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NtupleManager Class Reference

#include <NtupleManager.h>

Public Member Functions

void BookNtuple ()
 
void FillChi2 ()
 
void FillFitParameters (MatrixMeschach *AtWAMatrix)
 
void FillMeasurements ()
 
void FillNtupleTree ()
 
void FillOptObjects (MatrixMeschach *AtWAMatrix)
 
void InitNtuple ()
 
 NtupleManager ()
 
void WriteNtuple ()
 
 ~NtupleManager ()
 

Static Public Member Functions

static NtupleManagergetInstance ()
 

Private Member Functions

void GetGlobalAngles (const CLHEP::HepRotation &rmGlob, double *theta)
 

Private Attributes

double Chi2CalibratedParameters
 
double Chi2Measurements
 
TClonesArray * CloneCopsMeas
 
TClonesArray * CloneDistancemeter1DimMeas
 
TClonesArray * CloneDistancemeterMeas
 
TClonesArray * CloneFitParam
 
TClonesArray * CloneOptObject
 
TClonesArray * CloneSensor2DMeas
 
TClonesArray * CloneTiltmeterMeas
 
TTree * CocoaTree
 
CopsMeasCopsMeasA
 
Distancemeter1DimMeasDistancemeter1DimMeasA
 
DistancemeterMeasDistancemeterMeasA
 
FitParamFitParamA
 
int NCops
 
int NDegreesOfFreedom
 
int NDistancemeter
 
int NDistancemeter1Dim
 
int NFitParameters
 
int NOptObjects
 
int NSensor2D
 
int NTiltmeter
 
OptObjectOptObjectA
 
Sensor2DMeasSensor2DMeasA
 
TFile * theRootFile
 
TiltmeterMeasTiltmeterMeasA
 

Static Private Attributes

static NtupleManagerinstance = nullptr
 

Detailed Description

Definition at line 20 of file NtupleManager.h.

Constructor & Destructor Documentation

◆ NtupleManager()

NtupleManager::NtupleManager ( )
inline

Definition at line 23 of file NtupleManager.h.

23 {};

Referenced by getInstance().

◆ ~NtupleManager()

NtupleManager::~NtupleManager ( )
inline

Definition at line 24 of file NtupleManager.h.

24 {};

Member Function Documentation

◆ BookNtuple()

void NtupleManager::BookNtuple ( )

Definition at line 39 of file NtupleManager.cc.

39  {
40  theRootFile = new TFile("report.root", "RECREATE", "Simple ROOT Ntuple");
41 
42  CocoaTree = new TTree("CocoaTree", "CocoaTree");
43 
44  CocoaTree->Branch("Chi2Measurements", &Chi2Measurements, "Chi2Measurements/D");
45  CocoaTree->Branch("Chi2CalibratedParameters", &Chi2CalibratedParameters, "Chi2CalibratedParameters/D");
46  CocoaTree->Branch("NDegreesOfFreedom", &NDegreesOfFreedom, "NDegreesOfFreedom/I");
47 
48  CloneFitParam = new TClonesArray("FitParam");
49  CocoaTree->Branch("FitParameters", &CloneFitParam, 32000, 2);
50  CocoaTree->Branch("NFitParameters", &NFitParameters, "NFitParameters/I");
51 
52  CloneOptObject = new TClonesArray("OptObject");
53  CocoaTree->Branch("OptObjects", &CloneOptObject, 32000, 2);
54  CocoaTree->Branch("NOptObjects", &NOptObjects, "NOptObjects/I");
55 
56  CloneSensor2DMeas = new TClonesArray("Sensor2DMeas");
57  CocoaTree->Branch("Sensor2DMeasurements", &CloneSensor2DMeas, 32000, 2);
58  CocoaTree->Branch("NSensor2D", &NSensor2D, "NSensor2D/I");
59 
60  CloneDistancemeterMeas = new TClonesArray("DistancemeterMeas");
61  CocoaTree->Branch("DistancemeterMeasurements", &CloneDistancemeterMeas, 32000, 2);
62  CocoaTree->Branch("NDistancemeter", &NDistancemeter, "NDistancemeter/I");
63 
64  CloneDistancemeter1DimMeas = new TClonesArray("Distancemeter1DimMeas");
65  CocoaTree->Branch("Distancemeter1DimMeasurements", &CloneDistancemeter1DimMeas, 32000, 2);
66  CocoaTree->Branch("NDistancemeter1Dim", &NDistancemeter1Dim, "NDistancemeter1Dim/I");
67 
68  CloneTiltmeterMeas = new TClonesArray("TiltmeterMeas");
69  CocoaTree->Branch("TiltmeterMeasurements", &CloneTiltmeterMeas, 32000, 2);
70  CocoaTree->Branch("NTiltmeter", &NTiltmeter, "NTiltmeter/I");
71 
72  CloneCopsMeas = new TClonesArray("CopsMeas");
73  CocoaTree->Branch("CopsMeasurements", &CloneCopsMeas, 32000, 2);
74  CocoaTree->Branch("NCops", &NCops, "NCops/I");
75 
76  theRootFile->Add(CocoaTree);
77 
78  // FitParametersTree = new TTree("FitParametersTree","FitParametersTree");
79  // FitParametersTree->Branch("NFitParameters",&NFitParameters,"NFitParameters/I");
80  // BookFitParameters = false;
81  // theRootFile->Add(FitParametersTree);
82 
83  // MeasurementsTree = new TTree("MeasurementsTree","MeasurementsTree");
84  // MeasurementsTree->Branch("NMeasurements",&NMeasurements,"NMeasurements/I");
85  // BookMeasurements = false;
86  // theRootFile->Add(MeasurementsTree);
87 }

References Chi2CalibratedParameters, Chi2Measurements, CloneCopsMeas, CloneDistancemeter1DimMeas, CloneDistancemeterMeas, CloneFitParam, CloneOptObject, CloneSensor2DMeas, CloneTiltmeterMeas, CocoaTree, NCops, NDegreesOfFreedom, NDistancemeter, NDistancemeter1Dim, NFitParameters, NOptObjects, NSensor2D, NTiltmeter, and theRootFile.

