source: releases/Mars.2014.05.26/mextralgo/MExtralgoDigitalFilter.h@ 18066

Last change on this file since 18066 was 8919, checked in by tbretz, 17 years ago
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1#ifndef MARS_MExtralgoDigitalFilter
2#define MARS_MExtralgoDigitalFilter
3
4#ifndef ROOT_TMatrix
5#include <TMatrix.h>
6#endif
7
8class TH1;
9class TH2;
10class TH1F;
11class TH2F;
12class TArrayF;
13
14class MExtralgoDigitalFilter
15{
16private:
17 // Input
18 const Float_t *fVal;
19 Int_t fNum;
20
21 Float_t const *fWeightsAmp;
22 Float_t const *fWeightsTime;
23 Float_t const *fPulseShape;
24
25 const TMatrix *fAinv;
26
27 const Int_t fWeightsPerBin; // Number of weights per data bin
28 const Int_t fWindowSize;
29
30 // Result
31 Float_t fTime;
32 Float_t fTimeDev;
33 Float_t fSignal;
34 Float_t fSignalDev;
35
36 Float_t GetChisq(const Int_t maxp, const Int_t frac, const Float_t sum) const;
37
38 inline Double_t ChiSq(const Double_t sum, const Int_t startv, const Int_t startw=0) const
39 {
40 //
41 // Slide with a window of size windowsize over the sample
42 // and multiply the entries with the corresponding weights
43 //
44 Double_t chisq = 0;
45
46 // Shift the start of the weight to the center of sample 0
47 Float_t const *w = fPulseShape + startw;
48
49 const Float_t *beg = fVal+startv;
50 for (Float_t const *pex=beg; pex<beg+fWindowSize; pex++)
51 {
52 const Double_t c = *w - *pex/sum;
53 chisq += c*c;
54 w += fWeightsPerBin;
55 }
56 return chisq;
57 }
58
59 // Weights: Weights to evaluate
60 // Startv: Index of first bin of data
61 // startw: Offset on the weights
62 inline Double_t Eval(Float_t const *weights, const Int_t startv, const Int_t startw=0) const
63 {
64 //
65 // Slide with a window of size windowsize over the sample
66 // and multiply the entries with the corresponding weights
67 //
68 Double_t sum = 0;
69
70 // Shift the start of the weight to the center of sample 0
71 Float_t const *w = weights + startw;
72
73 const Float_t *beg = fVal+startv;
74 for (Float_t const *pex=beg; pex<beg+fWindowSize; pex++)
75 {
76 sum += *w * *pex;
77 w += fWeightsPerBin;
78 }
79 return sum;
80 }
81
82 inline void AlignIntoLimits(Int_t &maxp, Int_t &frac) const
83 {
84 // Align maxp into available range (TO BE CHECKED)
85 if (maxp < 0)
86 {
87 maxp = 0;
88 frac = fWeightsPerBin/2-1; // Assume peak at the end of the last slice
89 }
90 if (maxp > fNum-fWindowSize)
91 {
92 maxp = fNum-fWindowSize;
93 frac = -fWeightsPerBin/2; // Assume peak at the beginning of the first slice
94 }
95 }
96
97 Int_t AlignExtractionWindow(Int_t &maxp, Int_t &frac, const Double_t ampsum);
98 void AlignExtractionWindow(Int_t &maxp, Int_t &frac)
99 {
100 const Double_t amp = Eval(fWeightsAmp, maxp, frac);
101 if (amp!=0)
102 AlignExtractionWindow(maxp, frac, amp);
103 }
104
105public:
106 MExtralgoDigitalFilter(Int_t res, Int_t windowsize, Float_t *wa, Float_t *wt, Float_t *ps=0, TMatrix *ainv=0)
107 : fVal(0), fNum(0), fWeightsAmp(wa+res/2), fWeightsTime(wt+res/2),
108 fPulseShape(ps), fAinv(ainv), fWeightsPerBin(res), fWindowSize(windowsize),
109 fTime(0), fTimeDev(-1), fSignal(0), fSignalDev(-1)
110 {
111 }
112
113 void SetData(Int_t n, Float_t const *val) { fNum=n; fVal=val; }
114
115 Float_t GetTime() const { return fTime; }
116 Float_t GetSignal() const { return fSignal; }
117
118 Float_t GetTimeDev() const { return fTimeDev; }
119 Float_t GetSignalDev() const { return fSignalDev; }
120
121 void GetSignal(Float_t &sig, Float_t &dsig) const { sig=fSignal; dsig=fSignalDev; }
122 void GetTime(Float_t &sig, Float_t &dsig) const { sig=fTime; dsig=fTimeDev; }
123
124 Float_t ExtractNoise() const;
125 void Extract(Int_t maxpos=-1);
126
127 static Int_t CalculateWeights(TH1 &shape, const TH2 &autocorr, TArrayF &wa, TArrayF &wt, Int_t wpb=-1);
128 static Int_t CalculateWeights2(TH1 &shape, const TH2 &autocorr, TArrayF &wa, TArrayF &wt, Int_t wpb=-1);
129};
130
131
132#endif
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