laura is hosted by Hepforge, IPPP Durham
Laura++  v3r1
A maximum likelihood fitting package for performing Dalitz-plot analysis.
LauCPFitModel.hh
Go to the documentation of this file.
1 
2 // Copyright University of Warwick 2004 - 2014.
3 // Distributed under the Boost Software License, Version 1.0.
4 // (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
5 
6 // Authors:
7 // Thomas Latham
8 // John Back
9 // Paul Harrison
10 
26 #ifndef LAU_CP_FIT_MODEL
27 #define LAU_CP_FIT_MODEL
28 
29 #include <vector>
30 
31 #include "TString.h"
32 
33 #include "LauAbsFitModel.hh"
34 #include "LauParameter.hh"
35 
36 class TH2;
37 class LauAbsBkgndDPModel;
38 class LauAbsCoeffSet;
39 class LauIsobarDynamics;
40 class LauAbsPdf;
41 class LauEffModel;
42 class LauEmbeddedData;
43 class LauKinematics;
44 class LauScfMap;
45 
46 
47 class LauCPFitModel : public LauAbsFitModel {
48 
49  public:
51 
57  LauCPFitModel(LauIsobarDynamics* negModel, LauIsobarDynamics* posModel, Bool_t tagged = kTRUE, const TString& tagVarName = "charge");
58 
60  virtual ~LauCPFitModel();
61 
63 
66  virtual void setNSigEvents(LauParameter* nSigEvents);
67 
69 
74  virtual void setNSigEvents(LauParameter* nSigEvents, LauParameter* sigAsym, Bool_t forceAsym = kFALSE);
75 
77 
82  virtual void setNBkgndEvents(LauParameter* nBkgndEvents);
83 
85 
91  virtual void setNBkgndEvents(LauParameter* nBkgndEvents, LauParameter* bkgndAsym);
92 
94 
99  void setBkgndDPModels(const TString& bkgndClass, LauAbsBkgndDPModel* negModel, LauAbsBkgndDPModel* posModel);
100 
102 
112  void splitSignalComponent( const TH2* dpHisto, const Bool_t upperHalf = kFALSE, const Bool_t fluctuateBins = kFALSE, LauScfMap* scfMap = 0 );
113 
115 
122  void splitSignalComponent( const Double_t scfFrac, const Bool_t fixed );
123 
125  Bool_t useSCF() const { return useSCF_; }
126 
128  Bool_t useSCFHist() const { return useSCFHist_; }
129 
131  Bool_t smearSCFDP() const { return (scfMap_ != 0); }
132 
133  // Set the DeltaE and mES models, i.e. give us the PDFs
135 
139  void setSignalPdfs(LauAbsPdf* negPdf, LauAbsPdf* posPdf);
140 
142 
146  void setSCFPdfs(LauAbsPdf* negPdf, LauAbsPdf* posPdf);
147 
149 
154  void setBkgndPdfs(const TString& bkgndClass, LauAbsPdf* negPdf, LauAbsPdf* posPdf);
155 
157 
164  void embedNegSignal(const TString& fileName, const TString& treeName,
165  Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment = kFALSE,
166  Bool_t useReweighting = kFALSE);
167 
169 
176  void embedNegBkgnd(const TString& bgClass, const TString& fileName, const TString& treeName,
177  Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment = kFALSE);
178 
180 
187  void embedPosSignal(const TString& fileName, const TString& treeName,
188  Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment = kFALSE,
189  Bool_t useReweighting = kFALSE);
190 
192 
199  void embedPosBkgnd(const TString& bgClass, const TString& fileName, const TString& treeName,
200  Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment = kFALSE);
201 
203 
210  virtual void setAmpCoeffSet(LauAbsCoeffSet* coeffSet);
211 
213 
217  virtual void weightEvents( const TString& dataFileName, const TString& dataTreeName );
218 
219  protected:
221  typedef std::map< std::pair<TString,Int_t>, std::pair<Int_t,Double_t> > LauGenInfo;
222 
224  typedef std::vector<LauAbsBkgndDPModel*> LauBkgndDPModelList;
225 
227  typedef std::vector<LauPdfList> LauBkgndPdfsList;
228 
230  typedef std::vector<LauParameter*> LauBkgndYieldList;
231 
233  typedef std::vector<LauEmbeddedData*> LauBkgndEmbDataList;
234 
236  typedef std::vector<Bool_t> LauBkgndReuseEventsList;
237 
238 
240  virtual void initialise();
241 
243  virtual void initialiseDPModels();
244 
246  virtual void recalculateNormalisation();
247 
249  virtual void updateCoeffs();
250 
252  virtual Bool_t genExpt();
253 
255  virtual void propagateParUpdates();
256 
258  virtual void cacheInputFitVars();
259 
261  virtual void checkInitFitParams();
262 
264 
267  virtual void finaliseFitResults(const TString& tablePrefixName);
268 
270 
273  virtual void printFitFractions(std::ostream& output);
274 
276 
279  virtual void printAsymmetries(std::ostream& output);
280 
282 
285  virtual void writeOutTable(const TString& outputFile);
286 
288 
291  virtual void savePDFPlots(const TString& label);
292 
294 
298  virtual void savePDFPlotsWave(const TString& label, const Int_t& spin);
299 
300 
302  virtual void storePerEvtLlhds();
303 
304  // Methods to do with calculating the likelihood functions
305  // and manipulating the fitting parameters.
