5 #include "AliMathBase.h"
7 #include "AliTRDseedV1.h"
8 #include "AliTRDcluster.h"
9 #include "AliTRDpadPlane.h"
10 #include "AliTRDtrackletOflHelper.h"
12 ClassImp(AliTRDtrackletOflHelper)
13 //___________________________________________________________________
14 AliTRDtrackletOflHelper::AliTRDtrackletOflHelper()
20 // Default constructor
21 fCol[0]=144; fCol[1]=0;
22 fTBrange[0]=1; fTBrange[1]=21;
25 //___________________________________________________________________
26 AliTRDtrackletOflHelper::AliTRDtrackletOflHelper(const AliTRDtrackletOflHelper &ref)
30 ,fPadPlane(ref.fPadPlane)
33 fRow = ref.fRow; fCol[0]=ref.fCol[0]; fCol[1]=ref.fCol[1];
34 fTBrange[0] = ref.fTBrange[0];fTBrange[1] = ref.fTBrange[1];
37 if((n = ref.fClusters->GetEntriesFast())) {
38 fClusters = new TObjArray(n);
39 for(Int_t ic(n); ic--;) fClusters->AddAt(ref.fClusters->At(ic), ic);
44 //___________________________________________________________________
45 AliTRDtrackletOflHelper& AliTRDtrackletOflHelper::operator=(const AliTRDtrackletOflHelper &rhs)
48 TObject::operator=(rhs);
49 fPadPlane = rhs.fPadPlane;
51 fCol[0] = rhs.fCol[0];
52 fCol[1] = rhs.fCol[1];
53 fTBrange[0]= rhs.fTBrange[0];
54 fTBrange[1]= rhs.fTBrange[1];
56 Int_t n(rhs.fClusters->GetEntriesFast());
57 if(!fClusters) fClusters = new TObjArray(n);
58 if(fClusters->GetEntriesFast() != n){
62 for(Int_t ic(n); ic--;) fClusters->AddAt(rhs.fClusters->At(ic), ic);
64 if(fClusters) delete fClusters;
70 //___________________________________________________________________
71 AliTRDtrackletOflHelper::~AliTRDtrackletOflHelper()
74 if(fClusters) fClusters->Clear();
78 //___________________________________________________________________
79 Int_t AliTRDtrackletOflHelper::Expand(TObjArray *cls, Int_t *mark, Int_t groupId)
81 // Allocate new clusters for this helper. If a subset of clusters is to be allocated
82 // this can be specified via the identifier "groupId" which have to be compared
83 // with individual elements in the array "mark".
85 // Return total no. of clusters in helper
87 if(!fPadPlane || !fClusters ){
88 AliError("Helper not initialized.");
91 Int_t ncl(fClusters->GetEntriesFast());
92 Int_t mcl(cls->GetEntriesFast());
93 fClusters->Expand(mcl + ncl);
94 fCol[0]=144; fCol[1]=0;
95 AliTRDcluster *c(NULL);
96 for(Int_t icl(0), jcl(ncl); icl<mcl; icl++){
97 if(!(c=(AliTRDcluster*)cls->At(icl))) continue;
98 if(mark && mark[icl]!=groupId) continue;
99 fClusters->AddAt(c, jcl++);
100 Int_t col(c->GetPadCol());
101 Short_t *sig(c->GetSignals());
102 for(Int_t icol(0), jcol(col-3); icol<7; icol++, jcol++){
103 if(sig[icol]==0) continue;
104 if(jcol<fCol[0]) fCol[0]=jcol;
105 if(jcol>fCol[1]) fCol[1]=jcol;
109 AliDebug(1, Form("Segment[%d] Clusters[%2d] pad[%3d %3d].", groupId, fClusters->GetEntriesFast(), fCol[0], fCol[1]));
110 return fClusters->GetEntriesFast();
114 //___________________________________________________________________
115 Int_t AliTRDtrackletOflHelper::Init(AliTRDpadPlane *p, TObjArray *cls, Int_t *mark, Int_t groupId)
117 // Allocate clusters for this helper. If a subset of clusters is to be allocated
118 // this can be specified via the identifier "groupId" which have to be compared
119 // with individual elements in the array "mark".
