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#ifndef DIGITIZER_H |
#ifndef DIGITIZER_H |
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#define DIGITIZER_H |
#define DIGITIZER_H |
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#define nspe 200 |
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#define ntof 200 |
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#define ncat 50 |
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#define ncas 50 |
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#define ncar 100 |
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#define ncal 1000 |
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#define nnd 200 |
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#define nstr 1000 |
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#include <iostream> |
#include <iostream> |
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#include <fstream> |
#include <fstream> |
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static const int fPSCUbuffer = 8; |
static const int fPSCUbuffer = 8; |
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static const int fTRIGGERbuffer = 153; //(bytes) |
static const int fTRIGGERbuffer = 152; //(bytes) |
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static const int fTOFbuffer = 276; //(bytes) |
static const int fTOFbuffer = 276; //(bytes) |
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static const int fRunHeaderbuffer = 27; // ?? |
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static const int fRunTrailerbuffer = 17; |
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static const int fACbuffer = 128; |
static const int fACbuffer = 128; |
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static const int fNDbuffer = 4; |
static const int fNDbuffer = 6; |
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static const int fS4buffer = 3; |
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static const int fPADbuffer = 64; // changed from 32! |
static const int fPADbuffer = 64; // changed from 32! |
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static const int fCALObuffer = 10000; |
static const int fCALObuffer = 10000; |
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static const float fCALOGeV2MIPratio = 0.0001059994; |
static const float fCALOGeV2MIPratio = 0.0001059994; |
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static const float fAveSigmay = 8.; // to be adjusted |
static const float fAveSigmay = 8.; // to be adjusted |
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static const float fSigmaSigmay =0.1; // to be adjusted |
static const float fSigmaSigmay =0.1; // to be adjusted |
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static const float fSigmaCommon = 25.; // to be adjusted |
static const float fSigmaCommon = 25.; // to be adjusted |
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static const float fMipCor = 1.; // to be adjusted |
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// end dimensions of vectors and buffer, parameter for tracker |
// end dimensions of vectors and buffer, parameter for tracker |
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UShort_t fDataPSCU[fPSCUbuffer]; |
UShort_t fDataPSCU[fPSCUbuffer]; |
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UInt_t fCounter; |
UInt_t fCounter; |
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UInt_t fCounterPhys; |
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UInt_t fOBT; |
UInt_t fOBT; |
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UShort_t fDataPadding[fPADbuffer]; |
UShort_t fDataPadding[fPADbuffer]; |
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UInt_t fPadding; |
UInt_t fPadding; |
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UChar_t fDataTrigger[fTRIGGERbuffer]; |
UShort_t fDataRunHeader[fRunHeaderbuffer]; |
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UShort_t fDataRunTrailer[fRunTrailerbuffer]; |
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UChar_t fDataTrigger[fTRIGGERbuffer]; |
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UChar_t fDataTof[fTOFbuffer]; |
UChar_t fDataTof[fTOFbuffer]; |
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UShort_t fDataAC[fACbuffer]; |
UShort_t fDataAC[fACbuffer]; |
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UShort_t fDataND[fACbuffer]; |
UShort_t fDataND[fNDbuffer]; |
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UShort_t fDataS4[fS4buffer]; |
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UShort_t fDataDummy[fDummybuffer]; |
UShort_t fDataDummy[fDummybuffer]; |