307 
310  virtual Double_t getTotEvtLikelihood(UInt_t iEvt);
311 
313 
316  virtual void getEvtDPLikelihood(UInt_t iEvt);
317 
319 
322  virtual Double_t getEvtSCFDPLikelihood(UInt_t iEvt);
323 
325 
328  virtual void getEvtExtraLikelihoods(UInt_t iEvt);
329 
331 
334  virtual Double_t getEventSum() const;
335 
337  void setSignalDPParameters();
338 
340  void setExtraPdfParameters();
341 
343  void setFitNEvents();
344 
346  void setExtraNtupleVars();
347 
349  void randomiseInitFitPars();
350 
352 
355  void calcExtraFractions(Bool_t initValues = kFALSE);
356 
358 
361  void calcAsymmetries(Bool_t initValues = kFALSE);
362 
364  virtual void setupBkgndVectors();
365 
367  std::pair<LauGenInfo,Bool_t> eventsToGenerate();
368 
370  Bool_t generateSignalEvent();
371 
373 
376  Bool_t generateBkgndEvent(UInt_t bgID);
377 
379  void setupGenNtupleBranches();
380 
382  void setDPBranchValues();
383 
385 
389  void generateExtraPdfValues(LauPdfList* extraPdfs, LauEmbeddedData* embeddedData);
390 
392 
395  Bool_t storeSignalMCMatch(LauEmbeddedData* embeddedData);
396 
398 
402  void addSPlotNtupleBranches(const LauPdfList* extraPdfs, const TString& prefix);
403 
405 
410  Double_t setSPlotNtupleBranchValues(LauPdfList* extraPdfs, const TString& prefix, UInt_t iEvt);
411 
413  void updateSigEvents();
414 
416  virtual void setupSPlotNtupleBranches();
417 
419  virtual LauSPlot::NameSet variableNames() const;
420 
422  virtual LauSPlot::NumbMap freeSpeciesNames() const;
423 
425  virtual LauSPlot::NumbMap fixdSpeciesNames() const;
426 
428  virtual LauSPlot::TwoDMap twodimPDFs() const;
429 
431  virtual Bool_t splitSignal() const {return this->useSCF();}
432 
434  virtual Bool_t scfDPSmear() const {return (scfMap_ != 0);}
435 
437 
447  void appendBinCentres( LauFitDataTree* inputData );
448 
449  LauIsobarDynamics* getNegSigModel() {return negSigModel_;}
450  LauIsobarDynamics* getPosSigModel() {return posSigModel_;}
451 
452  private:
454  LauCPFitModel(const LauCPFitModel& rhs);
455 
457  LauCPFitModel& operator=(const LauCPFitModel& rhs);
458 
460  LauIsobarDynamics *negSigModel_;
461 
463  LauIsobarDynamics *posSigModel_;
464 
466  LauBkgndDPModelList negBkgndDPModels_;
467 
469  LauBkgndDPModelList posBkgndDPModels_;
470 
472  LauKinematics *negKinematics_;
473 
475  LauKinematics *posKinematics_;
476 
478  LauPdfList negSignalPdfs_;
479 
481  LauPdfList posSignalPdfs_;
482 
484  LauPdfList negScfPdfs_;
485 
487  LauPdfList posScfPdfs_;
488 
490  LauBkgndPdfsList negBkgndPdfs_;
491 
493  LauBkgndPdfsList posBkgndPdfs_;
494 
496  Bool_t usingBkgnd_;
497 
499  UInt_t nSigComp_;
500 
502  UInt_t nSigDPPar_;
503 
505  UInt_t nExtraPdfPar_;
506 
508  UInt_t nNormPar_;
509 
511  std::vector<LauAbsCoeffSet*> coeffPars_;
512 
514  LauParArray negFitFrac_;
515 
517  LauParArray posFitFrac_;
518 
520  LauParArray negFitFracEffUnCorr_;
521 
523  LauParArray posFitFracEffUnCorr_;
524 
526  LauParArray CPVFitFrac_;
527 
529  LauParArray CPCFitFrac_;
530 
532  std::vector<LauParameter> fitFracAsymm_;
533 
535  std::vector<LauParameter> acp_;
536 
538  LauParameter negMeanEff_;
539 
541  LauParameter posMeanEff_;
542 
544  LauParameter negDPRate_;
545 
547  LauParameter posDPRate_;
548 
550  LauParameter* signalEvents_;
551 
553  LauParameter* signalAsym_;
554 
556  Bool_t forceAsym_;
557 
559  LauBkgndYieldList bkgndEvents_;
560 
562  LauBkgndYieldList bkgndAsym_;
563 
565  const Bool_t tagged_;
566 
568  const TString tagVarName_;
569 
571  Int_t curEvtCharge_;
572 
574  std::vector<Int_t> evtCharges_;
575 
577  Bool_t useSCF_;
578 
580  Bool_t useSCFHist_;
581 
583  LauParameter scfFrac_;
584 
586  LauEffModel* scfFracHist_;
587 
589  LauScfMap* scfMap_;
590 
