gSystem->Load("libANALYSIS");
gSystem->Load("libTPCcalib");
- TFile f("CalibObjects.root");
- AliTPCcalibTime *cal = (AliTPCcalibTime *)f->Get("TPCCalib")->FindObject("calibTime");
- cal->GetHistoDrift("all")->Projection(2,0)->Draw()
- cal->GetFitDrift("all")->Draw("lp")
+ TFile f("CalibObjectsTrain1.root");
+ AliTPCcalibTime *calib = (AliTPCcalibTime *)f->Get("calibTime");
+ calib->GetHistoDrift("all")->Projection(2,0)->Draw()
+ calib->GetFitDrift("all")->Draw("lp")
4. Analysis using debug streamers.
AliXRDPROOFtoolkit tool;
TChain * chainTime = tool.MakeChain("time.txt","timeInfo",0,10200);
chainTime->Lookup();
+ TChain * chainLaser = tool.MakeChain("time.txt","timeLaser",0,10200);
+ chainLaser->Lookup();
*/
#include "Riostream.h"
fCutTheta(0.03), // maximal distan theta
fCutMinDir(-0.99), // direction vector products
fCutTracks(10),
- fMapDz(0), //NEW! Tmap of V drifts for different triggers
+ fArrayDz(0), //NEW! Tmap of V drifts for different triggers
fTimeBins(0),
fTimeStart(0),
fTimeEnd(0),
// fBinsVdrift(fTimeBins,fPtBins,fVdriftBins),
// fXminVdrift(fTimeStart,fPtStart,fVdriftStart),
// fXmaxVdrift(fTimeEnd,fPtEnd,fVdriftEnd)
-
{
AliInfo("Default Constructor");
for (Int_t i=0;i<3;i++) {
}
}
-
AliTPCcalibTime::AliTPCcalibTime(const Text_t *name, const Text_t *title, UInt_t StartTime, UInt_t EndTime, Int_t deltaIntegrationTimeVdrift)
:AliTPCcalibBase(),
fLaser(0), // pointer to laser calibration
fDz(0), // current delta z
fCutMaxD(5*0.5356), // maximal distance in rfi ditection
- fCutMaxDz(5*4.541), // maximal distance in rfi ditection
+ fCutMaxDz(40), // maximal distance in rfi ditection
fCutTheta(5*0.004644),// maximal distan theta
fCutMinDir(-0.99), // direction vector products
fCutTracks(10),
- fMapDz(0), //Tmap of V drifts for different triggers
+ fArrayDz(0), //Tmap of V drifts for different triggers
fTimeBins(0),
fTimeStart(0),
fTimeEnd(0),
fRunStart(0),
fRunEnd(0)
{
-
SetName(name);
SetTitle(title);
for (Int_t i=0;i<3;i++) {
}
AliInfo("Non Default Constructor");
-
fTimeBins =(EndTime-StartTime)/deltaIntegrationTimeVdrift;
fTimeStart =StartTime; //(((TObjString*)(mapGRP->GetValue("fAliceStartTime")))->GetString()).Atoi();
fTimeEnd =EndTime; //(((TObjString*)(mapGRP->GetValue("fAliceStopTime")))->GetString()).Atoi();
- fPtBins = 200;
+ fPtBins = 400;
fPtStart = -0.04;
fPtEnd = 0.04;
- fVdriftBins = 200;
- fVdriftStart= -20.0/500.0;
- fVdriftEnd = 20.0/500.0;
- fRunBins = 100000;
- fRunStart = -0.5;
+ fVdriftBins = 500;
+ fVdriftStart= -0.1;
+ fVdriftEnd = 0.1;
+ fRunBins = 100001;
+ fRunStart = -1.5;
fRunEnd = 99999.5;
Int_t binsVdriftLaser[4] = {fTimeBins , fPtBins , fVdriftBins*20, fRunBins };
Double_t xminVdriftLaser[4] = {fTimeStart, fPtStart, fVdriftStart , fRunStart};
Double_t xmaxVdriftLaser[4] = {fTimeEnd , fPtEnd , fVdriftEnd , fRunEnd };
+ TString axisTitle[4]={
+ "T",
+ "#delta_{P/T}",
+ "value",
+ "run"
+ };
+ TString histoName[3]={
+ "Loffset",
+ "Lcorr",
+ "Lgy"
+ };
+
for (Int_t i=0;i<3;i++) {
fHistVdriftLaserA[i] = new THnSparseF("HistVdriftLaser","HistVdriftLaser;time;p/T ratio;Vdrift;run",4,binsVdriftLaser,xminVdriftLaser,xmaxVdriftLaser);