Referenced by Fit::startFit().

◆ FillChi2()

void NtupleManager::FillChi2 ( )

Definition at line 119 of file NtupleManager.cc.

119  {
120  double chi2meas = 0;
121  double chi2cal = 0;
122  ALIint nMeas = 0, nUnk = 0;
123 
124  //----- Calculate the chi2 of measurements
125  std::vector<Measurement*>::const_iterator vmcite;
126  for (vmcite = Model::MeasurementList().begin(); vmcite != Model::MeasurementList().end(); ++vmcite) {
127  for (ALIuint ii = 0; ii < ALIuint((*vmcite)->dim()); ii++) {
128  nMeas++;
129  double c2 = ((*vmcite)->value(ii) - (*vmcite)->valueSimulated(ii)) / (*vmcite)->sigma(ii);
130  chi2meas += c2 * c2;
131  }
132  }
133 
134  //----- Calculate the chi2 of calibrated parameters
135  std::vector<Entry*>::iterator veite;
136  for (veite = Model::EntryList().begin(); veite != Model::EntryList().end(); ++veite) {
137  if ((*veite)->quality() == 2)
138  nUnk++;
139  if ((*veite)->quality() == 1) {
140  // std::cout << " " << (*veite)->valueDisplacementByFitting() << " "
141  // << (*veite)->value << " " << (*veite)->sigma() << std::endl;
142  double c2 = (*veite)->valueDisplacementByFitting() / (*veite)->sigma();
143  chi2cal += c2 * c2;
144  }
145  }
146 
147  Chi2Measurements = chi2meas;
148  Chi2CalibratedParameters = chi2cal;
149  NDegreesOfFreedom = nMeas - nUnk;
150 }

References Chi2CalibratedParameters, Chi2Measurements, Model::EntryList(), cuy::ii, Model::MeasurementList(), and NDegreesOfFreedom.

Referenced by Fit::fitNextEvent().

◆ FillFitParameters()

void NtupleManager::FillFitParameters ( MatrixMeschach AtWAMatrix)

Definition at line 154 of file NtupleManager.cc.

154  {
155  // double ParValue[1000], ParError[1000];
156  int theMinEntryQuality = 1;
157  int ii = 0;
158  std::vector<Entry*>::const_iterator vecite;
159  for (vecite = Model::EntryList().begin(); vecite != Model::EntryList().end(); ++vecite) {
160  //--- Only for good quality parameters (='unk')
161  if ((*vecite)->quality() >= theMinEntryQuality) {
162  ALIint ipos = (*vecite)->fitPos();
163  FittedEntry* fe = new FittedEntry((*vecite), ipos, sqrt(AtWAMatrix->Mat()->me[ipos][ipos]));
164  // if (!BookFitParameters) {
165  // CocoaTree->Branch("NFitParameters",&NFitParameters,"NFitParameters/I:");
166  // ALIstring partype = fe->getName() + "/D";
167  // FitParametersTree->Branch(fe->getName().c_str(), &ParValue[ii], partype.c_str());
168  // ALIstring parerrname = fe->getName() + "_err";
169  // ALIstring parerrtype = parerrname + "/D";
170  // FitParametersTree->Branch(parerrname.c_str(), &ParError[ii], parerrtype.c_str());
171  // }
172  // ParValue[ii] = fe->getValue();
173  // ParError[ii] = fe->getSigma();
174  std::cout << "EEE " << (*vecite)->ValueDimensionFactor() << " " << (*vecite)->SigmaDimensionFactor() << " "
175  << fe->getOptOName() << " " << fe->getEntryName() << " " << fe->getName() << " " << fe->getOrder()
176  << " " << fe->getQuality() << " " << (*vecite)->type() << " " << std::endl;
177  FitParamA = new ((*CloneFitParam)[ii]) FitParam();
178  FitParamA->Name = fe->getName();
179  if (fe->getQuality() == 1)
180  FitParamA->Quality = "Calibrated";
181  else if (fe->getQuality() == 2)
182  FitParamA->Quality = "Unknown";
183  for (int no = 0; no < NOptObjects; no++) {
184  OptObject* optobj = (OptObject*)CloneOptObject->At(no);
185  if (optobj->Name == fe->getOptOName())
187  }
188  float DF = 1.;
189  if ((*vecite)->type() == "centre" || (*vecite)->type() == "length")
190  DF = 1000.;
191  FitParamA->InitialValue = DF * fe->getOrigValue() * (*vecite)->ValueDimensionFactor();
192  FitParamA->InitialSigma = DF * fe->getOrigSigma() * (*vecite)->SigmaDimensionFactor();
193  FitParamA->FittedValue = DF * fe->getValue() * (*vecite)->ValueDimensionFactor();
194  FitParamA->FittedSigma = DF * fe->getSigma() * (*vecite)->SigmaDimensionFactor();
195  ii++;
196  }
197  }
198  // BookFitParameters = true;
199  NFitParameters = ii;
200  // FitParametersTree->Fill();
201 
202  /*
203  //---------- Loop sets of entries
204  std::vector< FittedEntriesSet* > theFittedEntriesSets;
205  std::vector< FittedEntriesSet* >::const_iterator vfescite;
206  std::vector< FittedEntry* >::const_iterator vfecite;
207  ALIint jj = 1;
208  for( vfescite = theFittedEntriesSets.begin(); vfescite != theFittedEntriesSets.end(); vfescite++) {
209  //---------- Loop entries
210  if( vfescite == theFittedEntriesSets.begin() ) {
211  //----- dump entries names if first set
212  ALIint ii = 0;
213  for( vfecite = ((*vfescite)->FittedEntries()).begin(); vfecite != ((*vfescite)->FittedEntries()).end(); vfecite++) {
214  ALIstring partype = (*vfecite)->getName() + "/D";
215  FitParametersTree->Branch((*vfecite)->getName().c_str(), &ParValue[ii], partype.c_str());
216  ALIstring parerrname = (*vfecite)->getName() + "_err";
217  ALIstring parerrtype = parerrname + "/D";
218  FitParametersTree->Branch(parerrname.c_str(), &ParError[ii], parerrtype.c_str());
219  ii++;
220  }
221  }
222  ALIint ii = 0;
223  for( vfecite = ((*vfescite)->FittedEntries()).begin(); vfecite != ((*vfescite)->FittedEntries()).end(); vfecite++) {
224  ParValue[ii] = (*vfecite)->getValue();
225  ParError[ii] = (*vfecite)->getSigma();
226  ii++;
227  }
228  NFitParameters = ii;
229  FitParametersTree->Fill();
230  jj++;
231  }
232  */
233 }

