#include <TFile.h>
#include <TH1.h>
#include <TH2.h>
+#include <TTree.h>
#include "AliGeomManager.h"
#include "AliITSDetTypeRec.h"
#include "AliITSInitGeometry.h"
#include "AliITSMeanVertexer.h"
+#include "AliITSRecPointContainer.h"
#include "AliITSLoader.h"
#include "AliLog.h"
#include "AliRawReader.h"
#include "AliITSVertexer3DTapan.h"
#include "AliESDVertex.h"
#include "AliMeanVertex.h"
-#include "AliMultiplicity.h"
+//#include "AliCodeTimer.h"
+const Int_t AliITSMeanVertexer::fgkMaxNumOfEvents = 10000;
ClassImp(AliITSMeanVertexer)
-
///////////////////////////////////////////////////////////////////////
// //
// Class to compute vertex position using SPD local reconstruction //
// is built and saved //
// Individual vertices can be optionally stored //
// Origin: M.Masera (masera@to.infn.it) //
-// Usage:
-// AliITSMeanVertexer mv("RawDataFileName");
-// mv.SetGeometryFileName("FileWithGeometry.root"); // def. geometry.root
-// .... optional setters ....
-// mv.Reconstruct(); // SPD local reconstruction
-// mv.DoVertices();
-// Resulting AliMeanVertex object is stored in a file named fMVFileName
+// Usage: //
+// Class used by the ITSSPDVertexDiamondda.cxx detector algorithm //
///////////////////////////////////////////////////////////////////////
-
/* $Id$ */
-
//______________________________________________________________________
-AliITSMeanVertexer::AliITSMeanVertexer():TObject(),
+AliITSMeanVertexer::AliITSMeanVertexer(Bool_t mode):TObject(),
fDetTypeRec(NULL),
fVertexXY(NULL),
fVertexZ(NULL),
fNoEventsContr(0),
-fTotTracklets(0.),
-fAverTracklets(0.),
-fTotTrackletsSq(0.),
-fSigmaOnAverTracks(0.),
+fTotContributors(0.),
+fAverContributors(0.),
fFilterOnContributors(0),
-fFilterOnTracklets(0)
+fMode(mode),
+fVertexer(NULL),
+fAccEvents(fgkMaxNumOfEvents),
+fVertArray("AliESDVertex",fgkMaxNumOfEvents),
+fClu0(NULL),
+fIndex(0),
+fErrXCut(0.),
+fRCut(0.),
+fZCutDiamond(0.),
+fLowSPD0(0),
+fHighSPD0(0),
+fMultH(NULL),
+fErrXH(NULL),
+fMultHa(NULL),
+fErrXHa(NULL),
+fDistH(NULL),
+fContrH(NULL),
+fContrHa(NULL)
{
// Default Constructor
- for(Int_t i=0;i<3;i++){
- fWeighPosSum[i] = 0.;
- fWeighSigSum[i] = 0.;
- fAverPosSum[i] = 0.;
- fWeighPos[i] = 0.;
- fWeighSig[i] = 0.;
- fAverPos[i] = 0.;
- for(Int_t j=0; j<3;j++)fAverPosSq[i][j] = 0.;
- for(Int_t j=0; j<3;j++)fAverPosSqSum[i][j] = 0.;
- }
+ SetZFiducialRegion(); // sets fZCutDiamond to its default value
+ Reset(kFALSE,kFALSE);
// Histograms initialization
- const Float_t xLimit = 5.0, yLimit = 5.0, zLimit = 50.0;
- const Float_t xDelta = 0.02, yDelta = 0.02, zDelta = 0.2;
+ const Float_t xLimit = 0.6, yLimit = 0.6, zLimit = 50.0;
+ const Float_t xDelta = 0.003, yDelta = 0.003, zDelta = 0.2;
fVertexXY = new TH2F("VertexXY","Vertex Diamond (Y vs X)",
2*(Int_t)(xLimit/xDelta),-xLimit,xLimit,
2*(Int_t)(yLimit/yDelta),-yLimit,yLimit);
fVertexZ = new TH1F("VertexZ"," Longitudinal Vertex Profile",
2*(Int_t)(zLimit/zDelta),-zLimit,zLimit);
fVertexZ->SetXTitle("Z , cm");
+ fErrXH = new TH1F("errorX","Error X - before cuts",100,0.,99.);
+ fMultH = new TH1F("multh","mult on layer 1 before cuts",2400,0.,7200.);
+ fErrXHa = new TH1F("errorXa","Error X - after Filter",100,0.,99.);
+ fErrXHa->SetLineColor(kRed);
+ fMultHa = new TH1F("multha","mult on layer 1 - after Filter",2400,0.,7200.);
+ fMultHa->SetLineColor(kRed);
+ fDistH = new TH1F("disth","distance (mm)",100,0.,30.);
+ fContrH = new TH1F("contrib","Number of contributors - before cuts",300,0.5,300.5);
+ fContrHa = new TH1F("contriba","Number of contributors - after cuts",300,0.5,300.5);
+ fContrHa->SetLineColor(kRed);
+
+ fClu0 = new UInt_t [fgkMaxNumOfEvents];
+ for(Int_t i=0;i<fgkMaxNumOfEvents;i++)fClu0[i]=0;
+ fAccEvents.ResetAllBits(kTRUE);
}
+//______________________________________________________________________
+void AliITSMeanVertexer::Reset(Bool_t redefine2D,Bool_t complete){
+ // Reset averages
+ // Both arguments are kFALSE when the method is called by the constructor
+ // redefine2D is TRUE when the method is called by ComputeMean at the second
+ // pass.