fHistVdriftLaserC[i] = new THnSparseF("HistVdriftLaser","HistVdriftLaser;time;p/T ratio;Vdrift;run",4,binsVdriftLaser,xminVdriftLaser,xmaxVdriftLaser);
+ fHistVdriftLaserA[i]->SetName(histoName[i]);
+ fHistVdriftLaserC[i]->SetName(histoName[i]);
+ for (Int_t iaxis=0; iaxis<4;iaxis++){
+ fHistVdriftLaserA[i]->GetAxis(iaxis)->SetName(axisTitle[iaxis]);
+ fHistVdriftLaserC[i]->GetAxis(iaxis)->SetName(axisTitle[iaxis]);
+ }
}
fBinsVdrift[0] = fTimeBins;
fBinsVdrift[1] = fPtBins;
fXmaxVdrift[2] = fVdriftEnd;
fXmaxVdrift[3] = fRunEnd;
- fMapDz=new TMap();
+ fArrayDz=new TObjArray();
+ fArrayDz->AddLast(fHistVdriftLaserA[0]);
+ fArrayDz->AddLast(fHistVdriftLaserA[1]);
+ fArrayDz->AddLast(fHistVdriftLaserA[2]);
+ fArrayDz->AddLast(fHistVdriftLaserC[0]);
+ fArrayDz->AddLast(fHistVdriftLaserC[1]);
+ fArrayDz->AddLast(fHistVdriftLaserC[2]);
fCosmiMatchingHisto[0]=new TH1F("Cosmics matching","p0-all" ,100,-10*0.5356 ,10*0.5356 );
fCosmiMatchingHisto[1]=new TH1F("Cosmics matching","p1-all" ,100,-10*4.541 ,10*4.541 );
fHistVdriftLaserC[i]=NULL;
}
}
- if(fMapDz){
- fMapDz->SetOwner();
- fMapDz->Delete();
- delete fMapDz;
- fMapDz=NULL;
+ if(fArrayDz){
+ fArrayDz->SetOwner();
+ fArrayDz->Delete();
+ delete fArrayDz;
+ fArrayDz=NULL;
}
for(Int_t i=0;i<5;i++){
if(fCosmiMatchingHisto[i]){
}
}
-void AliTPCcalibTime::ResetCurrent(){
- //
- // reset current values
- //
- fDz=0; // current delta z
+Bool_t AliTPCcalibTime::IsLaser(AliESDEvent */*event*/){
+ return kTRUE; //More accurate creteria to be added
}
-
-Bool_t AliTPCcalibTime::IsLaser(AliESDEvent *event){
- return ((event->GetFiredTriggerClasses()).Contains("0LSR")==1);
+Bool_t AliTPCcalibTime::IsCosmics(AliESDEvent */*event*/){
+ return kTRUE; //More accurate creteria to be added
+}
+Bool_t AliTPCcalibTime::IsBeam(AliESDEvent */*event*/){
+ return kTRUE; //More accurate creteria to be added
+}
+void AliTPCcalibTime::ResetCurrent(){
+ fDz=0; //Reset current dz
}
-
void AliTPCcalibTime::Process(AliESDEvent *event){
if(!event) return;
if (event->GetNumberOfTracks()<2) return;
ResetCurrent();
-
-// if(IsLaser(event))
- ProcessLaser (event);
-// else
- ProcessCosmic(event);
+ if(IsLaser (event)) ProcessLaser (event);
+ if(IsCosmics(event)) ProcessCosmic(event);
+ if(IsBeam (event)) ProcessBeam (event);
}
void AliTPCcalibTime::ProcessLaser(AliESDEvent *event){
// Fit drift velocity using laser
//
// 0. cuts
- const Int_t kMinTracks = 20; // minimal number of laser tracks
- const Int_t kMinTracksSide = 10; // minimal number of tracks per side
+ const Int_t kMinTracks = 40; // minimal number of laser tracks
+ const Int_t kMinTracksSide = 20; // minimal number of tracks per side
+ const Float_t kMaxDeltaZ = 30.; // maximal trigger delay
+ const Float_t kMaxDeltaV = 0.05; // maximal deltaV
const Float_t kMaxRMS = 0.1; // maximal RMS of tracks
- const Float_t kMaxDeltaZ = 3.; // maximal deltaZ A-C side
- const Float_t kMaxDeltaV = 0.01; // maximal deltaV A-C side
- const Float_t kMaxDeltaY = 2.; // maximal deltaY A-C side
