AliRun *a; AliRunLoader *al; TGeoManager *g; //globals for easy manual manipulations AliHMPID *r; AliLoader *rl; AliHMPIDParam *rp; Bool_t isGeomType=kFALSE; //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void GetParam() { isGeomType=!isGeomType; if(g) delete g; if(rp) delete rp; //delete current TGeoManager and AliHMPIDParam if(isGeomType) g=TGeoManager::Import("geometry.root"); else g=TGeoManager::Import("misaligned_geometry.root"); rp=AliHMPIDParam::Instance(); } //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void Hmenu() { TString status="Status: "; if(gSystem->IsFileInIncludePath("galice.root")){ status+="galice.root found"; al=AliRunLoader::Open(); //try to open galice.root from current dir if(gAlice) delete gAlice; //in case we execute this in aliroot delete default AliRun object al->LoadgAlice(); a=al->GetAliRun(); //take new AliRun object from galice.root rl=al->GetDetectorLoader("HMPID"); r=(AliHMPID*)a->GetDetector("HMPID"); //get HMPID object from galice.root status+=Form(" with %i event(s)",al->GetNumberOfEvents()); status+=(r)? " with HMPID": " without HMPID"; }else status+="No galice.root"; GetParam(); TControlBar *pMenu = new TControlBar("horizontal",status.Data(),0,0); pMenu->AddButton(" ","",""); pMenu->AddButton(" General " ,"General()" ,"general items which do not depend on any files"); pMenu->AddButton(" ","" ,""); pMenu->AddButton(" Sim data " ,"SimData()" ,"items which expect to have simulated files" ); pMenu->AddButton(" ","" ,""); pMenu->AddButton(" Raw data " ,"RawData()" ,"items which expect to have raw files" ); pMenu->AddButton(" ","print()" ,""); pMenu->AddButton("Test" ,"Test()" ,"all test utilities"); pMenu->AddButton(" ","GetParam()" ,""); pMenu->AddButton("Quit" ,".q" ,"close session" ); pMenu->Show(); } //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void General() { TControlBar *pMenu = new TControlBar("vertical","Sim data",60,50); pMenu->AddButton("Debug ON" ,"don();" ,"Switch debug on-off" ); pMenu->AddButton("Debug OFF" ,"doff();" ,"Switch debug on-off" ); pMenu->AddButton("Geo GUI" ,"geo();" ,"Shows geometry" ); pMenu->AddButton("Browser" ,"new TBrowser;" ,"Start ROOT TBrowser" ); pMenu->Show(); }//menu() //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void SimData() { TControlBar *pMenu = new TControlBar("vertical","Sim",190,50); pMenu->AddButton("Display ALL chambers" ,"ed();" , "Display Fast"); pMenu->AddButton("HITS QA" ,"hqa()" ,"QA plots for hits: hqa()"); pMenu->AddButton("Print hits" ,"hp();" ,"To print hits: hp(evt)"); pMenu->AddButton("Print sdigits" ,"sp();" ,"To print sdigits: sp(evt)"); pMenu->AddButton("Print digits" ,"dp();" ,"To print digits: dp(evt)"); pMenu->AddButton("Print clusters" ,"cp();" ,"To print clusters: cp(evt)"); pMenu->Show(); } //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void RawData() { TControlBar *pMenu = new TControlBar("vertical","Raw",350,50); pMenu->AddButton("ESD print" ,"ep();" ,"To print ESD info: ep()" ); pMenu->AddButton("ESD QA" ,"eq();" ,"To draw ESD hists: eq()" ); pMenu->AddButton("Clusters print" ,"cp();" ,"To print clusters: cp()" ); pMenu->AddButton("Clusters QA" ,"cq();" ,"To draw clusters hists: cq()" ); pMenu->AddButton("Print Matrix" ,"mp();" ,"To print prob matrix: mp()" ); pMenu->AddButton("Print occupancy" ,"r->OccupancyPrint(-1);" ,"To print occupancy" ); pMenu->AddButton("Print event summary " ,"r->SummaryOfEvent();" ,"To print a summary of the event" ); pMenu->Show(); }//RawData //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void Test() { TControlBar *pMenu = new TControlBar("vertical","Test",400,50); pMenu->AddButton("Hits->Digits" ,"thd();" ,"test hits->sdigits->digits" ); pMenu->AddButton("Segmentation" ,"ts()" ,"test segmentation methods" ); pMenu->AddButton("Test response" ,"AliHMPIDParam::TestResp();","Test AliHMPIDParam response methods" ); pMenu->AddButton("Print map" ,"PrintMap();" ,"Test AliHMPIDParam transformation methods" ); pMenu->AddButton("Test Recon" ,"rec();" ,"Test AliHMPIDRecon" ); pMenu->Show(); }//Test() //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void doff(){ Printf("DebugOFF"); AliLog::SetGlobalDebugLevel(0);} void don() { Printf("DebugON"); AliLog::SetGlobalDebugLevel(AliLog::kDebug);} void geo ( ) {gGeoManager->GetTopVolume()->Draw("ogl");} void du ( ) {r->Dump ( );} //utility display void hp (Int_t evt=0 ) {r->HitPrint (evt);} //print hits for requested event void hq ( ) {r->HitQA ( );} //hits QA plots for all events void sp (Int_t evt=0 ) {r->SdiPrint (evt);} //print sdigits for requested event void sq (Int_t evt=0 ) {r->SdiPrint (evt);} //print sdigits for requested event void dp (Int_t evt=0 ) {r->DigPrint (evt);} //print digits for requested event void dq ( ) {AliHMPIDReconstructor::DigQA (al );} //digits QA plots for all events void cp (Int_t evt=0 ) {r->CluPrint (evt); } //print clusters for requested event void cq ( ) {AliHMPIDReconstructor::CluQA (al );} //clusters QA plots for all events void ep ( ) {AliHMPIDTracker::EsdQA(1); } void eq ( ) {AliHMPIDTracker::EsdQA(); } void mp (Double_t probCut=0.7 ) {AliHMPIDTracker::MatrixPrint(probCut);} void t (Int_t evt=0 ) {AliHMPIDParam::Stack(evt);} void tid (Int_t tid,Int_t evt=0) {AliHMPIDParam::Stack(evt,tid);} //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void tst() { //create all lists TClonesArray hit("AliHMPIDHit"),sdi("AliHMPIDDigit"); TObjArray dig,clu,cog; for(Int_t i=0;i<7;i++) {dig.AddAt(new TClonesArray("AliHMPIDDigit"),i); clu.AddAt(new TClonesArray("AliHMPIDCluster"),i); cog.AddAt(new TClonesArray("AliHMPIDCluster"),i);} //simulate track TLorentzVector mom; mom.SetPtEtaPhiM(3,0,30*TMath::DegToRad(),0.938); TLorentzVector vtx; vtx.SetXYZT(0,0,0,0); AliESD *pESD=new AliESD; pESD->SetMagneticField(0.2); pESD->AddTrack(new AliESDtrack(new TParticle(kProton,0,-1,-1,-1,-1,mom,vtx))); pESD->Print(); AliTracker::SetFieldMap(new AliMagF,1); AliHMPIDTracker *pTracker=new AliHMPIDTracker; return; Double_t th=8*TMath::DegToRad(); //gRandom->Rndm()*TMath::PiOver4(); Double_t ph=gRandom->Rndm()*TMath::TwoPi(); Double_t radx=gRandom->Rndm()*AliHMPIDDigit::SizeAllX(); Double_t rady=gRandom->Rndm()*AliHMPIDDigit::SizeAllY(); Int_t iHitCnt=0; AliHMPIDv1::Hit2Sdi(&hitLst,&sdiLst); AliHMPIDDigitizer::Sdi2Dig(&sdiLst,&digLst); AliHMPIDReconstructor::Dig2Clu(&digLst,&cluLst); AliHMPIDReconstructor::Dig2Clu(&digLst,&cogLst,0); Int_t iDigN=0,iCluN=0,iCogN=0; for(Int_t i=0;i<7;i++){ iDigN+=((TClonesArray*)digLst.At(i))->GetEntries(); iCluN+=((TClonesArray*)cluLst.At(i))->GetEntries(); iCogN+=((TClonesArray*)cogLst.At(i))->GetEntries(); } Printf("SDI------SDI---------SDI--------SDI------SDI------SDI #%i",sdiLst.GetEntries());sdiLst.Print();Printf(""); Printf("DIG------DIG---------DIG--------DIG------DIG------DIG #%i",iDigN );digLst.Print();Printf(""); Printf("HIT------HIT---------HIT--------HIT------HIT------HIT #%i",hitLst.GetEntries());hitLst.Print();Printf(""); Printf("CLU------CLU---------CLU--------CLU------CLU------CLU #%i",iCluN );cluLst.Print();Printf(""); Printf("COG------COG---------COG--------COG------COG------COG #%i",iCogN );cogLst.Print();Printf(""); } void PrintMap() { Double_t r2d=TMath::RadToDeg(); Double_t x=AliHMPIDDigit::SizeAllX(),y=AliHMPIDDigit::SizeAllY(); Printf("\n\n\n"); for(int ch=6;ch>=0;ch--){ AliHMPIDDigit dL(ch,0,1,0,0),dR(ch,0,1,67,0); TVector3 lt=rp->Lors2Mars(ch,0,y); TVector3 rt=rp->Lors2Mars(ch,x,y); TVector3 ce=rp->Lors2Mars(ch,x/2,y/2); TVector3 lb=rp->Lors2Mars(ch,0,0); TVector3 rb=rp->Lors2Mars(ch,x,0); Printf(" ____________________________"); Printf("|%6.2fcm %6.2fcm|" ,lt.Mag() , rt.Mag() ); Printf("|%6.2fde %6.2fde|" ,lt.Theta()*r2d , rt.Theta()*r2d ); Printf("|%6.2fde %6.2fde|" ,lt.Phi()*r2d , rt.Phi()*r2d ); Printf("| |" ); Printf("|DDL %2i %7.2fcm DDL %2i|" ,dL.DdlIdx() , ce.Mag() , dR.DdlIdx() ); Printf("| 0x%x %7.2fdeg 0x%x|" ,dL.DdlId() , ce.Theta()*r2d , dR.DdlId() ); Printf("| %7.2fdeg |" , ce.Phi()*r2d ); Printf("| |"); Printf("|%6.2fcm %6.2fcm|" ,lb.Mag() , rb.Mag() ); Printf("|%6.2fde %6.2fde|" ,lb.Theta()*r2d , rb.Theta()*r2d ); Printf("|%6.2fde Ch%i %6.2fde|" ,lb.Phi()*r2d , ch , rb.Phi()*r2d ); Printf(" ----------------------------"); } Double_t m[3]; for(int i=0;i<1000;i++){ Float_t xout=0,xin=gRandom->Rndm()*130.60; Float_t yout=0,yin=gRandom->Rndm()*126.16; Int_t c=gRandom->Rndm()*6; rp->Lors2Mars(c,xin,yin,m); rp->Mars2Lors(c,m,xout,yout); if( (xin-xout) != 0) Printf("Problem in X"); if( (yin-yout) != 0) Printf("Problem in Y"); } Int_t ddl,r,d,a,ch,raw,pc,px,py; AliHMPIDDigit dd; ddl=0;raw=0x2214000;r= 8;d=8;a=20; ddl=1;raw=0x2214000;r= 