121 // Return no. of clusters allocated
124 AliError("PadPlane not initialized."); return 0;
127 AliError("Cluster array not initialized."); return 0;
129 Int_t ncl(cls->GetEntriesFast());
131 AliDebug(1, Form("Segment[%d] failed n[%d].", groupId, ncl)); return 0;
136 for(Int_t icl(ncl); icl--;)
137 if(cls->At(icl) && mark[icl]==groupId) mcl++;
140 AliDebug(1, Form("Segment[%d] failed n[%d] in group.", groupId, mcl)); return 0;
142 if(!fClusters) fClusters = new TObjArray(mcl);
145 fClusters->Expand(mcl);
147 fCol[0]=144; fCol[1]=0; fRow=-1;
148 AliTRDcluster *c(NULL);
149 for(Int_t icl(0), jcl(0); icl<ncl; icl++){
150 if(!(c=(AliTRDcluster*)cls->At(icl))) continue;
151 if(mark && mark[icl]!=groupId) continue;
152 fClusters->AddAt(c, jcl++);
153 if(fRow<0) fRow = c->GetPadRow();
154 Int_t col(c->GetPadCol());
155 Short_t *sig(c->GetSignals());
156 for(Int_t icol(0), jcol(col-3); icol<7; icol++, jcol++){
157 if(sig[icol]==0) continue;
158 if(jcol<fCol[0]) fCol[0]=jcol;
159 if(jcol>fCol[1]) fCol[1]=jcol;
164 AliDebug(1, Form("Segment[%d] Clusters[%2d] pad[%3d %3d].", groupId, fClusters->GetEntriesFast(), fCol[0], fCol[1]));
165 return fClusters->GetEntriesFast();
168 //___________________________________________________________________
169 Int_t AliTRDtrackletOflHelper::ClassifyTopology()
171 // Classify topology and return classification code
172 // 0 - normal tracklet
173 // 1 - delta ray candidate
174 // 2 - secondary candidate
175 // 3 - "elephant" candidate
176 // 4 - unknown topology
179 AliError("Helper not initialized. Missing clusters.");
182 Int_t ncl(fClusters->GetEntries());
184 AliError("Helper not initialized. No cluster allocated.");
187 const Int_t kRange(22); // DEFINE based on vd
189 // compute local occupancy
190 Int_t localOccupancy[AliTRDseedV1::kNtb]; memset(localOccupancy, 0, AliTRDseedV1::kNtb*sizeof(Int_t));
191 AliTRDcluster *c(NULL);
192 Double_t sy[kNcls]; Int_t mcl(0);
193 for(Int_t icl(ncl), time; icl--;){
194 c = (AliTRDcluster*)fClusters->At(icl);
195 time = c->GetPadTime();
196 if(time==0 || time>=kRange){
197 sy[icl] = -1; // mark clusters outsde drift volume
200 // protect against wrong error param.