References CloneOptObject, gather_cfg::cout, Model::EntryList(), FitParamA, FitParam::FittedSigma, FitParam::FittedValue, cms::cuda::for(), FittedEntry::getEntryName(), FittedEntry::getName(), FittedEntry::getOptOName(), FittedEntry::getOrder(), FittedEntry::getOrigSigma(), FittedEntry::getOrigValue(), FittedEntry::getQuality(), FittedEntry::getSigma(), FittedEntry::getValue(), if(), cuy::ii, FitParam::InitialSigma, FitParam::InitialValue, MatrixMeschach::Mat(), FitParam::Name, OptObject::Name, NFitParameters, NOptObjects, FitParam::OptObjectIndex, FitParam::Quality, and mathSSE::sqrt().

Referenced by Fit::fitNextEvent().

◆ FillMeasurements()

void NtupleManager::FillMeasurements ( )

Definition at line 287 of file NtupleManager.cc.

287  {
288  //---------- Loop Measurements
289  int ss = 0, dd = 0, d1 = 0, tt = 0, cc = 0;
290  std::vector<Measurement*>::const_iterator vmcite;
291  for (vmcite = Model::MeasurementList().begin(); vmcite != Model::MeasurementList().end(); ++vmcite) {
292  std::vector<ALIstring> optonamelist = (*vmcite)->OptONameList();
293  int last = optonamelist.size() - 1;
294  ALIstring LastOptOName = optonamelist[last];
295  int optoind = -999;
296  for (int no = 0; no < NOptObjects; no++) {
297  OptObject* optobj = (OptObject*)CloneOptObject->At(no);
298  if (optobj->Name == LastOptOName)
299  optoind = no;
300  }
301  //std::cout << "DimSens " << (*vmcite)->type() << " " << (*vmcite)->sigma(0) << " " << LastOptOName << " " << optoind << std::endl;
302  if ((*vmcite)->type() == "SENSOR2D") {
303  Sensor2DMeasA = new ((*CloneSensor2DMeas)[ss]) Sensor2DMeas();
304  Sensor2DMeasA->Name = (*vmcite)->name();
305  Sensor2DMeasA->OptObjectIndex = optoind;
306  for (ALIuint i = 0; i < (*vmcite)->dim(); i++) {
307  Sensor2DMeasA->Position[i] = 1000. * (*vmcite)->value()[i];
308  Sensor2DMeasA->PosError[i] = 1000. * (*vmcite)->sigma()[i];
309  Sensor2DMeasA->SimulatedPosition[i] = 1000. * (*vmcite)->valueSimulated(i);
310  }
311  ss++;
312  }
313  if ((*vmcite)->type() == "DISTANCEMETER") {
314  DistancemeterMeasA = new ((*CloneDistancemeterMeas)[dd]) DistancemeterMeas();
315  DistancemeterMeasA->Name = (*vmcite)->name();
317  DistancemeterMeasA->Distance = 1000. * (*vmcite)->value()[0];
318  DistancemeterMeasA->DisError = 1000. * (*vmcite)->sigma()[0];
319  DistancemeterMeasA->SimulatedDistance = 1000. * (*vmcite)->valueSimulated(0);
320  dd++;
321  }
322  if ((*vmcite)->type() == "DISTANCEMETER1DIM") {
323  Distancemeter1DimMeasA = new ((*CloneDistancemeter1DimMeas)[d1]) Distancemeter1DimMeas();
324  Distancemeter1DimMeasA->Name = (*vmcite)->name();
326  Distancemeter1DimMeasA->Distance = 1000. * (*vmcite)->value()[0];
327  Distancemeter1DimMeasA->DisError = 1000. * (*vmcite)->sigma()[0];
328  Distancemeter1DimMeasA->SimulatedDistance = 1000. * (*vmcite)->valueSimulated(0);
329  d1++;
330  }
331  if ((*vmcite)->type() == "TILTMETER") {
332  TiltmeterMeasA = new ((*CloneTiltmeterMeas)[tt]) TiltmeterMeas();
333  TiltmeterMeasA->Name = (*vmcite)->name();
334  TiltmeterMeasA->OptObjectIndex = optoind;
335  TiltmeterMeasA->Angle = (*vmcite)->value()[0];
336  TiltmeterMeasA->AngError = (*vmcite)->sigma()[0];
337  TiltmeterMeasA->SimulatedAngle = (*vmcite)->valueSimulated(0);
338  tt++;
339  }
340  if ((*vmcite)->type() == "COPS") {
341  CopsMeasA = new ((*CloneCopsMeas)[cc]) CopsMeas();
342  CopsMeasA->Name = (*vmcite)->name();
343  CopsMeasA->OptObjectIndex = optoind;
344  for (ALIuint i = 0; i < (*vmcite)->dim(); i++) {
345  CopsMeasA->Position[i] = 1000. * (*vmcite)->value()[i];
346  CopsMeasA->PosError[i] = 1000. * (*vmcite)->sigma()[i];
347  CopsMeasA->SimulatedPosition[i] = 1000. * (*vmcite)->valueSimulated(i);
348  }
349  cc++;
350  }
351  }
352  NSensor2D = ss;
353  NDistancemeter = dd;
355  NTiltmeter = tt;
356  NCops = cc;
357  // MeasurementsTree->Fill();
358 }