592  std::vector<Double_t> recoSCFFracs_;
593 
595  std::vector<Double_t> fakeSCFFracs_;
596 
598  std::vector<Double_t> recoJacobians_;
599 
601  std::vector<Double_t> fakeJacobians_;
602 
604  Bool_t compareFitData_;
605 
607  TString negParent_;
608 
610  TString posParent_;
611 
613  std::vector<LauComplex> negCoeffs_;
614 
616  std::vector<LauComplex> posCoeffs_;
617 
618  // Embedding full simulation events
619 
621  LauEmbeddedData *negSignalTree_;
622 
624  LauEmbeddedData *posSignalTree_;
625 
627  LauBkgndEmbDataList negBkgndTree_;
628 
630  LauBkgndEmbDataList posBkgndTree_;
631 
633  Bool_t reuseSignal_;
634 
636  Bool_t useNegReweighting_;
637 
639  Bool_t usePosReweighting_;
640 
642  LauBkgndReuseEventsList reuseBkgnd_;
643 
644  // Likelihood values
646  Double_t sigDPLike_;
647 
649  Double_t scfDPLike_;
650 
652  std::vector<Double_t> bkgndDPLike_;
653 
655  Double_t sigExtraLike_;
656 
658  Double_t scfExtraLike_;
659 
661  std::vector<Double_t> bkgndExtraLike_;
662 
664  Double_t sigTotalLike_;
665 
667  Double_t scfTotalLike_;
668 
670  std::vector<Double_t> bkgndTotalLike_;
671 
672  ClassDef(LauCPFitModel,0) // CP fit/ToyMC model
673 
674 };
675 
676 #endif
LauCPFitModel::generateExtraPdfValues
void generateExtraPdfValues(LauPdfList *extraPdfs, LauEmbeddedData *embeddedData)
Generate from the extra PDFs.
Definition: LauCPFitModel.cc:1869
LauCPFitModel::generateSignalEvent
Bool_t generateSignalEvent()
Generate signal event.
Definition: LauCPFitModel.cc:1599
LauAbsBkgndDPModel
The abstract interface for a background Dalitz plot model.
Definition: LauAbsBkgndDPModel.hh:31
LauCPFitModel::acp_
std::vector< LauParameter > acp_
A_CP parameter.
Definition: LauCPFitModel.hh:535
LauCPFitModel::variableNames
virtual LauSPlot::NameSet variableNames() const
Returns the names of all variables in the fit.
Definition: LauCPFitModel.cc:2559
LauCPFitModel::negKinematics_
LauKinematics * negKinematics_
The B- Dalitz plot kinematics object.
Definition: LauCPFitModel.hh:472
LauCPFitModel::printAsymmetries
virtual void printAsymmetries(std::ostream &output)
Print the asymmetries.
Definition: LauCPFitModel.cc:1194
LauCPFitModel::negSignalPdfs_
LauPdfList negSignalPdfs_
The B- signal PDFs.
Definition: LauCPFitModel.hh:478
LauCPFitModel::smearSCFDP
Bool_t smearSCFDP() const
Determine if we are smearing the SCF DP PDF.
Definition: LauCPFitModel.hh:131
LauCPFitModel::addSPlotNtupleBranches
void addSPlotNtupleBranches(const LauPdfList *extraPdfs, const TString &prefix)
Add sPlot branches for the extra PDFs.
Definition: LauCPFitModel.cc:2454
LauCPFitModel::forceAsym_
Bool_t forceAsym_
Option to force an asymmetry.
Definition: LauCPFitModel.hh:556
LauCPFitModel::scfTotalLike_
Double_t scfTotalLike_
Total SCF likelihood.
Definition: LauCPFitModel.hh:667
LauCPFitModel::setExtraPdfParameters
void setExtraPdfParameters()
Set the fit parameters for the extra PDFs.
Definition: LauCPFitModel.cc:644
LauCPFitModel::posBkgndDPModels_
LauBkgndDPModelList posBkgndDPModels_
The B+ background Dalitz plot models.
Definition: LauCPFitModel.hh:469
LauCPFitModel::nNormPar_
UInt_t nNormPar_
Number of normalisation parameters (yields, asymmetries)
Definition: LauCPFitModel.hh:508
LauCPFitModel::useSCF
Bool_t useSCF() const
Determine whether we are splitting the signal into TM and SCF parts.
Definition: LauCPFitModel.hh:125
LauCPFitModel::posSignalTree_
LauEmbeddedData * posSignalTree_
The B+ signal event tree.
Definition: LauCPFitModel.hh:624
LauCPFitModel::getPosSigModel
LauIsobarDynamics * getPosSigModel()
Definition: LauCPFitModel.hh:450
LauAbsFitModel.hh
File containing declaration of LauAbsFitModel class.
LauCPFitModel::curEvtCharge_
Int_t curEvtCharge_
Current event charge.