201 if(c->GetSigmaY2() < 1.e-5) sy[icl] = 0.02;
202 else sy[icl] = TMath::Min(TMath::Sqrt(c->GetSigmaY2()), 0.04);
203 localOccupancy[time]++;
207 AliWarning("No clusters in the active area.");
210 //compute number of 0 bins and high occupancy
211 Int_t goodOccupancy(0), highOccupancy(0), lowOccupancy(0);
212 for(Int_t itb(1); itb<kRange; itb++){
213 switch(localOccupancy[itb]){
214 case 0: lowOccupancy++; break;
215 case 1: goodOccupancy++; break;
216 default: highOccupancy++; break;
219 AliDebug(2, Form("H[%2d | %5.2f%%] L[%2d | %5.2f%%] N[%2d | %5.2f%% | %5.2f%%]",
220 highOccupancy, 100.*highOccupancy/kRange,
221 lowOccupancy, 100.*lowOccupancy/kRange,
222 goodOccupancy, 100.*goodOccupancy/kRange, 100.*goodOccupancy/mcl));
226 if(goodOccupancy==mcl) return kNormal;
227 else if(Double_t(goodOccupancy)/kRange > 0.9){
228 if(highOccupancy == 0 ) {
229 if(!FitPSR(dy)) return kUnknown;
231 for(Int_t idy(ncl); idy--;){
232 if(sy[idy]<0.) continue;
233 if(dy[idy] > 3*sy[idy]) continue;
236 if(Double_t(nin)/mcl > 0.8) return kNormal;
237 else return kUnknown;
238 } else return kDeltaRay;
239 } else return kUnknown;
243 //___________________________________________________________________
244 void AliTRDtrackletOflHelper::FindSolidCls(Bool_t *mark, Int_t *q)
246 // Find clusters produced by large fluctuations of energy deposits
247 // Largest charge and well separation from neighbors
249 Int_t ntb(AliTRDseedV1::kNtb);
251 TMath::Sort(ntb, q, idx, kTRUE);
252 Int_t qmax = Int_t(0.3*q[idx[0]]);
254 for(Int_t icl(ntb-5); icl<ntb; icl++) mark[icl] = kFALSE;
255 for(Int_t icl(0); icl<ntb; icl++){
257 if(!mark[jcl]) continue;
258 if(q[jcl-1]>q[jcl] || q[jcl+1]>q[jcl]){
266 for(Int_t kcl=TMath::Max(0, jcl-2); kcl<jcl+3; kcl++){
267 if(kcl==jcl) continue;
273 //___________________________________________________________________
274 Bool_t AliTRDtrackletOflHelper::FitPSR(Double_t dy[200], Bool_t useSolid)
276 // Fit tracklet in Pad System of Reference [PSR] to avoid uncertainty related to
277 // Lorentz angle correction
279 Bool_t mark[200]; memset(mark, 0, 200*sizeof(Bool_t));
280 Int_t q[200]; memset(q, 0, 200*sizeof(Int_t));
281 Int_t ncl(fClusters->GetEntries());
282 AliTRDcluster *c(NULL);
283 for(Int_t icl(ncl); icl--;){
284 c = (AliTRDcluster*)fClusters->At(icl);
285 if(c->GetPadRow() != fRow) continue;
286 Int_t time(c->GetPadTime());
287 mark[time] = kTRUE; q[time] = Int_t(c->GetQ());
289 if(useSolid) FindSolidCls(mark, q);
292 x[AliTRDseedV1::kNtb], y[AliTRDseedV1::kNtb], sy[AliTRDseedV1::kNtb],
293 xf[AliTRDseedV1::kNtb], yf[AliTRDseedV1::kNtb], syf[AliTRDseedV1::kNtb],
295 Int_t jcl(0), kcl(0);
296 for(Int_t icl(0); icl<ncl; icl++){
297 c = (AliTRDcluster*)fClusters->At(icl);
298 if(c->GetPadRow() != fRow) continue;
299 Int_t col(c->GetPadCol());
300 Int_t time(c->GetPadTime());
301 Double_t center(c->GetCenter());
302 Double_t cw(fPadPlane->GetColSize(col));
303 //Double_t corr = AliTRDcluster::GetYcorr(AliTRDgeometry::GetLayer(det), center);
304 y[jcl] = fPadPlane->GetColPos(col) + (.5 + center)*cw /*+ corr*/;
306 sy[jcl]= TMath::Sqrt(c->GetSigmaY2());