+ // redefine2D is FALSE and complete is TRUE when the method is called
+ // after a failure cof ComputeMean(kTRUE)
+
+ static Int_t counter = 0;
+ if(fVertexXY && redefine2D){
+ counter++;
+ Double_t rangeX=fVertexXY->GetXaxis()->GetXmax()-fVertexXY->GetXaxis()->GetXmin();
+ Double_t rangeY=fVertexXY->GetYaxis()->GetXmax()-fVertexXY->GetYaxis()->GetXmin();
+ Int_t nx=fVertexXY->GetNbinsX();
+ Int_t ny=fVertexXY->GetNbinsY();
+ delete fVertexXY;
+ Double_t xmi=fWeighPos[0]-rangeX/2.;
+ Double_t xma=fWeighPos[0]+rangeX/2.;
+ Double_t ymi=fWeighPos[1]-rangeY/2.;
+ Double_t yma=fWeighPos[1]+rangeY/2.;
+ fVertexXY = new TH2F("VertexXY","Vertex Diamond (Y vs X)",nx,xmi,xma,ny,ymi,yma);
+ fVertexXY->SetXTitle("X , cm");
+ fVertexXY->SetYTitle("Y , cm");
+ fVertexXY->SetOption("colz");
+ fVertexXY->SetDirectory(0);
+ }
+ else if(fVertexXY && !redefine2D){
+ fVertexXY->Reset();
+ }
+ if(fVertexZ){
+ fVertexZ->Reset();
+ fDistH->Reset();
+ if(complete){
+ fErrXH->Reset();
+ fMultH->Reset();
+ fErrXHa->Reset();
+ fMultHa->Reset();
+ fContrH->Reset();
+ fContrHa->Reset();
+ }
+ }
+ for(Int_t i=0;i<3;i++){
+ fWeighPosSum[i] = 0.;
+ fWeighSigSum[i] = 0.;
+ fAverPosSum[i] = 0.;
+ fWeighPos[i] = 0.;
+ fWeighSig[i] = 0.;
+ fAverPos[i] = 0.;
+ for(Int_t j=0; j<3;j++)fAverPosSq[i][j] = 0.;
+ for(Int_t j=0; j<3;j++)fAverPosSqSum[i][j] = 0.;
+ fNoEventsContr=0;
+ fTotContributors = 0.;
+ }
+}
//______________________________________________________________________
Bool_t AliITSMeanVertexer::Init() {
// Initialize filters
// Initialize filter values to their defaults
SetFilterOnContributors();
- SetFilterOnTracklets();
+ SetCutOnErrX();
+ SetCutOnR();
+ SetCutOnCls();
+ // Instatiate vertexer
+ if (!fMode) {
+ fVertexer = new AliITSVertexer3DTapan(1000);
+ }
+ else {
+ fVertexer = new AliITSVertexer3D();
+ fVertexer->SetDetTypeRec(fDetTypeRec);
+ AliITSVertexer3D* alias = (AliITSVertexer3D*)fVertexer;
+ alias->SetWideFiducialRegion(fZCutDiamond,0.5);
+ alias->SetNarrowFiducialRegion(0.5,0.5);
+ alias->SetDeltaPhiCuts(0.5,0.025);
+ alias->SetDCACut(0.1);
+ alias->SetPileupAlgo(3);
+ fVertexer->SetComputeMultiplicity(kFALSE);
+ }
return kTRUE;
}
delete fDetTypeRec;
delete fVertexXY;
delete fVertexZ;
+ delete fMultH;
+ delete fErrXH;
+ delete fMultHa;
+ delete fErrXHa;
+ delete fDistH;
+ delete fContrH;
+ delete fContrHa;
+ delete fVertexer;
}
//______________________________________________________________________
-Bool_t AliITSMeanVertexer::Reconstruct(AliRawReader *rawReader, Bool_t mode){
+Bool_t AliITSMeanVertexer::Reconstruct(AliRawReader *rawReader){
// Performs SPD local reconstruction
// and vertex finding
// returns true in case a vertex is found
// Run SPD cluster finder
+ static Int_t evcount = -1;
+ if(evcount <0){
+ evcount++;
+ AliInfo(Form("Low and high cuts on SPD L0 clusters %d , %d \n",fLowSPD0,fHighSPD0));
