* about the suitability of this software for any purpose. It is *
* provided "as is" without express or implied warranty. *
**************************************************************************/
-
-/*
-$Log$
-Revision 1.14 2001/03/05 14:48:46 nilsen
-Fixed a reoccuring bug. Array sizes must be declare const.
-
-*/
-
-#include <iostream.h>
+//
+// Cluster finder
+// for Silicon pixels
+//
+//
#include "AliITSClusterFinderSPD.h"
-#include "AliITSMapA1.h"
#include "AliITS.h"
#include "AliITSdigit.h"
#include "AliITSRawCluster.h"
#include "AliITSRecPoint.h"
#include "AliITSsegmentation.h"
-#include "AliITSresponse.h"
#include "AliRun.h"
-
+//#define DEBUG
ClassImp(AliITSClusterFinderSPD)
//----------------------------------------------------------
-AliITSClusterFinderSPD::AliITSClusterFinderSPD
-(AliITSsegmentation *seg, TClonesArray *digits, TClonesArray *recp)
-{
- // constructor
- fSegmentation=seg;
- fDigits=digits;
- fClusters=recp;
- fNclusters= fClusters->GetEntriesFast();
+AliITSClusterFinderSPD::AliITSClusterFinderSPD(AliITSsegmentation *seg,
+ TClonesArray *digits,
+ TClonesArray *recp){
+ // constructor
+
+ fSegmentation = seg;
+ fDigits = digits;
+ fClusters = recp;
+ fNclusters = fClusters->GetEntriesFast();
SetDx();
SetDz();
- SetMap();
- SetNCells();
}
-
-//_____________________________________________________________________________
-AliITSClusterFinderSPD::AliITSClusterFinderSPD()
-{
- // constructor
- fSegmentation=0;
- fDigits=0;
- fClusters=0;
- fNclusters=0;
- fMap=0;
- SetDx();
- SetDz();
- SetNCells();
-
-}
-
-//_____________________________________________________________________________
-AliITSClusterFinderSPD::~AliITSClusterFinderSPD()
-{
- // destructor
- if (fMap) delete fMap;
-
-
-}
-//__________________________________________________________________________
-AliITSClusterFinderSPD::AliITSClusterFinderSPD(const AliITSClusterFinderSPD &source){
- // Copy Constructor
- if(&source == this) return;
- this->fClusters = source.fClusters ;
- this->fNclusters = source.fNclusters ;
- this->fMap = source.fMap ;
- this->fDz = source.fDz ;
- this->fDx = source.fDx ;
- this->fMinNCells = source.fMinNCells ;
- return;
-}
-
-//_________________________________________________________________________
-AliITSClusterFinderSPD&
- AliITSClusterFinderSPD::operator=(const AliITSClusterFinderSPD &source) {
- // Assignment operator
- if(&source == this) return *this;
- this->fClusters = source.fClusters ;
- this->fNclusters = source.fNclusters ;
- this->fMap = source.fMap ;
- this->fDz = source.fDz ;
- this->fDx = source.fDx ;
- this->fMinNCells = source.fMinNCells ;
- return *this;
-}
-
-//_____________________________________________________________________________
-void AliITSClusterFinderSPD::SetMap()
-{
- // set map
-
- if(!fMap) fMap=new AliITSMapA1(fSegmentation,fDigits);
-
+//______________________________________________________________________
+AliITSClusterFinderSPD::AliITSClusterFinderSPD(){
+ // constructor
+
+ fSegmentation = 0;
+ fDigits = 0;
+ fClusters = 0;
+ fNclusters = 0;
+ SetDx();
+ SetDz();
}
-
-//_____________________________________________________________________________
-
-void AliITSClusterFinderSPD::Find1DClusters()
-{
- // Find one dimensional clusters, i.e.