310 syf[kcl]= useSolid ? 0.5/time:sy[jcl];
315 Fit(kcl, xf, yf, syf, par);
317 for(Int_t icl(0); icl<jcl; icl++){
318 Double_t dx(x[icl] - par[2]);
319 dy[icl] = y[icl] - (par[0] + par[1]*dx);
324 //___________________________________________________________________
325 Bool_t AliTRDtrackletOflHelper::Fit(Int_t n, Double_t *x, Double_t *y, Double_t *sy, Double_t *par, Double_t sCut, Double_t *cov)
327 // Iterative robust tracklet fit
328 if(n<3) return kFALSE;
329 //select reference radial position
330 if(par[2]<0.){ //compute reference radial position as <x>
331 par[2] = 0.; for(Int_t ic(n); ic--;) par[2] += x[ic]; par[2] /= n;
333 AliTRDtrackerV1::AliTRDLeastSquare &f=Fitter();
334 for(Int_t iter(0); iter<3; iter++){
337 for(Int_t ip(0); ip<n; ip++){
338 Double_t dx(x[ip]-par[2]);
339 Double_t dy(y[ip] - (par[0] + par[1]*dx));
340 if(iter && TMath::Abs(dy)>sCut*sy[ip]) continue;
341 f.AddPoint(&dx, y[ip], sy[ip]);
345 if(!f.Eval()) continue;
346 par[0]=f.GetFunctionParameter(0);
347 par[1]=f.GetFunctionParameter(1);
348 if(cov) f.GetCovarianceMatrix(cov);
349 AliDebugGeneral("AliTRDtrackletOflHelper::Fit()", 2, Form("Iter[%d] Ncl[%2d/%2d] par[%f %f %f]", iter, jp, n, par[0], par[1], par[2]));
354 //___________________________________________________________________
355 Bool_t AliTRDtrackletOflHelper::Fit(Double_t *par, Double_t sCut) const
357 // Wrapper for clusters attach to this for static Fit function
359 Int_t n(fClusters->GetEntriesFast()), jc(0), dr(0);
360 Double_t corr = TMath::Tan(TMath::DegToRad()*fPadPlane->GetTiltingAngle())*
361 fPadPlane->GetLengthIPad();
362 Double_t x[kNcls], y[kNcls], sy[kNcls];
363 AliTRDcluster *c(NULL);
364 for(Int_t ic(0); ic<n; ic++){
365 c = (AliTRDcluster*)fClusters->At(ic);
366 if(!c->IsInChamber()) continue;
367 dr = c->GetPadRow() - fRow;
369 y[jc] = c->GetY()+corr*dr;
370 sy[jc]= c->GetSigmaY2()>0?(TMath::Min(TMath::Sqrt(c->GetSigmaY2()), 0.08)):0.08;
373 return Fit(jc, x, y, sy, par, sCut);
376 //___________________________________________________________________
377 void AliTRDtrackletOflHelper::GetColSignals(Int_t col, Int_t adc[32], Bool_t mainRow) const
379 memset(adc, 0, 32*sizeof(Int_t));
380 if(col<fCol[0] || col>fCol[1]) return;
382 AliTRDcluster *cc(NULL);
383 for(Int_t ic(fClusters->GetEntriesFast()); ic--;){
384 cc = (AliTRDcluster*)fClusters->At(ic);
385 if((mainRow && cc->GetPadRow()!=fRow) ||
386 (!mainRow && cc->GetPadRow()==fRow)) continue;
387 Short_t *sig = cc->GetSignals();
388 Int_t padcol(cc->GetPadCol());
389 Int_t time(cc->GetPadTime());
390 for(Int_t icol(0), jcol(padcol-3); icol<7; icol++, jcol++){
391 if(jcol!=col) continue;
392 adc[time]+=sig[icol];
397 //___________________________________________________________________
398 Int_t AliTRDtrackletOflHelper::GetRMS(Double_t &r, Double_t &m, Double_t &s, Double_t xm) const
400 // Calculate Rotation[r], Mean y[m] (at radial position [xm]) and Sigma[s] (of a gaussian distribution in the tracklet [SR])
401 // for clusters attach to this helper. The Rotation and Mean are calculated without tilt correction option.
402 // It returns the number of clusters in 1 sigma cut.