Definition: LauCPFitModel.hh:571
LauCPFitModel::calcExtraFractions
void calcExtraFractions(Bool_t initValues=kFALSE)
Calculate the CP-conserving and CP-violating fit fractions.
Definition: LauCPFitModel.cc:898
LauCPFitModel::negSignalTree_
LauEmbeddedData * negSignalTree_
The B- signal event tree.
Definition: LauCPFitModel.hh:621
LauCPFitModel::useNegReweighting_
Bool_t useNegReweighting_
Boolean to use reweighting for B-.
Definition: LauCPFitModel.hh:636
LauCPFitModel::negCoeffs_
std::vector< LauComplex > negCoeffs_
The complex coefficients for B-.
Definition: LauCPFitModel.hh:613
LauCPFitModel::posBkgndPdfs_
LauBkgndPdfsList posBkgndPdfs_
The B+ background PDFs.
Definition: LauCPFitModel.hh:493
LauSPlot::TwoDMap
std::multimap< TString, std::pair< TString, TString > > TwoDMap
Type to associate the name of the species that have 2D PDFs with the names of the two variables invol...
Definition: LauSPlot.hh:68
LauCPFitModel::compareFitData_
Bool_t compareFitData_
Run choice variables.
Definition: LauCPFitModel.hh:604
LauCPFitModel::scfDPSmear
virtual Bool_t scfDPSmear() const
Check if the mis-reconstructed signal is to be smeared in the DP.
Definition: LauCPFitModel.hh:434
LauCPFitModel::negFitFrac_
LauParArray negFitFrac_
The B- fit fractions.
Definition: LauCPFitModel.hh:514
LauCPFitModel::getEvtExtraLikelihoods
virtual void getEvtExtraLikelihoods(UInt_t iEvt)
Determine the signal and background likelihood for the extra variables for a given event...
Definition: LauCPFitModel.cc:2337
LauCPFitModel::sigDPLike_
Double_t sigDPLike_
Signal DP likelihood value.
Definition: LauCPFitModel.hh:646
LauCPFitModel::negScfPdfs_
LauPdfList negScfPdfs_
The B- SCF PDFs.
Definition: LauCPFitModel.hh:484
LauCPFitModel::useSCF_
Bool_t useSCF_
Is the signal split into TM and SCF.
Definition: LauCPFitModel.hh:577
LauCPFitModel::genExpt
virtual Bool_t genExpt()
Toy MC generation and fitting overloaded functions.
Definition: LauCPFitModel.cc:1431
LauCPFitModel::negParent_
TString negParent_
Name of the parent particle.
Definition: LauCPFitModel.hh:607
LauCPFitModel::posParent_
TString posParent_
Name of the parent particle.
Definition: LauCPFitModel.hh:610
LauCPFitModel::embedNegSignal
void embedNegSignal(const TString &fileName, const TString &treeName, Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment=kFALSE, Bool_t useReweighting=kFALSE)
Embed full simulation events for the B- signal, rather than generating toy from the PDFs...
Definition: LauCPFitModel.cc:2832
LauCPFitModel::eventsToGenerate
std::pair< LauGenInfo, Bool_t > eventsToGenerate()
Determine the number of events to generate for each hypothesis.
Definition: LauCPFitModel.cc:1345
LauCPFitModel::fakeSCFFracs_
std::vector< Double_t > fakeSCFFracs_
The cached values of the SCF fraction for each bin centre.
Definition: LauCPFitModel.hh:595
LauSimFitSlave::ClassDef
ClassDef(LauSimFitSlave, 0)
LauParArray
std::vector< std::vector< LauParameter > > LauParArray
Type to define an array of parameters.
Definition: LauParameter.hh:544
LauCPFitModel::storeSignalMCMatch
Bool_t storeSignalMCMatch(LauEmbeddedData *embeddedData)
Store the MC truth info on the TM/SCF nature of the embedded signal event.
Definition: LauCPFitModel.cc:1906
LauCPFitModel::usingBkgnd_
Bool_t usingBkgnd_
Background boolean.
Definition: LauCPFitModel.hh:496
LauAbsFitModel::LauPdfList
std::vector< LauAbsPdf * > LauPdfList
List of Pdfs.
Definition: LauAbsFitModel.hh:338
LauCPFitModel::bkgndAsym_
LauBkgndYieldList bkgndAsym_
Background asymmetries(s)
Definition: LauCPFitModel.hh:562
LauCPFitModel::negSigModel_
LauIsobarDynamics * negSigModel_
The B- signal Dalitz plot model.
Definition: LauCPFitModel.hh:460
LauCPFitModel::negDPRate_
LauParameter negDPRate_
The average DP rate for B-.
Definition: LauCPFitModel.hh:544
LauCPFitModel::bkgndTotalLike_
std::vector< Double_t > bkgndTotalLike_
Total background likelihood(s)
Definition: LauCPFitModel.hh:670
LauCPFitModel::recoSCFFracs_
std::vector< Double_t > recoSCFFracs_
The cached values of the SCF fraction for each event.