References TiltmeterMeas::AngError, TiltmeterMeas::Angle, CloneOptObject, CopsMeasA, d1, createTree::dd, DistancemeterMeas::DisError, Distancemeter1DimMeas::DisError, DistancemeterMeas::Distance, Distancemeter1DimMeas::Distance, Distancemeter1DimMeasA, DistancemeterMeasA, mps_fire::i, dqmdumpme::last, Model::MeasurementList(), OptObject::Name, Sensor2DMeas::Name, DistancemeterMeas::Name, Distancemeter1DimMeas::Name, TiltmeterMeas::Name, CopsMeas::Name, NCops, NDistancemeter, NDistancemeter1Dim, NOptObjects, NSensor2D, NTiltmeter, Sensor2DMeas::OptObjectIndex, DistancemeterMeas::OptObjectIndex, Distancemeter1DimMeas::OptObjectIndex, TiltmeterMeas::OptObjectIndex, CopsMeas::OptObjectIndex, Sensor2DMeas::PosError, CopsMeas::PosError, Sensor2DMeas::Position, CopsMeas::Position, Sensor2DMeasA, TiltmeterMeas::SimulatedAngle, DistancemeterMeas::SimulatedDistance, Distancemeter1DimMeas::SimulatedDistance, Sensor2DMeas::SimulatedPosition, CopsMeas::SimulatedPosition, contentValuesCheck::ss, TiltmeterMeasA, and groupFilesInBlocks::tt.

Referenced by Fit::fitNextEvent().

◆ FillNtupleTree()

void NtupleManager::FillNtupleTree ( )

Definition at line 108 of file NtupleManager.cc.

108 { CocoaTree->Fill(); }

References CocoaTree.

Referenced by Fit::fitNextEvent().

◆ FillOptObjects()

void NtupleManager::FillOptObjects ( MatrixMeschach AtWAMatrix)

Definition at line 237 of file NtupleManager.cc.

237  {
238  int ii = 0;
239  std::vector<OpticalObject*>::const_iterator vecobj;
240  for (vecobj = Model::OptOList().begin(); vecobj != Model::OptOList().end(); ++vecobj) {
241  OptObjectA = new ((*CloneOptObject)[ii]) OptObject();
242 
243  OptObjectA->Name = (*vecobj)->name();
244  OptObjectA->Type = (*vecobj)->type();
245 
246  if (!(*vecobj)->parent()) {
247  OptObjectA->Parent = ii;
248  ii++;
249  continue;
250  }
251 
252  int pp = 0;
253  std::vector<OpticalObject*>::const_iterator vecobj2;
254  for (vecobj2 = Model::OptOList().begin(); vecobj2 != Model::OptOList().end(); ++vecobj2) {
255  if ((*vecobj2)->name() == (*vecobj)->parent()->name()) {
256  OptObjectA->Parent = pp;
257  continue;
258  }
259  pp++;
260  }
261 
262  OptObjectA->CentreGlobal[0] = 1000. * (*vecobj)->centreGlobal().x();
263  OptObjectA->CentreGlobal[1] = 1000. * (*vecobj)->centreGlobal().y();
264  OptObjectA->CentreGlobal[2] = 1000. * (*vecobj)->centreGlobal().z();
265 
266  OptObjectA->CentreLocal[0] = 1000. * (*vecobj)->centreLocal().x();
267  OptObjectA->CentreLocal[1] = 1000. * (*vecobj)->centreLocal().y();
268  OptObjectA->CentreLocal[2] = 1000. * (*vecobj)->centreLocal().z();
269 
270  OptObjectA->AnglesLocal[0] = (*vecobj)->getEntryRMangle(XCoor);
271  OptObjectA->AnglesLocal[1] = (*vecobj)->getEntryRMangle(YCoor);
272  OptObjectA->AnglesLocal[2] = (*vecobj)->getEntryRMangle(ZCoor);
273 
274  double theta[3];
275  GetGlobalAngles((*vecobj)->rmGlob(), theta);
276  for (int i = 0; i < 3; i++)
278 
279  ii++;
280  }
281 
282  NOptObjects = ii;
283 }

References OptObject::AnglesGlobal, OptObject::AnglesLocal, OptObject::CentreGlobal, OptObject::CentreLocal, GetGlobalAngles(), mps_fire::i, cuy::ii, OptObject::Name, NOptObjects, OptObjectA, Model::OptOList(), OptObject::Parent, createTree::pp, theta(), OptObject::Type, XCoor, YCoor, and ZCoor.