+ //
/*
TCut cutRMS("sqrt(laserA.fElements[4])<0.1&&sqrt(laserC.fElements[4])<0.1");
TCut cutZ("abs(laserA.fElements[0]-laserC.fElements[0])<3");
if(!fLaser) fLaser = new AliTPCcalibLaser("laserTPC","laserTPC",kFALSE);
fLaser->Process(event);
if (fLaser->GetNtracks()<kMinTracks) return; // small amount of tracks cut
- if (fLaser->fFitAside->GetNrows()==0) return; // no fit A side
- if (fLaser->fFitCside->GetNrows()==0) return; // no fit C side
+ if (fLaser->fFitAside->GetNrows()==0 && fLaser->fFitCside->GetNrows()==0) return; // no fit neither a or C side
//
// debug streamer - activate stream level
// Use it for tuning of the cuts
//
+ // cuts to be applied
+ //
+ Int_t isReject[2]={0,0};
+ //
+ // not enough tracks
+ if (TMath::Abs((*fLaser->fFitAside)[3]) < kMinTracksSide) isReject[0]|=1;
+ if (TMath::Abs((*fLaser->fFitCside)[3]) < kMinTracksSide) isReject[1]|=1;
+ // unreasonable z offset
+ if (TMath::Abs((*fLaser->fFitAside)[0])>kMaxDeltaZ) isReject[0]|=2;
+ if (TMath::Abs((*fLaser->fFitCside)[0])>kMaxDeltaZ) isReject[1]|=2;
+ // unreasonable drift velocity
+ if (TMath::Abs((*fLaser->fFitAside)[1]-1)>kMaxDeltaV) isReject[0]|=4;
+ if (TMath::Abs((*fLaser->fFitCside)[1]-1)>kMaxDeltaV) isReject[1]|=4;
+ // big chi2
+ if (TMath::Sqrt(TMath::Abs((*fLaser->fFitAside)[4]))>kMaxRMS ) isReject[0]|=8;
+ if (TMath::Sqrt(TMath::Abs((*fLaser->fFitCside)[4]))>kMaxRMS ) isReject[1]|=8;
+
+
+
+
if (fStreamLevel>0){
printf("Trigger: %s\n",event->GetFiredTriggerClasses().Data());
"temp1="<<temp1<<
"vecGoofie.=<<"<<&vecGoofie<<
//laser
+ "rejectA="<<isReject[0]<<
+ "rejectC="<<isReject[1]<<
"laserA.="<<fLaser->fFitAside<<
"laserC.="<<fLaser->fFitCside<<
"laserAC.="<<fLaser->fFitACside<<
}
}
//
- // Apply custs
- //
- if ((*fLaser->fFitAside)[3] <kMinTracksSide) return; // enough tracks A side
- if ((*fLaser->fFitCside)[3]<kMinTracksSide) return; // enough tracks C side
- //
- if (TMath::Abs((*fLaser->fFitAside)[0]-(*fLaser->fFitCside)[0])>kMaxDeltaZ) return;
- if (TMath::Abs((*fLaser->fFitAside)[2]-(*fLaser->fFitCside)[2])>kMaxDeltaY) return;
- if (TMath::Abs((*fLaser->fFitAside)[1]-(*fLaser->fFitCside)[1])>kMaxDeltaV) return;
- if (TMath::Sqrt(TMath::Abs((*fLaser->fFitAside)[4]))>kMaxRMS) return;
- if (TMath::Sqrt(TMath::Abs((*fLaser->fFitCside)[4]))>kMaxRMS) return;
- //
// fill histos
//
TVectorD vdriftA(5), vdriftC(5),vdriftAC(5);
TTimeStamp tstamp(fTime);
Double_t ptrelative0 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,0);
Double_t ptrelative1 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,1);
-
- Double_t vecVdriftLaserA[4]={fTime,(ptrelative0+ptrelative1)/2.0,1./((*(fLaser->fFitAside))[1])-1,event->GetRunNumber()};
- Double_t vecVdriftLaserC[4]={fTime,(ptrelative0+ptrelative1)/2.0,1./((*(fLaser->fFitCside))[1])-1,event->GetRunNumber()};
-
- for (Int_t i=0;i<3;i++){
- if (i==0){ //z0 shift
- vecVdriftLaserA[3]=(*(fLaser->fFitAside))[0]/250.;
- vecVdriftLaserA[3]=(*(fLaser->fFitCside))[0]/250.;
+ Double_t driftA=0, driftC=0;
+ if (vdriftA[1]>1.-kMaxDeltaV) driftA = 1./vdriftA[1]-1.;