Definition: LauCPFitModel.hh:592
LauCPFitModel::posDPRate_
LauParameter posDPRate_
The average DP rate for B+.
Definition: LauCPFitModel.hh:547
LauCPFitModel::bkgndExtraLike_
std::vector< Double_t > bkgndExtraLike_
Background likelihood value(s) from extra PDFs.
Definition: LauCPFitModel.hh:661
LauCPFitModel::setupGenNtupleBranches
void setupGenNtupleBranches()
Setup the required ntuple branches.
Definition: LauCPFitModel.cc:1800
LauCPFitModel::scfExtraLike_
Double_t scfExtraLike_
SCF likelihood from extra PDFs.
Definition: LauCPFitModel.hh:658
LauCPFitModel::reuseSignal_
Bool_t reuseSignal_
Boolean to reuse signal events.
Definition: LauCPFitModel.hh:633
LauCPFitModel::posFitFrac_
LauParArray posFitFrac_
The B+ fit fractions.
Definition: LauCPFitModel.hh:517
LauCPFitModel::cacheInputFitVars
virtual void cacheInputFitVars()
Read in the input fit data variables, e.g. m13Sq and m23Sq.
Definition: LauCPFitModel.cc:1972
LauCPFitModel::setSignalDPParameters
void setSignalDPParameters()
Set the fit parameters for the DP model.
Definition: LauCPFitModel.cc:599
LauCPFitModel::randomiseInitFitPars
void randomiseInitFitPars()
Randomise the initial fit parameters.
Definition: LauCPFitModel.cc:1335
LauCPFitModel::appendBinCentres
void appendBinCentres(LauFitDataTree *inputData)
Append fake data points to the inputData for each bin in the SCF smearing matrix. ...
Definition: LauCPFitModel.cc:2061
LauCPFitModel::savePDFPlotsWave
virtual void savePDFPlotsWave(const TString &label, const Int_t &spin)
Save the pdf Plots for the sum of resonances of a given spin.
Definition: LauCPFitModel.cc:3072
LauCPFitModel::checkInitFitParams
virtual void checkInitFitParams()
Check the initial fit parameters.
Definition: LauCPFitModel.cc:1323
LauCPFitModel::recalculateNormalisation
virtual void recalculateNormalisation()
Recalculate Normalization the signal DP models.
Definition: LauCPFitModel.cc:574
LauCPFitModel::tagged_
const Bool_t tagged_
IS the analysis tagged?
Definition: LauCPFitModel.hh:565
LauCPFitModel::nExtraPdfPar_
UInt_t nExtraPdfPar_
Number of extra PDF parameters.
Definition: LauCPFitModel.hh:505
LauCPFitModel::finaliseFitResults
virtual void finaliseFitResults(const TString &tablePrefixName)
Get the fit results and store them.
Definition: LauCPFitModel.cc:970
LauCPFitModel::printFitFractions
virtual void printFitFractions(std::ostream &output)
Print the fit fractions, total DP rate and mean efficiency.
Definition: LauCPFitModel.cc:1173
LauCPFitModel::negFitFracEffUnCorr_
LauParArray negFitFracEffUnCorr_
Fit B- fractions (uncorrected for the efficiency)
Definition: LauCPFitModel.hh:520
LauCPFitModel
Class for defining a CP fit model.
Definition: LauCPFitModel.hh:47
LauAbsFitModel
Abstract interface to the fitting and toy MC model.
Definition: LauAbsFitModel.hh:80
LauCPFitModel::tagVarName_
const TString tagVarName_
Event charge.
Definition: LauCPFitModel.hh:568
LauCPFitModel::signalEvents_
LauParameter * signalEvents_
Signal yield.
Definition: LauCPFitModel.hh:550
LauCPFitModel::posFitFracEffUnCorr_
LauParArray posFitFracEffUnCorr_
Fit B+ fractions (uncorrected for the efficiency)
Definition: LauCPFitModel.hh:523
LauCPFitModel::LauBkgndDPModelList
std::vector< LauAbsBkgndDPModel * > LauBkgndDPModelList
Typedef for a vector of background DP models.
Definition: LauCPFitModel.hh:224
LauCPFitModel::evtCharges_
std::vector< Int_t > evtCharges_
Vector to store event charges.
Definition: LauCPFitModel.hh:574
LauParameter.hh
File containing declaration of LauParameter class.
LauCPFitModel::splitSignal
virtual Bool_t splitSignal() const
Check if the signal is split into well-reconstructed and mis-reconstructed types. ...
Definition: LauCPFitModel.hh:431
LauCPFitModel::LauBkgndPdfsList
std::vector< LauPdfList > LauBkgndPdfsList
Typedef for a vector of background PDFs.
Definition: LauCPFitModel.hh:227
LauCPFitModel::calcAsymmetries
void calcAsymmetries(Bool_t initValues=kFALSE)
Calculate the CP asymmetries.
Definition: LauCPFitModel.cc:951
LauSPlot::NumbMap
std::map< TString, Double_t > NumbMap
Type to associate a category name with a double precision number, e.g. a yield or PDF value for a giv...
