/* * CaloGeomCut.cpp * * Created on: 19-mar-2009 * Author: Sergio Ricciarini, Nicola Mori */ /*! @file CaloGeomCut.cpp The CaloCrossCut class implementation file */ #include "CaloGeomCut.h" int CaloGeomCut::Check(PamLevel2 *event) { Float_t xCaloTrack; Float_t yCaloTrack; Double_t tanx, tany, beta; Float_t alCaloTop[5]; // MUST be Float_t Int_t nPoint = TrkParams::nGF+1; // MUST be Int_t Float_t zIn[nPoint]; // MUST be Float_t Trajectory* traj = NULL; static const Float_t zCaloTop=-26.181; // cm MUST Float_t tanx=_xCaloAxis->par[1]; tany=_yCaloAxis->par[1]; if (_iMethod==0) { } else if (_iMethod==1) { // curved track in the Pamela acceptance (back-propagated starting from the straight track in the calorimeter, evaluated at the top of calorimeter, which is of course better than at higher z coordinates) for (Int_t igf = 0; igf < TrkParams::nGF; igf++) { zIn[igf]=TrkParams::zGF[igf]; } zIn[TrkParams::nGF]=zCaloTop; traj = (Trajectory*) new Trajectory(nPoint,zIn); alCaloTop[0]=_xCaloAxis->GetYfit(zCaloTop); // Yfit [xCaloTop] alCaloTop[1]=_yCaloAxis->GetYfit(zCaloTop); // Yfit [yCaloTop] alCaloTop[2]=sin(atan(sqrt(pow(tanx,2)+pow(tany,2)))); // [sintheta] alCaloTop[3]=TMath::Pi()+atan2(tany,tanx); // [phi] beta = event->GetToFLevel2()->CalcBeta(0,_resMax,_qualCut,_chi2Cut); // TOF stand-alone beta alCaloTop[4] = 1./(_mass*beta/sqrt(1.-pow(beta,2))); // [etaP] [rho = (m/Z)*(beta/(sqrt(1-beta^2)))] traj->DoTrack(alCaloTop,zCaloTop); } else { return 1; } for (Int_t igf = 0; igf < TrkParams::nGF; igf++) { if (_iMethod==0) { // straight track // NOTE: par[0] is the x (y) coordinate on plane z=0 in PAMELA reference (magnet centre) xCaloTrack = _xCaloAxis->par[0] + tanx * TrkParams::zGF[igf]; // cm yCaloTrack = _yCaloAxis->par[0] + tany * TrkParams::zGF[igf]; // cm } else if (_iMethod==1) { xCaloTrack = traj->x[igf]; yCaloTrack = traj->y[igf]; } if (! (TrkParams::xGF_min[igf] + _xTolCaloTrack < xCaloTrack && xCaloTrack < TrkParams::xGF_max[igf] - _xTolCaloTrack) ) { return 0; } if (! (TrkParams::yGF_min[igf] + _yTolCaloTrack < yCaloTrack && yCaloTrack < TrkParams::yGF_max[igf] - _yTolCaloTrack) ) { return 0; } } return CUTOK; }