1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
18 //-----------------------------------------------------------------------------
19 /// \class AliMUONClusterFinderPeakFit
21 /// Clusterizer class based on simple peak finder
23 /// Pre-clustering is handled by AliMUONPreClusterFinder
24 /// From a precluster a pixel array is built, and its local maxima are used
25 /// to get pads and make the fit with up to 3 hit candidates or compute pad
26 /// centers of gravity for larger number of peaks.
28 /// \author Laurent Aphecetche (for the "new" C++ structure) and
29 /// Alexander Zinchenko, JINR Dubna, for the hardcore of it ;-)
30 //-----------------------------------------------------------------------------
32 #include "AliMUONClusterFinderPeakFit.h"
33 #include "AliMUONCluster.h"
34 #include "AliMUONConstants.h"
35 #include "AliMUONPad.h"
36 #include "AliMUONMathieson.h"
38 #include "AliMpDEManager.h"
40 #include "AliMpVSegmentation.h"
41 #include "AliMpEncodePair.h"
44 #include "AliRunLoader.h"
45 //#include "AliCodeTimer.h"
47 #include <Riostream.h>
49 #include <TVirtualFitter.h>
51 //#include <TCanvas.h>
54 ClassImp(AliMUONClusterFinderPeakFit)
57 const Double_t AliMUONClusterFinderPeakFit::fgkZeroSuppression = 6; // average zero suppression value
58 //const Double_t AliMUONClusterFinderMLEM::fgkDistancePrecision = 1e-6; // (cm) used to check overlaps and so on
59 const Double_t AliMUONClusterFinderPeakFit::fgkDistancePrecision = 1e-3; // (cm) used to check overlaps and so on
60 const TVector2 AliMUONClusterFinderPeakFit::fgkIncreaseSize(-AliMUONClusterFinderPeakFit::fgkDistancePrecision,-AliMUONClusterFinderPeakFit::fgkDistancePrecision);
61 const TVector2 AliMUONClusterFinderPeakFit::fgkDecreaseSize(AliMUONClusterFinderPeakFit::fgkDistancePrecision,AliMUONClusterFinderPeakFit::fgkDistancePrecision);
63 // Status flags for pads
64 const Int_t AliMUONClusterFinderPeakFit::fgkZero = 0x0; ///< pad "basic" state
65 const Int_t AliMUONClusterFinderPeakFit::fgkMustKeep = 0x1; ///< do not kill (for pixels)
66 const Int_t AliMUONClusterFinderPeakFit::fgkUseForFit = 0x10; ///< should be used for fit
67 const Int_t AliMUONClusterFinderPeakFit::fgkOver = 0x100; ///< processing is over
68 const Int_t AliMUONClusterFinderPeakFit::fgkModified = 0x1000; ///< modified pad charge
69 const Int_t AliMUONClusterFinderPeakFit::fgkCoupled = 0x10000; ///< coupled pad
73 //_____________________________________________________________________________
74 Double_t Param2Coef(Int_t icand, Double_t coef, Double_t *par, Int_t nHits)
76 /// Extract hit contribution scale factor from fit parameters
78 //Int_t nHits = TMath::Nint(par[8]);
79 if (nHits == 1) return 1.;
80 if (nHits == 2) return icand==0 ? par[2] : TMath::Max(1.-par[2],0.);
81 if (icand == 0) return par[2];
82 if (icand == 1) return TMath::Max((1.-par[2])*par[5], 0.);
83 return TMath::Max(1.-par[2]-coef,0.);
86 //___________________________________________________________________________
88 FitFunction(Int_t& /*notused*/, Double_t* /*notused*/,
89 Double_t& f, Double_t* par,
92 /// Chi2 Function to minimize: Mathieson charge distribution in 2 dimensions
94 TObjArray* userObjects = static_cast<TObjArray*>(TVirtualFitter::GetFitter()->GetObjectFit());
96 AliMUONCluster* cluster = static_cast<AliMUONCluster*>(userObjects->At(0));
97 AliMUONMathieson* mathieson = static_cast<AliMUONMathieson*>(userObjects->At(1));
98 AliMUONClusterFinderPeakFit* finder =
99 static_cast<AliMUONClusterFinderPeakFit*>(userObjects->At(2));
102 Int_t nHits = finder->GetNMax(), npads = cluster->Multiplicity();
103 Double_t qTot = cluster->Charge(), coef = 0;
104 //if (cluster->Multiplicity(0) == 0 || cluster->Multiplicity(1) == 0) qTot *= 2.;
106 for ( Int_t i = 0 ; i < npads; ++i )
108 AliMUONPad* pad = cluster->Pad(i);
109 // skip pads w/ saturation or other problem(s)
110 //if ( pad->Status() ) continue;
111 if ( pad->IsSaturated() ) continue;
112 Double_t charge = 0.;
113 for (Int_t j = 0; j < nHits; ++j) {
116 TVector2 lowerLeft = TVector2(par[indx],par[indx+1]) - pad->Position() - pad->Dimensions();
117 TVector2 upperRight(lowerLeft + pad->Dimensions()*2.0);
118 Double_t estimatedCharge = mathieson->IntXY(lowerLeft.X(),lowerLeft.Y(),
119 upperRight.X(),upperRight.Y());
120 coef = Param2Coef(j, coef, par, nHits);
121 charge += estimatedCharge * coef;
125 Double_t delta = charge - pad->Charge();
127 delta /= pad->Charge();
131 //cout << qTot << " " << par[0] << " " << par[1] << " " << f << endl;
135 //_____________________________________________________________________________
136 AliMUONClusterFinderPeakFit::AliMUONClusterFinderPeakFit(Bool_t plot, AliMUONVClusterFinder* clusterFinder)
137 : AliMUONVClusterFinder(),
138 fPreClusterFinder(clusterFinder),
147 fPixArray(new TObjArray(20)),
155 fkSegmentation[1] = fkSegmentation[0] = 0x0;
157 if (fPlot) fDebug = 1;
160 //_____________________________________________________________________________
161 AliMUONClusterFinderPeakFit::~AliMUONClusterFinderPeakFit()
164 delete fPixArray; fPixArray = 0;
165 delete fPreClusterFinder;
166 AliInfo(Form("Total clusters %d AddVirtualPad needed %d",
167 fNClusters,fNAddVirtualPads));
171 //_____________________________________________________________________________
173 AliMUONClusterFinderPeakFit::Prepare(Int_t detElemId, TObjArray* pads[2],
174 const AliMpArea& area,
175 const AliMpVSegmentation* seg[2])
177 /// Prepare for clustering
178 // AliCodeTimerAuto("",0)
180 for ( Int_t i = 0; i < 2; ++i )
182 fkSegmentation[i] = seg[i];
185 // Find out the DetElemId
186 fDetElemId = detElemId;
