diffAlignables(Alignable *refAli, Alignable *curAli, const std::string &weightBy, bool weightById, const std::vector< unsigned int > &weightByIdVector)
Definition: AlignTools.cc:10
void diffCommonTrackerSystem(Alignable *refAli, Alignable *curAli)
unsigned int tidWheel(const DetId &id) const
unsigned int pxbModule(const DetId &id) const
std::vector< TrackerMap > m_vtkmap
const RotationType & globalRotation() const
Return the global orientation of the object.
Definition: Alignable.h:141
TrackerGeometry * build(const GeometricDet *gd, const PTrackerParameters &ptp, const TrackerTopology *tTopo)
void setWidth(align::Scalar width)
virtual const Alignables & components() const =0
Return vector of all direct components.
#define nullptr
uint8_t structureType() const
Definition: SurveyError.h:66
std::vector< unsigned int > tibStringInfo(const DetId &id) const
std::vector< AlignTransform > m_align
Definition: Alignments.h:19
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4
const align::RotationType & rotation() const
Definition: SurveyDet.h:68
uint32_t rawId() const
get the raw id
Definition: DetId.h:44
void setLength(align::Scalar length)
T zx() const
T xy() const
const align::PositionType & position() const
Definition: SurveyDet.h:63
std::map< std::string, TH1D * > m_h1
T zz() const
std::vector< unsigned int > tecPetalInfo(const DetId &id) const
T mag() const
Definition: PV3DBase.h:67
unsigned int tidSide(const DetId &id) const
virtual StructureType alignableObjectId() const =0
Return the alignable type identifier.
std::vector< unsigned int > tobRodInfo(const DetId &id) const
Alignables & innerBarrelGeomDets()
Return inner barrel GeomDets.
T z() const
Definition: PV3DBase.h:64
Alignables & TIDGeomDets()
Return TID GeomDets.
std::vector< uint32_t > _detIdFlagVector
T Abs(T a)
Definition: MathUtil.h:49
bool isAvailable() const
Definition: Service.h:46
T zy() const
bool IsModuleBad(const uint32_t &detid) const
align::ID rawId() const
Definition: SurveyError.h:71
void beginJob() override
Read from DB and print survey info.
void analyze(const edm::Event &, const edm::EventSetup &) override
void writeOne(T *payload, Time_t time, const std::string &recordName, bool withlogging=false)
TrackerGeometryCompare(const edm::ParameterSet &)
Do nothing. Required by framework.
T * make(const Args &...args) const
make new ROOT object
EulerAngles toAngles(const RotationType &)
Convert rotation matrix to angles about x-, y-, z-axes (frame rotation).
Definition: Utilities.cc:9
align::StructureType _commonTrackerLevel
T yy() const
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:38
const AlignableObjectId & objectIdProvider() const
Return tracker alignable object ID provider derived from the tracker&#39;s geometry.
bool IsModuleBad(const uint32_t &detid) const
Alignables & endcapGeomDets()
Return endcap GeomDets.
align::PositionType _TrackerCommonCM
const AlignableSurface & surface() const
Return the Surface (global position and orientation) of the object.
Definition: Alignable.h:135
unsigned int tibModule(const DetId &id) const
Alignables & pixelEndcapGeomDets()
Return pixel endcap GeomDets.
unsigned int pxfModule(const DetId &id) const
void fillTree(Alignable *refAli, const AlgebraicVector &diff, const TrackerTopology *tTopo, const edm::EventSetup &iSetup)
ii
Definition: cuy.py:588
int k[5][pyjets_maxn]
unsigned int pxbLayer(const DetId &id) const
unsigned int tecModule(const DetId &id) const
Definition: DetId.h:18
void applyAlignments(C *geometry, const Alignments *alignments, const AlignmentErrorsExtended *alignmentErrors, const AlignTransform &globalCoordinates)
CLHEP::HepVector AlgebraicVector
AlgebraicVector EulerAngles
Definition: Definitions.h:36
align::Scalar length() const
Alignables & outerBarrelGeomDets()
Return outer barrel GeomDets.
AlignableTracker * currentTracker
TFileDirectory mkdir(const std::string &dir, const std::string &descr="")
create a new subdirectory
Definition: TFileService.h:69
void surveyToTracker(AlignableTracker *ali, Alignments *alignVals, AlignmentErrorsExtended *alignErrors)
std::vector< AlignTransformErrorExtended > m_alignError
const std::vector< std::string > _levelStrings
void setSurvey(const SurveyDet *)
Set survey info.
Definition: Alignable.cc:343
const T & get() const
Definition: EventSetup.h:59
void fillIdentifiers(int subdetlevel, int rawid, const TrackerTopology *tTopo)
std::vector< Alignable * > Alignables
Definition: Utilities.h:32
unsigned int tobModule(const DetId &id) const
return(e1-e2)*(e1-e2)+dp *dp
T eta() const
Definition: PV3DBase.h:76
AlignableTracker * referenceTracker
Alignments * alignments() const override
Return alignments, sorted by DetId.
void createROOTGeometry(const edm::EventSetup &iSetup)
T xz() const
AlignmentErrorsExtended * alignmentErrors() const override
Return alignment errors, sorted by DetId.
RotationType toMatrix(const EulerAngles &)
Convert rotation angles about x-, y-, z-axes to matrix.
Definition: Utilities.cc:42
unsigned int pxfSide(const DetId &id) const
const SurveyErrors * theSurveyErrors
std::vector< unsigned int > _weightByIdVector
const PositionType & globalPosition() const
Return the global position of the object.
Definition: Alignable.h:138
std::vector< int > _moduleList
std::vector< SurveyError > m_surveyErrors
Definition: SurveyErrors.h:23
def check(config)
Definition: trackerTree.py:14
T x() const
Definition: PV3DBase.h:62
unsigned int tecWheel(const DetId &id) const
void moveAlignable(Alignable *ali, AlgebraicVector diff)
Moves the alignable by the AlgebraicVector.
Definition: AlignTools.cc:81
T const * product() const
Definition: ESHandle.h:86
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:94
SurfaceDeformation * create(int type, const std::vector< double > &params)
T yz() const
const DetId & geomDetId() const
Definition: Alignable.h:186
unsigned int pxfPanel(const DetId &id) const
unsigned int pxfBlade(const DetId &id) const
unsigned int tobLayer(const DetId &id) const
void compareSurfaceDeformations(TTree *_inputTree11, TTree *_inputTree12)
unsigned int tecSide(const DetId &id) const