1 | #ifndef MARS_MSignalPix
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2 | #define MARS_MSignalPix
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3 |
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4 | #ifndef MARS_MParContainer
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5 | #include "MParContainer.h"
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6 | #endif
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7 | #ifndef MARS_MMath
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8 | #include "MMath.h"
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9 | #endif
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10 |
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11 | class MSignalPix : public MParContainer
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12 | {
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13 | private:
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14 | Bool_t fIsCore; //! the pixel is a Core pixel -> kTRUE
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15 | Short_t fRing; // NT: number of analyzed rings around the core pixels, fRing>0 means: used, fRing= 0 means: unused, fRing= -1 means: unmapped (no possible to use in the calculation of the image parameters)
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16 | Short_t fIdxIsland; //! the pixel is a Core pixel -> kTRUE
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17 |
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18 | Float_t fPhot; // The number of Cerenkov photons
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19 | Float_t fErrPhot; // the error of fPhot
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20 | Float_t fArrivalTime; // Calibrated Arrival Time
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21 |
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22 | public:
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23 | MSignalPix(Float_t phot=0, Float_t errphot=0);
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24 | MSignalPix(const MSignalPix &pix)
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25 | : fIsCore(pix.fIsCore), fRing(pix.fRing), fIdxIsland(pix.fIdxIsland),
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26 | fPhot(pix.fPhot), fErrPhot(pix.fErrPhot), fArrivalTime(pix.fArrivalTime)
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27 | {
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28 | }
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29 |
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30 | // TObject
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31 | void Clear(Option_t *o=0);
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32 | void Copy(TObject &obj) const
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33 | {
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34 | MSignalPix &pix = (MSignalPix&)obj;
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35 | pix.fIsCore = fIsCore;
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36 | pix.fRing = fRing;
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37 | pix.fIdxIsland = fIdxIsland;
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38 | pix.fPhot = fPhot;
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39 | pix.fErrPhot = fErrPhot;
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40 | pix.fArrivalTime = fArrivalTime;
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41 | }
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42 | void Print(Option_t *opt = NULL) const;
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43 |
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44 | // MSignalPix
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45 | Float_t GetNumPhotons() const { return fPhot; }
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46 | Float_t GetErrorPhot() const { return fErrPhot; }
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47 | Float_t GetArrivalTime() const { return fArrivalTime; }
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48 |
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49 | Bool_t IsPixelUsed() const { return fRing>0; }
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50 | Bool_t IsPixelUnmapped() const { return fRing==-1; }
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51 | void SetPixelUnused() { fRing=0; }
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52 | void SetPixelUsed() { fRing=1; }
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53 | void SetPixelUnmapped() { fRing=-1; }
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54 | void SetIdxIsland(Short_t num) { fIdxIsland=num; }
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55 | Short_t GetIdxIsland() const { return fIdxIsland; }
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56 |
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57 | void SetRing(UShort_t r) { fRing = r; }
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58 | Short_t GetRing() const { return fRing;}
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59 |
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60 | void SetPixelCore(Bool_t b=kTRUE) { fIsCore = b; }
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61 | Bool_t IsPixelCore() const { return fIsCore; }
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62 |
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63 | void SetNumPhotons(Float_t f) { MMath::ReducePrecision(f); fPhot = f; }
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64 | void SetErrorPhot(Float_t f) { MMath::ReducePrecision(f); fErrPhot = f; }
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65 | void Set(Float_t np, Float_t ep) { MMath::ReducePrecision(np); MMath::ReducePrecision(ep); fPhot = np; fErrPhot = ep; }
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66 | void SetArrivalTime(Float_t tm) { fArrivalTime = tm; }
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67 |
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68 | //void AddNumPhotons(Float_t f) { fPhot += f; }
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69 | //void Scale(Float_t f) { fPhot /= f; }
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70 |
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71 | ClassDef(MSignalPix, 7) // class containing information about the Cerenkov Photons in a pixel
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72 | };
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73 |
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74 | #endif
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