- // in r*phi(x) direction for each colunm in z direction
-
- AliITS *iTS=(AliITS*)gAlice->GetModule("ITS");
-
- // retrieve the parameters
- Int_t fNofPixels = fSegmentation->Npz();
- Int_t fMaxNofSamples = fSegmentation->Npx();
-
- // read in digits -> do not apply threshold
- // signal in fired pixels is always 1
-
- fMap->FillMap();
-
- Int_t nofFoundClusters = 0;
-
- Int_t k,it,m;
- for(k=0;k<fNofPixels;k++) {
-
- Int_t mmax = 10; // a size of the window for the cluster finding
-
- for(it=0;it<fMaxNofSamples;it++) {
-
- Int_t lclx = 0;
- Int_t xstart = 0;
- Int_t xstop = 0;
- Int_t id = 0;
- Int_t ilcl =0;
-
- for(m=0;m<mmax;m++) { // find the cluster inside the window
- id = it+m;
- if(id >= fMaxNofSamples) break; // ! no possible for the fadc
-
- if(fMap->TestHit(k,id) == kUnused) { // start of the cluster
- lclx += 1;
- if(lclx == 1) xstart = id;
-
- }
-
- if(lclx > 0 && fMap->TestHit(k,id) == kEmpty) {
- // end of cluster if a gap exists
- xstop = id-1;
- ilcl = 1;
- break;
- }
-
- } // end of m-loop
-
- if(lclx == 0 && ilcl == 0) it = id; // no cluster in the window,
- // continue the "it" loop
-
- if(id >= fMaxNofSamples && lclx == 0) break; // the x row finished
-
- if(id < fMaxNofSamples && ilcl == 0 && lclx > 0) {
- // cluster end is outside of the window,
- mmax += 5; // increase mmax and repeat the cluster
- // finding
- it -= 1;
- }
-
- if(id >= fMaxNofSamples && lclx > 0) { // the x row finished but
- xstop = fMaxNofSamples - 1; // the end cluster exists
- ilcl = 1;
- }
-
- // --- Calculate z and x coordinates for one dimensional clusters
-
- if(ilcl == 1) { // new cluster exists
- it = id;
- mmax = 10;
- nofFoundClusters++;
- Float_t clusterCharge = 0.;
- Float_t zpitch = fSegmentation->Dpz(k+1);
- Float_t clusterZ, dummyX;
- Int_t dummy=0;
- fSegmentation->GetPadCxz(dummy,k,dummyX,clusterZ);
- Float_t zstart = clusterZ - 0.5*zpitch;
- Float_t zstop = clusterZ + 0.5*zpitch;
- Float_t clusterX = 0.;
- Int_t xstartfull = xstart;
- Int_t xstopfull = xstop;
- Int_t clusterSizeX = lclx;
- Int_t clusterSizeZ = 1;
-
- Int_t its;
- for(its=xstart; its<=xstop; its++) {
- Int_t firedpixel=0;
- if (fMap->GetHitIndex(k,its)>=0) firedpixel=1;
- clusterCharge += firedpixel;
- clusterX +=its + 0.5;
- }
- Float_t fRphiPitch = fSegmentation->Dpx(dummy);
- clusterX /= (clusterSizeX/fRphiPitch); // center of gravity for x
-
- // Write the points (coordinates and some cluster information) to the
- // AliITSRawClusterSPD object
-
- AliITSRawClusterSPD *clust = new AliITSRawClusterSPD(clusterZ,clusterX,clusterCharge,clusterSizeZ,clusterSizeX,xstart,xstop,xstartfull,xstopfull,zstart,zstop,k);
-
- iTS->AddCluster(0,clust);
-
- } // new cluster (ilcl=1)
- } // X direction loop (it)
- } // Z direction loop (k)
-
- //fMap->ClearMap();
- return;
-
+//_____________________________________________________________________
+AliITSClusterFinderSPD::AliITSClusterFinderSPD(const AliITSClusterFinderSPD
+ &source){
+ // Copy Constructor
+
+ if(&source == this) return;
+ this->fClusters = source.fClusters ;
+ this->fNclusters = source.fNclusters ;
+ this->fDz = source.fDz ;
+ this->fDx = source.fDx ;
+ return;
}
-
-//_____________________________________________________________________________
-void AliITSClusterFinderSPD::GroupClusters()
-{
- // Find two dimensional clusters, i.e. group one dimensional clusters
- // into two dimensional ones (go both in x and z directions).