188 // find out current event number, and reset the cluster number
189 AliRunLoader *runLoader = AliRunLoader::Instance();
190 fEventNumber = runLoader ? runLoader->GetEventNumber() : 0;
192 fClusterList.Delete();
194 AliDebug(3,Form("EVT %d DE %d",fEventNumber,fDetElemId));
196 AliMq::Station12Type stationType = AliMpDEManager::GetStation12Type(fDetElemId);
198 Float_t kx3 = AliMUONConstants::SqrtKx3();
199 Float_t ky3 = AliMUONConstants::SqrtKy3();
200 Float_t pitch = AliMUONConstants::Pitch();
202 if ( stationType == AliMq::kStation1 )
204 kx3 = AliMUONConstants::SqrtKx3St1();
205 ky3 = AliMUONConstants::SqrtKy3St1();
206 pitch = AliMUONConstants::PitchSt1();
210 fMathieson = new AliMUONMathieson;
212 fMathieson->SetPitch(pitch);
213 fMathieson->SetSqrtKx3AndDeriveKx2Kx4(kx3);
214 fMathieson->SetSqrtKy3AndDeriveKy2Ky4(ky3);
216 if ( fPreClusterFinder->NeedSegmentation() )
218 return fPreClusterFinder->Prepare(detElemId,pads,area,seg);
222 return fPreClusterFinder->Prepare(detElemId,pads,area);
226 //_____________________________________________________________________________
228 AliMUONClusterFinderPeakFit::NextCluster()
230 /// Return next cluster
231 // AliCodeTimerAuto("",0)
233 // if the list of clusters is not void, pick one from there
234 TObject* o = fClusterList.At(++fClusterNumber);
235 if ( o != 0x0 ) return static_cast<AliMUONCluster*>(o);
237 //FIXME : at this point, must check whether we've used all the digits
238 //from precluster : if not, let the preclustering know about those unused
239 //digits, so it can reuse them
241 // if the cluster list is exhausted, we need to go to the next
242 // pre-cluster and treat it
244 fClusterList.Delete(); // reset the list of clusters for this pre-cluster
247 fPreCluster = fPreClusterFinder->NextCluster();
257 // WorkOnPreCluster may have used only part of the pads, so we check that
258 // now, and let the unused pads be reused by the preclustering...
260 Int_t mult = fPreCluster->Multiplicity();
261 for ( Int_t i = 0; i < mult; ++i )
263 AliMUONPad* pad = fPreCluster->Pad(i);
264 if ( !pad->IsUsed() )
266 fPreClusterFinder->UsePad(*pad);
270 return NextCluster();
273 //_____________________________________________________________________________
275 AliMUONClusterFinderPeakFit::WorkOnPreCluster()
277 /// Starting from a precluster, builds a pixel array, and then
278 /// extract clusters from this array
280 // AliCodeTimerAuto("",0)
283 cout << " *** Event # " << fEventNumber
284 << " det. elem.: " << fDetElemId << endl;
285 for (Int_t j = 0; j < fPreCluster->Multiplicity(); ++j) {
286 AliMUONPad* pad = fPreCluster->Pad(j);
287 printf(" bbb %3d %1d %8.4f %8.4f %8.4f %8.4f %6.1f %3d %3d %2d %1d %1d \n",
288 j, pad->Cathode(), pad->Coord(0), pad->Coord(1), pad->DX()*2, pad->DY()*2,
289 pad->Charge(), pad->Ix(), pad->Iy(), pad->Status(), pad->IsReal(), pad->IsSaturated());
293 AliMUONCluster* cluster = CheckPrecluster(*fPreCluster);
294 if (!cluster) return kFALSE;
296 BuildPixArray(*cluster);
298 if ( fPixArray->GetLast() < 0 )
300 AliDebug(1,"No pixel for the above cluster");
305 Int_t nMax = 1, localMax[100], maxPos[100] = {0};
306 Double_t maxVal[100];
308 nMax = FindLocalMaxima(fPixArray, localMax, maxVal); // find local maxima
310 if (nMax > 1) TMath::Sort(nMax, maxVal, maxPos, kTRUE); // in descending order
313 FindClusterFit(*cluster, localMax, maxPos, nMax);
315 for (Int_t i = 0; i < nMax; ++i)
317 FindClusterCOG(*cluster, localMax, maxPos[i]);
329 //_____________________________________________________________________________
331 AliMUONClusterFinderPeakFit::Overlap(const AliMUONPad& pad, const AliMUONPad& pixel)
333 /// Check if the pad and the pixel overlaps
335 // make a fake pad from the pixel
336 AliMUONPad tmp(pad.DetElemId(),pad.Cathode(),pad.Ix(),pad.Iy(),
337 pixel.Coord(0),pixel.Coord(1),
338 pixel.Size(0),pixel.Size(1),0);
340 return AliMUONPad::AreOverlapping(pad,tmp,fgkDecreaseSize);
343 //_____________________________________________________________________________
345 AliMUONClusterFinderPeakFit::CheckPrecluster(const AliMUONCluster& origCluster)
347 /// Check precluster in order to attempt to simplify it (mostly for
348 /// two-cathode preclusters)
350 // AliCodeTimerAuto("",0)
352 // Disregard small clusters (leftovers from splitting or noise)
353 if ((origCluster.Multiplicity()==1 || origCluster.Multiplicity()==2) &&
354 origCluster.Charge(0)+origCluster.Charge(1) < 1.525) // JC: adc -> fc
359 AliMUONCluster* cluster = new AliMUONCluster(origCluster);
361 AliDebug(2,"Start of CheckPreCluster=");
362 //StdoutToAliDebug(2,cluster->Print("full"));
364 AliMUONCluster* rv(0x0);
366 if (cluster->Multiplicity(0) && cluster->Multiplicity(1))
368 rv = CheckPreclusterTwoCathodes(cluster);
377 //_____________________________________________________________________________
379 AliMUONClusterFinderPeakFit::CheckPreclusterTwoCathodes(AliMUONCluster* cluster)
381 /// Check two-cathode cluster
383 Int_t npad = cluster->Multiplicity();
384 Int_t* flags = new Int_t[npad];
385 for (Int_t j = 0; j < npad; ++j) flags[j] = 0;
387 // Check pad overlaps
388 for ( Int_t i = 0; i < npad; ++i)
390 AliMUONPad* padi = cluster->Pad(i);
391 if ( padi->Cathode() != 0 ) continue;
392 for (Int_t j = i+1; j < npad; ++j)
394 AliMUONPad* padj = cluster->Pad(j);
395 if ( padj->Cathode() != 1 ) continue;
396 if ( !AliMUONPad::AreOverlapping(*padi,*padj,fgkDecreaseSize) ) continue;
397 flags[i] = flags[j] = 1; // mark overlapped pads
401 // Check if all pads overlap
403 for (Int_t i = 0; i < npad; ++i)
405 if (!flags[i]) ++nFlags;
410 // not all pads overlap.