+ if (vdriftC[1]>1.-kMaxDeltaV) driftC = 1./vdriftC[1]-1.;
+ //
+ Double_t vecDriftLaserA[4]={fTime,(ptrelative0+ptrelative1)/2.0,driftA,event->GetRunNumber()};
+ Double_t vecDriftLaserC[4]={fTime,(ptrelative0+ptrelative1)/2.0,driftC,event->GetRunNumber()};
+ // Double_t vecDrift[4] ={fTime,(ptrelative0+ptrelative1)/2.0,1./((*(fLaser->fFitACside))[1])-1,event->GetRunNumber()};
+
+ for (Int_t icalib=0;icalib<3;icalib++){
+ if (icalib==0){ //z0 shift
+ vecDriftLaserA[2]=vdriftA[0]/250.;
+ vecDriftLaserC[2]=vdriftC[0]/250.;
}
- if (i==1){ //vdrel shift
- vecVdriftLaserA[3]=1./(*(fLaser->fFitAside))[1]-1.;
- vecVdriftLaserA[3]=1./(*(fLaser->fFitCside))[1]-1.;
+ if (icalib==1){ //vdrel shift
+ vecDriftLaserA[2]=driftA;
+ vecDriftLaserC[2]=driftC;
}
- if (i==2){ //gy shift - full gy - full drift
- vecVdriftLaserA[3]=(*(fLaser->fFitAside))[2]/250.;
- vecVdriftLaserA[3]=(*(fLaser->fFitCside))[2]/250.;
+ if (icalib==2){ //gy shift - full gy - full drift
+ vecDriftLaserA[2]=vdriftA[2]/250.;
+ vecDriftLaserC[2]=vdriftC[2]/250.;
}
- fHistVdriftLaserA[i]->Fill(vecVdriftLaserA);
- fHistVdriftLaserC[i]->Fill(vecVdriftLaserC);
+ if (npointsA>kMinTracks) fHistVdriftLaserA[icalib]->Fill(vecDriftLaserA);
+ if (npointsC>kMinTracks) fHistVdriftLaserC[icalib]->Fill(vecDriftLaserC);
}
+
+// THnSparse* curHist=new THnSparseF("","HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+// TString shortName=curHist->ClassName();
+// shortName+="_MEAN_DRIFT_LASER_";
+// delete curHist;
+// curHist=NULL;
+// TString name="";
+
+// name=shortName;
+// name+=event->GetFiredTriggerClasses();
+// name.ToUpper();
+// curHist=(THnSparseF*)fArrayDz->FindObject(name);
+// if(!curHist){
+// curHist=new THnSparseF(name,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+// fArrayDz->AddLast(curHist);
+// }
+// curHist->Fill(vecDrift);
+
+// name=shortName;
+// name+="ALL";
+// name.ToUpper();
+// curHist=(THnSparseF*)fArrayDz->FindObject(name);
+// if(!curHist){
+// curHist=new THnSparseF(name,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+// fArrayDz->AddLast(curHist);
+// }
+// curHist->Fill(vecDrift);
}
void AliTPCcalibTime::ProcessCosmic(AliESDEvent *event){
param0.PropagateToDCA(&vtx,bz,1000);
//Bool_t b1 =
param1.PropagateToDCA(&vtx,bz,1000);
- //
param0.GetDZ(0,0,0,bz,dvertex0);
param1.GetDZ(0,0,0,bz,dvertex1);
- //
- Double_t xyz0[3];//,pxyz0[3];
- Double_t xyz1[3];//,pxyz1[3];
+ Double_t xyz0[3];
+ Double_t xyz1[3];
param0.GetXYZ(xyz0);
param1.GetXYZ(xyz1);
Bool_t isPair = IsPair(¶m0,¶m1);
Bool_t isCross = IsCross(track0, track1);
+ Bool_t isSame = IsSame(track0, track1);
-// Double_t z0 = track0->GetOuterParam()->GetZ();
-// Double_t z1 = track1->GetOuterParam()->GetZ();
-
-// Double_t z0inner = track0->GetInnerParam()->GetZ();
-// Double_t z1inner = track1->GetInnerParam()->GetZ();
-
- if (isPair && isCross){
+ THnSparse* hist=new THnSparseF("","HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+ TString shortName=hist->ClassName();
+ shortName+="_MEAN_VDRIFT_COSMICS_";
+ delete hist;
+ hist=NULL;
+
+ if(isSame || (isCross && isPair)){
