#include class CalorimeterCalibration : public TObject { public: CalorimeterCalibration(); Int_t status; TString fname; Float_t mip[2][22][96]; Float_t ermip[2][22][96]; Float_t fp[4][2][22][96]; Float_t fpe[4][2][22][96]; Float_t chi2[2][22][96]; Float_t ndf[2][22][96]; Float_t mask[2][22][96]; // ClassDef(CalorimeterCalibration,0); }; class CalorimeterCalibScan : public TObject { public: CalorimeterCalibScan(); Int_t evno; Int_t etime[4]; Int_t cstwerr[4]; Float_t cperror[4]; Float_t calped[2][22][96]; Float_t calgood[2][22][96]; Float_t calthr[2][22][6]; Float_t calrms[2][22][96]; Float_t calbase[2][22][6]; Float_t calvar[2][22][6]; Double_t calno; // ClassDef(CalorimeterCalibScan,0); }; CalorimeterCalibScan::CalorimeterCalibScan() { calno = 0.; evno = 0; for (Int_t a = 0; a < 4 ; a++){ etime[a] = 0; cperror[a] = 0.; cstwerr[a] = 0; }; for (Int_t i=0; i<2;i++){ for (Int_t j=0; j<22;j++){ for (Int_t m=0; m<96;m++){ calped[i][j][m] = 0.; calgood[i][j][m] = 0.; calrms[i][j][m] = 0.; if ( m < 6){ calbase[i][j][m] = 0.; calthr[i][j][m] = 0.; calvar[i][j][m] = 0.; }; }; }; }; }; class CalorimeterLevel1 : public TObject { public: CalorimeterLevel1(); Int_t evno; Int_t stwerr[4]; Int_t nobase; Int_t good[2][22][96]; Float_t perror[4]; Float_t nstrip; Float_t qtot; Float_t calevnum[4]; Float_t estrip[2][22][96]; Float_t diffbas[2][22][6]; // ClassDef(CalorimeterLevel1,0); }; CalorimeterLevel1::CalorimeterLevel1() { evno = 0; nobase = 0; nstrip = 0.; qtot = 0.; for (Int_t i=0; i<2;i++){ stwerr[i] = 0; perror[i] = 0.; calevnum[i] = 0.; }; for (Int_t i=0; i<2;i++){ for (Int_t j=0; j<22;j++){ for (Int_t m=0; m<96;m++){ if ( m < 6 ) diffbas[i][j][m] = 0.; estrip[i][j][m] = 0.; good[i][j][m] = 0; }; }; }; } CalorimeterCalibration::CalorimeterCalibration() { fname = "dw_000000_000.dat"; status = 0; for (Int_t i=0; i<2;i++){ for (Int_t j=0; j<22;j++){ for (Int_t m=0; m<96;m++){ mip[i][j][m] = 0.; ermip[i][j][m] = 0.; chi2[i][j][m] = 0.; ndf[i][j][m] = 0.; mask[i][j][m] = 0.; for (Int_t a = 0; a < 4 ; a++){ fp[a][i][j][m] = 0.; fpe[a][i][j][m] = 0.; }; }; }; }; }; class CalorimeterLevel2 : public TObject { public: CalorimeterLevel2(); Int_t OBT; Int_t pkt_num; Int_t pro_num; Float_t trigty; Bool_t good; Bool_t perr[4]; Bool_t swerr[4]; Bool_t crc[4]; Float_t nstrip; Float_t qtot; Float_t ncore; Float_t qcore; Float_t impx; Float_t impy; Float_t tanx; Float_t tany; Float_t nint; Float_t ncyl; Float_t qcyl; Float_t qtrack; Float_t qmax; Float_t nx22; Float_t qx22; Float_t qq[4]; Float_t qtrackx; Float_t qtracky; Float_t dxtrack; Float_t dytrack; Float_t qlast; Float_t nlast; Float_t qpre; Float_t npre; Float_t qpresh; Float_t npresh; Float_t qlow; Float_t nlow; Float_t qtr; Float_t ntr; Int_t cibar[22][2]; Int_t tibar[22][2]; Float_t cbar[22][2]; Float_t tbar[22][2]; // ClassDef(CalorimeterLevel2,0); }; CalorimeterLevel2::CalorimeterLevel2() { OBT = 0; pkt_num = 0; pro_num = 0; trigty = 0.; good = 0; nstrip = 0.; qtot = 0.; ncore = 0.; qcore = 0.; impx = 0.; impy = 0.; tanx = 0.; tany = 0.; nint = 0.; ncyl = 0.; qcyl = 0.; qtrack = 0.; qmax = 0.; nx22 = 0.; qx22 = 0.; qtrackx = 0.; qtracky = 0.; dxtrack = 0.; dytrack = 0.; qlast = 0.; nlast = 0.; qpre = 0.; npre = 0.; qpresh = 0.; npresh = 0.; qlow = 0.; nlow = 0.; qtr = 0.; ntr = 0.; for (Int_t i=0; i<4;i++){ qq[i] = 0.; swerr[i] = 0; perr[i] = 0; crc[i] = 0; }; for (Int_t i=0; i<2;i++){ for (Int_t j=0; j<22;j++){ cibar[j][i] = 0; cibar[j][i] = 0; cbar[j][i] = 0.; tbar[j][i] = 0.; }; }; }; class CalorimeterADCRAW : public TObject { public: CalorimeterADCRAW(); Int_t evno; Int_t etime; Float_t estrip[2][22][96]; Float_t diffbas[2][22][6]; // ClassDef(CalorimeterADCRAW,0); }; CalorimeterADCRAW::CalorimeterADCRAW() { for (Int_t i=0; i<2;i++){ for (Int_t j=0; j<22;j++){ for (Int_t m=0; m<96;m++){ if ( m < 6 ) diffbas[i][j][m] = 0.; estrip[i][j][m] = 0.; }; }; }; };