411 if (fDebug) cout << " nFlags: " << nFlags << endl;
412 TObjArray toBeRemoved;
413 for (Int_t i = 0; i < npad; ++i)
415 AliMUONPad* pad = cluster->Pad(i);
416 if (flags[i]) continue;
417 Int_t cath = pad->Cathode();
418 Int_t cath1 = TMath::Even(cath);
419 // Check for edge effect (missing pads on the _other_ cathode)
421 = fkSegmentation[cath1]->PadByPosition(pad->Position().X(),pad->Position().Y(),kFALSE);
422 if (!mpPad.IsValid()) continue;
423 //if (nFlags == 1 && pad->Charge() < fgkZeroSuppression * 3) continue;
424 if (nFlags == 1 && pad->Charge() < 3.05) continue; // JC: adc -> fc
425 AliDebug(2,Form("Releasing the following pad : de,cath,ix,iy %d,%d,%d,%d charge %e",
426 fDetElemId,pad->Cathode(),pad->Ix(),pad->Iy(),pad->Charge()));
427 toBeRemoved.AddLast(pad);
428 fPreCluster->Pad(i)->Release();
430 Int_t nRemove = toBeRemoved.GetEntriesFast();
431 for ( Int_t i = 0; i < nRemove; ++i )
433 cluster->RemovePad(static_cast<AliMUONPad*>(toBeRemoved.UncheckedAt(i)));
437 // Check correlations of cathode charges
438 if ( !cluster->IsSaturated() && cluster->ChargeAsymmetry() > 1 )
441 Int_t cathode = cluster->MaxRawChargeCathode();
447 // get min and max pad charges on the cathode opposite to the
448 // max pad (given by MaxRawChargeCathode())
450 Int_t mult = cluster->Multiplicity();
451 for ( Int_t i = 0; i < mult; ++i )
453 AliMUONPad* pad = cluster->Pad(i);
454 if ( pad->Cathode() != cathode || !pad->IsReal() )
456 // only consider pads in the opposite cathode, and
457 // only consider real pads (i.e. exclude the virtual ones)
460 if ( pad->Charge() < cmin )
462 cmin = pad->Charge();
469 else if ( pad->Charge() > cmax )
471 cmax = pad->Charge();
475 AliDebug(2,Form("Pad imin,imax %d,%d cmin,cmax %e,%e",
476 imin,imax,cmin,cmax));
478 // arrange pads according to their distance to the max, normalized
480 Double_t* dist = new Double_t[mult];
485 AliMUONPad* padmax = cluster->Pad(imax);
487 for ( Int_t i = 0; i < mult; ++i )
490 if ( i == imax) continue;
491 AliMUONPad* pad = cluster->Pad(i);
492 if ( pad->Cathode() != cathode || !pad->IsReal() ) continue;
493 Double_t dx = (pad->X()-padmax->X())/padmax->DX()/2.0;
494 Double_t dy = (pad->Y()-padmax->Y())/padmax->DY()/2.0;
495 dist[i] = TMath::Sqrt(dx*dx+dy*dy);
498 dmin = dist[i] + 1E-3; // distance to the pad with minimum charge
504 TMath::Sort(mult,dist,flags,kFALSE); // in ascending order
505 Double_t xmax(-1), distPrev(999);
506 TObjArray toBeRemoved;
508 for ( Int_t i = 0; i < mult; ++i )
510 Int_t indx = flags[i];
511 AliMUONPad* pad = cluster->Pad(indx);
512 if ( pad->Cathode() != cathode || !pad->IsReal() ) continue;
513 if ( dist[indx] > dmin )
515 // farther than the minimum pad
516 Double_t dx = (pad->X()-padmax->X())/padmax->DX()/2.0;
517 Double_t dy = (pad->Y()-padmax->Y())/padmax->DY()/2.0;
520 if (dx >= 0 && dy >= 0) continue;
521 if (TMath::Abs(dx) > TMath::Abs(dy) && dx >= 0) continue;
522 if (TMath::Abs(dy) > TMath::Abs(dx) && dy >= 0) continue;
524 if (dist[indx] > distPrev + 1) break; // overstepping empty pads
525 if ( pad->Charge() <= cmax || TMath::Abs(dist[indx]-xmax) < 1E-3 )
528 if (TMath::Abs(dist[indx]-xmax) < 1.e-3)
530 cmax = TMath::Max(pad->Charge(),cmax);
534 cmax = pad->Charge();
537 distPrev = dist[indx];
538 AliDebug(2,Form("Releasing the following pad : de,cath,ix,iy %d,%d,%d,%d charge %e",
539 fDetElemId,pad->Cathode(),pad->Ix(),pad->Iy(),
542 toBeRemoved.AddLast(pad);
543 fPreCluster->Pad(indx)->Release();
546 Int_t nRemove = toBeRemoved.GetEntriesFast();
547 for ( Int_t i = 0; i < nRemove; ++i )
549 cluster->RemovePad(static_cast<AliMUONPad*>(toBeRemoved.UncheckedAt(i)));
552 } // if ( !cluster->IsSaturated() &&
556 AliDebug(2,"End of CheckPreClusterTwoCathodes=");
557 //StdoutToAliDebug(2,cluster->Print("full"));
562 //_____________________________________________________________________________
564 AliMUONClusterFinderPeakFit::CheckOverlaps()
566 /// For debug only : check if some pixels overlap...