if (track0->GetTPCNcls() > 80) {
fDz = param0.GetZ() - param1.GetZ();
if(track0->GetOuterParam()->GetZ()<0) fDz=-fDz;
TTimeStamp tstamp(fTime);
Double_t ptrelative0 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,0);
Double_t ptrelative1 = AliTPCcalibDB::GetPTRelative(tstamp,fRun,1);
- Double_t vecVdrift[4]={fTime,(ptrelative0+ptrelative1)/2.0,fDz/500.0,event->GetRunNumber()};
- THnSparse* curHist=0;
-
- curHist=(THnSparseF*)(fMapDz->GetValue(event->GetFiredTriggerClasses()));
+ Double_t vecDrift[4]={fTime,(ptrelative0+ptrelative1)/2.0,fDz/500.0,event->GetRunNumber()};
+ THnSparse* curHist=NULL;
+ TString name="";
+
+ name=shortName;
+ name+=event->GetFiredTriggerClasses();
+ name.ToUpper();
+ curHist=(THnSparseF*)fArrayDz->FindObject(name);
if(!curHist){
- curHist=new THnSparseF(event->GetFiredTriggerClasses(),"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
- fMapDz->Add(new TObjString(event->GetFiredTriggerClasses()),curHist);
+ curHist=new THnSparseF(name,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+ fArrayDz->AddLast(curHist);
}
- curHist->Fill(vecVdrift);
+// curHist=(THnSparseF*)(fMapDz->GetValue(event->GetFiredTriggerClasses()));
+// if(!curHist){
+// curHist=new THnSparseF(event->GetFiredTriggerClasses(),"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+// fMapDz->Add(new TObjString(event->GetFiredTriggerClasses()),curHist);
+// }
+ curHist->Fill(vecDrift);
- curHist=(THnSparseF*)(fMapDz->GetValue("all"));
+ name=shortName;
+ name+="ALL";
+ name.ToUpper();
+ curHist=(THnSparseF*)fArrayDz->FindObject(name);
if(!curHist){
- curHist=new THnSparseF("all","HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
- fMapDz->Add(new TObjString("all"),curHist);
+ curHist=new THnSparseF(name,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+ fArrayDz->AddLast(curHist);
}
- curHist->Fill(vecVdrift);
+// curHist=(THnSparseF*)(fMapDz->GetValue("all"));
+// if(!curHist){
+// curHist=new THnSparseF("all","HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+// fMapDz->Add(new TObjString("all"),curHist);
+// }
+ curHist->Fill(vecDrift);
}
}
TTreeSRedirector *cstream = GetDebugStreamer();
"p1.="<<¶m1<<
"isPair="<<isPair<<
"isCross="<<isCross<<
+ "isSame="<<isSame<<
"fDz="<<fDz<<
"fRun="<<fRun<<
"fTime="<<fTime<<
printf("Trigger: %s\n",event->GetFiredTriggerClasses().Data());
}
+void AliTPCcalibTime::ProcessBeam(AliESDEvent */*event*/){
+}
+
void AliTPCcalibTime::Analyze(){}
-THnSparse* AliTPCcalibTime::GetHistoDrift(TObjString* name){
- return (THnSparseF*)(fMapDz->GetValue(name));
-}
THnSparse* AliTPCcalibTime::GetHistoDrift(const char* name){
- TObjString* objName=new TObjString(name);
- THnSparse* histoDrift=0;
- if(objName){
- histoDrift=GetHistoDrift(objName);
- delete objName;
- objName=0;
+ TIterator* iterator = fArrayDz->MakeIterator();
+ iterator->Reset();
+ TString newName=name;
+ newName.ToUpper();
+ THnSparse* newHist=new THnSparseF(newName,"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+ THnSparse* addHist=NULL;
+ while((addHist=(THnSparseF*)iterator->Next())){