Definition: LauSPlot.hh:62
LauCPFitModel::scfMap_
LauScfMap * scfMap_
The smearing matrix for the SCF DP PDF.
Definition: LauCPFitModel.hh:589
LauCPFitModel::sigExtraLike_
Double_t sigExtraLike_
Signal likelihood from extra PDFs.
Definition: LauCPFitModel.hh:655
LauCPFitModel::setNBkgndEvents
virtual void setNBkgndEvents(LauParameter *nBkgndEvents)
Set the background event yield(s)
Definition: LauCPFitModel.cc:184
LauCPFitModel::initialise
virtual void initialise()
Initialise the fit.
Definition: LauCPFitModel.cc:445
LauCPFitModel::fixdSpeciesNames
virtual LauSPlot::NumbMap fixdSpeciesNames() const
Returns the names and yields of species that are fixed in the fit.
Definition: LauCPFitModel.cc:2598
LauAbsCoeffSet
Class for defining the abstract interface for complex coefficient classes.
Definition: LauAbsCoeffSet.hh:34
LauCPFitModel::sigTotalLike_
Double_t sigTotalLike_
Total signal likelihood.
Definition: LauCPFitModel.hh:664
LauCPFitModel::setAmpCoeffSet
virtual void setAmpCoeffSet(LauAbsCoeffSet *coeffSet)
Set the DP amplitude coefficients.
Definition: LauCPFitModel.cc:389
LauParameter
Class for defining the fit parameter objects.
Definition: LauParameter.hh:35
LauEmbeddedData
Class to store the data for embedding in toy experiments.
Definition: LauEmbeddedData.hh:33
LauCPFitModel::nSigComp_
UInt_t nSigComp_
Number of signal components.
Definition: LauCPFitModel.hh:499
LauCPFitModel::setupSPlotNtupleBranches
virtual void setupSPlotNtupleBranches()
Add branches to store experiment number and the event number within the experiment.
Definition: LauCPFitModel.cc:2387
LauCPFitModel::signalAsym_
LauParameter * signalAsym_
Signal asymmetry.
Definition: LauCPFitModel.hh:553
LauCPFitModel::splitSignalComponent
void splitSignalComponent(const TH2 *dpHisto, const Bool_t upperHalf=kFALSE, const Bool_t fluctuateBins=kFALSE, LauScfMap *scfMap=0)
Split the signal component into well-reconstructed and mis-reconstructed parts.
Definition: LauCPFitModel.cc:257
LauCPFitModel::savePDFPlots
virtual void savePDFPlots(const TString &label)
Save the pdf Plots for all the resonances.
Definition: LauCPFitModel.cc:2955
LauCPFitModel::bkgndDPLike_
std::vector< Double_t > bkgndDPLike_
Background DP likelihood value(s)
Definition: LauCPFitModel.hh:652
LauCPFitModel::embedNegBkgnd
void embedNegBkgnd(const TString &bgClass, const TString &fileName, const TString &treeName, Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment=kFALSE)
Embed full simulation events for the given background class, rather than generating toy from the PDFs...
Definition: LauCPFitModel.cc:2858
LauCPFitModel::negBkgndTree_
LauBkgndEmbDataList negBkgndTree_
The B- background event tree.
Definition: LauCPFitModel.hh:627
LauCPFitModel::getNegSigModel
LauIsobarDynamics * getNegSigModel()
Definition: LauCPFitModel.hh:449
LauCPFitModel::reuseBkgnd_
LauBkgndReuseEventsList reuseBkgnd_
Vector of booleans to reuse background events.
Definition: LauCPFitModel.hh:642
LauCPFitModel::coeffPars_
std::vector< LauAbsCoeffSet * > coeffPars_
Magnitudes and Phases.
Definition: LauCPFitModel.hh:511
LauCPFitModel::posMeanEff_
LauParameter posMeanEff_
The mean efficiency for B+ model.
Definition: LauCPFitModel.hh:541
LauCPFitModel::CPCFitFrac_
LauParArray CPCFitFrac_
The CP conserving fit fraction.
Definition: LauCPFitModel.hh:529
LauCPFitModel::setNSigEvents
virtual void setNSigEvents(LauParameter *nSigEvents)
Set the signal event yield.
Definition: LauCPFitModel.cc:126
LauCPFitModel::weightEvents
virtual void weightEvents(const TString &dataFileName, const TString &dataTreeName)
Weight events based on the DP model.
Definition: LauCPFitModel.cc:2948
LauCPFitModel::usePosReweighting_
Bool_t usePosReweighting_
Boolean to use reweighting for B+.
Definition: LauCPFitModel.hh:639
LauCPFitModel::generateBkgndEvent
Bool_t generateBkgndEvent(UInt_t bgID)
Generate background event.
Definition: LauCPFitModel.cc:1740
LauCPFitModel::writeOutTable
virtual void writeOutTable(const TString &outputFile)
Write the fit results in latex table format.
Definition: LauCPFitModel.cc:1206
LauCPFitModel::LauBkgndYieldList
std::vector< LauParameter * > LauBkgndYieldList
Typedef for a vector of background yields.