-
- // get number of clusters for this module
- Int_t nofClusters = fClusters->GetEntriesFast();
- nofClusters -= fNclusters;
-
- AliITSRawClusterSPD *clusterI;
- AliITSRawClusterSPD *clusterJ;
-
- Int_t *label=new Int_t[nofClusters];
- Int_t i,j;
- for(i=0; i<nofClusters; i++) label[i] = 0;
- for(i=0; i<nofClusters; i++) {
- if(label[i] != 0) continue;
- for(j=i+1; j<nofClusters; j++) {
- if(label[j] != 0) continue;
- clusterI = (AliITSRawClusterSPD*) fClusters->At(i);
- clusterJ = (AliITSRawClusterSPD*) fClusters->At(j);
- Bool_t pair = clusterI->Brother(clusterJ,fDz,fDx);
- if(pair) {
-
- // if((clusterI->XStop() == clusterJ->XStart()-1)||(clusterI->XStart()==clusterJ->XStop()+1)) cout<<"!! Diagonal cluster"<<endl;
-
- /*
- cout << "clusters " << i << "," << j << " before grouping" << endl;
- clusterI->PrintInfo();
- clusterJ->PrintInfo();
- */
-
- clusterI->Add(clusterJ);
- // cout << "remove cluster " << j << endl;
- label[j] = 1;
- fClusters->RemoveAt(j);
-
- /*
- cout << "cluster " << i << " after grouping" << endl;
- clusterI->PrintInfo();
- */
-
- } // pair
- } // J clusters
- label[i] = 1;
- } // I clusters
- fClusters->Compress();
-
- /*
- Int_t totalNofClusters = fClusters->GetEntriesFast();
- cout << " Nomber of clusters at the group end ="<< totalNofClusters<<endl;
- */
-
- delete [] label;
-
- return;
-
-
+//______________________________________________________________________
+AliITSClusterFinderSPD& AliITSClusterFinderSPD::operator=(
+ const AliITSClusterFinderSPD &source) {
+ // Assignment operator
+
+ if(&source == this) return *this;
+ this->fClusters = source.fClusters ;
+ this->fNclusters = source.fNclusters ;
+ this->fDz = source.fDz ;
+ this->fDx = source.fDx ;
+ return *this;
}
-//_____________________________________________________________________________
-
-void AliITSClusterFinderSPD::TracksInCluster()
-{
-
- // Find tracks creating one cluster
-
- // get number of clusters for this module
- Int_t nofClusters = fClusters->GetEntriesFast();
- nofClusters -= fNclusters;
-
- Int_t i, ix, iz, jx, jz, xstart, xstop, zstart, zstop, nclx, nclz;
- const Int_t trmax = 100;
- Int_t cltracks[trmax], itr, tracki, ii, is, js, ie, ntr, tr0, tr1, tr2;
-
- for(i=0; i<nofClusters; i++) {
- ii = 0;
- memset(cltracks,-1,sizeof(int)*trmax);
- tr0=tr1=tr2=-1;
-
- AliITSRawClusterSPD *clusterI = (AliITSRawClusterSPD*) fClusters->At(i);
-
- nclx = clusterI->NclX();
- nclz = clusterI->NclZ();
- xstart = clusterI->XStartf();
- xstop = clusterI->XStopf();
- zstart = clusterI->Zend()-nclz+1;
- zstop = clusterI->Zend();
- Int_t ind;
-
- for(iz=0; iz<nclz; iz++) {
- jz = zstart + iz;
- for(ix=0; ix<nclx; ix++) {
- jx = xstart + ix;
- ind = fMap->GetHitIndex(jz,jx);
