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d655d7dd | 1 | // -*- mode: c++ -*- |
57839add | 2 | #ifndef ALICALOFITRESULTS_H |
3 | #define ALICALOFITRESULTS_H | |
d655d7dd | 4 | /************************************************************************** |
5 | * This file is property of and copyright by * | |
6 | * the Relativistic Heavy Ion Group (RHIG), Yale University, US, 2009 * | |
7 | * * | |
8 | * Primary Author: Per Thomas Hille <p.t.hille@fys.uio.no> * | |
9 | * * | |
10 | * Contributors are mentioned in the code where appropriate. * | |
11 | * Please report bugs to p.t.hille@fys.uio.no * | |
12 | * * | |
13 | * Permission to use, copy, modify and distribute this software and its * | |
14 | * documentation strictly for non-commercial purposes is hereby granted * | |
15 | * without fee, provided that the above copyright notice appears in all * | |
16 | * copies and that both the copyright notice and this permission notice * | |
17 | * appear in the supporting documentation. The authors make no claims * | |
18 | * about the suitability of this software for any purpose. It is * | |
19 | * provided "as is" without express or implied warranty. * | |
20 | **************************************************************************/ | |
21 | ||
d655d7dd | 22 | #include "Rtypes.h" |
f57baa2d | 23 | #include "AliCaloFitSubarray.h" |
168c7b3c | 24 | #include "AliCaloConstants.h" |
25 | ||
57839add | 26 | class AliCaloFitResults |
d655d7dd | 27 | { |
28 | public: | |
168c7b3c | 29 | // enum kReturnCode {kFitPar=1, kDummy=-1, kCrude=-9, kNoFit=-99, kInvalid=-9999};// possible return values |
507751ce | 30 | // kFitPar: method fit or parametrization was used |
31 | // kDummy: just a filler parameter, if e.g. chi2 not available | |
32 | // kCrude: maximum was used | |
33 | // kNoFit: maximum was used, exception handling for fit invoked | |
34 | // kInvalid: could not even look for maximum | |
f57baa2d | 35 | |
92d9f317 | 36 | |
f57baa2d | 37 | explicit AliCaloFitResults( const Int_t maxSig, |
38 | const Float_t ped, | |
39 | const Short_t fitStatus, | |
40 | const Float_t amp, | |
92d9f317 | 41 | const double time, |
507751ce | 42 | const Int_t maxTimebin, |
15cdd9b3 | 43 | // const Float_t chi, |
44 | const Float_t chi, | |
f57baa2d | 45 | const Int_t ndf, |
46 | const Int_t minSig, | |
6d1befcf | 47 | const AliCaloFitSubarray fitSubarray ); |
92d9f317 | 48 | |
f57baa2d | 49 | |
57839add | 50 | explicit AliCaloFitResults( const Int_t maxSig, |
51 | const Float_t ped, | |
52 | const Short_t fitStatus, | |
53 | const Float_t amp, | |
92d9f317 | 54 | const double time, |
507751ce | 55 | const Int_t maxTimebin, |
15cdd9b3 | 56 | // const Float_t chi, |
57839add | 57 | const Float_t chi, |
58 | const Int_t ndf, | |
168c7b3c | 59 | const Int_t minSig = Ret::kDummy); |
60 | // const Int_t minSig = CaloConstants::ReturnCodes::kDummy); | |
61 | ||
d655d7dd | 62 | |
507751ce | 63 | // shorter interface when no fit is done |
92d9f317 | 64 | |
65 | ||
507751ce | 66 | explicit AliCaloFitResults( const Int_t maxSig, |
67 | const Float_t ped, | |
68 | const Short_t fitStatus, | |
69 | const Float_t amp, | |
70 | const Int_t maxTimebin); | |
92d9f317 | 71 | |
507751ce | 72 | |
73 | // minimum interface | |
57839add | 74 | explicit AliCaloFitResults( const Int_t maxSig, const Int_t minSig ); |
d655d7dd | 75 | |
6d1befcf | 76 | AliCaloFitResults(); |
57839add | 77 | virtual ~AliCaloFitResults(); |
15cdd9b3 | 78 | UShort_t GetMaxSig() const { return fMaxSig;}; |
d655d7dd | 79 | Float_t GetPed() const { return fPed;}; |
15cdd9b3 | 80 | UShort_t GetMinSig() const { return fMinSig;}; |
57839add | 81 | Int_t GetStatus() const { return fStatus;}; |
d655d7dd | 82 | Float_t GetAmp() const { return fAmpSig; }; |
507751ce | 83 | Float_t GetTof() const { return fTime; }; |
92d9f317 | 84 | double GetTime() const { return fTime; }; |
507751ce | 85 | Int_t GetMaxTimebin() const { return fMaxTimebin; }; |
947c8e28 | 86 | Float_t GetChi2() const { return fChi2Sig;}; |
15cdd9b3 | 87 | UShort_t GetNdf() const { return fNdfSig; }; |
f57baa2d | 88 | AliCaloFitSubarray GetFitSubarray() const { return fFitSubarray; }; |
92d9f317 | 89 | void SetTime(Float_t time ) { fTime = time; }; |
90 | void SetAmp(Float_t amp ) { fAmpSig = amp; }; | |
91 | ||
d655d7dd | 92 | private: |
6d1befcf | 93 | // AliCaloFitResults(); |
15cdd9b3 | 94 | UShort_t fMaxSig; //Maximum sample value ( 0 - 1023 ) |
d655d7dd | 95 | Float_t fPed; //Pedestal |
6d1befcf | 96 | Int_t fStatus; //Sucess or failure of fitting pocedure |
d655d7dd | 97 | Float_t fAmpSig; //Amplitude in entities of ADC counts |
92d9f317 | 98 | double fTime; //peak/max time of signal in entities of sample intervals |
6d1befcf | 99 | Int_t fMaxTimebin; //timebin with maximum ADC value |
d655d7dd | 100 | Float_t fChi2Sig; //Chi Square of fit |
15cdd9b3 | 101 | UShort_t fNdfSig; //Number of degrees of freedom of fit |
102 | UShort_t fMinSig; //Pedestal | |
f57baa2d | 103 | AliCaloFitSubarray fFitSubarray; // info on time-bin array used for the fitting |
d655d7dd | 104 | }; |
105 | ||
106 | #endif |