Definition: LauCPFitModel.hh:230
LauCPFitModel::LauCPFitModel
LauCPFitModel(LauIsobarDynamics *negModel, LauIsobarDynamics *posModel, Bool_t tagged=kTRUE, const TString &tagVarName="charge")
Constructor.
Definition: LauCPFitModel.cc:56
LauCPFitModel::useSCFHist
Bool_t useSCFHist() const
Determine whether the SCF fraction is DP-dependent.
Definition: LauCPFitModel.hh:128
LauEffModel
Class that implements the efficiency description across the signal Dalitz plot.
Definition: LauEffModel.hh:37
LauCPFitModel::updateCoeffs
virtual void updateCoeffs()
Update the coefficients.
Definition: LauCPFitModel.cc:2377
LauCPFitModel::setSPlotNtupleBranchValues
Double_t setSPlotNtupleBranchValues(LauPdfList *extraPdfs, const TString &prefix, UInt_t iEvt)
Set the branches for the sPlot ntuple with extra PDFs.
Definition: LauCPFitModel.cc:2502
LauCPFitModel::~LauCPFitModel
virtual ~LauCPFitModel()
Destructor.
Definition: LauCPFitModel.cc:96
LauCPFitModel::posCoeffs_
std::vector< LauComplex > posCoeffs_
The complex coefficients for B+.
Definition: LauCPFitModel.hh:616
LauCPFitModel::initialiseDPModels
virtual void initialiseDPModels()
Initialise the signal DP models.
Definition: LauCPFitModel.cc:583
LauCPFitModel::updateSigEvents
void updateSigEvents()
Update the signal events after Minuit sets background parameters.
Definition: LauCPFitModel.cc:1947
LauIsobarDynamics
Class for defining signal dynamics using the isobar model.
Definition: LauIsobarDynamics.hh:39
LauCPFitModel::setupBkgndVectors
virtual void setupBkgndVectors()
Define the length of the background vectors.
Definition: LauCPFitModel.cc:109
LauCPFitModel::operator=
LauCPFitModel & operator=(const LauCPFitModel &rhs)
Copy assignment operator (not implemented)
LauCPFitModel::setSignalPdfs
void setSignalPdfs(LauAbsPdf *negPdf, LauAbsPdf *posPdf)
Set the signal PDFs.
Definition: LauCPFitModel.cc:315
LauCPFitModel::setFitNEvents
void setFitNEvents()
Set the initial yields.
Definition: LauCPFitModel.cc:677
LauCPFitModel::twodimPDFs
virtual LauSPlot::TwoDMap twodimPDFs() const
Returns the species and variables for all 2D PDFs in the fit.
Definition: LauCPFitModel.cc:2617
LauCPFitModel::freeSpeciesNames
virtual LauSPlot::NumbMap freeSpeciesNames() const
Returns the names and yields of species that are free in the fit.
Definition: LauCPFitModel.cc:2579
LauCPFitModel::scfFracHist_
LauEffModel * scfFracHist_
The histogram giving the DP-dependence of the SCF fraction.
Definition: LauCPFitModel.hh:586
LauCPFitModel::nSigDPPar_
UInt_t nSigDPPar_
Number of signal DP parameters.
Definition: LauCPFitModel.hh:502
LauCPFitModel::propagateParUpdates
virtual void propagateParUpdates()
Calculate things that depend on the fit parameters after they have been updated by Minuit...
Definition: LauCPFitModel.cc:1932
LauScfMap
Class for representing the 4D smearing matrix for mis-reconstructed signal (self cross feed) ...
Definition: LauScfMap.hh:29
LauCPFitModel::storePerEvtLlhds
virtual void storePerEvtLlhds()
Store the per event likelihood values.
Definition: LauCPFitModel.cc:2682
LauCPFitModel::scfDPLike_
Double_t scfDPLike_
SCF DP likelihood value.
Definition: LauCPFitModel.hh:649
LauCPFitModel::recoJacobians_
std::vector< Double_t > recoJacobians_
The cached values of the sqDP jacobians for each event.
Definition: LauCPFitModel.hh:598
LauCPFitModel::LauBkgndReuseEventsList
std::vector< Bool_t > LauBkgndReuseEventsList
Typedef for a vector of booleans to flag if events are reused.
Definition: LauCPFitModel.hh:236
LauCPFitModel::getEventSum
virtual Double_t getEventSum() const
Get the total number of events.
Definition: LauCPFitModel.cc:2170
LauAbsPdf
Class for defining the abstract interface for PDF classes.
Definition: LauAbsPdf.hh:41
LauCPFitModel::posSigModel_
LauIsobarDynamics * posSigModel_
The B+ signal Dalitz plot model.
Definition: LauCPFitModel.hh:463
LauCPFitModel::posScfPdfs_
LauPdfList posScfPdfs_
The B+ SCF PDFs.
Definition: LauCPFitModel.hh:487
LauCPFitModel::bkgndEvents_
LauBkgndYieldList bkgndEvents_
Background yield(s)
Definition: LauCPFitModel.hh:559
LauKinematics
Class for calculating 3-body kinematic quantities.