- if(ind < 0) {
- continue;
- }
- if(ind == 0 && iz >= 0 && ix > 0) {
- continue;
- }
- if(ind == 0 && iz > 0 && ix >= 0) {
- continue;
- }
- if(ind == 0 && iz == 0 && ix == 0 && i > 0) {
- continue;
- }
-
- AliITSdigitSPD *dig = (AliITSdigitSPD*)fMap->GetHit(jz,jx);
-
- /*
- signal=dig->fSignal;
- track0=dig->fTracks[0];
- track1=dig->fTracks[1];
- track2=dig->fTracks[2];
- */
-
- for(itr=0; itr<3; itr++) {
- tracki = dig->fTracks[itr];
- if(tracki >= 0) {
- ii += 1;
- if(ii > 90) {
- }
- if(ii < 99) cltracks[ii-1] = tracki;
- }
- }
- } // ix pixel
- } // iz pixel
-
- for(is=0; is<trmax; is++) {
- if(cltracks[is]<0) continue;
- for(js=is+1; js<trmax; js++) {
- if(cltracks[js]<0) continue;
- if(cltracks[js]==cltracks[is]) cltracks[js]=-5;
- }
- }
-
- ntr = 0;
- for(ie=0; ie<trmax; ie++) {
- if(cltracks[ie] >= 0) {
- ntr=ntr+1;
- if(ntr==1) tr0=cltracks[ie];
- if(ntr==2) tr1=cltracks[ie];
- if(ntr==3) tr2=cltracks[ie];
- }
- }
- // if delta ray only
- if(ntr == 0) ntr = 1;
-
- clusterI->SetNTracks(ntr);
- clusterI->SetTracks(tr0,tr1,tr2);
-
- } // I cluster
-
+//______________________________________________________________________
+void AliITSClusterFinderSPD::FindRawClusters(Int_t module){
+ // input of Cluster Finder
+ Int_t digitcount = 0;
+ Int_t numberd = 100000;
+ Int_t *digx = new Int_t[numberd];
+ Int_t *digz = new Int_t[numberd];
+ Int_t *digtr1 = new Int_t[numberd];
+ Int_t *digtr2 = new Int_t[numberd];
+ Int_t *digtr3 = new Int_t[numberd];
+ Int_t *digtr4 = new Int_t[numberd];
+ // output of Cluster Finder
+ Int_t numberc = 10000;
+ Float_t *xcenterl = new Float_t[numberc];
+ Float_t *zcenterl = new Float_t[numberc];
+ Float_t *errxcenter = new Float_t[numberc];
+ Float_t *errzcenter = new Float_t[numberc];
+ Int_t *tr1clus = new Int_t[numberc];
+ Int_t *tr2clus = new Int_t[numberc];
+ Int_t *tr3clus = new Int_t[numberc];
+ Int_t nclus;
+
+ digitcount=0;
+ Int_t ndigits = fDigits->GetEntriesFast();
+ if (!ndigits) return;
+
+ AliITSdigitSPD *dig;
+ Int_t ndig,i;
+// cout << "FindRawcluters"<<endl;
+// scanf("%d",ndig);
+ for(ndig=0; ndig<ndigits; ndig++) {
+ dig= (AliITSdigitSPD*)fDigits->UncheckedAt(ndig);
+ digx[digitcount] = dig->fCoord2+1; //starts at 1
+ digz[digitcount] = dig->fCoord1+1; //starts at 1
+ digtr1[digitcount] = dig->fTracks[0];
+ digtr2[digitcount] = -3;
+ digtr3[digitcount] = -3;
+ //cout << "digtr1["<<digitcount <<"]="<<digtr1[digitcount];
+ //cout << " fTracks["<<0<<"]="<<dig->fTracks[0]<<": ";
+ i=1;
+ while(digtr1[digitcount]==dig->fTracks[i] && i<dig->GetNTracks()) i++;
+ //cout << " fTracks["<<i<<"]="<<dig->fTracks[i];
+ if(i<dig->GetNTracks()){
+ digtr2[digitcount] = dig->fTracks[i];
+ //cout << "digtr2["<<digitcount <<"]="<<digtr2[digitcount]<<": ";