+ if(!addHist) continue;
+ TString histName=addHist->GetName();
+ if(!histName.Contains(newName)) continue;
+ addHist->Print();
+ newHist->Add(addHist);
}
- return histoDrift;
+ return newHist;
}
-TMap* AliTPCcalibTime::GetHistoDrift(){
- return fMapDz;
-}
-
-TGraphErrors* AliTPCcalibTime::GetGraphDrift(TObjString* name){
- THnSparse* histoDrift=GetHistoDrift(name);
- TGraphErrors* graphDrift=0;
- if(histoDrift) graphDrift=FitSlices(histoDrift,2,0,400,100,0.05,0.95, kTRUE);
- return graphDrift;
+TObjArray* AliTPCcalibTime::GetHistoDrift(){
+ return fArrayDz;
}
TGraphErrors* AliTPCcalibTime::GetGraphDrift(const char* name){
- TObjString* objName=new TObjString(name);
- TGraphErrors* graphDrift=0;
- if(objName){
- graphDrift=GetGraphDrift(objName);
- delete objName;
- objName=0;
+ THnSparse* histoDrift=GetHistoDrift(name);
+ TGraphErrors* graphDrift=NULL;
+ if(histoDrift){
+ graphDrift=FitSlices(histoDrift,2,0,400,100,0.05,0.95, kTRUE);
+ TString end=histoDrift->GetName();
+ Int_t pos=end.Index("_");
+ end=end(pos,end.Capacity()-pos);
+ TString graphName=graphDrift->ClassName();
+ graphName+=end;
+ graphName.ToUpper();
+ graphDrift->SetName(graphName);
}
return graphDrift;
}
-TMap* AliTPCcalibTime::GetGraphDrift(){
- TMap* mapGraphDrift=new TMap();
- TIterator* iterator=fMapDz->MakeIterator();
+TObjArray* AliTPCcalibTime::GetGraphDrift(){
+ TObjArray* arrayGraphDrift=new TObjArray();
+ TIterator* iterator=fArrayDz->MakeIterator();
iterator->Reset();
- TPair* addPair=0;
- while((addPair=(TPair*)(fMapDz->FindObject(iterator->Next())))) mapGraphDrift->Add((TObjString*)addPair->Key(), GetGraphDrift((TObjString*)addPair->Key()));
- return mapGraphDrift;
+ THnSparse* addHist=NULL;
+ while((addHist=(THnSparseF*)iterator->Next())) arrayGraphDrift->AddLast(GetGraphDrift(addHist->GetName()));
+ return arrayGraphDrift;
}
-TGraph* AliTPCcalibTime::GetFitDrift(TObjString* name){
+AliSplineFit* AliTPCcalibTime::GetFitDrift(const char* name){
TGraph* graphDrift=GetGraphDrift(name);
- TGraph* fitDrift=0;
+ AliSplineFit* fitDrift=NULL;
if(graphDrift && graphDrift->GetN()){
- AliSplineFit fit;
- fit.SetGraph(graphDrift);
- fit.SetMinPoints(graphDrift->GetN()+1);
- fit.InitKnots(graphDrift,2,0,0.001);
- fit.SplineFit(0);
- fitDrift=fit.MakeGraph(graphDrift->GetX()[0],graphDrift->GetX()[graphDrift->GetN()-1],50000,0);
+ fitDrift=new AliSplineFit();
+ fitDrift->SetGraph(graphDrift);
+ fitDrift->SetMinPoints(graphDrift->GetN()+1);
+ fitDrift->InitKnots(graphDrift,2,0,0.001);
+ fitDrift->SplineFit(0);
+ TString end=graphDrift->GetName();
+ Int_t pos=end.Index("_");
+ end=end(pos,end.Capacity()-pos);
+ TString fitName=fitDrift->ClassName();
+ fitName+=end;
+ fitName.ToUpper();
+ //fitDrift->SetName(fitName);
delete graphDrift;
- graphDrift=0;
+ graphDrift=NULL;
}
return fitDrift;
}
-TGraph* AliTPCcalibTime::GetFitDrift(const char* name){
- TObjString* objName=new TObjString(name);
- TGraph* fitDrift=0;
- if(objName){
- fitDrift=GetFitDrift(objName);
- delete objName;
- objName=0;
- }
- return fitDrift;
-}
+//TObjArray* AliTPCcalibTime::GetFitDrift(){
+// TObjArray* arrayFitDrift=new TObjArray();
+// TIterator* iterator = fArrayDz->MakeIterator();
+// iterator->Reset();
+// THnSparse* addHist=NULL;
+// while((addHist=(THnSparseF*)iterator->Next())) arrayFitDrift->AddLast(GetFitDrift(addHist->GetName()));
+// return arrayFitDrift;
+//}
-TMap* AliTPCcalibTime::GetFitDrift(){
- TMap* mapFitDrift=new TMap();
- TIterator* iterator = fMapDz->MakeIterator();
- iterator->Reset();
- TPair* addPair=0;
- while((addPair=(TPair*)(fMapDz->FindObject(iterator->Next())))) mapFitDrift->Add((TObjString*)addPair->Key(), GetFitDrift((TObjString*)addPair->Key()));
- return mapFitDrift;
-}
Long64_t AliTPCcalibTime::Merge(TCollection *li) {
-
TIterator* iter = li->MakeIterator();
AliTPCcalibTime* cal = 0;
fHistVdriftLaserC[imeas]->Add(cal->GetHistVdriftLaserC(imeas));
}
}
- TMap * addMap=cal->GetHistoDrift();
- if(!addMap) return 0;
- TIterator* iterator = addMap->MakeIterator();
+ TObjArray* addArray=cal->GetHistoDrift();
+ if(!addArray) return 0;
+ TIterator* iterator = addArray->MakeIterator();
iterator->Reset();
- TPair* addPair=0;
- while((addPair=(TPair *)(addMap->FindObject(iterator->Next())))){
- THnSparse* addHist=dynamic_cast<THnSparseF*>(addPair->Value());
- if (!addHist) continue;
+ THnSparse* addHist=NULL;
+ while((addHist=(THnSparseF*)iterator->Next())){
+ if(!addHist) continue;
addHist->Print();
- THnSparse* localHist=dynamic_cast<THnSparseF*>(fMapDz->GetValue(addHist->GetName()));
+ THnSparse* localHist=(THnSparseF*)fArrayDz->FindObject(addHist->GetName());
if(!localHist){
localHist=new THnSparseF(addHist->GetName(),"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
- fMapDz->Add(new TObjString(addHist->GetName()),localHist);
+ fArrayDz->AddLast(localHist);
}
localHist->Add(addHist);
}
+// TMap * addMap=cal->GetHistoDrift();
+// if(!addMap) return 0;
+// TIterator* iterator = addMap->MakeIterator();
+// iterator->Reset();
+// TPair* addPair=0;
+// while((addPair=(TPair *)(addMap->FindObject(iterator->Next())))){
+// THnSparse* addHist=dynamic_cast<THnSparseF*>(addPair->Value());
+// if (!addHist) continue;
+// addHist->Print();
+// THnSparse* localHist=dynamic_cast<THnSparseF*>(fMapDz->GetValue(addHist->GetName()));
+// if(!localHist){
+// localHist=new THnSparseF(addHist->GetName(),"HistVdrift;time;p/T ratio;Vdrift;run",4,fBinsVdrift,fXminVdrift,fXmaxVdrift);
+// fMapDz->Add(new TObjString(addHist->GetName()),localHist);
+// }
+// localHist->Add(addHist);
+// }
for(Int_t i=0;i<10;i++) if (cal->GetCosmiMatchingHisto(i)) fCosmiMatchingHisto[i]->Add(cal->GetCosmiMatchingHisto(i));
}
return 0;
return tr0->GetOuterParam()->GetZ()*tr1->GetOuterParam()->GetZ()<0 && tr0->GetInnerParam()->GetZ()*tr1->GetInnerParam()->GetZ()<0 && tr0->GetOuterParam()->GetZ()*tr0->GetInnerParam()->GetZ()>0 && tr1->GetOuterParam()->GetZ()*tr1->GetInnerParam()->GetZ()>0;
}
+Bool_t AliTPCcalibTime::IsSame(AliESDtrack */*tr0*/, AliESDtrack */*tr1*/){
+ // To be implemented
+ return kFALSE;
+}
+
/*
chainDrift->Draw("p0.fP[0]+p1.fP[0]","isPair");
mean ~-0.02 ~-0.03913