Definition: LauKinematics.hh:31
LauCPFitModel::negBkgndDPModels_
LauBkgndDPModelList negBkgndDPModels_
The B- background Dalitz plot models.
Definition: LauCPFitModel.hh:466
LauCPFitModel::CPVFitFrac_
LauParArray CPVFitFrac_
The CP violating fit fraction.
Definition: LauCPFitModel.hh:526
LauCPFitModel::posSignalPdfs_
LauPdfList posSignalPdfs_
The B+ signal PDFs.
Definition: LauCPFitModel.hh:481
LauCPFitModel::fakeJacobians_
std::vector< Double_t > fakeJacobians_
The cached values of the sqDP jacobians for each true bin.
Definition: LauCPFitModel.hh:601
LauCPFitModel::embedPosBkgnd
void embedPosBkgnd(const TString &bgClass, const TString &fileName, const TString &treeName, Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment=kFALSE)
Embed full simulation events for the given background class, rather than generating toy from the PDFs...
Definition: LauCPFitModel.cc:2916
LauCPFitModel::getEvtSCFDPLikelihood
virtual Double_t getEvtSCFDPLikelihood(UInt_t iEvt)
Calculate the SCF likelihood for the DP for a given event.
Definition: LauCPFitModel.cc:2266
LauCPFitModel::LauBkgndEmbDataList
std::vector< LauEmbeddedData * > LauBkgndEmbDataList
Typedef for a vector of embedded data objects.
Definition: LauCPFitModel.hh:233
LauCPFitModel::setSCFPdfs
void setSCFPdfs(LauAbsPdf *negPdf, LauAbsPdf *posPdf)
Set the SCF PDF for a given variable.
Definition: LauCPFitModel.cc:336
LauCPFitModel::LauGenInfo
std::map< std::pair< TString, Int_t >, std::pair< Int_t, Double_t > > LauGenInfo
Define a map to be used to store a category name and numbers.
Definition: LauCPFitModel.hh:221
LauCPFitModel::useSCFHist_
Bool_t useSCFHist_
Is the SCF fraction DP-dependent.
Definition: LauCPFitModel.hh:580
LauCPFitModel::negMeanEff_
LauParameter negMeanEff_
The mean efficiency for B- model.
Definition: LauCPFitModel.hh:538
LauCPFitModel::setBkgndPdfs
void setBkgndPdfs(const TString &bkgndClass, LauAbsPdf *negPdf, LauAbsPdf *posPdf)
Set the background PDFs.
Definition: LauCPFitModel.cc:357
LauCPFitModel::getTotEvtLikelihood
virtual Double_t getTotEvtLikelihood(UInt_t iEvt)
Get the total likelihood for each event.
Definition: LauCPFitModel.cc:2104
LauCPFitModel::getEvtDPLikelihood
virtual void getEvtDPLikelihood(UInt_t iEvt)
Calculate the signal and background likelihoods for the DP for a given event.
Definition: LauCPFitModel.cc:2182
LauCPFitModel::posBkgndTree_
LauBkgndEmbDataList posBkgndTree_
The B+ background event tree.
Definition: LauCPFitModel.hh:630
LauCPFitModel::setBkgndDPModels
void setBkgndDPModels(const TString &bkgndClass, LauAbsBkgndDPModel *negModel, LauAbsBkgndDPModel *posModel)
Set the background DP models.
Definition: LauCPFitModel.cc:294
LauCPFitModel::negBkgndPdfs_
LauBkgndPdfsList negBkgndPdfs_
The B- background PDFs.
Definition: LauCPFitModel.hh:490
LauFitDataTree
Class to store the input fit variables.
Definition: LauFitDataTree.hh:37
LauCPFitModel::scfFrac_
LauParameter scfFrac_
The (global) SCF fraction parameter.
Definition: LauCPFitModel.hh:583
LauSPlot::NameSet
std::set< TString > NameSet
Type to store names, e.g. of the discriminating/control variables.
Definition: LauSPlot.hh:59
LauCPFitModel::setDPBranchValues
void setDPBranchValues()
Store all of the DP information.
Definition: LauCPFitModel.cc:1844
LauCPFitModel::posKinematics_
LauKinematics * posKinematics_
The B+ Dalitz plot kinematics object.
Definition: LauCPFitModel.hh:475
LauCPFitModel::embedPosSignal
void embedPosSignal(const TString &fileName, const TString &treeName, Bool_t reuseEventsWithinEnsemble, Bool_t reuseEventsWithinExperiment=kFALSE, Bool_t useReweighting=kFALSE)
Embed full simulation events for the B+ signal, rather than generating toy from the PDFs...
Definition: LauCPFitModel.cc:2890
LauCPFitModel::fitFracAsymm_
std::vector< LauParameter > fitFracAsymm_
The fit fraction asymmetries.
Definition: LauCPFitModel.hh:532
LauCPFitModel::setExtraNtupleVars
void setExtraNtupleVars()
Set-up other parameters that are derived from the fit results, e.g. fit fractions.
Definition: LauCPFitModel.cc:743
Generated by   doxygen 1.8.5