Referenced by Fit::fitNextEvent().

◆ GetGlobalAngles()

void NtupleManager::GetGlobalAngles ( const CLHEP::HepRotation &  rmGlob,
double *  theta 
)
private

Definition at line 362 of file NtupleManager.cc.

362  {
363  double xx = rmGlob.xx();
364  if (fabs(xx) < 1.e-08)
365  xx = 0.;
366  double xy = rmGlob.xy();
367  if (fabs(xy) < 1.e-08)
368  xy = 0.;
369  double xz = rmGlob.xz();
370  if (fabs(xz) < 1.e-08)
371  xz = 0.;
372  double yx = rmGlob.yx();
373  if (fabs(yx) < 1.e-08)
374  yx = 0.;
375  double yy = rmGlob.yy();
376  if (fabs(yy) < 1.e-08)
377  yy = 0.;
378  double yz = rmGlob.yz();
379  if (fabs(yz) < 1.e-08)
380  yz = 0.;
381  double zx = rmGlob.zx();
382  if (fabs(zx) < 1.e-08)
383  zx = 0.;
384  double zy = rmGlob.zy();
385  if (fabs(zy) < 1.e-08)
386  zy = 0.;
387  double zz = rmGlob.zz();
388  if (fabs(zz) < 1.e-08)
389  zz = 0.;
390 
391  double beta = asin(-zx);
392 
393  double alpha, gamma;
394  if (fabs(zx) != 1.) {
395  double sinalpha = zy / cos(beta);
396  double cosalpha = zz / cos(beta);
397  if (cosalpha >= 0)
398  alpha = asin(sinalpha);
399  else
400  alpha = M_PI - asin(sinalpha);
401  if (alpha > M_PI)
402  alpha -= 2 * M_PI;
403 
404  double singamma = yx / cos(beta);
405  double cosgamma = xx / cos(beta);
406  if (cosgamma >= 0)
407  gamma = asin(singamma);
408  else
409  gamma = M_PI - asin(singamma);
410  if (gamma > M_PI)
411  gamma -= 2 * M_PI;
412 
413  } else {
414  alpha = 0.;
415 
416  double singamma = yz / sin(beta);
417  double cosgamma = yy;
418  if (cosgamma >= 0)
419  gamma = asin(singamma);
420  else
421  gamma = M_PI - asin(singamma);
422  if (gamma > M_PI)
423  gamma -= 2 * M_PI;
424  }
425 
426  int GotGlobalAngles = 0;
427  if (fabs(xy - (sin(alpha) * sin(beta) * cos(gamma) - sin(gamma) * cos(alpha))) > 1.e-08)
428  GotGlobalAngles += 1;
429  if (fabs(xz - (cos(alpha) * sin(beta) * cos(gamma) + sin(gamma) * sin(alpha))) > 1.e-08)
430  GotGlobalAngles += 10;
431  if (fabs(yy - (sin(alpha) * sin(beta) * sin(gamma) + cos(gamma) * cos(alpha))) > 1.e-08)
432  GotGlobalAngles += 100;
433  if (fabs(yz - (cos(alpha) * sin(beta) * sin(gamma) - cos(gamma) * sin(alpha))) > 1.e-08)
434  GotGlobalAngles += 1000;
435  if (GotGlobalAngles > 0)
436  std::cout << "NtupleManager Warning: cannot get global rotation: " << GotGlobalAngles << std::endl;
437 
438  theta[0] = alpha;
439  theta[1] = beta;
440  theta[2] = gamma;
441 }

References alpha, HLT_FULL_cff::beta, funct::cos(), gather_cfg::cout, MillePedeFileConverter_cfg::e, CustomPhysics_cfi::gamma, M_PI, funct::sin(), theta(), geometryCSVtoXML::xx, geometryCSVtoXML::xy, geometryCSVtoXML::xz, geometryCSVtoXML::yy, geometryCSVtoXML::yz, and geometryCSVtoXML::zz.

Referenced by FillOptObjects().

◆ getInstance()

NtupleManager * NtupleManager::getInstance ( )
static

Definition at line 29 of file NtupleManager.cc.

29  {
30  if (!instance) {
31  instance = new NtupleManager;
32  }
33  return instance;
34 }

References instance, and NtupleManager().

Referenced by Fit::fitNextEvent(), and Fit::startFit().

◆ InitNtuple()

void NtupleManager::InitNtuple ( )

Definition at line 91 of file NtupleManager.cc.

91  {
92  CloneFitParam->Clear();
93 
94  Chi2Measurements = 0.;
97  NFitParameters = 0;
98  NOptObjects = 0;
99  NSensor2D = 0;
100  NDistancemeter = 0;
101  NDistancemeter1Dim = 0;
102  NTiltmeter = 0;
103  NCops = 0;
104 }

References Chi2CalibratedParameters, Chi2Measurements, CloneFitParam, NCops, NDegreesOfFreedom, NDistancemeter, NDistancemeter1Dim, NFitParameters, NOptObjects, NSensor2D, and NTiltmeter.

