#ifndef ALIPMDCLUSTERINGV2_H #define ALIPMDCLUSTERINGV2_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ //-----------------------------------------------------// // // // Header File : PMDClusteringV2.h, // // // // clustering code for alice pmd // // // //-----------------------------------------------------// /* -------------------------------------------------------------------- Code developed by S. C. Phatak, Institute of Physics, Bhubaneswar 751 005 ( phatak@iopb.res.in ) Given the energy deposited ( or ADC value ) in each cell of supermodule ( pmd or cpv ), the code builds up superclusters and breaks them into clusters. The input is in array d[ndimx][ndimy] and cluster information is in array clusters[5][5000]. integer clno gives total number of clusters in the supermodule. d, clno and clusters are the only global ( public ) variables. Others are local ( private ) to the code. At the moment, the data is read for whole detector ( all supermodules and pmd as well as cpv. This will have to be modify later ) LAST UPDATE : October 23, 2002 -----------------------------------------------------------------------*/ #include "Rtypes.h" class TObjArray; class AliPMDcluster; class AliPMDClusteringV2 : public AliPMDClustering { public: AliPMDClusteringV2(); virtual ~AliPMDClusteringV2(); void DoClust(Int_t idet, Int_t ismn, Double_t celladc[][96], TObjArray *pmdcont); void Order(); Int_t CrClust(Double_t ave, Double_t cutoff, Int_t nmx1); void RefClust(Int_t incr); void ClustDetails(Int_t ncell, Int_t nclust, Double_t &x, Double_t &y, Double_t &z, Double_t &xc, Double_t &yc, Double_t &zc, Double_t &rcl, Double_t &rcs, Double_t &cells); Double_t Distance(Double_t x1, Double_t y1, Double_t x2, Double_t y2); void SetEdepCut(Float_t decut); protected: static const Double_t fgkSqroot3by2; // fgkSqroot3by2 = sqrt(3.)/2. enum { kNMX = 11424, kNDIMX = 119, kNDIMY = 96 }; /* kNMX : # of cells in a supermodule kNDIMX : maximum number of cells along x direction (origin at one corner) kNDIMY : maximum number of cells along axis at 60 degrees with x axis */ Double_t fEdepCell[kNDIMX][kNDIMY]; //energy(ADC) in each cell of the supermodule Double_t fClusters[6][5000]; // Cluster informations Int_t fClno; // number of clusters in a supermodule /* clusters[0][i] --- x position of the cluster center clusters[1][i] --- y position of the cluster center clusters[2][i] --- total energy in the cluster clusters[3][i] --- number of cells forming the cluster ( possibly fractional ) clusters[4][i] --- cluster sigma x clusters[5][i] --- cluster sigma y */ Int_t fIord[2][kNMX]; // ordered list of i and j according to // decreasing energy dep. Int_t fInfocl[2][kNDIMX][kNDIMY]; // cellwise information on the // cluster to which the cell Int_t fInfcl[3][kNMX]; // cluster information [0][i] // -- cluster number Double_t fCoord[2][kNDIMX][kNDIMY]; /* fIord --- ordered list of i and j according to decreasing energy dep. fInfocl --- cellwise information on the cluster to which the cell belongs and whether it has largest energy dep. or not ( now redundant - probably ) fInfcl --- cluster information [0][i] -- cluster number [1][i] -- i of the cell [2][i] -- j of the cell coord --- x and y coordinates of center of each cell */ Float_t fCutoff; // Energy(ADC) cutoff per cell before clustering ClassDef(AliPMDClusteringV2,0) // Does clustering for PMD }; #endif