404 Int_t n(fClusters->GetEntriesFast());
406 Double_t par[3] = {0., 0., -1.};
407 if(xm>0.) par[2] = xm; // select reference radial position from outside
413 Double_t corr = TMath::Tan(TMath::DegToRad()*fPadPlane->GetTiltingAngle())*
414 fPadPlane->GetLengthIPad();
416 AliTRDcluster *c(NULL);
417 for(Int_t ic(n); ic--;){
418 c = (AliTRDcluster*)fClusters->At(ic);
419 Double_t x(c->GetX() - xm);
420 Int_t dr(c->GetPadRow() - fRow);
421 y[ic] = c->GetY()+corr*dr - (par[0] + par[1]*x);
424 AliMathBase::EvaluateUni(n, y, m1, s, 0);
426 for(Int_t ic(n); ic--;){
427 c = (AliTRDcluster*)fClusters->At(ic);
428 Double_t sy = c->GetSigmaY2()>0?(TMath::Min(TMath::Sqrt(c->GetSigmaY2()), 0.08)):0.08;
429 if(TMath::Abs(y[ic]-m1) <= sy) n0++;
434 //___________________________________________________________________
435 Double_t AliTRDtrackletOflHelper::GetQ() const
437 // Calculate total charge NOT normalized to inclination
440 Int_t n(fClusters->GetEntriesFast());
441 AliTRDcluster *c(NULL);
442 for(Int_t ic(n); ic--;){
443 c = (AliTRDcluster*)fClusters->At(ic);
444 q += TMath::Abs(c->GetQ());
449 //___________________________________________________________________
450 Double_t AliTRDtrackletOflHelper::GetSyMean() const
452 // Calculate mean uncertainty of clusters
455 Int_t n(fClusters->GetEntriesFast());
456 AliTRDcluster *c(NULL);
457 for(Int_t ic(n); ic--;){
458 c = (AliTRDcluster*)fClusters->At(ic);
459 sym += c->GetSigmaY2()>0?(TMath::Min(TMath::Sqrt(c->GetSigmaY2()), 0.08)):0.08;
464 //___________________________________________________________________
465 Int_t AliTRDtrackletOflHelper::Segmentation(Int_t n, Double_t *x, Double_t *y, Int_t *Index)
467 // Segmentation of clusters in the tracklet roads
469 // The user supply the coordinates of the clusters (x,y) and their number "n". Also
470 // The array "Index" has to be allocated by the user with a size equal or larger than "n".
471 // On return the function returns the number of segments found and the array "Index" i-th element
472 // is filled with the index of the tracklet segment to which the i-th cluster was assigned too.
475 // The parameter which controls the segmentation is set inside the function "kGapSize" and it is used
476 // for both "x" and "y" segmentations. An improvement can be a parametrization as function of angle of
480 // Alex Bercuci <a.bercuci@gsi.de>
482 if(!n || !x || !y || !Index){
483 AliErrorGeneral("AliTRDtrackletOflHelper::Segmentation()", "One of the input arrays non initialized.");
486 const Int_t kBuffer = 200;
488 AliWarningGeneral("AliTRDtrackletOflHelper::Segmentation()", Form("Input array size %d exceed buffer %d. Truncate.", n, kBuffer));
491 const Double_t kGapSize(0.2); // cm
494 Double_t xx[kBuffer], dy;
495 Int_t idx[kBuffer+1], jdx[kBuffer], kdx[kBuffer];
496 TMath::Sort(n, y, idx);
497 for(Int_t iy(0); iy<n; iy++){
498 dy = iy>0?(TMath::Abs(y[idx[iy-1]]-y[idx[iy]])):0.;
500 TMath::Sort(nc, xx, jdx);
501 for(Int_t ic(0), jc0, jc1; ic<nc; ic++){
502 jc0 = ic>0?kdx[jdx[ic-1]]:0;
504 dy = TMath::Abs(y[jc0] - y[jc1]);
505 if(ic && dy>kGapSize) ng++;
507 AliDebugGeneral("AliTRDtrackletOflHelper::Segmentation()", 4, Form(" y[%2d]=%+f x[%+f] %2d -> %2d -> %2d ng[%2d]", jc1, y[jc1], x[jc1], ic, jdx[ic], jc1, ng));
514 AliDebugGeneral("AliTRDtrackletOflHelper::Segmentation()", 4, Form("y[%2d]=%+f -> %2d", idx[iy], y[idx[iy]], nc));
518 TMath::Sort(nc, xx, jdx);
519 for(Int_t ic(0), jc0, jc1; ic<nc; ic++){
520 jc0 = ic>0?kdx[jdx[ic-1]]:0;
522 dy = TMath::Abs(y[jc0] - y[jc1]);
523 if(ic && dy>kGapSize) ng++;
525 AliDebugGeneral("AliTRDtrackletOflHelper::Segmentation()", 4, Form(" y[%2d]=%+f x[%+f|%+f] %2d -> %2d -> %2d ng[%2d]\n", jc1, y[jc1], xx[jdx[ic]], x[jc1], ic, jdx[ic], jc1, ng));
532 //___________________________________________________________________
533 void AliTRDtrackletOflHelper::SetTbRange(Float_t t0, Float_t vd)
535 // Set first time bin and total number of time bins corresponding to clusters
536 // in chamber based on the calibrated info "t0" and drift velocity "vd"
539 fTBrange[0] = Int_t(t0*0.1);
540 fTBrange[1] = Int_t(vd*0.1);
545 #include "TGraphErrors.h"
549 //___________________________________________________________________
550 void AliTRDtrackletOflHelper::View(TVirtualPad *vpad)
552 // Visualization support. Draw this tracklet segment
555 Int_t row(-1), det(-1);
556 Int_t n(fClusters->GetEntriesFast());
557 AliInfo(Form("Processing Clusters[%2d] Class[%d].", n ,ClassifyTopology()));
559 // prepare drawing objects
560 Int_t ncols(fPadPlane->GetNcols());
561 Double_t cw(fPadPlane->GetColSize(1));
562 TH2 *h2 = new TH2I("h2pm", ";y_{Local} [cm]; pad time;Charge", ncols, fPadPlane->GetColPos(1)-cw, fPadPlane->GetColPos(ncols-1)+cw, 31, -30.5, 0.5);
563 h2->SetMarkerColor(kWhite);h2->SetMarkerSize(2.);
566 TGraph *gcls = new TGraph(n);
567 gcls->SetMarkerColor(kBlack);gcls->SetMarkerStyle(20);
568 TGraph *gclsLC = new TGraph(n);
569 gclsLC->SetMarkerColor(kBlack);gclsLC->SetMarkerStyle(28);
570 TGraph *gclsSC = new TGraph(n);
571 gclsSC->SetMarkerColor(kBlack);gclsSC->SetMarkerStyle(4);gclsSC->SetMarkerSize(1.5);
572 TGraph *gFP = new TGraph(n);
573 gFP->SetMarkerColor(kBlack);gFP->SetLineWidth(2);
576 Bool_t map[200]; memset(map, 0, 200*sizeof(Bool_t));
577 Int_t qa[200]; memset(qa, 0, 200*sizeof(Int_t));
578 AliTRDcluster *cc(NULL); Int_t tm = 30; Double_t ym=0.;
579 for(Int_t ic(n); ic--;){
580 cc = (AliTRDcluster*)fClusters->At(ic);
581 if(cc->GetPadRow() != fRow) continue; //TODO extend for 2 pad rows
582 Short_t *sig = cc->GetSignals();
583 Int_t col(cc->GetPadCol());
584 det = cc->GetDetector();
585 row = cc->GetPadRow();
586 Int_t time(cc->GetPadTime());