+ AliInfo(Form("Reconstruct: cut on errX %f \n",fErrXCut));
+ }
+// AliCodeTimerAuto("",0);
+ AliITSRecPointContainer::Instance()->PrepareToRead();
TTree* clustersTree = new TTree("TreeR", "Reconstructed Points Container"); //make a tree
fDetTypeRec->DigitsToRecPoints(rawReader,clustersTree,"SPD");
Bool_t vtxOK = kFALSE;
- AliESDVertex *vtx = NULL;
- // Run Tapan's vertex-finder
- if (!mode) {
- AliITSVertexer3DTapan *vertexer1 = new AliITSVertexer3DTapan(1000);
- vtx = vertexer1->FindVertexForCurrentEvent(clustersTree);
- delete vertexer1;
+ UInt_t nl1=0;
+ AliESDVertex *vtx = fVertexer->FindVertexForCurrentEvent(clustersTree);
+ if (!fMode) {
if (TMath::Abs(vtx->GetChi2()) < 0.1) vtxOK = kTRUE;
}
else {
- // Run standard vertexer3d
- AliITSVertexer3D *vertexer2 = new AliITSVertexer3D();
- vtx = vertexer2->FindVertexForCurrentEvent(clustersTree);
- AliMultiplicity *mult = vertexer2->GetMultiplicity();
- delete vertexer2;
- if(Filter(vtx,mult)) vtxOK = kTRUE;
+ AliITSRecPointContainer* rpcont= AliITSRecPointContainer::Instance();
+ nl1=rpcont->GetNClustersInLayerFast(1);
+ if(Filter(vtx,nl1)) vtxOK = kTRUE;
+ /* if(vtx){
+ if(vtxOK){
+ printf("The vertex is OK\n");
+ }
+ else {
+ printf("The vertex is NOT OK\n");
+ }
+ vtx->PrintStatus();
+ }
+ else {
+ printf("The vertex was not reconstructed\n");
+ } */
}
delete clustersTree;
- if (vtxOK) AddToMean(vtx);
+ if (vtxOK && fMode){
+ new(fVertArray[fIndex])AliESDVertex(*vtx);
+ fClu0[fIndex]=nl1;
+ fAccEvents.SetBitNumber(fIndex);
+ fIndex++;
+ if(fIndex>=fgkMaxNumOfEvents){
+ if(ComputeMean(kFALSE)){
+ if(ComputeMean(kTRUE))AliInfo("Mean vertex computed");
+ }
+ }
+ }
if (vtx) delete vtx;
return vtxOK;
// in a file
TFile fmv(filename,"update");
+ Bool_t itisOK = kFALSE;
+ if(ComputeMean(kFALSE)){
+ if(ComputeMean(kTRUE)){
+ Double_t cov[6];
+ cov[0] = fAverPosSq[0][0]; // variance x
+ cov[1] = fAverPosSq[0][1]; // cov xy
+ cov[2] = fAverPosSq[1][1]; // variance y
+ cov[3] = fAverPosSq[0][2]; // cov xz
+ cov[4] = fAverPosSq[1][2]; // cov yz
+ cov[5] = fAverPosSq[2][2]; // variance z
+ // We use standard average and not weighed averag now
+ // AliMeanVertex is apparently not taken by the preprocessor; only
+ // the AliESDVertex object is retrieved
+ // AliMeanVertex mv(fWeighPos,fWeighSig,cov,fNoEventsContr,0,0.,0.);
+ AliMeanVertex mv(fAverPos,fWeighSig,cov,fNoEventsContr,0,0.,0.);
+ mv.SetTitle("Mean Vertex");
+ mv.SetName("MeanVertex");
+ // we have to add chi2 here
+ // AliESDVertex vtx(fWeighPos,cov,0,TMath::Nint(fAverContributors),"MeanVertexPos");
+ AliESDVertex vtx(fAverPos,cov,0,TMath::Nint(fAverContributors),"MeanVertexPos");
- if(ComputeMean()){
- Double_t cov[6];
- cov[0] = fAverPosSq[0][0]; // variance x
- cov[1] = fAverPosSq[0][1]; // cov xy
- cov[2] = fAverPosSq[1][1]; // variance y