8;d=8;a=20; ddl=2;raw=0x08d6000;r= 2;d=3;a=22; ddl=3;raw=0x08d6000;r= 2;d=3;a=22; ddl=6;raw=0x592e000;r=22;d=4;a=46;ch=3;pc=4;px=55;py=5;dd.Raw(ddl,raw); Printf("(ch=%i,pc=%i,x=%2i,y=%2i) ddl=%i raw=0x%h (r=%2i,d=%2i,a=%2i)", ch, pc, px, py, ddl, raw, r, d, a); dd.Print(); ddl=7;raw=0x592e000;r=22;d=4;a=46;ch=3;pc=1; }//PrintMap() void rec() { Double_t ckovMax=0.75,ckovSim; Int_t nSim=0; while(nSim<3){ ckovSim=gRandom->Rndm()*ckovMax;//0.6468; nSim=20*TMath::Power(TMath::Sin(ckovSim)/TMath::Sin(ckovMax),2); //scale number of photons } TClonesArray *pCluLst=new TClonesArray("AliHMPIDCluster"); TPolyMarker *pMipMap=new TPolyMarker(); pMipMap->SetMarkerStyle(8); pMipMap->SetMarkerColor(kRed); TPolyMarker *pPhoMap=new TPolyMarker(); pPhoMap->SetMarkerStyle(4); pPhoMap->SetMarkerColor(kRed); TPolyMarker *pBkgMap=new TPolyMarker(); pBkgMap->SetMarkerStyle(25); pBkgMap->SetMarkerColor(kRed); TPolyLine *pRing =new TPolyLine; pRing->SetLineColor(kGreen); TPolyLine *pOld =new TPolyLine; pOld->SetLineColor(kBlue); Int_t iCluCnt=0; pMipMap->SetPoint(iCluCnt,x,y); new((*pCluLst)[iCluCnt++]) AliHMPIDCluster(1,x,y,200); //add mip cluster // for(int j=0;j<30;j++){ //add bkg photons // Float_t bkgX=gRandom->Rndm()*AliHMPIDDigit::SizeAllX(); // Float_t bkgY=gRandom->Rndm()*AliHMPIDDigit::SizeAllY(); // pBkgMap->SetPoint(iCluCnt,bkgX,bkgY); new((*pCluLst)[iCluCnt++]) AliHMPIDCluster(1,bkgX,bkgY,35); // } AliHMPIDRecon rec; rec.SetTrack(th,ph,x,y); TVector2 pos; for(int i=0;iRndm()*2*TMath::Pi(),pos); //add photons if(AliHMPIDDigit::IsInDead(pos.X(),pos.Y())) continue; pPhoMap->SetPoint(iCluCnt,pos.X(),pos.Y()); new((*pCluLst)[iCluCnt++]) AliHMPIDCluster(1,pos.X(),pos.Y(),35); } Int_t nRec=0,nOld=0; Double_t ckovRec=rec.CkovAngle(pCluLst,nRec); Double_t err=TMath::Sqrt(rec.CkovSigma2()); Double_t ckovOld=old.CkovAngle(pCluLst,nOld); Printf("---------------- Now reconstructed --------------------"); for(int j=0;j<100;j++){rec.TracePhot(ckovRec,j*0.0628,pos); pRing->SetPoint(j,pos.X(),pos.Y());} for(int j=0;j<100;j++){rec.TracePhot(ckovOld,j*0.0628,pos); pOld->SetPoint(j,pos.X(),pos.Y());} new TCanvas; AliHMPIDDigit::DrawPc(); pMipMap->Draw(); pPhoMap->Draw(); pBkgMap->Draw(); pRing->Draw(); pOld->Draw(); TLatex txt; txt.SetTextSize(0.03); txt.DrawLatex(65,127,Form("#theta=%.4f#pm%.5f with %2i #check{C}" ,ckovSim, 0.,nSim )); txt.DrawLatex(65,122,Form("#theta=%.4f#pm%.5f with %2i #check{C} Old=%.4f with %i #check{C}" ,ckovRec,err,nRec,ckovOld,nOld)); txt.DrawLatex(0 ,127,Form("#theta=%.2f#circ #phi=%.2f#circ @(%.2f,%.2f) ",th*TMath::RadToDeg(),ph*TMath::RadToDeg(),x,y)); // for(int i=0;i<35;i++){ // Double_t ckov=0.1+i*0.02; // Printf("Ckov=%.2f Old=%.3f New=%.3f",ckov,old.FindRingArea(ckov),rec.FindRingArea(ckov)); // } }//rec() void HitQA(Double_t cut,Double_t cutele,Double_t cutR) { // Provides a set of control plots