#include "AliMpDEManager.h"
#include "AliMUONMathieson.h"
+#include "AliMpEncodePair.h"
+
#include "AliLog.h"
#include <TClonesArray.h>
#include <TRandom.h>
#include <Riostream.h>
+using std::endl;
+using std::cout;
/// \cond CLASSIMP
ClassImp(AliMUONClusterSplitterMLEM)
/// \endcond
//_____________________________________________________________________________
AliMUONClusterSplitterMLEM::AliMUONClusterSplitterMLEM(Int_t detElemId,
- TObjArray* pixArray)
+ TObjArray* pixArray,
+ Double_t lowestPixelCharge,
+ Double_t lowestPadCharge,
+ Double_t lowestClusterCharge)
: TObject(),
fPixArray(pixArray),
fMathieson(0x0),
fNpar(0),
fQtot(0),
fnCoupled(0),
-fDebug(0)
+fDebug(0),
+fLowestPixelCharge(lowestPixelCharge),
+fLowestPadCharge(lowestPadCharge),
+fLowestClusterCharge(lowestClusterCharge)
{
/// Constructor
Int_t nx = mlem->GetNbinsX();
Int_t ny = mlem->GetNbinsY();
- Double_t cont1, cont = mlem->GetCellContent(jc,ic);
+ Double_t cont1, cont = mlem->GetBinContent(mlem->GetBin(jc,ic));
AliMUONPad *pixPtr = 0;
Int_t ie = TMath::Min(ic+1,ny), je = TMath::Min(jc+1,nx);
for (Int_t j = TMath::Max(jc-1,1); j <= je; ++j) {
if (i != ic && j != jc) continue;
if (used[(i-1)*nx+j-1]) continue;
- cont1 = mlem->GetCellContent(j,i);
+ cont1 = mlem->GetBinContent(mlem->GetBin(j,i));
if (mode && cont1 > cont) continue;
used[(i-1)*nx+j-1] = kTRUE;
- if (cont1 < 0.5) continue;
+ if (cont1 < fLowestPixelCharge) continue;
if (pix) pix->Add(BinToPix(mlem,j,i));
else {
pixPtr = new AliMUONPad (mlem->GetXaxis()->GetBinCenter(j),
// Compare pixel and bin positions
for (Int_t i = 0; i < nPix; ++i) {
pixPtr = (AliMUONPad*) fPixArray->UncheckedAt(i);
- if (pixPtr->Charge() < 0.5) continue;
+ if (pixPtr->Charge() < fLowestPixelCharge) continue;
if (TMath::Abs(pixPtr->Coord(0)-xc)<1.e-4 && TMath::Abs(pixPtr->Coord(1)-yc)<1.e-4)
{
//return (TObject*) pixPtr;
{
AliMUONPad* pad = cluster.Pad(j);
//if ( pad->Status() !=1 || pad->IsSaturated() ) continue;
- if ( pad->Status() != AliMUONClusterFinderMLEM::GetUseForFitFlag()) continue;
+ if ( pad->Status() != AliMUONClusterFinderMLEM::GetUseForFitFlag() ||
+ pad->Charge() == 0 ) continue;
if (iflag == 0) {
if ( pad->IsReal() ) npads++; // exclude virtual pads
qTot += pad->Charge();
delta /= pad->Charge();
chi2 += delta;
} // for (Int_t j=0;
- if (iflag == 0) qAver = qTot / npads;
+ if (iflag == 0 && npads) qAver = qTot / npads;
+ if (!npads && iflag==0)
+ {
+ AliError(Form("Got npads=0. Please check"));
+ }
f = chi2 / qAver;
}
//_____________________________________________________________________________
-Double_t AliMUONClusterSplitterMLEM::Param2Coef(Int_t icand, Double_t coef, Double_t *par)
+Double_t AliMUONClusterSplitterMLEM::Param2Coef(Int_t icand, Double_t coef, Double_t *par) const
{
/// Extract hit contribution scale factor from fit parameters
Int_t
AliMUONClusterSplitterMLEM::Fit(const AliMUONCluster& cluster,
Int_t iSimple, Int_t nfit,
- Int_t *clustFit, TObjArray **clusters,
+ const Int_t *clustFit, TObjArray **clusters,
Double_t *parOk,
TObjArray& clusterList, TH2 *mlem)
{
//const Int_t kStatusToTest(1);
const Int_t kStatusToTest(AliMUONClusterFinderMLEM::GetUseForFitFlag());
- AliMpIntPair nofPads = cluster.NofPads(kStatusToTest);
- Int_t nInX = nofPads.GetFirst();
- Int_t nInY = nofPads.GetSecond();
+ Long_t nofPads = cluster.NofPads(kStatusToTest);
+ Int_t nInX = AliMp::PairFirst(nofPads);
+ Int_t nInY = AliMp::PairSecond(nofPads);
if (fDebug) {
Int_t npadOK = 0;
AliMUONPad *pixPtr;
Int_t npxclu;
Double_t cont, cmax = 0, xseed = 0, yseed = 0, errOk[8], qq = 0;
+
+ for ( int i = 0; i < 8; ++i ) errOk[i]=0.0;
+
Double_t xyseed[3][2], qseed[3], xyCand[3][2] = {{0},{0}}, sigCand[3][2] = {{0},{0}};
for (Int_t ifit = 1; ifit <= nfit0; ++ifit)
if (fDebug) cout << xyCand[0][0] << " " << xyCand[0][1] << " " << sigCand[0][0] << " " << sigCand[0][1] << endl;