- cov[3] = fAverPosSq[0][2]; // cov xz
- cov[4] = fAverPosSq[1][2]; // cov yz
- cov[5] = fAverPosSq[2][2]; // variance z
- AliMeanVertex mv(fWeighPos,fWeighSig,cov,fNoEventsContr,fTotTracklets,fAverTracklets,fSigmaOnAverTracks);
- mv.SetTitle("Mean Vertex");
- mv.SetName("MeanVertex");
- AliDebug(1,Form("Contrib av. trk = %10.2f ",mv.GetAverageNumbOfTracklets()));
- AliDebug(1,Form("Sigma %10.4f ",mv.GetSigmaOnAvNumbOfTracks()));
- // we have to add chi2 here
- AliESDVertex vtx(fWeighPos,cov,0,TMath::Nint(fAverTracklets),"MeanVertexPos");
-
- mv.Write(mv.GetName(),TObject::kOverwrite);
- vtx.Write(vtx.GetName(),TObject::kOverwrite);
+ mv.Write(mv.GetName(),TObject::kOverwrite);
+ vtx.Write(vtx.GetName(),TObject::kOverwrite);
+ itisOK = kTRUE;
+ }
}
- else {
+
+ if(!itisOK){
AliError(Form("Evaluation of mean vertex not possible. Number of used events = %d",fNoEventsContr));
}
fVertexXY->Write(fVertexXY->GetName(),TObject::kOverwrite);
fVertexZ->Write(fVertexZ->GetName(),TObject::kOverwrite);
+ fMultH->Write(fMultH->GetName(),TObject::kOverwrite);
+ fErrXH->Write(fErrXH->GetName(),TObject::kOverwrite);
+ fMultHa->Write(fMultHa->GetName(),TObject::kOverwrite);
+ fErrXHa->Write(fErrXHa->GetName(),TObject::kOverwrite);
+ fDistH->Write(fDistH->GetName(),TObject::kOverwrite);
+ fContrH->Write(fContrH->GetName(),TObject::kOverwrite);
+ fContrHa->Write(fContrHa->GetName(),TObject::kOverwrite);
fmv.Close();
}
//______________________________________________________________________
-Bool_t AliITSMeanVertexer::Filter(AliESDVertex *vert,AliMultiplicity *mult){
+Bool_t AliITSMeanVertexer::Filter(AliESDVertex *vert,UInt_t mult){
// Apply selection criteria to events
Bool_t status = kFALSE;
- if(!vert || !mult)return status;
+ if(!vert)return status;
// Remove vertices reconstructed with vertexerZ
if(strcmp(vert->GetName(),"SPDVertexZ") == 0) return status;
Int_t ncontr = vert->GetNContributors();
- Int_t ntracklets = mult->GetNumberOfTracklets();
AliDebug(1,Form("Number of contributors = %d",ncontr));
- AliDebug(1,Form("Number of tracklets = %d",ntracklets));
- if(ncontr>fFilterOnContributors && ntracklets > fFilterOnTracklets) status = kTRUE;
- fTotTracklets += ntracklets;
- fTotTrackletsSq += ntracklets*ntracklets;
+ Double_t ex = vert->GetXRes();
+ fMultH->Fill(mult);
+ fErrXH->Fill(ex*1000.);
+ fContrH->Fill((Float_t)ncontr);
+ if(ncontr>fFilterOnContributors && (mult>fLowSPD0 && mult<fHighSPD0) &&
+ ((ex*1000.)<fErrXCut)) {
+ status = kTRUE;
+ fMultHa->Fill(mult);
+ fErrXHa->Fill(ex*1000.);
+ fContrHa->Fill((Float_t)ncontr);
+ }
return status;
}
}
}
+ fTotContributors+=vert->GetNContributors();
fVertexXY->Fill(currentPos[0],currentPos[1]);
fVertexZ->Fill(currentPos[2]);
}
//______________________________________________________________________
-Bool_t AliITSMeanVertexer::ComputeMean(){