+ while((digtr1[digitcount]==dig->fTracks[i] ||
+ digtr2[digitcount]==dig->fTracks[i] )&&
+ i<=dig->GetNTracks()) i++;
+ if(i<dig->GetNTracks()) digtr3[digitcount] = dig->fTracks[i];
+ //cout << " fTracks["<<i<<"]=";
+ //if(i<dig->GetNTracks()) cout <<dig->fTracks[i];
+ //cout << "digtr3["<<digitcount <<"]="<<digtr3[digitcount];
+ } // end if
+ //cout<<endl;
+ digtr4[digitcount] = dig->fSignal;
+ digitcount++;
+ } // end for ndig
+ ClusterFinder(digitcount,digx,digz,digtr1,digtr2,digtr3,digtr4,
+ nclus,xcenterl,zcenterl,errxcenter,errzcenter,
+ tr1clus, tr2clus, tr3clus,module);
+ DigitToPoint(nclus,xcenterl,zcenterl,errxcenter,errzcenter,
+ tr1clus, tr2clus, tr3clus);
+ delete[] digx;
+ delete[] digz;
+ delete[] digtr1;
+ delete[] digtr2;
+ delete[] digtr3;
+ delete[] digtr4;
+ delete[] xcenterl;
+ delete[] zcenterl;
+ delete[] errxcenter;
+ delete[] errzcenter;
+ delete[] tr1clus;
+ delete[] tr2clus;
+ delete[] tr3clus;
}
-//_____________________________________________________________________________
-
-void AliITSClusterFinderSPD::GetRecPoints()
-{
- // get rec points
- AliITS *iTS=(AliITS*)gAlice->GetModule("ITS");
-
- // get number of clusters for this module
- Int_t nofClusters = fClusters->GetEntriesFast();
- nofClusters -= fNclusters;
- const Float_t kconv = 1.0e-4;
- const Float_t kRMSx = 12.0*kconv; // microns -> cm ITS TDR Table 1.3
- const Float_t kRMSz = 70.0*kconv; // microns -> cm ITS TDR Table 1.3
-
- Float_t spdLength = fSegmentation->Dz();
- Float_t spdWidth = fSegmentation->Dx();
-
- Int_t i;
- Int_t track0, track1, track2;
-
- for(i=0; i<nofClusters; i++) {
-
- AliITSRawClusterSPD *clusterI = (AliITSRawClusterSPD*) fClusters->At(i);
- clusterI->GetTracks(track0, track1, track2);
- AliITSRecPoint rnew;
-
- rnew.SetX((clusterI->X() - spdWidth/2)*kconv);
- rnew.SetZ((clusterI->Z() - spdLength/2)*kconv);
- rnew.SetQ(1.);
- rnew.SetdEdX(0.);
- rnew.SetSigmaX2(kRMSx*kRMSx);
- rnew.SetSigmaZ2(kRMSz*kRMSz);
- rnew.fTracks[0]=track0;
- rnew.fTracks[1]=track1;
- rnew.fTracks[2]=track2;
- iTS->AddRecPoint(rnew);
- } // I clusters
-
- fMap->ClearMap();
-
+//----------------------------------------------------------------------
+void AliITSClusterFinderSPD::ClusterFinder(Int_t ndigits,Int_t digx[],
+ Int_t digz[],Int_t digtr1[],
+ Int_t digtr2[],Int_t digtr3[],
+ Int_t digtr4[],Int_t &nclus,
+ Float_t xcenter[],Float_t zcenter[],
+ Float_t errxcenter[],
+ Float_t errzcenter[],
+ Int_t tr1clus[],Int_t tr2clus[],
+ Int_t tr3clus[],Int_t module){
+ // Search for clusters of fired pixels (digits). Two digits are linked
+ // inside a cluster if they are countiguous both in row or column
+ // direction. Diagonal digits are not linked.