Int_t nDof, maxSeed[3];//, nMax = 0;
-
+
+ if ( nfit0 < 0 || nfit0 > 3 ) {
+ AliErrorStream() << "Wrong nfit0 value: " << nfit0 << endl;
+ return nfit;
+ }
TMath::Sort(nfit0, qseed, maxSeed, kTRUE); // in decreasing order
Double_t step[3]={0.01,0.002,0.02}, fmin, chi2o = 9999, chi2n;
- Double_t *gin = 0, func0, func1, param[8], step0[8];
+ Double_t *gin = 0, func0, func1, param[8]={0}, step0[8]={0};
Double_t param0[2][8]={{0},{0}}, deriv[2][8]={{0},{0}};
- Double_t shift[8], stepMax, derMax, parmin[8], parmax[8], func2[2], shift0;
- Double_t delta[8], scMax, dder[8], estim, shiftSave = 0;
+ Double_t shift[8]={0}, stepMax, derMax, parmin[8]={0}, parmax[8]={0}, func2[2]={0}, shift0;
+ Double_t delta[8]={0}, scMax, dder[8], estim, shiftSave = 0;
Int_t min, max, nCall = 0, nLoop, idMax = 0, iestMax = 0, nFail;
Double_t rad, dist[3] = {0};
param[j] = parOk[j];
}
param[fNpar] = 0.6;
- parmin[fNpar] = 0;
+ parmin[fNpar] = 1E-9;
parmax[fNpar++] = 1;
}
// Double_t /*sigy*/,
// Double_t /*dist*/)
- if ( coef*fQtot >= 14 )
+ if ( coef*fQtot >= fLowestClusterCharge )
{
//AZ AliMUONCluster* cluster1 = new AliMUONCluster();
AliMUONCluster* cluster1 = new AliMUONCluster(cluster);
cluster1->SetCharge(coef*fQtot,coef*fQtot);
cluster1->SetPosition(TVector2(parOk[indx],parOk[indx+1]),TVector2(sigCand[0][0],sigCand[0][1]));
- cluster1->SetChi2(dist[TMath::LocMin(nfit,dist)]);
+ //cluster1->SetChi2(dist[TMath::LocMin(nfit,dist)]);
+ Int_t idx = TMath::LocMin(nfit,dist);
+ if ( idx < 0 || idx > 2 ) {
+ AliErrorStream() << "Wrong index value: " << idx << endl;
+ return nfit;
+ }
+ cluster1->SetChi2(dist[idx]);
// FIXME: we miss some information in this cluster, as compared to
// the original AddRawCluster code.
{
indx = (i-1)*nx + j - 1;
if (used[indx]) continue;
- cont = mlem->GetCellContent(j,i);
- if (cont < 0.5) continue;
+ cont = mlem->GetBinContent(mlem->GetBin(j,i));
+ if (cont < fLowestPixelCharge) continue;
pix = new TObjArray(20);
used[indx] = 1;
pix->Add(BinToPix(mlem,j,i));
// Flag clusters for fit
nForFit = 0;
- while (minGroup[nForFit] >= 0 && nForFit < 3)
+ while (nForFit < 3 && minGroup[nForFit] >= 0)
{
if (fDebug) cout << clustNumb[minGroup[nForFit]] << " ";
clustFit[nForFit] = clustNumb[minGroup[nForFit]];
void
AliMUONClusterSplitterMLEM::Merge(const AliMUONCluster& cluster,
Int_t nForFit, Int_t nCoupled,
- Int_t *clustNumb, Int_t *clustFit,
+ const Int_t *clustNumb, const Int_t *clustFit,
TObjArray **clusters,
TMatrixD& aijcluclu, TMatrixD& aijclupad)
{
//_____________________________________________________________________________
Double_t
-AliMUONClusterSplitterMLEM::MinGroupCoupl(Int_t nCoupled, Int_t *clustNumb,
- TMatrixD& aijcluclu, Int_t *minGroup)
+AliMUONClusterSplitterMLEM::MinGroupCoupl(Int_t nCoupled, const Int_t *clustNumb,
+ const TMatrixD& aijcluclu, Int_t *minGroup)
{
/// Find group of clusters with minimum coupling to all the others
Int_t
AliMUONClusterSplitterMLEM::SelectPad(const AliMUONCluster& cluster,
Int_t nCoupled, Int_t nForFit,
- Int_t *clustNumb, Int_t *clustFit,
- TMatrixD& aijclupad)
+ const Int_t *clustNumb, const Int_t *clustFit,
+ const TMatrixD& aijclupad)
{
/// Select pads for fit. If too many coupled clusters, find pads giving
/// the strongest coupling with the rest of clusters and exclude them from the fit.
} // if (fNpar != 0)
//if (pad->Charge() > 6 /*fgkZeroSuppression*/) pad->SetStatus(0);
- if (pad->Charge() > 6 /*fgkZeroSuppression*/) pad->SetStatus(AliMUONClusterFinderMLEM::GetZeroFlag());
+ if (pad->Charge() > fLowestPadCharge) pad->SetStatus(AliMUONClusterFinderMLEM::GetZeroFlag());
// return pad for further using // FIXME: remove usage of zerosuppression here
else pad->SetStatus(AliMUONClusterFinderMLEM::GetOverFlag()); // do not use anymore