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UShort_t fDataCALO[fCALObuffer]; |
UShort_t fDataCALO[fCALObuffer]; |
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char* fFilename; |
char* fFilename; |
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UInt_t fLen; |
UInt_t fLen; |
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// vectors, buffer, and variables for tracker |
// vectors, buffer, and variables for tracker |
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UInt_t fTracklength; // Actual length of buffer |
UInt_t fTracklength; // Actual length of buffer |
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Float_t fPedeTrack[fNviews][fNstrips_view]; |
Float_t fPedeTrack[fNviews][fNstrips_view]; |
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Float_t fSigmaTrack[fNviews][fNstrips_view]; |
Float_t fSigmaTrack[fNviews][fNstrips_view]; |
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// UShort_t fBadTrack[fNviews][fNstrips_view]; |
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Float_t fMipCor[fNladder][fNviews] ; |
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// end vectors, buffer, and variables for tracker |
// end vectors, buffer, and variables for tracker |
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Float_t Phi; |
Float_t Phi; |
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Float_t P0; |
Float_t P0; |
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Int_t Nthtof; |
Int_t Nthtof; |
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UChar_t Ipltof[100]; //[Nthtof] |
UChar_t Ipltof[ntof]; |
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UChar_t Ipaddle[100]; //[Nthtof] |
UChar_t Ipaddle[ntof]; |
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UChar_t Ipartof[100]; //[Nthtof] |
UChar_t Ipartof[ntof]; |
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Float_t Xintof[100]; //[Nthtof] |
Float_t Xintof[ntof]; |
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Float_t Yintof[100]; //[Nthtof] |
Float_t Yintof[ntof]; |
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Float_t Zintof[100]; //[Nthtof] |
Float_t Zintof[ntof]; |
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Float_t Xouttof[100]; //[Nthtof] |
Float_t Xouttof[ntof]; |
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Float_t Youttof[100]; //[Nthtof] |
Float_t Youttof[ntof]; |
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Float_t Zouttof[100]; //[Nthtof] |
Float_t Zouttof[ntof]; |
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Float_t Ereltof[100]; //[Nthtof] |
Float_t Ereltof[ntof]; |
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Float_t Timetof[100]; //[Nthtof] |
Float_t Timetof[ntof]; |
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Float_t Pathtof[100]; //[Nthtof] |
Float_t Pathtof[ntof]; |
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Float_t P0tof[100]; //[Nthtof] |
Float_t P0tof[ntof]; |
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Int_t Nthcat; |
Int_t Nthcat; |
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UChar_t Iparcat[50]; //[Nthcat] |
UChar_t Iparcat[ncat]; |
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UChar_t Icat[50]; //[Nthcat] |
UChar_t Icat[ncat]; |
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Float_t Xincat[50]; //[Nthcat] |
Float_t Xincat[ncat]; |
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Float_t Yincat[50]; //[Nthcat] |
Float_t Yincat[ncat]; |
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Float_t Zincat[50]; //[Nthcat] |
Float_t Zincat[ncat]; |
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Float_t Xoutcat[50]; //[Nthcat] |
Float_t Xoutcat[ncat]; |
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Float_t Youtcat[50]; //[Nthcat] |
Float_t Youtcat[ncat]; |
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Float_t Zoutcat[50]; //[Nthcat] |
Float_t Zoutcat[ncat]; |
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Float_t Erelcat[50]; //[Nthcat] |
Float_t Erelcat[ncat]; |
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Float_t Timecat[50]; //[Nthcat] |
Float_t Timecat[ncat]; |
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Float_t Pathcat[50]; //[Nthcat] |
Float_t Pathcat[ncat]; |
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Float_t P0cat[50]; //[Nthcat] |
Float_t P0cat[ncat]; |
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Int_t Nthcas; |
Int_t Nthcas; |
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UChar_t Iparcas[50]; //[Nthcas] |
UChar_t Iparcas[ncas]; |
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UChar_t Icas[50]; //[Nthcas] |
UChar_t Icas[ncas]; |
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Float_t Xincas[50]; //[Nthcas] |
Float_t Xincas[ncas]; |
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Float_t Yincas[50]; //[Nthcas] |
Float_t Yincas[ncas]; |
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Float_t Zincas[50]; //[Nthcas] |
Float_t Zincas[ncas]; |
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Float_t Xoutcas[50]; //[Nthcas] |
Float_t Xoutcas[ncas]; |
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Float_t Youtcas[50]; //[Nthcas] |
Float_t Youtcas[ncas]; |
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Float_t Zoutcas[50]; //[Nthcas] |
Float_t Zoutcas[ncas]; |
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Float_t Erelcas[50]; //[Nthcas] |
Float_t Erelcas[ncas]; |
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Float_t Timecas[50]; //[Nthcas] |
Float_t Timecas[ncas]; |
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Float_t Pathcas[50]; //[Nthcas] |
Float_t Pathcas[ncas]; |
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Float_t P0cas[50]; //[Nthcas] |
Float_t P0cas[ncas]; |
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Int_t Nthspe; |
Int_t Nthspe; |
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UChar_t Iparspe[100]; //[Nthspe] |
UChar_t Iparspe[nspe]; |
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UChar_t Itrpb[100]; //[Nthspe] |
UChar_t Itrpb[nspe]; |
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UChar_t Itrsl[100]; //[Nthspe] |
UChar_t Itrsl[nspe]; |
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UChar_t Itspa[100]; //[Nthspe] |
UChar_t Itspa[nspe]; |
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Float_t Xinspe[100]; //[Nthspe] |
Float_t Xinspe[nspe]; |
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Float_t Yinspe[100]; //[Nthspe] |
Float_t Yinspe[nspe]; |
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Float_t Zinspe[100]; //[Nthspe] |
Float_t Zinspe[nspe]; |
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Float_t Xoutspe[100]; //[Nthspe] |
Float_t Xoutspe[nspe]; |
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Float_t Youtspe[100]; //[Nthspe] |
Float_t Youtspe[nspe]; |
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Float_t Zoutspe[100]; //[Nthspe] |
Float_t Zoutspe[nspe]; |
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Float_t Xavspe[100]; //[Nthspe] |
Float_t Xavspe[nspe]; |
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Float_t Yavspe[100]; //[Nthspe] |
Float_t Yavspe[nspe]; |
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Float_t Zavspe[100]; //[Nthspe] |
Float_t Zavspe[nspe]; |
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Float_t Erelspe[100]; //[Nthspe] |
Float_t Erelspe[nspe]; |
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Float_t Pathspe[100]; //[Nthspe] |
Float_t Pathspe[nspe]; |
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Float_t P0spe[100]; //[Nthspe] |
Float_t P0spe[nspe]; |
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UChar_t Nxmult[100]; //[Nthspe] |
UChar_t Nxmult[nspe]; |
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UChar_t Nymult[100]; //[Nthspe] |
UChar_t Nymult[nspe]; |
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Int_t Nstrpx; |
Int_t Nstrpx; |
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UChar_t Npstripx[1000]; //[Nstrpx] |
UChar_t Npstripx[nstr]; |
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UChar_t Ntstripx[1000]; //[Nstrpx] |
UChar_t Ntstripx[nstr]; |
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UShort_t Istripx[1000]; //[Nstrpx] |
UShort_t Istripx[nstr]; |
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//UInt_t Istripx[1000]; //[Nstrpx] |
//UInt_t Istripx[nstr]; |
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Float_t Qstripx[1000]; //[Nstrpx] |
Float_t Qstripx[nstr]; |
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Float_t Xstripx[1000]; //[Nstrpx] |
Float_t Xstripx[nstr]; |
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Int_t Nstrpy; |
Int_t Nstrpy; |
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UChar_t Npstripy[1000]; //[Nstrpy] |
UChar_t Npstripy[nstr]; |
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UChar_t Ntstripy[1000]; //[Nstrpy] |
UChar_t Ntstripy[nstr]; |
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UShort_t Istripy[1000]; //[Nstrpy] |
UShort_t Istripy[nstr]; |
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//UInt_t Istripy[1000]; //[Nstrpy] |
//UInt_t Istripy[nstr]; |
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Float_t Qstripy[1000]; //[Nstrpy] |
Float_t Qstripy[nstr]; |
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Float_t Ystripy[1000]; //[Nstrpy] |