+ // xcenter, ycenter, zcenter are the coordinates of the center
+ // of each found cluster, calculated from the averaging the corresponding
+ // coordinate of the center of the linked digits. The coordinates are
+ // given in the local reference sistem.
+ // errxcenter, errycenter, errzcenter are the errors associated to
+ // the corresponding average.
+ Int_t if1, min, max, nd;
+ Int_t x1, z1, t1, t2, t3, t4;
+ Int_t ndx, ndz, ndxmin=0, ndxmax=0, ndzmin=0, ndzmax=0;
+ Float_t dx, dz;
+ Int_t i,k,ipos=0;
+ Float_t xdum, zdum;
+ Int_t kmax, sigmax;
+ Float_t deltax, deltaz;
+ Float_t ndig;
+ Int_t numberd = 10000;
+ Int_t *ifpad = new Int_t[numberd];
+ Int_t *xpad = new Int_t[numberd];
+ Int_t *zpad = new Int_t[numberd];
+ Int_t *tr1pad = new Int_t[numberd];
+ Int_t *tr2pad = new Int_t[numberd];
+ Int_t *tr3pad = new Int_t[numberd];
+ Int_t *tr4pad = new Int_t[numberd];
+ Int_t *iclus = new Int_t[numberd];
+
+ nclus=1;
+ for (i=0; i < ndigits ; i++){
+ ifpad[i] = -1;
+ iclus[i] = 0;
+ } // end for i
+
+ ifpad[0]=0;
+ for (i=0; i < ndigits-1 ; i++) {
+ if ( ifpad[i] == -1 ) {
+ nclus++;
+ ipos++;
+ ifpad[i]=nclus-1;
+ } // end if ipad[i]
+ for (Int_t j=i+1 ; j < ndigits ; j++) {
+ if (ifpad[j]== -1 ) {
+ dx = TMath::Abs(digx[i]-digx[j]);
+ dz = TMath::Abs(digz[i]-digz[j]);
+ // if ( ( dx+dz )==1 ) //clusters are not diagonal
+ if(( dx+dz )==1 || (dx==1 && dz==1)){
+ //diagonal clusters allowed
+ ipos++;
+ ifpad[j] = ifpad[i];
+
+ x1 = digx[j];
+ z1 = digz[j];
+ digx[j] = digx[ipos];
+ digz[j] = digz[ipos];
+ digx[ipos] = x1;
+ digz[ipos] = z1;
+
+ t1 = digtr1[j];
+ t2 = digtr2[j];
+ t3 = digtr3[j];
+ t4 = digtr4[j];
+ digtr1[j] = digtr1[ipos];
+ digtr2[j] = digtr2[ipos];
+ digtr3[j] = digtr3[ipos];
+ digtr4[j] = digtr4[ipos];
+ digtr1[ipos] = t1;
+ digtr2[ipos] = t2;
+ digtr3[ipos] = t3;
+ digtr4[ipos] = t4;
+
+ if1 = ifpad[j];
+ ifpad[j] = ifpad[ipos];
+ ifpad[ipos] = if1;
+ } // end dx+dx...
+ }// end if ifpad[j]== -1
+ } // end for j
+ }//end loop on digits
+ if ( ifpad[ndigits-1] == -1 ) {
+ nclus++;
+ ifpad[ndigits-1]=nclus-1;
+ } // end if ifpad[ndigits-1] == -1
+
+ for (i=0 ; i < ndigits ; i++) iclus[ifpad[i]]++;
+
+ min=0;
+ max=0;
+ // loop on found clusters
+ for (i=0 ; i < nclus ; i++){
+ min = max;
+ max += iclus[i];
+ deltax = fSegmentation->Dpx(0);
+ if (iclus[i]!=1){
+ //cluster with more than one digit
+ nd=iclus[i];
+ ndig=(Float_t) nd;
+ Int_t count=0;
+ for (k=min;k<min+nd;k++){
+ xpad[count] = digx[k];
+ zpad[count] = digz[k];
+
+ tr1pad[count] = digtr1[k];
+ tr2pad[count] = digtr2[k];
+ tr3pad[count] = digtr3[k];
+ tr4pad[count] = digtr4[k];
+
+ count++;
+ } // end for k
+ ndxmin = xpad[TMath::LocMin(nd,xpad)];
+ ndxmax = xpad[TMath::LocMax(nd,xpad)];
+ ndzmin = zpad[TMath::LocMin(nd,zpad)];
+ ndzmax = zpad[TMath::LocMax(nd,zpad)];
+ ndx = ndxmax - ndxmin+1;
+ ndz = ndzmax - ndzmin+1;
+
+ // calculate x and z coordinates of the center of the cluster
+ fSegmentation->GetPadCxz(digx[min],digz[min]-1,xdum, zdum);
+
+ if (ndx == 1) {
+ xcenter[i] = xdum;
+ }else{
+ xcenter[i] = 0.;
+ for (k=0;k<nd;k++) {
+ fSegmentation->GetPadCxz(xpad[k],zpad[k]-1,xdum,zdum);
+ xcenter[i] += (xdum / nd);
+ } // end for k
+ } // end if ndx
+
+ if (ndz == 1) {
+ zcenter[i] = zdum;
+ } else {
+ zcenter[i] = 0.;
+ for (k=0;k<nd;k++) {
+ fSegmentation->GetPadCxz(xpad[k],zpad[k]-1,xdum,zdum);
+ zcenter[i] += (zdum / nd);
+ } // end for k
+ } // end if ndz
+
+ // error on points in x and z directions
+
+ if (ndx == 1) {
+ errxcenter[i] = deltax / TMath::Sqrt(12.);
+ } else {
+ errxcenter[i] = 0.;
+ for (k=0;k<nd;k++){
+ fSegmentation->GetPadCxz(xpad[k],zpad[k]-1,xdum,zdum);
+ errxcenter[i] += ((xdum-xcenter[i])*(xdum-xcenter[i]))/
+ (nd*(nd-1));
+ } // end for k
+ errxcenter[i] = TMath::Sqrt(errxcenter[i]);
+ } // end if ndx
+ if (ndz == 1) {
+ deltaz = fSegmentation->Dpz(digz[min]);
+ errzcenter[i] = deltaz / TMath::Sqrt(12.);
+ } else {
+ errzcenter[i] = 0.;
+ for (k=0;k<nd;k++){
+ fSegmentation->GetPadCxz(xpad[k],zpad[k]-1,xdum,zdum);
+ errzcenter[i] += ((zdum-zcenter[i])*(zdum-zcenter[i]))/
+ (nd*(nd-1));
+ } // end for k
+ errzcenter[i] = TMath::Sqrt(errzcenter[i]);
+ } // end if ndz
+ // take three track numbers for the cluster
+ // choose the track numbers of the digit with higher signal
+ kmax = 0;
+ sigmax = 0;
+ for (k=0;k<nd;k++){
+ if(tr4pad[k] > sigmax){
+ sigmax = tr4pad[k];
+ kmax = k;
+ } // end if tr4pad[k]
+ } // end for k
+ if(sigmax != 0) {
+ tr1clus[i]= tr1pad[kmax];
+ tr2clus[i]= tr2pad[kmax];
+ tr3clus[i]= tr3pad[kmax];
+ } else {