- // compute mean vertex
- if(fNoEventsContr < 2) return kFALSE;
- Double_t nevents = fNoEventsContr;
- for(Int_t i=0;i<3;i++){
- fWeighPos[i] = fWeighPosSum[i]/fWeighSigSum[i];
- fWeighSig[i] = 1./TMath::Sqrt(fWeighSigSum[i]);
- fAverPos[i] = fAverPosSum[i]/nevents;
- }
- for(Int_t i=0;i<3;i++){
- for(Int_t j=i;j<3;j++){
- fAverPosSq[i][j] = fAverPosSqSum[i][j]/(nevents -1.);
- fAverPosSq[i][j] -= nevents/(nevents -1.)*fAverPos[i]*fAverPos[j];
- }
- }
+ Bool_t AliITSMeanVertexer::ComputeMean(Bool_t killOutliers){
+ // compute mean vertex
+ // called once with killOutliers = kFALSE and then again with
+ // killOutliers = kTRUE
- fAverTracklets = fTotTracklets/nevents;
- fSigmaOnAverTracks = fTotTrackletsSq/(nevents - 1);
- fSigmaOnAverTracks -= nevents/(nevents -1.)*fAverTracklets*fAverTracklets;
- fSigmaOnAverTracks = TMath::Sqrt(fSigmaOnAverTracks);
- return kTRUE;
-}
+ static Bool_t preliminary = kTRUE;
+ static Int_t oldnumbevt = 0;
+ if(!(preliminary || killOutliers))return kTRUE; //ComputeMean is
+ // executed only once with argument kFALSE
+ Double_t wpos[3];
+ for(Int_t i=0;i<3;i++)wpos[i]=fWeighPos[i];
+
+ Int_t istart = oldnumbevt;
+ if(killOutliers)istart = 0;
+ if(killOutliers && preliminary){
+ preliminary = kFALSE;
+ Reset(kTRUE,kFALSE);
+ }
+ oldnumbevt = fVertArray.GetEntries();
+ for(Int_t i=istart;i<fVertArray.GetEntries();i++){
+ AliESDVertex* vert = NULL;
+
+ // second pass
+ if(killOutliers && fAccEvents.TestBitNumber(i)){
+ vert=(AliESDVertex*)fVertArray[i];
+ Double_t dist=(vert->GetXv()-wpos[0])*(vert->GetXv()-wpos[0]);
+ dist+=(vert->GetYv()-wpos[1])*(vert->GetYv()-wpos[1]);
+ dist=sqrt(dist)*10.; // distance in mm
+ fDistH->Fill(dist);
+ if(dist>fRCut)fAccEvents.SetBitNumber(i,kFALSE);
+ }
+
+ if(!fAccEvents.TestBitNumber(i))continue;
+ vert=(AliESDVertex*)fVertArray[i];
+ AddToMean(vert);
+ }
+ Bool_t bad = ((!killOutliers) && fNoEventsContr < 5) || (killOutliers && fNoEventsContr <2);
+ if(bad) {
+ if(killOutliers){
+// when the control reachs this point, the preliminary evaluation of the
+// diamond region has to be redone. So a general reset must be issued
+// if this occurs, it is likely that the cuts are badly defined
+ ResetArray();
+ Reset(kFALSE,kTRUE);
+ preliminary = kTRUE;
+ oldnumbevt = 0;
+ }
+ return kFALSE;
+ }
+ Double_t nevents = fNoEventsContr;
+ for(Int_t i=0;i<3;i++){
+ fWeighPos[i] = fWeighPosSum[i]/fWeighSigSum[i];
+ fWeighSig[i] = 1./TMath::Sqrt(fWeighSigSum[i]);
+ fAverPos[i] = fAverPosSum[i]/nevents;
+ }
+ for(Int_t i=0;i<3;i++){
+ for(Int_t j=i;j<3;j++){
+ fAverPosSq[i][j] = fAverPosSqSum[i][j]/(nevents -1.);
+ fAverPosSq[i][j] -= nevents/(nevents -1.)*fAverPos[i]*fAverPos[j];
+ }
+ }
+ if(killOutliers)ResetArray();
+ fAverContributors = fTotContributors/nevents;
+ return kTRUE;
+ }
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff