1 //-------------------------------------------------------------------------
2 // Implementation of the ITS clusterer V2 class
4 // Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
5 //-------------------------------------------------------------------------
6 //uncomment the line below for running with V1 cluster finder classes
11 #include "AliITSclustererV2.h"
12 #include "AliITSclusterV2.h"
13 #include "AliRawReader.h"
14 #include "AliITSRawStreamSPD.h"
15 #include "AliITSRawStreamSDD.h"
16 #include "AliITSRawStreamSSD.h"
20 #include <TClonesArray.h>
21 #include "AliITSgeom.h"
22 #include "AliITSdigitSPD.h"
23 #include "AliITSdigitSDD.h"
24 #include "AliITSdigitSSD.h"
27 ClassImp(AliITSclustererV2)
29 extern AliRun *gAlice;
31 AliITSclustererV2::AliITSclustererV2(const AliITSgeom *geom) {
32 //------------------------------------------------------------
33 // Standard constructor
34 //------------------------------------------------------------
35 AliITSgeom *g=(AliITSgeom*)geom;
40 Int_t mmax=geom->GetIndexMax();
42 Fatal("AliITSclustererV2","Too many ITS subdetectors !");
45 for (m=0; m<mmax; m++) {
46 Int_t lay,lad,det; g->GetModuleId(m,lay,lad,det);
47 Float_t x,y,z; g->GetTrans(lay,lad,det,x,y,z);
48 Double_t rot[9]; g->GetRotMatrix(lay,lad,det,rot);
49 Double_t alpha=TMath::ATan2(rot[1],rot[0])+TMath::Pi();
50 Double_t ca=TMath::Cos(alpha), sa=TMath::Sin(alpha);
51 fYshift[m] = x*ca + y*sa;
52 fZshift[m] = (Double_t)z;
53 fNdet[m] = (lad-1)*g->GetNdetectors(lay) + (det-1);
56 fNModules = g->GetIndexMax();
59 fLastSPD1=g->GetModuleIndex(2,1,1)-1;
60 fNySPD=256; fNzSPD=160;
62 fZ1pitchSPD=0.0425; fZ2pitchSPD=0.0625;
63 fHwSPD=0.64; fHlSPD=3.48;
64 fYSPD[0]=0.5*fYpitchSPD;
65 for (m=1; m<fNySPD; m++) fYSPD[m]=fYSPD[m-1]+fYpitchSPD;
67 for (m=1; m<fNzSPD; m++) {
68 Double_t dz=fZ1pitchSPD;
69 if (m==31 || m==32 || m==63 || m==64 || m==95 || m==96 ||
70 m==127 || m==128) dz=fZ2pitchSPD;
71 fZSPD[m]=fZSPD[m-1]+dz;
73 for (m=0; m<fNzSPD; m++) {
74 Double_t dz=0.5*fZ1pitchSPD;
75 if (m==31 || m==32 || m==63 || m==64 || m==95 || m==96 ||
76 m==127 || m==128) dz=0.5*fZ2pitchSPD;
81 fNySDD=256; fNzSDD=256;
84 fHwSDD=3.5085; fHlSDD=3.7632;
88 fLastSSD1=g->GetModuleIndex(6,1,1)-1;
97 Int_t AliITSclustererV2::Digits2Clusters(TTree *dTree, TTree *cTree) {
98 //------------------------------------------------------------
99 // This function creates ITS clusters
100 //------------------------------------------------------------
104 Error("Digits2Clusters","Can't get the tree with digits !");
108 TClonesArray *digitsSPD=new TClonesArray("AliITSdigitSPD",3000);
109 dTree->SetBranchAddress("ITSDigitsSPD",&digitsSPD);
110 TClonesArray *digitsSDD=new TClonesArray("AliITSdigitSDD",3000);
111 dTree->SetBranchAddress("ITSDigitsSDD",&digitsSDD);
112 TClonesArray *digitsSSD=new TClonesArray("AliITSdigitSSD",3000);
113 dTree->SetBranchAddress("ITSDigitsSSD",&digitsSSD);
115 TClonesArray *clusters=new TClonesArray("AliITSclusterV2",1000);
116 TBranch *branch=cTree->GetBranch("Clusters");
117 if (!branch) cTree->Branch("Clusters",&clusters);
118 else branch->SetAddress(&clusters);
120 Int_t mmax=(Int_t)dTree->GetEntries();
122 for (fI=0; fI<mmax; fI++) {
125 if (digitsSPD->GetEntriesFast()!=0)
126 FindClustersSPD(digitsSPD,clusters);
128 if(digitsSDD->GetEntriesFast()!=0)
129 FindClustersSDD(digitsSDD,clusters);
130 else if(digitsSSD->GetEntriesFast()!=0)
131 FindClustersSSD(digitsSSD,clusters);
133 ncl+=clusters->GetEntriesFast();
153 Info("Digits2Clusters","Number of found clusters : %d",ncl);
158 void AliITSclustererV2::Digits2Clusters(AliRawReader* rawReader) {
159 //------------------------------------------------------------
160 // This function creates ITS clusters from raw data
161 //------------------------------------------------------------
162 AliRunLoader* runLoader = AliRunLoader::GetRunLoader();
164 Error("Digits2Clusters", "no run loader found");
167 runLoader->LoadKinematics();
168 AliLoader* itsLoader = runLoader->GetLoader("ITSLoader");
170 Error("Digits2Clusters", "no loader for ITS found");
173 if (!itsLoader->TreeR()) itsLoader->MakeTree("R");
174 TTree* cTree = itsLoader->TreeR();
176 TClonesArray *array=new TClonesArray("AliITSclusterV2",1000);
177 cTree->Branch("Clusters",&array);
180 TClonesArray** clusters = new TClonesArray*[fNModules];
181 for (Int_t iModule = 0; iModule < fNModules; iModule++) {
182 clusters[iModule] = NULL;
184 // one TClonesArray per module
187 AliITSRawStreamSPD inputSPD(rawReader);
188 FindClustersSPD(&inputSPD, clusters);
191 AliITSRawStreamSDD inputSDD(rawReader);
192 FindClustersSDD(&inputSDD, clusters);
195 AliITSRawStreamSSD inputSSD(rawReader);
196 FindClustersSSD(&inputSSD, clusters);
198 // write all clusters to the tree
200 for (Int_t iModule = 0; iModule < fNModules; iModule++) {
201 array = clusters[iModule];
203 Error("Digits2Clusters", "data for module %d missing!", iModule);
204 array = new TClonesArray("AliITSclusterV2");
206 cTree->SetBranchAddress("Clusters", &array);
208 nClusters += array->GetEntriesFast();
211 itsLoader->WriteRecPoints("OVERWRITE");
215 Info("Digits2Clusters", "total number of found clusters in ITS: %d\n",
219 //**** Fast clusters *******************************
220 #include "TParticle.h"
223 #include "AliITSmodule.h"
224 #include "AliITSRecPoint.h"
225 #include "AliITSsimulationFastPoints.h"
226 #include "AliITSRecPoint.h"
229 static void CheckLabels(Int_t lab[3]) {
230 //------------------------------------------------------------
231 // Tries to find mother's labels
232 //------------------------------------------------------------
235 TParticle *part=(TParticle*)gAlice->GetMCApp()->Particle(label);
237 while (part->P() < 0.005) {
238 Int_t m=part->GetFirstMother();
240 Info("CheckLabels","Primary momentum: %f",part->P());
243 if (part->GetStatusCode()>0) {
244 Info("CheckLabels","Primary momentum: %f",part->P());
248 part=(TParticle*)gAlice->GetMCApp()->Particle(label);
250 if (lab[1]<0) lab[1]=label;
251 else if (lab[2]<0) lab[2]=label;
252 else ;//cerr<<"CheckLabels : No empty labels !\n";
256 static void CheckLabels(Int_t lab[3]) {
257 //------------------------------------------------------------
258 // Tries to find mother's labels
259 //------------------------------------------------------------
261 if(lab[0]<0 && lab[1]<0 && lab[2]<0) return; // In case of no labels just exit
263 Int_t ntracks = gAlice->GetMCApp()->GetNtrack();
264 for (Int_t i=0;i<3;i++){
265 Int_t label = lab[i];
266 if (label>=0 && label<ntracks) {
267 TParticle *part=(TParticle*)gAlice->GetMCApp()->Particle(label);
268 if (part->P() < 0.005) {
269 Int_t m=part->GetFirstMother();
273 if (part->GetStatusCode()>0) {
283 static void CheckLabels2(Int_t lab[10]) {
284 //------------------------------------------------------------
285 // Tries to find mother's labels
286 //------------------------------------------------------------
288 for (Int_t i=0;i<10;i++) if (lab[i]>=0) nlabels++;
289 if(nlabels == 0) return; // In case of no labels just exit
291 Int_t ntracks = gAlice->GetMCApp()->GetNtrack();
293 for (Int_t i=0;i<10;i++){
294 Int_t label = lab[i];
295 if (label>=0 && label<ntracks) {
296 TParticle *part=(TParticle*)gAlice->GetMCApp()->Particle(label);
297 if (part->P() < 0.02) {
298 Int_t m=part->GetFirstMother();
302 if (part->GetStatusCode()>0) {
308 if (part->P() < 0.12 && nlabels>3) {
314 if ( (label>ntracks||label <0) && nlabels>3) {
321 for (Int_t i=0;i<10;i++){
323 Int_t label = lab[i];
324 if (label>=0 && label<ntracks) {
325 TParticle *part=(TParticle*)gAlice->GetMCApp()->Particle(label);
326 if (part->P() < 0.1) {
335 //compress labels -- if multi-times the same
337 for (Int_t i=0;i<10;i++) lab2[i]=-2;
338 for (Int_t i=0;i<10 ;i++){
339 if (lab[i]<0) continue;
340 for (Int_t j=0;j<10 &&lab2[j]!=lab[i];j++){
347 for (Int_t j=0;j<10;j++) lab[j]=lab2[j];
351 static void AddLabel(Int_t lab[10], Int_t label) {
353 if(label<0) return; // In case of no label just exit
355 Int_t ntracks = gAlice->GetMCApp()->GetNtrack();
356 if (label>ntracks) return;
357 for (Int_t i=0;i<10;i++){
358 // if (label<0) break;
359 if (lab[i]==label) break;
367 void AliITSclustererV2::RecPoints2Clusters
368 (const TClonesArray *points, Int_t idx, TClonesArray *clusters) {
369 //------------------------------------------------------------
370 // Conversion AliITSRecPoint -> AliITSclusterV2 for the ITS
371 // subdetector indexed by idx
372 //------------------------------------------------------------
373 TClonesArray &cl=*clusters;
374 Int_t ncl=points->GetEntriesFast();
375 for (Int_t i=0; i<ncl; i++) {
376 AliITSRecPoint *p = (AliITSRecPoint *)points->UncheckedAt(i);
378 lp[0]=-(-p->GetX()+fYshift[idx]); if (idx<=fLastSPD1) lp[0]*=-1; //SPD1
379 lp[1]= -p->GetZ()+fZshift[idx];
380 lp[2]=p->GetSigmaX2();
381 lp[3]=p->GetSigmaZ2();
382 lp[4]=p->GetQ()*36./23333.; //electrons -> ADC
384 lab[0]=p->GetLabel(0); lab[1]=p->GetLabel(1); lab[2]=p->GetLabel(2);
387 Int_t dummy[3]={0,0,0};
388 new (cl[i]) AliITSclusterV2(lab,lp, dummy);
392 Int_t AliITSclustererV2::Hits2Clusters(TTree *hTree, TTree *cTree) {
393 //------------------------------------------------------------
394 // This function creates ITS clusters
395 //------------------------------------------------------------
397 Error("Hits2Clusters","gAlice==0 !");
401 AliITS *its = (AliITS*)gAlice->GetModule("ITS");
403 Error("Hits2Clusters","Can't find the ITS !");
406 AliITSgeom *geom=its->GetITSgeom();
407 Int_t mmax=geom->GetIndexMax();
409 its->InitModules(-1,mmax);
410 its->FillModules(hTree,0);
412 TClonesArray *clusters=new TClonesArray("AliITSclusterV2",1000);
413 TBranch *branch=cTree->GetBranch("Clusters");
414 if (!branch) cTree->Branch("Clusters",&clusters);
415 else branch->SetAddress(&clusters);
417 static TClonesArray *points=its->RecPoints();
418 AliITSsimulationFastPoints sim;
420 for (Int_t m=0; m<mmax; m++) {
421 AliITSmodule *mod=its->GetModule(m);
422 sim.CreateFastRecPoints(mod,m,gRandom);
424 RecPoints2Clusters(points, m, clusters);
425 its->ResetRecPoints();
427 ncl+=clusters->GetEntriesFast();
432 Info("Hits2Clusters","Number of found fast clusters : %d",ncl);
441 //***********************************
445 void AliITSclustererV2::
446 FindCluster(Int_t k,Int_t maxz,AliBin *bins,Int_t &n,Int_t *idx) {
447 //------------------------------------------------------------
448 // returns an array of indices of digits belonging to the cluster
449 // (needed when the segmentation is not regular)
450 //------------------------------------------------------------
451 if (n<200) idx[n++]=bins[k].GetIndex();
454 if (bins[k-maxz].IsNotUsed()) FindCluster(k-maxz,maxz,bins,n,idx);
455 if (bins[k-1 ].IsNotUsed()) FindCluster(k-1 ,maxz,bins,n,idx);
456 if (bins[k+maxz].IsNotUsed()) FindCluster(k+maxz,maxz,bins,n,idx);
457 if (bins[k+1 ].IsNotUsed()) FindCluster(k+1 ,maxz,bins,n,idx);
459 if (bins[k-maxz-1].IsNotUsed()) FindCluster(k-maxz-1,maxz,bins,n,idx);
460 if (bins[k-maxz+1].IsNotUsed()) FindCluster(k-maxz+1,maxz,bins,n,idx);
461 if (bins[k+maxz-1].IsNotUsed()) FindCluster(k+maxz-1,maxz,bins,n,idx);
462 if (bins[k+maxz+1].IsNotUsed()) FindCluster(k+maxz+1,maxz,bins,n,idx);
466 void AliITSclustererV2::
467 FindClustersSPD(const TClonesArray *digits, TClonesArray *clusters) {
468 //------------------------------------------------------------
469 // Actual SPD cluster finder
470 //------------------------------------------------------------
471 Int_t kNzBins = fNzSPD + 2;
472 const Int_t kMAXBIN=kNzBins*(fNySPD+2);
474 Int_t ndigits=digits->GetEntriesFast();
475 AliBin *bins=new AliBin[kMAXBIN];
479 for (k=0; k<ndigits; k++) {
480 d=(AliITSdigitSPD*)digits->UncheckedAt(k);
481 Int_t i=d->GetCoord2()+1; //y
482 Int_t j=d->GetCoord1()+1;
483 bins[i*kNzBins+j].SetIndex(k);
484 bins[i*kNzBins+j].SetMask(1);
487 Int_t n=0; TClonesArray &cl=*clusters;
488 for (k=0; k<kMAXBIN; k++) {
489 if (!bins[k].IsNotUsed()) continue;
490 Int_t ni=0, idx[200];
491 FindCluster(k,kNzBins,bins,ni,idx);
493 Info("FindClustersSPD","Too big cluster !");
497 for (Int_t ilab=0;ilab<10;ilab++){
501 d=(AliITSdigitSPD*)digits->UncheckedAt(idx[0]);
502 Int_t ymin=d->GetCoord2(),ymax=ymin;
503 Int_t zmin=d->GetCoord1(),zmax=zmin;
505 for (Int_t l=0; l<ni; l++) {
506 d=(AliITSdigitSPD*)digits->UncheckedAt(idx[l]);
508 if (ymin > d->GetCoord2()) ymin=d->GetCoord2();
509 if (ymax < d->GetCoord2()) ymax=d->GetCoord2();
510 if (zmin > d->GetCoord1()) zmin=d->GetCoord1();
511 if (zmax < d->GetCoord1()) zmax=d->GetCoord1();
512 // MI addition - find all labels in cluster
513 for (Int_t dlab=0;dlab<10;dlab++){
514 Int_t digitlab = (d->GetTracks())[dlab];
515 if (digitlab<0) continue;
516 AddLabel(milab,digitlab);
518 if (milab[9]>0) CheckLabels2(milab);
522 //Int_t idy = (fNlayer[fI]==0)? 2:3;
523 //for (Int_t iz=zmin; iz<=zmax;iz+=2)
524 //Int_t idy = (ymax-ymin)/4.; // max 2 clusters
525 Int_t idy = 0; // max 2 clusters
526 if (fNlayer[fI]==0 &&idy<3) idy=3;
527 if (fNlayer[fI]==1 &&idy<4) idy=4;
529 for (Int_t iz=zmin; iz<=zmax;iz+=idz)
530 for (Int_t iy=ymin; iy<=ymax;iy+=idy){
533 Float_t y=0.,z=0.,q=0.;
534 for (Int_t l=0; l<ni; l++) {
535 d=(AliITSdigitSPD*)digits->UncheckedAt(idx[l]);
536 if (zmax-zmin>=idz || ymax-ymin>=idy){
537 if (TMath::Abs( d->GetCoord2()-iy)>0.75*idy) continue;
538 if (TMath::Abs( d->GetCoord1()-iz)>0.75*idz) continue;
541 Float_t qq=d->GetSignal();
542 y+=qq*fYSPD[d->GetCoord2()]; z+=qq*fZSPD[d->GetCoord1()]; q+=qq;
545 if (ndigits==0) continue;
547 y-=fHwSPD; z-=fHlSPD;
550 lp[0]=-(-y+fYshift[fI]); if (fI<=fLastSPD1) lp[0]=-lp[0];
551 lp[1]= -z+fZshift[fI];
552 // Float_t factor=TMath::Max(double(ni-3.),1.5);
553 Float_t factory=TMath::Max(ymax-ymin,1);
554 Float_t factorz=TMath::Max(zmax-zmin,1);
557 //lp[2]= (fYpitchSPD*fYpitchSPD/12.)*factory;
558 //lp[3]= (fZ1pitchSPD*fZ1pitchSPD/12.)*factorz;
559 lp[2]= (fYpitchSPD*fYpitchSPD/12.);
560 lp[3]= (fZ1pitchSPD*fZ1pitchSPD/12.);
562 lp[4]= (zmax-zmin+1)*100 + (ymax-ymin+1);
565 d=(AliITSdigitSPD*)digits->UncheckedAt(idx[0]);
566 Int_t info[3] = {ymax-ymin+1,zmax-zmin+1,fNlayer[fI]};
567 new (cl[n]) AliITSclusterV2(milab,lp,info); n++;
574 void AliITSclustererV2::FindClustersSPD(AliITSRawStream* input,
575 TClonesArray** clusters)
577 //------------------------------------------------------------
578 // Actual SPD cluster finder for raw data
579 //------------------------------------------------------------
581 Int_t nClustersSPD = 0;
582 Int_t kNzBins = fNzSPD + 2;
583 Int_t kNyBins = fNySPD + 2;
584 Int_t kMaxBin = kNzBins * kNyBins;
587 // read raw data input stream
589 Bool_t next = input->Next();
590 if (!next || input->IsNewModule()) {
591 Int_t iModule = input->GetPrevModuleID();
593 // when all data from a module was read, search for clusters
595 clusters[iModule] = new TClonesArray("AliITSclusterV2");
598 for (Int_t iBin = 0; iBin < kMaxBin; iBin++) {
599 if (bins[iBin].IsUsed()) continue;
602 FindCluster(iBin, kNzBins, bins, nBins, idxBins);
604 Error("FindClustersSPD", "SPD: Too big cluster !\n");
612 // label[3] = iModule;
613 label[3] = fNdet[iModule];
615 Int_t ymin = (idxBins[0] / kNzBins) - 1;
617 Int_t zmin = (idxBins[0] % kNzBins) - 1;
619 for (Int_t idx = 0; idx < nBins; idx++) {
620 Int_t iy = (idxBins[idx] / kNzBins) - 1;
621 Int_t iz = (idxBins[idx] % kNzBins) - 1;
622 if (ymin > iy) ymin = iy;
623 if (ymax < iy) ymax = iy;
624 if (zmin > iz) zmin = iz;
625 if (zmax < iz) zmax = iz;
628 Int_t idy = 0; // max 2 clusters
629 if ((iModule <= fLastSPD1) &&idy<3) idy=3;
630 if ((iModule > fLastSPD1) &&idy<4) idy=4;
632 for (Int_t iiz=zmin; iiz<=zmax;iiz+=idz)
633 for (Int_t iiy=ymin; iiy<=ymax;iiy+=idy){
636 Float_t y=0.,z=0.,q=0.;
637 for (Int_t idx = 0; idx < nBins; idx++) {
638 Int_t iy = (idxBins[idx] / kNzBins) - 1;
639 Int_t iz = (idxBins[idx] % kNzBins) - 1;
640 if (zmax-zmin>=idz || ymax-ymin>=idy){
641 if (TMath::Abs(iy-iiy)>0.75*idy) continue;
642 if (TMath::Abs(iz-iiz)>0.75*idz) continue;
645 Float_t qBin = bins[idxBins[idx]].GetQ();
646 y += qBin * fYSPD[iy];
647 z += qBin * fZSPD[iz];
650 if (ndigits==0) continue;
656 Float_t hit[5]; // y, z, sigma(y)^2, sigma(z)^2, charge
657 hit[0] = -(-y+fYshift[iModule]);
658 if (iModule <= fLastSPD1) hit[0] = -hit[0];
659 hit[1] = -z+fZshift[iModule];
660 hit[2] = fYpitchSPD*fYpitchSPD/12.;
661 hit[3] = fZ1pitchSPD*fZ1pitchSPD/12.;
663 hit[4] = (zmax-zmin+1)*100 + (ymax-ymin+1);
664 // CheckLabels(label);
665 Int_t info[3]={ymax-ymin+1,zmax-zmin+1,fNlayer[iModule]};
666 new (clusters[iModule]->AddrAt(nClusters))
667 AliITSclusterV2(label, hit,info);
672 nClustersSPD += nClusters;
677 bins = new AliBin[kMaxBin];
680 // fill the current digit into the bins array
681 Int_t index = (input->GetCoord2()+1) * kNzBins + (input->GetCoord1()+1);
682 bins[index].SetIndex(index);
683 bins[index].SetMask(1);
687 Info("FindClustersSPD", "found clusters in ITS SPD: %d", nClustersSPD);
691 Bool_t AliITSclustererV2::IsMaximum(Int_t k,Int_t max,const AliBin *bins) {
692 //------------------------------------------------------------
693 //is this a local maximum ?
694 //------------------------------------------------------------
695 UShort_t q=bins[k].GetQ();
696 if (q==1023) return kFALSE;
697 if (bins[k-max].GetQ() > q) return kFALSE;
698 if (bins[k-1 ].GetQ() > q) return kFALSE;
699 if (bins[k+max].GetQ() > q) return kFALSE;
700 if (bins[k+1 ].GetQ() > q) return kFALSE;
701 if (bins[k-max-1].GetQ() > q) return kFALSE;
702 if (bins[k+max-1].GetQ() > q) return kFALSE;
703 if (bins[k+max+1].GetQ() > q) return kFALSE;
704 if (bins[k-max+1].GetQ() > q) return kFALSE;
708 void AliITSclustererV2::
709 FindPeaks(Int_t k,Int_t max,AliBin *b,Int_t *idx,UInt_t *msk,Int_t& n) {
710 //------------------------------------------------------------
712 //------------------------------------------------------------
714 if (IsMaximum(k,max,b)) {
715 idx[n]=k; msk[n]=(2<<n);
719 if (b[k-max].GetMask()&1) FindPeaks(k-max,max,b,idx,msk,n);
720 if (b[k-1 ].GetMask()&1) FindPeaks(k-1 ,max,b,idx,msk,n);
721 if (b[k+max].GetMask()&1) FindPeaks(k+max,max,b,idx,msk,n);
722 if (b[k+1 ].GetMask()&1) FindPeaks(k+1 ,max,b,idx,msk,n);
725 void AliITSclustererV2::
726 MarkPeak(Int_t k, Int_t max, AliBin *bins, UInt_t m) {
727 //------------------------------------------------------------
729 //------------------------------------------------------------
730 UShort_t q=bins[k].GetQ();
732 bins[k].SetMask(bins[k].GetMask()|m);
734 if (bins[k-max].GetQ() <= q)
735 if ((bins[k-max].GetMask()&m) == 0) MarkPeak(k-max,max,bins,m);
736 if (bins[k-1 ].GetQ() <= q)
737 if ((bins[k-1 ].GetMask()&m) == 0) MarkPeak(k-1 ,max,bins,m);
738 if (bins[k+max].GetQ() <= q)
739 if ((bins[k+max].GetMask()&m) == 0) MarkPeak(k+max,max,bins,m);
740 if (bins[k+1 ].GetQ() <= q)
741 if ((bins[k+1 ].GetMask()&m) == 0) MarkPeak(k+1 ,max,bins,m);
744 void AliITSclustererV2::
745 MakeCluster(Int_t k,Int_t max,AliBin *bins,UInt_t m,AliITSclusterV2 &c) {
746 //------------------------------------------------------------
747 //make cluster using digits of this peak
748 //------------------------------------------------------------
749 Float_t q=(Float_t)bins[k].GetQ();
750 Int_t i=k/max, j=k-i*max;
753 c.SetY(c.GetY()+i*q);
754 c.SetZ(c.GetZ()+j*q);
755 c.SetSigmaY2(c.GetSigmaY2()+i*i*q);
756 c.SetSigmaZ2(c.GetSigmaZ2()+j*j*q);
758 bins[k].SetMask(0xFFFFFFFE);
760 if (bins[k-max].GetMask() == m) MakeCluster(k-max,max,bins,m,c);
761 if (bins[k-1 ].GetMask() == m) MakeCluster(k-1 ,max,bins,m,c);
762 if (bins[k+max].GetMask() == m) MakeCluster(k+max,max,bins,m,c);
763 if (bins[k+1 ].GetMask() == m) MakeCluster(k+1 ,max,bins,m,c);
766 void AliITSclustererV2::
767 FindClustersSDD(AliBin* bins[2], Int_t nMaxBin, Int_t nzBins,
768 const TClonesArray *digits, TClonesArray *clusters) {
769 //------------------------------------------------------------
770 // Actual SDD cluster finder
771 //------------------------------------------------------------
772 Int_t ncl=0; TClonesArray &cl=*clusters;
773 for (Int_t s=0; s<2; s++)
774 for (Int_t i=0; i<nMaxBin; i++) {
775 if (bins[s][i].IsUsed()) continue;
776 Int_t idx[32]; UInt_t msk[32]; Int_t npeaks=0;
777 FindPeaks(i, nzBins, bins[s], idx, msk, npeaks);
779 if (npeaks>30) continue;
780 if (npeaks==0) continue;
783 for (k=0; k<npeaks-1; k++){//mark adjacent peaks
784 if (idx[k] < 0) continue; //this peak is already removed
785 for (l=k+1; l<npeaks; l++) {
786 if (idx[l] < 0) continue; //this peak is already removed
787 Int_t ki=idx[k]/nzBins, kj=idx[k] - ki*nzBins;
788 Int_t li=idx[l]/nzBins, lj=idx[l] - li*nzBins;
789 Int_t di=TMath::Abs(ki - li);
790 Int_t dj=TMath::Abs(kj - lj);
791 if (di>1 || dj>1) continue;
792 if (bins[s][idx[k]].GetQ() > bins[s][idx[l]].GetQ()) {
803 for (k=0; k<npeaks; k++) {
804 MarkPeak(TMath::Abs(idx[k]), nzBins, bins[s], msk[k]);
807 for (k=0; k<npeaks; k++) {
808 if (idx[k] < 0) continue; //removed peak
810 MakeCluster(idx[k], nzBins, bins[s], msk[k], c);
813 for (Int_t ilab=0;ilab<10;ilab++){
816 Int_t maxi=0,mini=0,maxj=0,minj=0;
817 //AliBin *bmax=&bins[s][idx[k]];
818 //Float_t max = TMath::Max(TMath::Abs(bmax->GetQ())/5.,3.);
820 for (Int_t di=-2; di<=2;di++)
821 for (Int_t dj=-3;dj<=3;dj++){
822 Int_t index = idx[k]+di+dj*nzBins;
823 if (index<0) continue;
824 if (index>=nMaxBin) continue;
825 AliBin *b=&bins[s][index];
826 if (TMath::Abs(b->GetQ())>max){
827 if (di>maxi) maxi=di;
828 if (di<mini) mini=di;
829 if (dj>maxj) maxj=dj;
830 if (dj<minj) minj=dj;
833 if (TMath::Abs(di)<2&&TMath::Abs(dj)<2){
834 AliITSdigitSDD* d=(AliITSdigitSDD*)digits->UncheckedAt(b->GetIndex());
835 for (Int_t itrack=0;itrack<10;itrack++){
836 Int_t track = (d->GetTracks())[itrack];
838 AddLabel(milab, track);
847 Float_t s2 = c.GetSigmaY2()/c.GetQ() - c.GetY()*c.GetY();
848 Float_t w=par->GetPadPitchWidth(sec);
851 c.SetSigmaY2(c.GetSigmaY2()*0.108);
852 if (sec<par->GetNInnerSector()) c.SetSigmaY2(c.GetSigmaY2()*2.07);
854 s2 = c.GetSigmaZ2()/c.GetQ() - c.GetZ()*c.GetZ();
859 c.SetSigmaZ2(c.GetSigmaZ2()*0.169);
860 if (sec<par->GetNInnerSector()) c.SetSigmaZ2(c.GetSigmaZ2()*1.77);
864 c.SetSigmaY2(0.0030*0.0030);
865 c.SetSigmaZ2(0.0020*0.0020);
866 c.SetDetectorIndex(fNdet[fI]);
868 Float_t y=c.GetY(),z=c.GetZ(), q=c.GetQ();
871 //Float_t s2 = c.GetSigmaY2()/c.GetQ() - y*y;
873 //s2 = c.GetSigmaZ2()/c.GetQ() - z*z;
876 y=(y-0.5)*fYpitchSDD;
878 y-=fYoffSDD; //delay ?
881 z=(z-0.5)*fZpitchSDD;
888 c.SetNy(maxj-minj+1);
889 c.SetNz(maxi-mini+1);
891 c.SetQ(q/12.7); //to be consistent with the SSD charges
893 if (c.GetQ() < 20.) continue; //noise cluster
896 // AliBin *b=&bins[s][idx[k]];
897 // AliITSdigitSDD* d=(AliITSdigitSDD*)digits->UncheckedAt(b->GetIndex());
900 //lab[0]=(d->GetTracks())[0];
901 //lab[1]=(d->GetTracks())[1];
902 //lab[2]=(d->GetTracks())[2];
905 c.SetLabel(milab[0],0);
906 c.SetLabel(milab[1],1);
907 c.SetLabel(milab[2],2);
908 c.SetLayer(fNlayer[fI]);
911 new (cl[ncl]) AliITSclusterV2(c); ncl++;
916 void AliITSclustererV2::
917 FindClustersSDD(const TClonesArray *digits, TClonesArray *clusters) {
918 //------------------------------------------------------------
919 // Actual SDD cluster finder
920 //------------------------------------------------------------
921 Int_t kNzBins = fNzSDD + 2;
922 const Int_t kMAXBIN=kNzBins*(fNySDD+2);
925 bins[0]=new AliBin[kMAXBIN];
926 bins[1]=new AliBin[kMAXBIN];
929 Int_t i, ndigits=digits->GetEntriesFast();
930 for (i=0; i<ndigits; i++) {
931 d=(AliITSdigitSDD*)digits->UncheckedAt(i);
932 Int_t y=d->GetCoord2()+1; //y
933 Int_t z=d->GetCoord1()+1; //z
934 Int_t q=d->GetSignal();
938 bins[0][y*kNzBins+z].SetQ(q);
939 bins[0][y*kNzBins+z].SetMask(1);
940 bins[0][y*kNzBins+z].SetIndex(i);
943 bins[1][y*kNzBins+z].SetQ(q);
944 bins[1][y*kNzBins+z].SetMask(1);
945 bins[1][y*kNzBins+z].SetIndex(i);
949 FindClustersSDD(bins, kMAXBIN, kNzBins, digits, clusters);
956 void AliITSclustererV2::FindClustersSDD(AliITSRawStream* input,
957 TClonesArray** clusters)
959 //------------------------------------------------------------
960 // Actual SDD cluster finder for raw data
961 //------------------------------------------------------------
962 Int_t nClustersSDD = 0;
963 Int_t kNzBins = fNzSDD + 2;
964 Int_t kMaxBin = kNzBins * (fNySDD+2);
965 AliBin* bins[2] = {NULL, NULL};
967 // read raw data input stream
969 Bool_t next = input->Next();
970 if (!next || input->IsNewModule()) {
971 Int_t iModule = input->GetPrevModuleID();
973 // when all data from a module was read, search for clusters
975 clusters[iModule] = new TClonesArray("AliITSclusterV2");
977 FindClustersSDD(bins, kMaxBin, kNzBins, NULL, clusters[iModule]);
978 Int_t nClusters = clusters[iModule]->GetEntriesFast();
979 nClustersSDD += nClusters;
985 bins[0] = new AliBin[kMaxBin];
986 bins[1] = new AliBin[kMaxBin];
989 // fill the current digit into the bins array
990 if(input->GetSignal()>=3) {
991 Int_t iz = input->GetCoord1()+1;
992 Int_t side = ((iz <= fNzSDD) ? 0 : 1);
994 Int_t index = (input->GetCoord2()+1) * kNzBins + iz;
995 bins[side][index].SetQ(input->GetSignal());
996 bins[side][index].SetMask(1);
997 bins[side][index].SetIndex(index);
1001 Info("FindClustersSDD", "found clusters in ITS SDD: %d", nClustersSDD);
1006 void AliITSclustererV2::
1007 FindClustersSSD(Ali1Dcluster* neg, Int_t nn,
1008 Ali1Dcluster* pos, Int_t np,
1009 TClonesArray *clusters) {
1010 //------------------------------------------------------------
1011 // Actual SSD cluster finder
1012 //------------------------------------------------------------
1013 TClonesArray &cl=*clusters;
1015 Float_t tanp=fTanP, tann=fTanN;
1016 if (fI>fLastSSD1) {tann=fTanP; tanp=fTanN;}
1017 Int_t idet=fNdet[fI];
1020 Int_t negativepair[30000];
1021 Int_t cnegative[3000];
1023 Int_t positivepair[30000];
1024 Int_t cpositive[3000];
1026 for (Int_t i=0;i<3000;i++) {cnegative[i]=0; cused1[i]=0;}
1027 for (Int_t i=0;i<3000;i++) {cpositive[i]=0; cused2[i]=0;}
1028 static Short_t pairs[1000][1000];
1029 memset(pairs,0,sizeof(Short_t)*1000000);
1030 // Short_t ** pairs = new Short_t*[1000];
1031 // for (Int_t i=0; i<1000; i++) {
1032 // pairs[i] = new Short_t[1000];
1033 // memset(pairs[i],0,sizeof(Short_t)*1000);
1036 // find available pairs
1038 for (Int_t i=0; i<np; i++) {
1039 Float_t yp=pos[i].GetY()*fYpitchSSD;
1040 if (pos[i].GetQ()<3) continue;
1041 for (Int_t j=0; j<nn; j++) {
1042 if (neg[j].GetQ()<3) continue;
1043 Float_t yn=neg[j].GetY()*fYpitchSSD;
1044 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1045 Float_t yt=yn + tann*zt;
1046 zt-=fHlSSD; yt-=fHwSSD;
1047 if (TMath::Abs(yt)<fHwSSD+0.01)
1048 if (TMath::Abs(zt)<fHlSSD+0.01*(neg[j].GetNd()+pos[i].GetNd())) {
1049 negativepair[i*10+cnegative[i]] =j; //index
1050 positivepair[j*10+cpositive[j]] =i;
1051 cnegative[i]++; //counters
1058 for (Int_t i=0; i<np; i++) {
1059 Float_t yp=pos[i].GetY()*fYpitchSSD;
1060 if (pos[i].GetQ()<3) continue;
1061 for (Int_t j=0; j<nn; j++) {
1062 if (neg[j].GetQ()<3) continue;
1063 if (cpositive[j]&&cnegative[i]) continue;
1064 Float_t yn=neg[j].GetY()*fYpitchSSD;
1065 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1066 Float_t yt=yn + tann*zt;
1067 zt-=fHlSSD; yt-=fHwSSD;
1068 if (TMath::Abs(yt)<fHwSSD+0.1)
1069 if (TMath::Abs(zt)<fHlSSD+0.15) {
1070 if (cnegative[i]==0) pos[i].SetNd(100); // not available pair
1071 if (cpositive[j]==0) neg[j].SetNd(100); // not available pair
1072 negativepair[i*10+cnegative[i]] =j; //index
1073 positivepair[j*10+cpositive[j]] =i;
1074 cnegative[i]++; //counters
1088 for (Int_t ip=0;ip<np;ip++){
1089 Float_t ybest=1000,zbest=1000,qbest=0;
1091 // select gold clusters
1092 if ( (cnegative[ip]==1) && cpositive[negativepair[10*ip]]==1){
1093 Float_t yp=pos[ip].GetY()*fYpitchSSD;
1094 Int_t j = negativepair[10*ip];
1095 ratio = (pos[ip].GetQ()-neg[j].GetQ())/(pos[ip].GetQ()+neg[j].GetQ());
1097 Float_t yn=neg[j].GetY()*fYpitchSSD;
1098 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1099 Float_t yt=yn + tann*zt;
1100 zt-=fHlSSD; yt-=fHwSSD;
1102 qbest=0.5*(pos[ip].GetQ()+neg[j].GetQ());
1103 lp[0]=-(-ybest+fYshift[fI]);
1104 lp[1]= -zbest+fZshift[fI];
1105 lp[2]=0.0025*0.0025; //SigmaY2
1106 lp[3]=0.110*0.110; //SigmaZ2
1109 for (Int_t ilab=0;ilab<10;ilab++) milab[ilab]=-2;
1110 for (Int_t ilab=0;ilab<3;ilab++){
1111 milab[ilab] = pos[ip].GetLabel(ilab);
1112 milab[ilab+3] = neg[j].GetLabel(ilab);
1115 CheckLabels2(milab);
1116 milab[3]=(((ip<<10) + j)<<10) + idet; // pos|neg|det
1117 Int_t info[3] = {pos[ip].GetNd(),neg[j].GetNd(),fNlayer[fI]};
1118 AliITSclusterV2 * cl2 = new (cl[ncl]) AliITSclusterV2(milab,lp,info);
1120 cl2->SetChargeRatio(ratio);
1123 if ((pos[ip].GetNd()+neg[j].GetNd())>6){ //multi cluster
1132 for (Int_t ip=0;ip<np;ip++){
1133 Float_t ybest=1000,zbest=1000,qbest=0;
1136 // select "silber" cluster
1137 if ( cnegative[ip]==1 && cpositive[negativepair[10*ip]]==2){
1138 Int_t in = negativepair[10*ip];
1139 Int_t ip2 = positivepair[10*in];
1140 if (ip2==ip) ip2 = positivepair[10*in+1];
1141 Float_t pcharge = pos[ip].GetQ()+pos[ip2].GetQ();
1142 if (TMath::Abs(pcharge-neg[in].GetQ())<10){
1145 if (pairs[ip][in]==100){ //
1146 Float_t yp=pos[ip].GetY()*fYpitchSSD;
1147 Float_t yn=neg[in].GetY()*fYpitchSSD;
1148 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1149 Float_t yt=yn + tann*zt;
1150 zt-=fHlSSD; yt-=fHwSSD;
1151 ybest =yt; zbest=zt;
1152 qbest =pos[ip].GetQ();
1153 lp[0]=-(-ybest+fYshift[fI]);
1154 lp[1]= -zbest+fZshift[fI];
1155 lp[2]=0.0025*0.0025; //SigmaY2
1156 lp[3]=0.110*0.110; //SigmaZ2
1159 for (Int_t ilab=0;ilab<10;ilab++) milab[ilab]=-2;
1160 for (Int_t ilab=0;ilab<3;ilab++){
1161 milab[ilab] = pos[ip].GetLabel(ilab);
1162 milab[ilab+3] = neg[in].GetLabel(ilab);
1165 CheckLabels2(milab);
1166 ratio = (pos[ip].GetQ()-neg[in].GetQ())/(pos[ip].GetQ()+neg[in].GetQ());
1167 milab[3]=(((ip<<10) + in)<<10) + idet; // pos|neg|det
1168 Int_t info[3] = {pos[ip].GetNd(),neg[in].GetNd(),fNlayer[fI]};
1169 AliITSclusterV2 * cl2 = new (cl[ncl]) AliITSclusterV2(milab,lp,info);
1171 cl2->SetChargeRatio(ratio);
1174 if ((pos[ip].GetNd()+neg[in].GetNd())>6){ //multi cluster
1182 // if (!(cused1[ip2] || cused2[in])){ //
1183 if (pairs[ip2][in]==100){
1184 Float_t yp=pos[ip2].GetY()*fYpitchSSD;
1185 Float_t yn=neg[in].GetY()*fYpitchSSD;
1186 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1187 Float_t yt=yn + tann*zt;
1188 zt-=fHlSSD; yt-=fHwSSD;
1189 ybest =yt; zbest=zt;
1190 qbest =pos[ip2].GetQ();
1191 lp[0]=-(-ybest+fYshift[fI]);
1192 lp[1]= -zbest+fZshift[fI];
1193 lp[2]=0.0025*0.0025; //SigmaY2
1194 lp[3]=0.110*0.110; //SigmaZ2
1197 for (Int_t ilab=0;ilab<10;ilab++) milab[ilab]=-2;
1198 for (Int_t ilab=0;ilab<3;ilab++){
1199 milab[ilab] = pos[ip2].GetLabel(ilab);
1200 milab[ilab+3] = neg[in].GetLabel(ilab);
1203 CheckLabels2(milab);
1204 ratio = (pos[ip2].GetQ()-neg[in].GetQ())/(pos[ip2].GetQ()+neg[in].GetQ());
1205 milab[3]=(((ip2<<10) + in)<<10) + idet; // pos|neg|det
1206 Int_t info[3] = {pos[ip2].GetNd(),neg[in].GetNd(),fNlayer[fI]};
1207 AliITSclusterV2 *cl2 = new (cl[ncl]) AliITSclusterV2(milab,lp,info);
1209 cl2->SetChargeRatio(ratio);
1212 if ((pos[ip2].GetNd()+neg[in].GetNd())>6){ //multi cluster
1225 for (Int_t jn=0;jn<nn;jn++){
1226 if (cused2[jn]) continue;
1227 Float_t ybest=1000,zbest=1000,qbest=0;
1228 // select "silber" cluster
1229 if ( cpositive[jn]==1 && cnegative[positivepair[10*jn]]==2){
1230 Int_t ip = positivepair[10*jn];
1231 Int_t jn2 = negativepair[10*ip];
1232 if (jn2==jn) jn2 = negativepair[10*ip+1];
1233 Float_t pcharge = neg[jn].GetQ()+neg[jn2].GetQ();
1235 if (TMath::Abs(pcharge-pos[ip].GetQ())<10){
1238 // if (!(cused1[ip]||cused2[jn])){
1239 if (pairs[ip][jn]==100){
1240 Float_t yn=neg[jn].GetY()*fYpitchSSD;
1241 Float_t yp=pos[ip].GetY()*fYpitchSSD;
1242 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1243 Float_t yt=yn + tann*zt;
1244 zt-=fHlSSD; yt-=fHwSSD;
1245 ybest =yt; zbest=zt;
1246 qbest =neg[jn].GetQ();
1247 lp[0]=-(-ybest+fYshift[fI]);
1248 lp[1]= -zbest+fZshift[fI];
1249 lp[2]=0.0025*0.0025; //SigmaY2
1250 lp[3]=0.110*0.110; //SigmaZ2
1253 for (Int_t ilab=0;ilab<10;ilab++) milab[ilab]=-2;
1254 for (Int_t ilab=0;ilab<3;ilab++){
1255 milab[ilab] = pos[ip].GetLabel(ilab);
1256 milab[ilab+3] = neg[jn].GetLabel(ilab);
1259 CheckLabels2(milab);
1260 ratio = (pos[ip].GetQ()-neg[jn].GetQ())/(pos[ip].GetQ()+neg[jn].GetQ());
1261 milab[3]=(((ip<<10) + jn)<<10) + idet; // pos|neg|det
1262 Int_t info[3] = {pos[ip].GetNd(),neg[jn].GetNd(),fNlayer[fI]};
1263 AliITSclusterV2 * cl2 = new (cl[ncl]) AliITSclusterV2(milab,lp,info);
1265 cl2->SetChargeRatio(ratio);
1268 if ((pos[ip].GetNd()+neg[jn].GetNd())>6){ //multi cluster
1275 // if (!(cused1[ip]||cused2[jn2])){
1276 if (pairs[ip][jn2]==100){
1277 Float_t yn=neg[jn2].GetY()*fYpitchSSD;
1278 Double_t yp=pos[ip].GetY()*fYpitchSSD;
1279 Double_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1280 Double_t yt=yn + tann*zt;
1281 zt-=fHlSSD; yt-=fHwSSD;
1282 ybest =yt; zbest=zt;
1283 qbest =neg[jn2].GetQ();
1284 lp[0]=-(-ybest+fYshift[fI]);
1285 lp[1]= -zbest+fZshift[fI];
1286 lp[2]=0.0025*0.0025; //SigmaY2
1287 lp[3]=0.110*0.110; //SigmaZ2
1290 for (Int_t ilab=0;ilab<10;ilab++) milab[ilab]=-2;
1291 for (Int_t ilab=0;ilab<3;ilab++){
1292 milab[ilab] = pos[ip].GetLabel(ilab);
1293 milab[ilab+3] = neg[jn2].GetLabel(ilab);
1296 CheckLabels2(milab);
1297 ratio = (pos[ip].GetQ()-neg[jn2].GetQ())/(pos[ip].GetQ()+neg[jn2].GetQ());
1298 milab[3]=(((ip<<10) + jn2)<<10) + idet; // pos|neg|det
1299 Int_t info[3] = {pos[ip].GetNd(),neg[jn2].GetNd(),fNlayer[fI]};
1300 AliITSclusterV2* cl2 = new (cl[ncl]) AliITSclusterV2(milab,lp,info);
1302 cl2->SetChargeRatio(ratio);
1305 if ((pos[ip].GetNd()+neg[jn2].GetNd())>6){ //multi cluster
1317 for (Int_t ip=0;ip<np;ip++){
1318 Float_t ybest=1000,zbest=1000,qbest=0;
1322 if ( (cnegative[ip]<5) && cpositive[negativepair[10*ip]]<5){
1323 Float_t minchargediff =4.;
1325 for (Int_t di=0;di<cnegative[ip];di++){
1326 Int_t jc = negativepair[ip*10+di];
1327 Float_t chargedif = pos[ip].GetQ()-neg[jc].GetQ();
1328 if (TMath::Abs(chargedif)<minchargediff){
1330 minchargediff = TMath::Abs(chargedif);
1333 if (j<0) continue; // not proper cluster
1335 for (Int_t di=0;di<cnegative[ip];di++){
1336 Int_t jc = negativepair[ip*10+di];
1337 Float_t chargedif = pos[ip].GetQ()-neg[jc].GetQ();
1338 if (TMath::Abs(chargedif)<minchargediff+3.) count++;
1340 if (count>1) continue; // more than one "proper" cluster for positive
1343 for (Int_t dj=0;dj<cpositive[j];dj++){
1344 Int_t ic = positivepair[j*10+dj];
1345 Float_t chargedif = pos[ic].GetQ()-neg[j].GetQ();
1346 if (TMath::Abs(chargedif)<minchargediff+3.) count++;
1348 if (count>1) continue; // more than one "proper" cluster for negative
1353 for (Int_t dj=0;dj<cnegative[jp];dj++){
1354 Int_t ic = positivepair[jp*10+dj];
1355 Float_t chargedif = pos[ic].GetQ()-neg[jp].GetQ();
1356 if (TMath::Abs(chargedif)<minchargediff+4.) count++;
1358 if (count>1) continue;
1359 if (pairs[ip][j]<100) continue;
1361 //almost gold clusters
1362 Float_t yp=pos[ip].GetY()*fYpitchSSD;
1363 Float_t yn=neg[j].GetY()*fYpitchSSD;
1364 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1365 Float_t yt=yn + tann*zt;
1366 zt-=fHlSSD; yt-=fHwSSD;
1368 qbest=0.5*(pos[ip].GetQ()+neg[j].GetQ());
1369 lp[0]=-(-ybest+fYshift[fI]);
1370 lp[1]= -zbest+fZshift[fI];
1371 lp[2]=0.0025*0.0025; //SigmaY2
1372 lp[3]=0.110*0.110; //SigmaZ2
1374 for (Int_t ilab=0;ilab<10;ilab++) milab[ilab]=-2;
1375 for (Int_t ilab=0;ilab<3;ilab++){
1376 milab[ilab] = pos[ip].GetLabel(ilab);
1377 milab[ilab+3] = neg[j].GetLabel(ilab);
1380 CheckLabels2(milab);
1381 ratio = (pos[ip].GetQ()-neg[j].GetQ())/(pos[ip].GetQ()+neg[j].GetQ());
1382 milab[3]=(((ip<<10) + j)<<10) + idet; // pos|neg|det
1383 Int_t info[3] = {pos[ip].GetNd(),neg[j].GetNd(),fNlayer[fI]};
1384 AliITSclusterV2 * cl2 = new (cl[ncl]) AliITSclusterV2(milab,lp,info);
1386 cl2->SetChargeRatio(ratio);
1389 if ((pos[ip].GetNd()+neg[j].GetNd())>6){ //multi cluster
1400 for (Int_t i=0; i<np; i++) {
1401 Float_t ybest=1000,zbest=1000,qbest=0;
1402 Float_t yp=pos[i].GetY()*fYpitchSSD;
1403 if (pos[i].GetQ()<3) continue;
1404 for (Int_t j=0; j<nn; j++) {
1405 // for (Int_t di = 0;di<cpositive[i];di++){
1406 // Int_t j = negativepair[10*i+di];
1407 if (neg[j].GetQ()<3) continue;
1408 if (cused2[j]||cused1[i]) continue;
1409 if (pairs[i][j]>0 &&pairs[i][j]<100) continue;
1410 ratio = (pos[i].GetQ()-neg[j].GetQ())/(pos[i].GetQ()+neg[j].GetQ());
1411 Float_t yn=neg[j].GetY()*fYpitchSSD;
1412 Float_t zt=(2*fHlSSD*tanp + yp - yn)/(tann+tanp);
1413 Float_t yt=yn + tann*zt;
1414 zt-=fHlSSD; yt-=fHwSSD;
1415 if (TMath::Abs(yt)<fHwSSD+0.01)
1416 if (TMath::Abs(zt)<fHlSSD+0.01*(neg[j].GetNd()+pos[i].GetNd())) {
1418 qbest=0.5*(pos[i].GetQ()+neg[j].GetQ());
1419 lp[0]=-(-ybest+fYshift[fI]);
1420 lp[1]= -zbest+fZshift[fI];
1421 lp[2]=0.0025*0.0025; //SigmaY2
1422 lp[3]=0.110*0.110; //SigmaZ2
1425 for (Int_t ilab=0;ilab<10;ilab++) milab[ilab]=-2;
1426 for (Int_t ilab=0;ilab<3;ilab++){
1427 milab[ilab] = pos[i].GetLabel(ilab);
1428 milab[ilab+3] = neg[j].GetLabel(ilab);
1431 CheckLabels2(milab);
1432 milab[3]=(((i<<10) + j)<<10) + idet; // pos|neg|det
1433 Int_t info[3] = {pos[i].GetNd(),neg[j].GetNd(),fNlayer[fI]};
1434 AliITSclusterV2 * cl2 = new (cl[ncl]) AliITSclusterV2(milab,lp,info);
1436 cl2->SetChargeRatio(ratio);
1437 cl2->SetType(100+cpositive[j]+cnegative[i]);
1440 if (pairs[i][j]<100){
1441 printf("problem:- %d\n", pairs[i][j]);
1443 if (cnegative[i]<2&&cpositive[j]<2){
1444 printf("problem:- %d\n", pairs[i][j]);
1451 // for (Int_t i=0; i<1000; i++) delete [] pairs[i];
1457 void AliITSclustererV2::
1458 FindClustersSSD(const TClonesArray *alldigits, TClonesArray *clusters) {
1459 //------------------------------------------------------------
1460 // Actual SSD cluster finder
1461 //------------------------------------------------------------
1462 Int_t smaxall=alldigits->GetEntriesFast();
1463 if (smaxall==0) return;
1464 TObjArray *digits = new TObjArray;
1465 for (Int_t i=0;i<smaxall; i++){
1466 AliITSdigitSSD *d=(AliITSdigitSSD*)alldigits->UncheckedAt(i);
1467 if (d->GetSignal()<3) continue;
1470 Int_t smax = digits->GetEntriesFast();
1471 if (smax==0) return;
1473 const Int_t MAX=1000;
1475 Ali1Dcluster pos[MAX], neg[MAX];
1476 Float_t y=0., q=0., qmax=0.;
1477 Int_t lab[4]={-2,-2,-2,-2};
1479 AliITSdigitSSD *d=(AliITSdigitSSD*)digits->UncheckedAt(0);
1480 q += d->GetSignal();
1481 y += d->GetCoord2()*d->GetSignal();
1482 qmax=d->GetSignal();
1483 lab[0]=d->GetTrack(0); lab[1]=d->GetTrack(1); lab[2]=d->GetTrack(2);
1484 Int_t curr=d->GetCoord2();
1485 Int_t flag=d->GetCoord1();
1487 Ali1Dcluster *c=neg;
1490 for (Int_t ilab=0;ilab<10;ilab++){
1493 milab[0]=d->GetTrack(0); milab[1]=d->GetTrack(1); milab[2]=d->GetTrack(2);
1495 for (Int_t s=1; s<smax; s++) {
1496 d=(AliITSdigitSSD*)digits->UncheckedAt(s);
1497 Int_t strip=d->GetCoord2();
1498 if ((strip-curr) > 1 || flag!=d->GetCoord1()) {
1502 CheckLabels2(milab);
1503 c[*n].SetLabels(milab);
1504 //Split suspiciously big cluster
1507 c[*n].SetY(y/q-0.3*nd);
1511 Error("FindClustersSSD","Too many 1D clusters !");
1514 c[*n].SetY(y/q-0.0*nd);
1519 Error("FindClustersSSD","Too many 1D clusters !");
1523 c[*n].SetY(y/q+0.3*nd);
1526 c[*n].SetLabels(milab);
1531 c[*n].SetY(y/q-0.25*nd);
1535 Error("FindClustersSSD","Too many 1D clusters !");
1538 c[*n].SetY(y/q+0.25*nd);
1541 c[*n].SetLabels(milab);
1545 Error("FindClustersSSD","Too many 1D clusters !");
1550 lab[0]=lab[1]=lab[2]=-2;
1552 for (Int_t ilab=0;ilab<10;ilab++){
1556 if (flag!=d->GetCoord1()) { n=&np; c=pos; }
1558 flag=d->GetCoord1();
1559 q += d->GetSignal();
1560 y += d->GetCoord2()*d->GetSignal();
1562 if (d->GetSignal()>qmax) {
1563 qmax=d->GetSignal();
1564 lab[0]=d->GetTrack(0); lab[1]=d->GetTrack(1); lab[2]=d->GetTrack(2);
1566 for (Int_t ilab=0;ilab<10;ilab++) {
1567 if (d->GetTrack(ilab)>=0) AddLabel(milab, (d->GetTrack(ilab)));
1574 c[*n].SetLabels(lab);
1575 //Split suspiciously big cluster
1576 if (nd>4 && nd<25) {
1577 c[*n].SetY(y/q-0.25*nd);
1581 Error("FindClustersSSD","Too many 1D clusters !");
1584 c[*n].SetY(y/q+0.25*nd);
1587 c[*n].SetLabels(lab);
1591 Error("FindClustersSSD","Too many 1D clusters !");
1595 FindClustersSSD(neg, nn, pos, np, clusters);
1598 void AliITSclustererV2::FindClustersSSD(AliITSRawStream* input,
1599 TClonesArray** clusters)
1601 //------------------------------------------------------------
1602 // Actual SSD cluster finder for raw data
1603 //------------------------------------------------------------
1604 Int_t nClustersSSD = 0;
1605 const Int_t MAX = 1000;
1606 Ali1Dcluster clusters1D[2][MAX];
1607 Int_t nClusters[2] = {0, 0};
1608 Int_t lab[3]={-2,-2,-2};
1612 Int_t prevStrip = -1;
1613 Int_t prevFlag = -1;
1614 Int_t prevModule = -1;
1616 // read raw data input stream
1618 Bool_t next = input->Next();
1620 if(input->GetSignal()<3 && next) continue;
1621 // check if a new cluster starts
1622 Int_t strip = input->GetCoord2();
1623 Int_t flag = input->GetCoord1();
1624 if ((!next || (input->GetModuleID() != prevModule)||
1625 (strip-prevStrip > 1) || (flag != prevFlag)) &&
1627 if (nClusters[prevFlag] == MAX) {
1628 Error("FindClustersSSD", "Too many 1D clusters !");
1631 Ali1Dcluster& cluster = clusters1D[prevFlag][nClusters[prevFlag]++];
1634 cluster.SetNd(nDigits);
1635 cluster.SetLabels(lab);
1637 //Split suspiciously big cluster
1638 if (nDigits > 4&&nDigits < 25) {
1639 cluster.SetY(y/q - 0.25*nDigits);
1640 cluster.SetQ(0.5*q);
1641 if (nClusters[prevFlag] == MAX) {
1642 Error("FindClustersSSD", "Too many 1D clusters !");
1645 Ali1Dcluster& cluster2 = clusters1D[prevFlag][nClusters[prevFlag]++];
1646 cluster2.SetY(y/q + 0.25*nDigits);
1647 cluster2.SetQ(0.5*q);
1648 cluster2.SetNd(nDigits);
1649 cluster2.SetLabels(lab);
1655 if (!next || (input->GetModuleID() != prevModule)) {
1656 Int_t iModule = prevModule;
1658 // when all data from a module was read, search for clusters
1659 if (prevFlag >= 0) {
1660 clusters[iModule] = new TClonesArray("AliITSclusterV2");
1662 FindClustersSSD(&clusters1D[0][0], nClusters[0],
1663 &clusters1D[1][0], nClusters[1], clusters[iModule]);
1664 Int_t nClusters = clusters[iModule]->GetEntriesFast();
1665 nClustersSSD += nClusters;
1669 nClusters[0] = nClusters[1] = 0;
1674 // add digit to current cluster
1675 q += input->GetSignal();
1676 y += strip * input->GetSignal();
1680 prevModule = input->GetModuleID();
1684 Info("FindClustersSSD", "found clusters in ITS SSD: %d", nClustersSSD);
1689 #include "AliITSDetType.h"
1691 #include "AliITSsegmentationSPD.h"
1692 #include "AliITSClusterFinderSPD.h"
1694 #include "AliITSresponseSDD.h"
1695 #include "AliITSsegmentationSDD.h"
1696 #include "AliITSClusterFinderSDD.h"
1698 #include "AliITSsegmentationSSD.h"
1699 #include "AliITSClusterFinderSSD.h"
1702 void AliITSclustererV2::
1703 FindClustersSPD(const TClonesArray *digits, TClonesArray *clusters) {
1704 //------------------------------------------------------------
1705 // Actual SPD cluster finding based on AliITSClusterFinderSPD
1706 //------------------------------------------------------------
1707 static AliITS *its=(AliITS*)gAlice->GetModule("ITS");
1708 static TClonesArray *points=its->RecPoints();
1709 static AliITSsegmentationSPD *seg=
1710 (AliITSsegmentationSPD *)its->DetType(0)->GetSegmentationModel();
1711 static AliITSClusterFinderSPD cf(seg, (TClonesArray*)digits, points);
1713 cf.FindRawClusters(fI);
1714 RecPoints2Clusters(points, fI, clusters);
1715 its->ResetRecPoints();
1719 void AliITSclustererV2::
1720 FindClustersSDD(const TClonesArray *digits, TClonesArray *clusters) {
1721 //------------------------------------------------------------
1722 // Actual SDD cluster finding based on AliITSClusterFinderSDD
1723 //------------------------------------------------------------
1724 static AliITS *its=(AliITS*)gAlice->GetModule("ITS");
1725 static TClonesArray *points=its->RecPoints();
1726 static AliITSresponseSDD *resp=
1727 (AliITSresponseSDD *)its->DetType(1)->GetResponseModel();
1728 static AliITSsegmentationSDD *seg=
1729 (AliITSsegmentationSDD *)its->DetType(1)->GetSegmentationModel();
1730 static AliITSClusterFinderSDD
1731 cf(seg,resp,(TClonesArray*)digits,its->ClustersAddress(1));
1733 cf.FindRawClusters(fI);
1734 Int_t nc=points->GetEntriesFast();
1735 while (nc--) { //To be consistent with the SSD cluster charges
1736 AliITSRecPoint *p=(AliITSRecPoint*)points->UncheckedAt(nc);
1737 p->SetQ(p->GetQ()/12.);
1739 RecPoints2Clusters(points, fI, clusters);
1740 its->ResetClusters(1);
1741 its->ResetRecPoints();
1745 void AliITSclustererV2::
1746 FindClustersSSD(const TClonesArray *digits, TClonesArray *clusters) {
1747 //------------------------------------------------------------
1748 // Actual SSD cluster finding based on AliITSClusterFinderSSD
1749 //------------------------------------------------------------
1750 static AliITS *its=(AliITS*)gAlice->GetModule("ITS");
1751 static TClonesArray *points=its->RecPoints();
1752 static AliITSsegmentationSSD *seg=
1753 (AliITSsegmentationSSD *)its->DetType(2)->GetSegmentationModel();
1754 static AliITSClusterFinderSSD cf(seg,(TClonesArray*)digits);
1756 cf.FindRawClusters(fI);
1757 RecPoints2Clusters(points, fI, clusters);
1758 its->ResetRecPoints();