+ tr1clus[i]= -2;
+ tr2clus[i]= -2;
+ tr3clus[i]= -2;
+ } // end if sigmax
+ } else {
+ // cluster with single digit
+ ndig= 1.;
+ ndx = 1;
+ ndz = 1;
+ fSegmentation->GetPadCxz(digx[min],digz[min]-1,xdum,zdum);
+ xcenter[i] = xdum;
+ zcenter[i] = zdum;
+ tr1clus[i]=digtr1[min];
+ tr2clus[i]=digtr2[min];
+ tr3clus[i]=digtr3[min];
+ deltaz = fSegmentation->Dpz(digz[min]);
+ errxcenter[i] = deltax / TMath::Sqrt(12.);
+ errzcenter[i] = deltaz / TMath::Sqrt(12.);
+ } // end if iclus[i]
+
+ // store the cluster information to the AliITSRawCLusterSPD object
+ static AliITS *iTS=(AliITS*)gAlice->GetModule("ITS");
+
+ //put the cluster center in local reference frame of the detector
+ // and in microns
+ xcenter[i] = xcenter[i] - fSegmentation->Dx()/2.;
+ zcenter[i] = zcenter[i] - fSegmentation->Dz()/2.;
+
+ AliITSRawClusterSPD *clust = new AliITSRawClusterSPD(zcenter[i], //f
+ xcenter[i], //f
+ ndig, //f
+ ndz,ndx, //ii
+ ndxmin,ndxmax,//ii
+ (Float_t) ndzmin,
+ (Float_t) ndzmax,
+ 0,module); //ii
+ iTS->AddCluster(0,clust);
+ delete clust;
+ }//end loop on clusters
+ delete[] ifpad;
+ delete[] xpad ;
+ delete[] zpad ;
+ delete[] iclus;
+ delete[] tr1pad;
+ delete[] tr2pad;
+ delete[] tr3pad;
+ delete[] tr4pad;
}
-//_____________________________________________________________________________
-
-void AliITSClusterFinderSPD::FindRawClusters(Int_t mod)
-{
- // find raw clusters
- Find1DClusters();
- GroupClusters();
- TracksInCluster();
- GetRecPoints();
-
+//______________________________________________________----------------
+void AliITSClusterFinderSPD::DigitToPoint(Int_t nclus,
+ Float_t *xcenter,Float_t *zcenter,
+ Float_t *errxcenter,
+ Float_t *errzcenter,
+ Int_t *tr1clus, Int_t *tr2clus,
+ Int_t *tr3clus){
+ // A point is associated to each cluster of SPD digits. The points
+ // and their associated errors are stored in the file galiceSP.root.
+ Float_t l[3],xg,zg;
+ const Float_t kconv = 1.0e-4; // micron -> cm
+
+ // get rec points
+ static AliITS *iTS=(AliITS*)gAlice->GetModule("ITS");
+ for (Int_t i=0; i<nclus; i++){
+ l[0] = kconv*xcenter[i];
+ l[1] = kconv*fSegmentation->Dy()/2.;
+ l[2] = kconv*zcenter[i];
+
+ xg = l[0];
+ zg = l[2];
+
+ Float_t sigma2x = (kconv*errxcenter[i]) * (kconv*errxcenter[i]);
+ Float_t sigma2z = (kconv*errzcenter[i]) * (kconv*errzcenter[i]);
+ AliITSRecPoint rnew;
+ rnew.SetX(xg);
+ rnew.SetZ(zg);
+ rnew.SetQ(1.);
+ rnew.SetdEdX(0.);
+ rnew.SetSigmaX2(sigma2x);
+ rnew.SetSigmaZ2(sigma2z);
+ rnew.fTracks[0]=tr1clus[i];
+ rnew.fTracks[1]=tr2clus[i];
+ rnew.fTracks[2]=tr3clus[i];
+ iTS->AddRecPoint(rnew);
+ } // end for i
}
-
-
-