587 map[time] = kTRUE; qa[time] = (Int_t)cc->GetQ();
588 for(Int_t ipad(0), jpad(col-2); ipad<7; ipad++, jpad++){
589 Int_t q = (Int_t)h2->GetBinContent(jpad, 31-time);
590 h2->SetBinContent(jpad, 31-time, q+sig[ipad]);
592 Double_t y0 = fPadPlane->GetColPos(col) + (.5 + cc->GetCenter())*cw;
593 //h2->GetXaxis()->GetBinCenter(pad)+cc->GetCenter();
594 gcls->SetPoint(ic, y0, -time);
595 if(time <= tm) {ym = cc->GetY() - y0; tm = time;}
598 // draw special clusters (solid and Lorentz corrected and fit)
599 FindSolidCls(map, qa);
600 Double_t ddy[200]; FitPSR(ddy, kTRUE);
602 for(Int_t ic(0), jc(0); ic<n; ic++){
603 cc = (AliTRDcluster*)fClusters->At(ic);
604 if(cc->GetPadRow() != fRow) continue; //TODO extend for 2 pad rows
605 gcls->GetPoint(ic, dy, dt);
606 gclsLC->SetPoint(ic, cc->GetY()-ym, dt);
607 gFP->SetPoint(ic, dy-ddy[ic], dt);
608 if(map[cc->GetPadTime()]) gclsSC->SetPoint(jc++, dy, dt);
612 // prepare frame histo
613 h2->SetName(Form("h2s%03d%02d", det, row));
614 Int_t binSrt(fCol[0]+1), binSop(fCol[1]+1);
619 vpad = new TCanvas(Form("c%03d%02d", det, row), Form("D %03d [%02d_%d_%d] R[%02d]", det, AliTRDgeometry::GetSector(det), AliTRDgeometry::GetStack(det), AliTRDgeometry::GetLayer(det), row), 700, 500);
621 TVirtualPad *pp(NULL);
622 vpad->Divide(2,1,2.e-5,2.e-5);
623 pp = vpad->cd(1); pp->SetRightMargin(0.0001);pp->SetTopMargin(0.1);pp->SetBorderMode(0); pp->SetFillColor(kWhite);
624 h1 = h2->ProjectionY(); h1->GetYaxis()->SetTitle("Total Charge");
625 h1->SetTitle(Form("D%03d[%02d_%d_%d] R[%02d]",
626 det,AliTRDgeometry::GetSector(det), AliTRDgeometry::GetStack(det), AliTRDgeometry::GetLayer(det), row));
627 TAxis *ax(h1->GetXaxis()); for(Int_t ib(0), jb(1); ib<ax->GetNbins(); ib++, jb++) ax->SetBinLabel(jb, Form("%d", -Int_t(ax->GetBinCenter(jb))));
631 pp->SetRightMargin(0.15);pp->SetLeftMargin(0.0001);pp->SetTopMargin(0.1);
632 pp->SetBorderMode(0); pp->SetFillColor(kWhite);
634 ax->SetRange(TMath::Max(1, binSrt-1), TMath::Min(ncols, binSop+1));
635 h2->Draw("coltextz");
637 TGaxis *axis = new TGaxis(gPad->GetUxmin(),
641 TMath::Max(0, binSrt-2)-0.5, TMath::Min(ncols-1, binSop)+0.5, 510,"-L");
643 axis->SetNdivisions(103+binSop-binSrt);
644 axis->SetTitle("pad col");
647 TLegend *leg = new TLegend(0.01, 0.1, 0.84, 0.21);
648 leg->SetBorderSize(1); leg->SetFillColor(kYellow-9);leg->SetTextSize(0.04);
649 gcls->Draw("p"); leg->AddEntry(gcls, "Cls. in Pad [SR]", "p");
650 gclsLC->Draw("p"); leg->AddEntry(gclsLC, "Lorentz Corr. Cls.", "p");
651 gclsSC->Draw("p"); leg->AddEntry(gclsSC, "Solid Cls.", "p");
652 gFP->Draw("l"); leg->AddEntry(gFP, "Fit in Pad [SR]", "l");
656 //___________________________________________________________________
657 AliTRDtrackerV1::AliTRDLeastSquare& AliTRDtrackletOflHelper::Fitter()
659 static AliTRDtrackerV1::AliTRDLeastSquare f;