Float_t Ystripy[nstr]; |
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Int_t Nthcali; |
Int_t Nthcali; |
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UChar_t Icaplane[4224]; //[Nthcali] |
UChar_t Icaplane[4224]; |
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UChar_t Icastrip[4224]; //[Nthcali] |
UChar_t Icastrip[4224]; |
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Int_t Icamod[4224]; //[Nthcali] |
Int_t Icamod[4224]; |
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Float_t Enestrip[4224]; //[Nthcali] |
Float_t Enestrip[4224]; |
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Int_t Nthcal; |
Int_t Nthcal; |
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UChar_t Icapl[1000]; //[Nthcal] |
UChar_t Icapl[ncal]; |
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UChar_t Icasi[1000]; //[Nthcal] |
UChar_t Icasi[ncal]; |
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UChar_t Icast[1000]; //[Nthcal] |
UChar_t Icast[ncal]; |
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Float_t Xincal[1000]; //[Nthcal] |
Float_t Xincal[ncal]; |
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Float_t Yincal[1000]; //[Nthcal] |
Float_t Yincal[ncal]; |
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Float_t Zincal[1000]; //[Nthcal] |
Float_t Zincal[ncal]; |
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Float_t Erelcal[1000]; //[Nthcal] |
Float_t Erelcal[ncal]; |
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Int_t Nthnd; |
Int_t Nthnd; |
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UChar_t Itubend[200]; //[Nthnd] |
UChar_t Itubend[nnd]; |
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UChar_t Iparnd[200]; //[Nthnd] |
UChar_t Iparnd[nnd]; |
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Float_t Xinnd[200]; //[Nthnd] |
Float_t Xinnd[nnd]; |
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Float_t Yinnd[200]; //[Nthnd] |
Float_t Yinnd[nnd]; |
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Float_t Zinnd[200]; //[Nthnd] |
Float_t Zinnd[nnd]; |
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Float_t Xoutnd[200]; //[Nthnd] |
Float_t Xoutnd[nnd]; |
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Float_t Youtnd[200]; //[Nthnd] |
Float_t Youtnd[nnd]; |
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Float_t Zoutnd[200]; //[Nthnd] |
Float_t Zoutnd[nnd]; |
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Float_t Erelnd[200]; //[Nthnd] |
Float_t Erelnd[nnd]; |
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Float_t Timend[200]; //[Nthnd] |
Float_t Timend[nnd]; |
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Float_t Pathnd[200]; //[Nthnd] |
Float_t Pathnd[nnd]; |
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Float_t P0nd[200]; //[Nthnd] |
Float_t P0nd[nnd]; |
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Int_t Nthcard; |
Int_t Nthcard; |
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UChar_t Iparcard[100]; //[Nthcard] |
UChar_t Iparcard[ncar]; |
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UChar_t Icard[100]; //[Nthcard] |
UChar_t Icard[ncar]; |
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Float_t Xincard[100]; //[Nthcard] |
Float_t Xincard[ncar]; |
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Float_t Yincard[100]; //[Nthcard] |
Float_t Yincard[ncar]; |
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Float_t Zincard[100]; //[Nthcard] |
Float_t Zincard[ncar]; |
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Float_t Xoutcard[100]; //[Nthcard] |
Float_t Xoutcard[ncar]; |
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Float_t Youtcard[100]; //[Nthcard] |
Float_t Youtcard[ncar]; |
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Float_t Zoutcard[100]; //[Nthcard] |
Float_t Zoutcard[ncar]; |
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Float_t Erelcard[100]; //[Nthcard] |
Float_t Erelcard[ncar]; |
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Float_t Timecard[100]; //[Nthcard] |
Float_t Timecard[ncar]; |
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Float_t Pathcard[100]; //[Nthcard] |
Float_t Pathcard[ncar]; |
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Float_t P0card[100]; //[Nthcard] |
Float_t P0card[ncar]; |
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// List of branches |
// List of branches |
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TBranch *b_Irun; //! |
TBranch *b_Irun; //! |
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Digitizer(TTree *tree, char* &file_raw); // constructor |
Digitizer(TTree *tree, char* &file_raw); // constructor |
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void Close(); |
void Close(); |
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void SetTree(TTree *tree) {fhBookTree = tree;}; |
void SetTree(TTree *tree) {fhBookTree = tree;}; |
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void Loop(); // does the looping over events |
void Loop(); // does the looping over events |
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void DigitizePSCU(UInt_t, UChar_t, UShort_t*); // digitizes the CPU header |
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void DigitizePSCU(UInt_t, UChar_t); // digitizes the CPU header |
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void AddPadding(); |
void AddPadding(); |
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void DigitizeTRIGGER(); // digitizes the trigger |
void DigitizeRunHeader(); |
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Int_t DigitizeTOF(); // digitizes the tof |
void DigitizeRunTrailer(); |
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// void DigitizeTRIGGER(); // SO nov'07: included in DigitizeTOF |
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void DigitizeTOF(int np,float *atte1,float *atte2,float *lambda1,float *lambda2); // digitizes the tof |
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void LoadTOFCalib(int np,float *atte1,float *atte2,float *lambda1,float *lambda2); //load TOF calibration |
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void DigitizeAC(); // digitizes the anti-counter |
void DigitizeAC(); // digitizes the anti-counter |
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void DigitizeND(); // digitizes the ND |
void DigitizeND(); // digitizes the ND |
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void DigitizeS4(); // digitizes the S4 |
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void DigitizeCALO(); // digitizes the calorimeter |
void DigitizeCALO(); // digitizes the calorimeter |
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void DigitizeCALOCALIB(); // digitizes the calorimeter calibration |
void DigitizeCALOCALIB(); // digitizes the calorimeter calibration |
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void DigitizeCALORAW(); // digitizes the calorimeter |
void DigitizeCALORAW(); // digitizes the calorimeter |
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void Paddle2Pmt(Int_t, Int_t, Int_t*, Int_t*); |
void Paddle2Pmt(Int_t, Int_t, Int_t*, Int_t*); |
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//void Paddle2Pmt(Int_t, Int_t, Int_t &pmtleft, Int_t &pmtright); |
//void Paddle2Pmt(Int_t, Int_t, Int_t &pmtleft, Int_t &pmtright); |
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UChar_t Bin2GrayTof(UChar_t, UChar_t); |
UChar_t Bin2GrayTof(UChar_t, UChar_t); |
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void Crc8Tof(UChar_t*, UChar_t*); |
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UChar_t EvaluateCrcTrigger(UChar_t*, Int_t); |
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UShort_t* GetDataAC(){return(fDataAC);}; // retrieve AC data (not used right now) |
UShort_t* GetDataAC(){return(fDataAC);}; // retrieve AC data (not used right now) |
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void LoadTrackCalib(); // load in memmory tracker calibration |
void LoadTrackCalib(); // load in memmory tracker calibration |
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void CompressTrackData(Float_t AdcTrack[fNviews][fNstrips_view]); // Compress and Digitize data of one Ladder in turn |
void CompressTrackData(Float_t AdcTrack[fNviews][fNstrips_view]); // Compress and Digitize data of one Ladder in turn |
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void LoadMipCor(); // Load the strip calibration in memory |
void LoadMipCor(); // Load the strip calibration in memory |
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Float_t SaturationTrack(Float_t ADC); // Saturation simulation |
Float_t SaturationTrackx(Float_t ADC); // Saturation simulation |
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Float_t SaturationTracky(Float_t ADC); // Saturation simulation |
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// end methods for Tracker |
// end methods for Tracker |
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void WriteRunHeader(); |
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void WriteRunTrailer(); |
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void WriteData(); // writes data to file |
void WriteData(); // writes data to file |
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void ReadData(); |
void ReadData(); |
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