568 Int_t nPix = fPixArray->GetLast()+1;
571 for ( Int_t i = 0; i < nPix; ++i )
573 AliMUONPad* pixelI = Pixel(i);
574 AliMUONPad pi(dummy,dummy,dummy,dummy,
575 pixelI->Coord(0),pixelI->Coord(1),
576 pixelI->Size(0),pixelI->Size(1),0.0);
578 for ( Int_t j = i+1; j < nPix; ++j )
580 AliMUONPad* pixelJ = Pixel(j);
581 AliMUONPad pj(dummy,dummy,dummy,dummy,
582 pixelJ->Coord(0),pixelJ->Coord(1),
583 pixelJ->Size(0),pixelJ->Size(1),0.0);
586 if ( AliMUONPad::AreOverlapping(pi,pj,fgkDecreaseSize,area) )
588 AliInfo(Form("The following 2 pixels (%d and %d) overlap !",i,j));
590 StdoutToAliInfo(pixelI->Print();
591 cout << " Surface = " << pixelI->Size(0)*pixelI->Size(1)*4 << endl;
593 cout << " Surface = " << pixelJ->Size(0)*pixelJ->Size(1)*4 << endl;
594 cout << " Area surface = " << area.Dimensions().X()*area.Dimensions().Y()*4 << endl;
595 cout << "-------" << endl;
603 //_____________________________________________________________________________
604 void AliMUONClusterFinderPeakFit::BuildPixArray(AliMUONCluster& cluster)
606 /// Build pixel array
608 Int_t npad = cluster.Multiplicity();
611 AliWarning("Got no pad at all ?!");
615 BuildPixArrayOneCathode(cluster);
617 // StdoutToAliDebug(2,cout << "End of BuildPixelArray:" << endl;
618 // fPixArray->Print(););
619 //CheckOverlaps();//FIXME : this is for debug only. Remove it.
622 //_____________________________________________________________________________
623 void AliMUONClusterFinderPeakFit::BuildPixArrayOneCathode(AliMUONCluster& cluster)
625 /// Build the pixel array
627 // AliDebug(2,Form("cluster.Multiplicity=%d",cluster.Multiplicity()));
629 TVector2 dim = cluster.MinPadDimensions (-1, kFALSE);
630 Double_t width[2] = {dim.X(), dim.Y()}, xy0[2] = { 0.0, 0.0 };
631 Int_t found[2] = {0}, mult = cluster.Multiplicity();
633 for ( Int_t i = 0; i < mult; ++i) {
634 AliMUONPad* pad = cluster.Pad(i);
635 for (Int_t j = 0; j < 2; ++j) {
636 if (found[j] == 0 && TMath::Abs(pad->Size(j)-width[j]) < fgkDistancePrecision) {
637 xy0[j] = pad->Coord(j);
641 if (found[0] && found[1]) break;
644 Double_t min[2], max[2];
645 Int_t cath0 = 0, cath1 = 1;
646 if (cluster.Multiplicity(0) == 0) cath0 = 1;
647 else if (cluster.Multiplicity(1) == 0) cath1 = 0;
649 Double_t leftDownX, leftDownY;
650 cluster.Area(cath0).LeftDownCorner(leftDownX, leftDownY);
651 Double_t rightUpX, rightUpY;
652 cluster.Area(cath0).RightUpCorner(rightUpX, rightUpY);
657 if (cath1 != cath0) {
658 cluster.Area(cath1).LeftDownCorner(leftDownX, leftDownY);
659 cluster.Area(cath1).RightUpCorner(rightUpX, rightUpY);
660 min[0] = TMath::Max (min[0], leftDownX);
661 min[1] = TMath::Max (min[1], leftDownY);
662 max[0] = TMath::Min (max[0], rightUpX);
663 max[1] = TMath::Min (max[1], rightUpY);
667 if (cath0 != cath1) {
668 TVector2 dim0 = cluster.MinPadDimensions (0, -1, kFALSE);
669 TVector2 dim1 = cluster.MinPadDimensions (1, -1, kFALSE);
670 if (TMath::Abs(dim0.Y()-dim1.Y()) < fgkDistancePrecision) {
671 // The same size of pads on both cathodes - check position
672 AliMUONPad* pad0 = cluster.Pad(0);
673 for ( Int_t i = 1; i < mult; ++i) {
674 AliMUONPad* pad = cluster.Pad(i);
675 if (pad->Cathode() == pad0->Cathode()) continue;
676 Double_t dist = TMath::Abs (pad0->Coord(1) - pad->Coord(1));
677 Double_t dd = dist - Int_t(dist/width[1]/2.) * width[1] * 2.;
678 if (TMath::Abs(dd/width[1]/2.-0.5) < fgkDistancePrecision) {
679 // Half pad shift between cathodes
689 for (Int_t i = 0; i < 2; ++i) {
690 Double_t dist = (min[i] - xy0[i]) / width[i] / 2;
691 if (TMath::Abs(dist) < 1.e-6) dist = -1.e-6;
692 min[i] = xy0[i] + (TMath::Nint(dist-TMath::Sign(1.e-6,dist))
693 + TMath::Sign(0.5,dist)) * width[i] * 2;
694 nbins[i] = TMath::Nint ((max[i] - min[i]) / width[i] / 2);
695 if (nbins[i] == 0) ++nbins[i];
696 max[i] = min[i] + nbins[i] * width[i] * 2;
697 //cout << dist << " " << min[i] << " " << max[i] << " " << nbins[i] << endl;
701 TH2D *hist1 = new TH2D ("Grid", "", nbins[0], min[0], max[0], nbins[1], min[1], max[1]);
702 TH2D *hist2 = new TH2D ("Entries", "", nbins[0], min[0], max[0], nbins[1], min[1], max[1]);
703 TAxis *xaxis = hist1->GetXaxis();
704 TAxis *yaxis = hist1->GetYaxis();
707 for ( Int_t i = 0; i < mult; ++i) {
708 AliMUONPad* pad = cluster.Pad(i);
709 Int_t ix0 = xaxis->FindBin(pad->X());
710 Int_t iy0 = yaxis->FindBin(pad->Y());
711 PadOverHist(0, ix0, iy0, pad, hist1, hist2);
715 for (Int_t i = 1; i <= nbins[0]; ++i) {
716 Double_t x = xaxis->GetBinCenter(i);
717 for (Int_t j = 1; j <= nbins[1]; ++j) {
718 if (hist2->GetCellContent(i,j) < 0.01525) continue; // JC: adc -> fc
719 if (cath0 != cath1) {
721 Double_t cont = hist2->GetCellContent(i,j);
722 if (cont < 999.) continue;
723 if (cont-Int_t(cont/1000.)*1000. < 0.07625) continue; // JC: adc -> fc
725 //if (hist2->GetCellContent(i,j) < 1.1 && cluster.Multiplicity(0) &&
726 // cluster.Multiplicity(1)) continue;
727 Double_t y = yaxis->GetBinCenter(j);
728 Double_t charge = hist1->GetCellContent(i,j);
729 AliMUONPad* pixPtr = new AliMUONPad(x, y, width[0], width[1], charge);
730 fPixArray->Add(pixPtr);
734 if (fPixArray->GetEntriesFast() == 1) {
735 // Split pixel into 2
736 AliMUONPad* pixPtr = static_cast<AliMUONPad*> (fPixArray->UncheckedAt(0));
737 pixPtr->SetSize(0,width[0]/2.);
738 pixPtr->Shift(0,-width[0]/4.);
739 pixPtr = new AliMUONPad(pixPtr->X()+width[0], pixPtr->Y(), width[0]/2., width[1], pixPtr->Charge());
740 fPixArray->Add(pixPtr);
743 //fPixArray->Print();
748 //_____________________________________________________________________________
749 void AliMUONClusterFinderPeakFit::PadOverHist(Int_t idir, Int_t ix0, Int_t iy0, AliMUONPad *pad,
750 TH2D *hist1, TH2D *hist2)
752 /// "Span" pad over histogram in the direction idir
754 TAxis *axis = idir == 0 ? hist1->GetXaxis() : hist1->GetYaxis();
755 Int_t nbins = axis->GetNbins(), cath = pad->Cathode();
756 Double_t bin = axis->GetBinWidth(1), amask = TMath::Power(1000.,cath*1.);
758 Int_t nbinPad = (Int_t)(pad->Size(idir)/bin*2+fgkDistancePrecision) + 1; // number of bins covered by pad
760 for (Int_t i = 0; i < nbinPad; ++i) {
761 Int_t ixy = idir == 0 ? ix0 + i : iy0 + i;
762 if (ixy > nbins) break;
763 Double_t lowEdge = axis->GetBinLowEdge(ixy);
764 if (lowEdge + fgkDistancePrecision > pad->Coord(idir) + pad->Size(idir)) break;
765 if (idir == 0) PadOverHist(1, ixy, iy0, pad, hist1, hist2); // span in the other direction
768 Double_t cont = pad->Charge();
769 if (hist2->GetCellContent(ix0, ixy) > 0.01525) // JC: adc -> fc
770 cont = TMath::Min (hist1->GetCellContent(ix0, ixy), cont)
771 + TMath::Min (TMath::Max(hist1->GetCellContent(ix0, ixy),cont)*0.1, 1.525); // JC: adc -> fc
772 hist1->SetCellContent(ix0, ixy, cont);
773 hist2->SetCellContent(ix0, ixy, hist2->GetCellContent(ix0, ixy)+amask);
777 for (Int_t i = -1; i > -nbinPad; --i) {
778 Int_t ixy = idir == 0 ? ix0 + i : iy0 + i;
780 Double_t upEdge = axis->GetBinUpEdge(ixy);
781 if (upEdge - fgkDistancePrecision < pad->Coord(idir) - pad->Size(idir)) break;
782 if (idir == 0) PadOverHist(1, ixy, iy0, pad, hist1, hist2); // span in the other direction
785 Double_t cont = pad->Charge();
786 if (hist2->GetCellContent(ix0, ixy) > 0.01525) // JC: adc -> fc
787 cont = TMath::Min (hist1->GetCellContent(ix0, ixy), cont)
788 + TMath::Min (TMath::Max(hist1->GetCellContent(ix0, ixy),cont)*0.1,1.525); // JC: adc -> fc
789 hist1->SetCellContent(ix0, ixy, cont);
790 hist2->SetCellContent(ix0, ixy, hist2->GetCellContent(ix0, ixy)+amask);
795 //_____________________________________________________________________________
796 Int_t AliMUONClusterFinderPeakFit::FindLocalMaxima(TObjArray *pixArray, Int_t *localMax, Double_t *maxVal)
798 /// Find local maxima in pixel space
800 AliDebug(1,Form("nPix=%d",pixArray->GetLast()+1));
803 //delete ((TH2D*) gROOT->FindObject("anode"));
804 //if (pixArray == fPixArray) hist = (TH2D*) gROOT->FindObject("anode");
805 //else { hist = (TH2D*) gROOT->FindObject("anode1"); cout << hist << endl; }
806 //if (hist) hist->Delete();
809 Double_t xylim[4] = {999, 999, 999, 999};
811 Int_t nPix = pixArray->GetEntriesFast();
813 if ( nPix <= 0 ) return 0;
815 AliMUONPad *pixPtr = 0;
816 for (Int_t ipix = 0; ipix < nPix; ++ipix) {
817 pixPtr = (AliMUONPad*) pixArray->UncheckedAt(ipix);
818 for (Int_t i = 0; i < 4; ++i)
819 xylim[i] = TMath::Min (xylim[i], (i%2 ? -1 : 1)*pixPtr->Coord(i/2));
821 for (Int_t i = 0; i < 4; ++i) xylim[i] -= pixPtr->Size(i/2);
823 Int_t nx = TMath::Nint ((-xylim[1]-xylim[0])/pixPtr->Size(0)/2);
824 Int_t ny = TMath::Nint ((-xylim[3]-xylim[2])/pixPtr->Size(1)/2);
825 if (pixArray == fPixArray) fHistAnode = new TH2D("anode","anode",nx,xylim[0],-xylim[1],ny,xylim[2],-xylim[3]);
826 else fHistAnode = new TH2D("anode1","anode1",nx,xylim[0],-xylim[1],ny,xylim[2],-xylim[3]);
827 for (Int_t ipix = 0; ipix < nPix; ++ipix) {
828 pixPtr = (AliMUONPad*) pixArray->UncheckedAt(ipix);
829 fHistAnode->Fill(pixPtr->Coord(0), pixPtr->Coord(1), pixPtr->Charge());
831 // if (fDraw && pixArray == fPixArray) fDraw->DrawHist("c2", hist);
833 Int_t nMax = 0, indx, nxy = ny * nx;
834 Int_t *isLocalMax = new Int_t[nxy];
835 for (Int_t i = 0; i < nxy; ++i) isLocalMax[i] = 0;
837 for (Int_t i = 1; i <= ny; ++i) {
839 for (Int_t j = 1; j <= nx; ++j) {
840 if (fHistAnode->GetCellContent(j,i) < 0.07625) continue; // JC: adc -> fc
841 //if (isLocalMax[indx+j-1] < 0) continue;
842 if (isLocalMax[indx+j-1] != 0) continue;
843 FlagLocalMax(fHistAnode, i, j, isLocalMax);
847 for (Int_t i = 1; i <= ny; ++i) {
849 for (Int_t j = 1; j <= nx; ++j) {
850 if (isLocalMax[indx+j-1] > 0) {
851 localMax[nMax] = indx + j - 1;
852 maxVal[nMax++] = fHistAnode->GetCellContent(j,i);
853 if (nMax > 99) break;
857 AliError(" Too many local maxima !!!");
861 if (fDebug) cout << " Local max: " << nMax << endl;
862 delete [] isLocalMax;
866 //_____________________________________________________________________________
867 void AliMUONClusterFinderPeakFit::FlagLocalMax(TH2D *hist, Int_t i, Int_t j, Int_t *isLocalMax)
869 /// Flag pixels (whether or not local maxima)
871 Int_t nx = hist->GetNbinsX();
872 Int_t ny = hist->GetNbinsY();
873 Int_t cont = TMath::Nint (hist->GetCellContent(j,i));
874 Int_t cont1 = 0, indx = (i-1)*nx+j-1, indx1 = 0, indx2 = 0;
876 Int_t ie = i + 2, je = j + 2;
877 for (Int_t i1 = i-1; i1 < ie; ++i1) {
878 if (i1 < 1 || i1 > ny) continue;
879 indx1 = (i1 - 1) * nx;
880 for (Int_t j1 = j-1; j1 < je; ++j1) {
881 if (j1 < 1 || j1 > nx) continue;
882 if (i == i1 && j == j1) continue;
883 indx2 = indx1 + j1 - 1;
884 cont1 = TMath::Nint (hist->GetCellContent(j1,i1));
885 if (cont < cont1) { isLocalMax[indx] = -1; return; }
886 else if (cont > cont1) isLocalMax[indx2] = -1;
887 else { // the same charge
888 isLocalMax[indx] = 1;
889 if (isLocalMax[indx2] == 0) {
890 FlagLocalMax(hist, i1, j1, isLocalMax);
891 if (isLocalMax[indx2] < 0) { isLocalMax[indx] = -1; return; }
892 else isLocalMax[indx2] = -1;
897 isLocalMax[indx] = 1; // local maximum
900 //_____________________________________________________________________________
901 void AliMUONClusterFinderPeakFit::FindClusterFit(AliMUONCluster& cluster, const Int_t *localMax,
902 const Int_t *maxPos, Int_t nMax)
904 /// Fit pad charge distribution with nMax hit hypothesis
906 //if (cluster.Multiplicity(0) == 0 || cluster.Multiplicity(1) == 0) cout << cluster.Multiplicity(0) << " " << cluster.Multiplicity(1) << " " << cluster.Charge() << " " << cluster.Charge(0) << " " << cluster.Charge(1) << " " << endl;
908 //TH2D *hist = (TH2D*) gROOT->FindObject("anode");
909 Int_t nx = fHistAnode->GetNbinsX();
910 //Int_t ny = hist->GetNbinsY();
911 Double_t xmin = fHistAnode->GetXaxis()->GetXmin(); //- hist->GetXaxis()->GetBinWidth(1);
912 Double_t xmax = fHistAnode->GetXaxis()->GetXmax(); //+ hist->GetXaxis()->GetBinWidth(1);
913 Double_t ymin = fHistAnode->GetYaxis()->GetXmin(); //- hist->GetYaxis()->GetBinWidth(1);
914 Double_t ymax = fHistAnode->GetYaxis()->GetXmax(); //+ hist->GetYaxis()->GetBinWidth(1);
916 TVirtualFitter* fitter = TVirtualFitter::Fitter(0,nMax*3);
918 fitter->SetFCN(FitFunction);
920 Float_t stepX = 0.01; // cm
921 Float_t stepY = 0.01; // cm
922 Float_t stepQ = 0.01; //
924 Double_t args[10] = {-1.}; // disable printout
926 fitter->ExecuteCommand("SET PRINT",args,1);
927 fitter->ExecuteCommand("SET NOW",args,0); // no warnings
931 for (Int_t i = 0; i < nMax; ++i) {
932 Int_t ic = localMax[maxPos[i]] / nx + 1;
933 Int_t jc = localMax[maxPos[i]] % nx + 1;
934 Double_t yc = fHistAnode->GetYaxis()->GetBinCenter(ic);
935 Double_t xc = fHistAnode->GetXaxis()->GetBinCenter(jc);
937 fitter->SetParameter(indx,"Hit X position",xc,stepX,xmin,xmax);
938 fitter->SetParameter(indx+1,"Hit Y position",yc,stepY,ymin,ymax);
939 fitter->SetParameter(indx+2,"Hit contribution",0.6,stepQ,0.,1.);
941 fitter->SetParameter(indx+2,"Hit contribution",0.,0.,0,0);
942 //fitter->SetParameter(8,"Number of hits",nMax,0.,0,0);
944 TObjArray userObjects;
946 userObjects.Add(&cluster);
947 userObjects.Add(fMathieson);
948 userObjects.Add(this);
950 fitter->SetObjectFit(&userObjects);
954 /*Int_t stat =*/ fitter->ExecuteCommand("MIGRAD",args,2);
955 //if (stat) { cout << " stat = " << stat << " " << fDetElemId << endl; /*exit(0);*/ }
956 //Int_t nvpar, nparx;
957 //Double_t amin, edm, errdef;
958 //fitter->GetStats(amin, edm, errdef, nvpar, nparx);
959 //cout << amin << endl;
961 Double_t qTot = cluster.Charge(), par[9] = {0.}, err[9] = {0.}, coef = 0.;
963 for (Int_t j = 0; j < nMax; ++j) {
965 par[indx+2] = fitter->GetParameter(indx+2);
966 coef = Param2Coef(j, coef, par, nMax);
967 par[indx] = fitter->GetParameter(indx);
968 par[indx+1] = fitter->GetParameter(indx+1);
969 err[indx] = fitter->GetParError(indx);
970 err[indx+1] = fitter->GetParError(indx+1);
972 if ( coef*qTot >= 2.135 ) // JC: adc -> fc
974 AliMUONCluster* cluster1 = new AliMUONCluster(cluster);
976 cluster1->SetCharge(coef*qTot,coef*qTot);
978 cluster1->SetPosition(TVector2(par[indx],par[indx+1]),TVector2(err[indx],err[indx+1]));
979 cluster1->SetChi2(0.);
981 // FIXME: we miss some information in this cluster, as compared to
982 // the original AddRawCluster code.
984 AliDebug(2,Form("Adding RawCluster detElemId %4d mult %2d charge %5d (xl,yl)=(%9.6g,%9.6g)",
985 fDetElemId,cluster1->Multiplicity(),(Int_t)cluster1->Charge(),
986 cluster1->Position().X(),cluster1->Position().Y()));
988 fClusterList.Add(cluster1);
993 //_____________________________________________________________________________
994 void AliMUONClusterFinderPeakFit::FindClusterCOG(AliMUONCluster& cluster,
995 const Int_t *localMax, Int_t iMax)
997 /// Find COG of pad charge distribution around local maximum \a iMax
999 //TH2D *hist = (TH2D*) gROOT->FindObject("anode");
1001 TCanvas* c = new TCanvas("Anode","Anode",800,600);
1003 hist->Draw("lego1Fb"); // debug
1008 Int_t nx = fHistAnode->GetNbinsX();
1009 //Int_t ny = hist->GetNbinsY();
1010 Int_t ic = localMax[iMax] / nx + 1;
1011 Int_t jc = localMax[iMax] % nx + 1;
1013 // Get min pad dimensions for the precluster
1015 if (cluster.Multiplicity(0) == 0 || cluster.Multiplicity(1) == 0) nSides = 1;
1016 TVector2 dim0 = cluster.MinPadDimensions(0, -1, kFALSE);
1017 TVector2 dim1 = cluster.MinPadDimensions(1, -1, kFALSE);
1018 //Double_t width[2][2] = {{dim0.X(), dim0.Y()},{dim1.X(),dim1.Y()}};
1019 Int_t nonb[2] = {1, 0}; // coordinate index vs cathode
1020 if (nSides == 1 || dim0.X() < dim1.X() - fgkDistancePrecision) {
1024 Bool_t samex = kFALSE, samey = kFALSE;
1025 if (TMath::Abs(dim0.X()-dim1.X()) < fgkDistancePrecision) samex = kTRUE; // the same X pad size on both planes
1026 if (TMath::Abs(dim0.Y()-dim1.Y()) < fgkDistancePrecision) samey = kTRUE; // the same Y pad size on both planes
1028 // Drop all pixels from the array - pick up only the ones from the cluster
1029 //fPixArray->Delete();
1031 Double_t wx = fHistAnode->GetXaxis()->GetBinWidth(1)/2;
1032 Double_t wy = fHistAnode->GetYaxis()->GetBinWidth(1)/2;
1033 Double_t yc = fHistAnode->GetYaxis()->GetBinCenter(ic);
1034 Double_t xc = fHistAnode->GetXaxis()->GetBinCenter(jc);
1035 Double_t cont = fHistAnode->GetCellContent(jc,ic);
1036 AliMUONPad pixel(xc, yc, wx, wy, cont);
1037 if (fDebug) pixel.Print("full");
1039 Int_t npad = cluster.Multiplicity();
1041 // Pick up pads which overlap with the maximum pixel and find pads with the max signal
1042 Double_t qMax[2] = {0};
1043 AliMUONPad *matrix[2][3] = {{0x0,0x0,0x0},{0x0,0x0,0x0}};
1044 for (Int_t j = 0; j < npad; ++j)
1046 AliMUONPad* pad = cluster.Pad(j);
1047 if ( Overlap(*pad,pixel) )
1049 if (fDebug) { cout << j << " "; pad->Print("full"); }
1050 if (pad->Charge() > qMax[pad->Cathode()]) {
1051 qMax[pad->Cathode()] = pad->Charge();
1052 matrix[pad->Cathode()][1] = pad;
1053 if (nSides == 1) matrix[!pad->Cathode()][1] = pad;
1057 //if (nSides == 2 && (matrix[0][1] == 0x0 || matrix[1][1] == 0x0)) return; // ???
1059 // Find neighbours of maxima to have 3 pads per direction (if possible)
1060 for (Int_t j = 0; j < npad; ++j)
1062 AliMUONPad* pad = cluster.Pad(j);
1063 Int_t cath = pad->Cathode();
1064 if (pad == matrix[cath][1]) continue;
1065 Int_t nLoops = 3 - nSides;
1067 for (Int_t k = 0; k < nLoops; ++k) {
1069 if (k) cath1 = !cath;
1071 // Check the coordinate corresponding to the cathode (bending or non-bending case)
1072 Double_t dist = pad->Coord(nonb[cath1]) - matrix[cath][1]->Coord(nonb[cath1]);
1073 Double_t dir = TMath::Sign (1., dist);
1074 dist = TMath::Abs(dist) - pad->Size(nonb[cath1]) - matrix[cath][1]->Size(nonb[cath1]);
1076 if (TMath::Abs(dist) < fgkDistancePrecision) {
1077 // Check the other coordinate
1078 dist = pad->Coord(!nonb[cath1]) - matrix[cath1][1]->Coord(!nonb[cath1]);
1079 if (TMath::Abs(dist) >
1080 TMath::Max(pad->Size(!nonb[cath1]), matrix[cath1][1]->Size(!nonb[cath1])) - fgkDistancePrecision) break;
1081 Int_t idir = TMath::Nint (dir);
1082 if (matrix[cath1][1+idir] == 0x0) matrix[cath1][1+idir] = pad;
1083 else if (pad->Charge() > matrix[cath1][1+idir]->Charge()) matrix[cath1][1+idir] = pad; // diff. segmentation
1084 //cout << pad->Coord(nonb[cath1]) << " " << pad->Coord(!nonb[cath1]) << " " << pad->Size(nonb[cath1]) << " " << pad->Size(!nonb[cath1]) << " " << pad->Charge() << endl ;
1090 Double_t coord[2] = {0.}, qAver = 0.;
1091 for (Int_t i = 0; i < 2; ++i) {
1093 Double_t coordQ = 0.;
1094 Int_t cath = matrix[i][1]->Cathode();
1095 if (i && nSides == 1) cath = !cath;
1096 for (Int_t j = 0; j < 3; ++j) {
1097 if (matrix[i][j] == 0x0) continue;
1098 Double_t dq = matrix[i][j]->Charge();
1100 coordQ += dq * matrix[i][j]->Coord(nonb[cath]);
1101 //coordQ += (matrix[i][j]->Charge() * matrix[i][j]->Coord(nonb[cath]));
1103 coord[cath] = coordQ / q;
1104 qAver = TMath::Max (qAver, q);
1107 //qAver = TMath::Sqrt(qAver);
1108 if ( qAver >= 2.135 ) // JC: adc -> fc
1111 AliMUONCluster* cluster1 = new AliMUONCluster(cluster);
1113 cluster1->SetCharge(qAver,qAver);
1115 cluster1->SetPosition(TVector2(coord[1],coord[0]),TVector2(0.,0.));
1117 cluster1->SetPosition(TVector2(coord[0],coord[1]),TVector2(0.,0.));
1119 cluster1->SetChi2(0.);
1121 // FIXME: we miss some information in this cluster, as compared to
1122 // the original AddRawCluster code.
1124 AliDebug(2,Form("Adding RawCluster detElemId %4d mult %2d charge %5d (xl,yl)=(%9.6g,%9.6g)",
1125 fDetElemId,cluster1->Multiplicity(),(Int_t)cluster1->Charge(),
1126 cluster1->Position().X(),cluster1->Position().Y()));
1128 fClusterList.Add(cluster1);
1132 //_____________________________________________________________________________
1133 AliMUONClusterFinderPeakFit&
1134 AliMUONClusterFinderPeakFit::operator=(const AliMUONClusterFinderPeakFit& rhs)
1136 /// Protected assignement operator
1138 if (this == &rhs) return *this;
1140 AliFatal("Not implemented.");
1145 //_____________________________________________________________________________
1146 void AliMUONClusterFinderPeakFit::PadsInXandY(AliMUONCluster& cluster,
1147 Int_t &nInX, Int_t &nInY) const
1149 /// Find number of pads in X and Y-directions (excluding virtual ones and
1152 //Int_t statusToTest = 1;
1153 Int_t statusToTest = fgkUseForFit;
1155 //if ( nInX < 0 ) statusToTest = 0;
1156 if ( nInX < 0 ) statusToTest = fgkZero;
1158 Bool_t mustMatch(kTRUE);
1160 Long_t cn = cluster.NofPads(statusToTest,mustMatch);
1162 nInX = AliMp::PairFirst(cn);
1163 nInY = AliMp::PairSecond(cn);
1166 //_____________________________________________________________________________
1167 void AliMUONClusterFinderPeakFit::RemovePixel(Int_t i)
1169 /// Remove pixel at index i
1170 AliMUONPad* pixPtr = Pixel(i);
1171 fPixArray->RemoveAt(i);
1175 //_____________________________________________________________________________
1177 AliMUONClusterFinderPeakFit::Pixel(Int_t i) const
1179 /// Returns pixel at index i
1180 return static_cast<AliMUONPad*>(fPixArray->UncheckedAt(i));
1183 //_____________________________________________________________________________
1185 AliMUONClusterFinderPeakFit::Print(Option_t* what) const
1188 TString swhat(what);
1190 if ( swhat.Contains("precluster") )
1192 if ( fPreCluster) fPreCluster->Print();