class HMdcTrackFitInOut: public TObject
_HADES_CLASS_DESCRIPTION HMdcTrackFitInOut Service class for for Dubna track piece fitters HMdcTrackFitter Base class for Dubna track piece fitters
Function Members (Methods)
public:
protected:
| virtual void | TObject::DoError(int level, const char* location, const char* fmt, va_list va) const |
| void | TObject::MakeZombie() |
Data Members
public:
| enum TObject::EStatusBits { | kCanDelete | |
| kMustCleanup | ||
| kObjInCanvas | ||
| kIsReferenced | ||
| kHasUUID | ||
| kCannotPick | ||
| kNoContextMenu | ||
| kInvalidObject | ||
| }; | ||
| enum TObject::[unnamed] { | kIsOnHeap | |
| kNotDeleted | ||
| kZombie | ||
| kBitMask | ||
| kSingleKey | ||
| kOverwrite | ||
| kWriteDelete | ||
| }; |
protected:
| UChar_t | calcInitValue | =0 don't calculate initial track parameters. |
| Bool_t | chi2CutFlag | if kTRUE - functional<totalChi2Cut |
| Double_t | chi2PerNdfCut | cut on value of functional/NDF |
| Double_t | cn2s | else if(chi2<cn2s*sig2) wt=(1- chi2/(cn2s*sig2) )^2 |
| Double_t | cn4s | else wt=0. |
| Double_t | cnWs | if (chi2<cnWs*sig2) wt=(1-(chi2/(cn4s*sig2))^2)^2 |
| Double_t | cutWeight | cut for Tukey weight |
| Bool_t | doTargScan | HMdcTrackFitterB use this flag |
| Bool_t | exclLay[6][4][6] | exclud layer from fit |
| HCategory* | fCalCat | pointer to MdcCal1 category |
| HCategory* | fClusFitCat | cat. for debuging inform. |
| HMdcDigitPar* | fDigitPar | "phys" digitization parameters |
| HMdcDriftTimePar* | fDriftTimePar | |
| HCategory* | fGeantKineCat | pointer to HGeantKine category |
| HCategory* | fGeantMdcCat | pointer to HGeantMdc category |
| HMdcSizesCellsMod* | fSCModAr[6][4] | |
| HMdcSizesCells* | fSizesCells | |
| HCategory* | fWireFitCat | -/- |
| HMdcTrackFitPar* | fitPar | fit parameters container |
| Bool_t | fprint | flag for control print-out |
| Double_t | funCt1 | if functional < funCt1 stepD1 will used |
| Double_t | funCt2 | else if functional < funCt2 stepD2 will used |
| Bool_t | geantFlag | =kTRUE for GEANT data |
| HLocation | loc | location for HMdcCal1 object |
| HLocation | locClusFit | location for new "HMdcClusFit" object |
| HLocation | locWireFit | location for new "HMdcWireFit" object |
| Double_t | maxChi2 | weight=(chi2[time]>maxChi2) ? 0.:1.; |
| Int_t | maxNFilterIter | max. number of iterations in wires filtering |
| Double_t | maxTimeOffset | cut on maximal value of time offset |
| Int_t | minCellsNum | cut on the min.number of wires passed fit |
| Double_t | minSig2 | minimal value of sugma^2 |
| Double_t | minTOffsetIter | time offset cut for intermediate iterations |
| Double_t | minTimeOffset | cut on minimal value of time offset |
| Double_t | minWeight | weight=(weight<minWeight) ? 0.:1.; |
| Int_t | nEventPrint | print this number of events (def=1000000000) |
| Int_t | printStartEv | start to print from this event number |
| Float_t | signalSpeed | speed of signal on the wire (ns/mm) |
| Double_t | stepD1 | |
| Double_t | stepD2 | |
| Double_t | stepD3 | else stepD3 will used |
| Int_t | tofFlag | =1 - calculate tof for each module |
| Double_t | totalChi2Cut | cut on value of functional |
| Double_t | tukeyScale | scaling of chi2 for tukey weight |
| Bool_t | useRndbPar | kFALSE - use default parameters, kTRUE - RnDb |
| Bool_t | useRtdbTFlag | =kFALSE if it setted in macro |
| Bool_t | useRtdbTScFlag | =kFALSE if it setted in macro |
| Bool_t | useRtdbTofFlag | =kFALSE - tofFlag is setted in macro |
| Bool_t | useTukeyFlag | flag for using or not Tukey weights. |
| Int_t | version | =0 - old version of drift time calc. |
| Int_t | wireOffsetFlag | remove signal time on wire from drift time |
Class Charts
Function documentation
HMdcTrackFitInOut(const HMdcTrackFitInOut& )
void setDefaultFitParam(void)
Default parameters of track fitter setting If it calls by user Rtdb fit parameters will not used.
void setNEventsPrint(Int_t start, Int_t nev)
void setTukeyConstants(Double_t cw, Double_t c2, Double_t c4)
void getTukeyConstants(Double_t& cw, Double_t& c2, Double_t& c4) const
HMdcWireFit* getNewWireFitSlot(Int_t* indWireFit)
HMdcClusFit* getNewClusFitSlot(Int_t* indClusFit)
Double_t getStepDer(Double_t funct) const
void setPrintFlag(Int_t currentEvent)
void setChi2PerNdfCut(Double_t cut = 50.)
void setTotalChi2Cut(Double_t cut = 300.)
void excludeLayer(UInt_t s, UInt_t m, UInt_t l)
void excludeModule(UInt_t s, UInt_t m)
Bool_t isLayerExcluded(Int_t s, Int_t m, Int_t l) const
HMdcTrackFitInOut(const HMdcTrackFitInOut& )