Referenced by Fit::fitNextEvent().

◆ WriteNtuple()

void NtupleManager::WriteNtuple ( )

Definition at line 112 of file NtupleManager.cc.

112  {
113  theRootFile->Write();
114  theRootFile->Close();
115 }

References theRootFile.

Referenced by Fit::startFit().

Member Data Documentation

◆ Chi2CalibratedParameters

double NtupleManager::Chi2CalibratedParameters
private

Definition at line 64 of file NtupleManager.h.

Referenced by BookNtuple(), FillChi2(), and InitNtuple().

◆ Chi2Measurements

double NtupleManager::Chi2Measurements
private

Definition at line 64 of file NtupleManager.h.

Referenced by BookNtuple(), FillChi2(), and InitNtuple().

◆ CloneCopsMeas

TClonesArray* NtupleManager::CloneCopsMeas
private

Definition at line 58 of file NtupleManager.h.

Referenced by BookNtuple().

◆ CloneDistancemeter1DimMeas

TClonesArray* NtupleManager::CloneDistancemeter1DimMeas
private

Definition at line 54 of file NtupleManager.h.

Referenced by BookNtuple().

◆ CloneDistancemeterMeas

TClonesArray* NtupleManager::CloneDistancemeterMeas
private

Definition at line 52 of file NtupleManager.h.

Referenced by BookNtuple().

◆ CloneFitParam

TClonesArray* NtupleManager::CloneFitParam
private

Definition at line 46 of file NtupleManager.h.

Referenced by BookNtuple(), and InitNtuple().

◆ CloneOptObject

TClonesArray* NtupleManager::CloneOptObject
private

Definition at line 48 of file NtupleManager.h.

Referenced by BookNtuple(), FillFitParameters(), and FillMeasurements().

◆ CloneSensor2DMeas

TClonesArray* NtupleManager::CloneSensor2DMeas
private

Definition at line 50 of file NtupleManager.h.

Referenced by BookNtuple().

◆ CloneTiltmeterMeas

TClonesArray* NtupleManager::CloneTiltmeterMeas
private

Definition at line 56 of file NtupleManager.h.

Referenced by BookNtuple().

◆ CocoaTree

TTree* NtupleManager::CocoaTree
private

Definition at line 42 of file NtupleManager.h.

Referenced by BookNtuple(), and FillNtupleTree().

◆ CopsMeasA

CopsMeas* NtupleManager::CopsMeasA
private

Definition at line 59 of file NtupleManager.h.

Referenced by FillMeasurements().

◆ Distancemeter1DimMeasA

Distancemeter1DimMeas* NtupleManager::Distancemeter1DimMeasA
private

Definition at line 55 of file NtupleManager.h.

Referenced by FillMeasurements().

◆ DistancemeterMeasA

DistancemeterMeas* NtupleManager::DistancemeterMeasA
private

Definition at line 53 of file NtupleManager.h.

Referenced by FillMeasurements().

◆ FitParamA

FitParam* NtupleManager::FitParamA
private

Definition at line 47 of file NtupleManager.h.

Referenced by FillFitParameters().

◆ instance

NtupleManager * NtupleManager::instance = nullptr
staticprivate

Definition at line 36 of file NtupleManager.h.

Referenced by getInstance(), and production_tasks.Task::getname().

◆ NCops

int NtupleManager::NCops
private

Definition at line 72 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

◆ NDegreesOfFreedom

int NtupleManager::NDegreesOfFreedom
private

Definition at line 65 of file NtupleManager.h.

Referenced by BookNtuple(), FillChi2(), and InitNtuple().

◆ NDistancemeter

int NtupleManager::NDistancemeter
private

Definition at line 69 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

◆ NDistancemeter1Dim

int NtupleManager::NDistancemeter1Dim
private

Definition at line 70 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

◆ NFitParameters

int NtupleManager::NFitParameters
private

Definition at line 66 of file NtupleManager.h.

Referenced by BookNtuple(), FillFitParameters(), and InitNtuple().

◆ NOptObjects

int NtupleManager::NOptObjects
private

◆ NSensor2D

int NtupleManager::NSensor2D
private

Definition at line 68 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

◆ NTiltmeter

int NtupleManager::NTiltmeter
private

Definition at line 71 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

◆ OptObjectA

OptObject* NtupleManager::OptObjectA
private

Definition at line 49 of file NtupleManager.h.

Referenced by FillOptObjects().

◆ Sensor2DMeasA

Sensor2DMeas* NtupleManager::Sensor2DMeasA
private

Definition at line 51 of file NtupleManager.h.

Referenced by FillMeasurements().

◆ theRootFile

TFile* NtupleManager::theRootFile
private

Definition at line 40 of file NtupleManager.h.

Referenced by BookNtuple(), and WriteNtuple().

◆ TiltmeterMeasA

TiltmeterMeas* NtupleManager::TiltmeterMeasA
private

Definition at line 57 of file NtupleManager.h.

Referenced by FillMeasurements().

Sensor2DMeas::Position
double Position[2]
Definition: NtupleObjects.h:48
FittedEntry::getSigma
ALIdouble getSigma() const
Definition: FittedEntry.h:32
mps_fire.i
i
Definition: mps_fire.py:428
geometryCSVtoXML.zz
zz
Definition: geometryCSVtoXML.py:19
geometryCSVtoXML.yz
yz
Definition: geometryCSVtoXML.py:19
NtupleManager::CloneCopsMeas
TClonesArray * CloneCopsMeas
Definition: NtupleManager.h:58
Model::EntryList
static std::vector< Entry * > & EntryList()
Definition: Model.h:86
NtupleManager::CloneTiltmeterMeas
TClonesArray * CloneTiltmeterMeas
Definition: NtupleManager.h:56
TiltmeterMeas::Name
TString Name
Definition: NtupleObjects.h:90
NtupleManager::CloneDistancemeter1DimMeas
TClonesArray * CloneDistancemeter1DimMeas
Definition: NtupleManager.h:54
NtupleManager::TiltmeterMeasA
TiltmeterMeas * TiltmeterMeasA
Definition: NtupleManager.h:57
OptObject::CentreGlobal
double CentreGlobal[3]
Definition: NtupleObjects.h:33
groupFilesInBlocks.tt
int tt
Definition: groupFilesInBlocks.py:144
NtupleManager::Distancemeter1DimMeasA
Distancemeter1DimMeas * Distancemeter1DimMeasA
Definition: NtupleManager.h:55
HLT_FULL_cff.beta
beta
Definition: HLT_FULL_cff.py:8651
CopsMeas::PosError
double PosError[4]
Definition: NtupleObjects.h:101
NtupleManager::GetGlobalAngles
void GetGlobalAngles(const CLHEP::HepRotation &rmGlob, double *theta)
Definition: NtupleManager.cc:362
Distancemeter1DimMeas::DisError
double DisError
Definition: NtupleObjects.h:75
NtupleManager::CocoaTree
TTree * CocoaTree
Definition: NtupleManager.h:42
Model::MeasurementList
static std::vector< Measurement * > & MeasurementList()
Definition: Model.h:88
YCoor
Definition: OpticalObject.h:33
gather_cfg.cout
cout
Definition: gather_cfg.py:144
ALIstring
std::string ALIstring
Definition: CocoaGlobals.h:9
FittedEntry
Definition: FittedEntry.h:17
NtupleManager::NFitParameters
int NFitParameters
Definition: NtupleManager.h:66
if
if(0==first)
Definition: CAHitNtupletGeneratorKernelsImpl.h:58
DistancemeterMeas::Distance
double Distance
Definition: NtupleObjects.h:61
CustomPhysics_cfi.gamma
gamma
Definition: CustomPhysics_cfi.py:17
OptObject::Type
TString Type
Definition: NtupleObjects.h:38
alpha
float alpha
Definition: AMPTWrapper.h:105
DistancemeterMeas::SimulatedDistance
double SimulatedDistance
Definition: NtupleObjects.h:63
XCoor
Definition: OpticalObject.h:33
Sensor2DMeas::SimulatedPosition
double SimulatedPosition[2]
Definition: NtupleObjects.h:50
TiltmeterMeas::AngError
double AngError
Definition: NtupleObjects.h:88
NtupleManager::CloneOptObject
TClonesArray * CloneOptObject
Definition: NtupleManager.h:48
TiltmeterMeas::Angle
double Angle
Definition: NtupleObjects.h:87
funct::sin
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
contentValuesCheck.ss
ss
Definition: contentValuesCheck.py:33
MatrixMeschach::Mat
const MAT * Mat() const
Definition: MatrixMeschach.h:57
NtupleManager::DistancemeterMeasA
DistancemeterMeas * DistancemeterMeasA
Definition: NtupleManager.h:53
Distancemeter1DimMeas::Distance
double Distance
Definition: NtupleObjects.h:74
DistancemeterMeas::Name
TString Name
Definition: NtupleObjects.h:64
dqmdumpme.last
last
Definition: dqmdumpme.py:56
OptObject::CentreLocal
double CentreLocal[3]
Definition: NtupleObjects.h:35
funct::cos
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
OptObject::AnglesLocal
double AnglesLocal[3]
Definition: NtupleObjects.h:36
NtupleManager::Chi2CalibratedParameters
double Chi2CalibratedParameters
Definition: NtupleManager.h:64
FitParam::InitialSigma
double InitialSigma
Definition: NtupleObjects.h:20
mathSSE::sqrt
T sqrt(T t)
Definition: SSEVec.h:19
FitParam::Name
TString Name
Definition: NtupleObjects.h:22
TiltmeterMeas
Definition: NtupleObjects.h:83
NtupleManager::CloneFitParam
TClonesArray * CloneFitParam
Definition: NtupleManager.h:46
CopsMeas::Name
TString Name
Definition: NtupleObjects.h:103
Model::OptOList
static std::vector< OpticalObject * > & OptOList()
Definition: Model.h:84
theta
Geom::Theta< T > theta() const
Definition: Basic3DVectorLD.h:150
OptObject::Name
TString Name
Definition: NtupleObjects.h:37
createTree.dd
string dd
Definition: createTree.py:154
FittedEntry::getEntryName
ALIstring getEntryName() const
Definition: FittedEntry.h:29
geometryCSVtoXML.xy
xy
Definition: geometryCSVtoXML.py:19
NtupleManager::instance
static NtupleManager * instance
Definition: NtupleManager.h:36
Sensor2DMeas
Definition: NtupleObjects.h:44
FittedEntry::getName
ALIstring getName() const
Definition: FittedEntry.h:30
Sensor2DMeas::OptObjectIndex
int OptObjectIndex
Definition: NtupleObjects.h:52
Distancemeter1DimMeas::Name
TString Name
Definition: NtupleObjects.h:77
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yy
Definition: geometryCSVtoXML.py:19
Distancemeter1DimMeas::OptObjectIndex
int OptObjectIndex
Definition: NtupleObjects.h:78
NtupleManager::OptObjectA
OptObject * OptObjectA
Definition: NtupleManager.h:49
FitParam::Quality
TString Quality
Definition: NtupleObjects.h:23
FitParam::OptObjectIndex
int OptObjectIndex
Definition: NtupleObjects.h:24
geometryCSVtoXML.xz
xz
Definition: geometryCSVtoXML.py:19
NtupleManager::NDegreesOfFreedom
int NDegreesOfFreedom
Definition: NtupleManager.h:65
OptObject::AnglesGlobal
double AnglesGlobal[3]
Definition: NtupleObjects.h:34
NtupleManager::NTiltmeter
int NTiltmeter
Definition: NtupleManager.h:71
ALIuint
unsigned int ALIuint
Definition: CocoaGlobals.h:17
DistancemeterMeas::OptObjectIndex
int OptObjectIndex
Definition: NtupleObjects.h:65
ZCoor
Definition: OpticalObject.h:33
M_PI
#define M_PI
Definition: BXVectorInputProducer.cc:49
Distancemeter1DimMeas
Definition: NtupleObjects.h:70
Sensor2DMeas::PosError
double PosError[2]
Definition: NtupleObjects.h:49
Sensor2DMeas::Name
TString Name
Definition: NtupleObjects.h:51
CopsMeas
Definition: NtupleObjects.h:96
Distancemeter1DimMeas::SimulatedDistance
double SimulatedDistance
Definition: NtupleObjects.h:76
CopsMeas::Position
double Position[4]
Definition: NtupleObjects.h:100
cc
cms::cuda::for
for(int i=first, nt=offsets[nh];i< nt;i+=gridDim.x *blockDim.x)
Definition: HistoContainer.h:15
NtupleManager::CopsMeasA
CopsMeas * CopsMeasA
Definition: NtupleManager.h:59
FitParam::InitialValue
double InitialValue
Definition: NtupleObjects.h:18
NtupleManager::NDistancemeter1Dim
int NDistancemeter1Dim
Definition: NtupleManager.h:70
DistancemeterMeas
Definition: NtupleObjects.h:57
CopsMeas::SimulatedPosition
double SimulatedPosition[4]
Definition: NtupleObjects.h:102
CopsMeas::OptObjectIndex
int OptObjectIndex
Definition: NtupleObjects.h:104
OptObject
Definition: NtupleObjects.h:29
FittedEntry::getOrigSigma
ALIdouble getOrigSigma() const
Definition: FittedEntry.h:34
NtupleManager::Chi2Measurements
double Chi2Measurements
Definition: NtupleManager.h:64
OptObject::Parent
int Parent
Definition: NtupleObjects.h:39
NtupleManager::Sensor2DMeasA
Sensor2DMeas * Sensor2DMeasA
Definition: NtupleManager.h:51
NtupleManager::NSensor2D
int NSensor2D
Definition: NtupleManager.h:68
TiltmeterMeas::SimulatedAngle
double SimulatedAngle
Definition: NtupleObjects.h:89
NtupleManager::NCops
int NCops
Definition: NtupleManager.h:72
NtupleManager::theRootFile
TFile * theRootFile
Definition: NtupleManager.h:40
FittedEntry::getQuality
ALIint getQuality() const
Definition: FittedEntry.h:36
NtupleManager::FitParamA
FitParam * FitParamA
Definition: NtupleManager.h:47
FittedEntry::getOrigValue
ALIdouble getOrigValue() const
Definition: FittedEntry.h:33
NtupleManager::NtupleManager
NtupleManager()
Definition: NtupleManager.h:23
ALIint
int ALIint
Definition: CocoaGlobals.h:15
NtupleManager::NOptObjects
int NOptObjects
Definition: NtupleManager.h:67
TiltmeterMeas::OptObjectIndex
int OptObjectIndex
Definition: NtupleObjects.h:91
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Definition: createTree.py:17
FittedEntry::getValue
ALIdouble getValue() const
Definition: FittedEntry.h:31
FitParam::FittedValue
double FittedValue
Definition: NtupleObjects.h:19
NtupleManager::CloneDistancemeterMeas
TClonesArray * CloneDistancemeterMeas
Definition: NtupleManager.h:52
FittedEntry::getOrder
ALIint getOrder() const
Definition: FittedEntry.h:35
DistancemeterMeas::DisError
double DisError
Definition: NtupleObjects.h:62
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ii
Definition: cuy.py:589
d1
static constexpr float d1
Definition: L1EGammaCrystalsEmulatorProducer.cc:85
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xx
Definition: geometryCSVtoXML.py:19
FitParam
Definition: NtupleObjects.h:14
NtupleManager::NDistancemeter
int NDistancemeter
Definition: NtupleManager.h:69
FittedEntry::getOptOName
ALIstring getOptOName() const
Definition: FittedEntry.h:28
MillePedeFileConverter_cfg.e
e
Definition: MillePedeFileConverter_cfg.py:37
NtupleManager::CloneSensor2DMeas
TClonesArray * CloneSensor2DMeas
Definition: NtupleManager.h:50
FitParam::FittedSigma
double FittedSigma
Definition: NtupleObjects.h:21