intended primarily for charged particle flux analisys // Arguments: cut (GeV) - cut on momentum of any charged particles but electrons, // cetele (GeV) - the same for electrons-positrons // cutR (cm) - cut on production vertex radius (cylindrical system) gBenchmark->Start("HitsAna"); Double_t cutPantiproton =cut; Double_t cutPkaonminus =cut; Double_t cutPpionminus =cut; Double_t cutPmuonminus =cut; Double_t cutPpositron =cutele; Double_t cutPelectron =cutele; Double_t cutPmuonplus =cut; Double_t cutPpionplus =cut; Double_t cutPkaonplus =cut; Double_t cutPproton =cut; TH2F *pEleHitRZ =new TH2F("EleHitRZ" ,Form("e^{+} e^{-} hit %s;z[cm];R[cm]" ,GetName()) , 400,-300,300 ,400,-500,500); //R-z plot 0cmSetStats(0); pFlux->GetXaxis()->SetBinLabel(1 ,Form("p^{-}>%.3fGeV/c" ,cutPantiproton)); pFlux->GetXaxis()->SetBinLabel(2 ,Form("K^{-}>%.3fGeV/c" ,cutPkaonminus )); pFlux->GetXaxis()->SetBinLabel(3 ,Form("#pi^{-}>%.3fGeV/c" ,cutPpionminus )); pFlux->GetXaxis()->SetBinLabel(4 ,Form("#mu^{-}>%.3fGeV/c" ,cutPmuonminus )); pFlux->GetXaxis()->SetBinLabel(5 ,Form("e^{+}>%.3fGeV/c" ,cutPpositron )); pFlux->GetXaxis()->SetBinLabel(6 ,Form("e^{-}>%.3fGeV/c" ,cutPelectron )); pFlux->GetXaxis()->SetBinLabel(7 ,Form("#mu^{+}>%.3fGeV/c" ,cutPmuonplus )); pFlux->GetXaxis()->SetBinLabel(8 ,Form("#pi^{+}>%.3fGeV/c" ,cutPpionplus )); pFlux->GetXaxis()->SetBinLabel(9 ,Form("K^{+}>%.3fGeV/c" ,cutPkaonplus )); pFlux->GetXaxis()->SetBinLabel(10,Form("p^{+}>%.3fGeV/c" ,cutPproton )); pFlux->GetYaxis()->SetBinLabel(1,"sum"); pFlux->GetYaxis()->SetBinLabel(2,"ch1"); pFlux->GetYaxis()->SetBinLabel(3,"ch2"); pFlux->GetYaxis()->SetBinLabel(4,"ch3"); pFlux->GetYaxis()->SetBinLabel(5,"ch4"); pFlux->GetYaxis()->SetBinLabel(6,"ch5"); pFlux->GetYaxis()->SetBinLabel(7,"ch6"); pFlux->GetYaxis()->SetBinLabel(8,"ch7"); pFlux->GetYaxis()->SetBinLabel(9,"prim"); pFlux->GetYaxis()->SetBinLabel(10,"tot"); //end of hists definition Int_t iNevents=fLoader->GetRunLoader()->GetAliRun()->GetEventsPerRun(),iCntPrimParts=0,iCntTotParts=0; //load all needed trees fLoader->LoadHits(); fLoader->GetRunLoader()->LoadHeader(); fLoader->GetRunLoader()->LoadKinematics(); for(Int_t iEvtN=0;iEvtN < iNevents;iEvtN++){//events loop fLoader->GetRunLoader()->GetEvent(iEvtN); AliInfo(Form(" %i event processes",fLoader->GetRunLoader()->GetEventNumber())); AliStack *pStack= fLoader->GetRunLoader()->Stack(); for(Int_t iParticleN=0;iParticleNGetNtrack();iParticleN++){//stack loop TParticle *pPart=pStack->Particle(iParticleN); if(iParticleN%10000==0) AliInfo(Form(" %i particles read",iParticleN)); switch(pPart->GetPdgCode()){ case kProtonBar: pFlux->Fill(-4.5,9); if(pPart->Rho()<0.01) pFlux->Fill(-4.5,8); break; case kKMinus: pFlux->Fill(-3.5,9); if(pPart->Rho()<0.01) pFlux->Fill(-3.5,8); break; case kPiMinus: pFlux->Fill(-2.5,9); if(pPart->Rho()<0.01) pFlux->Fill(-2.5,8); break; case kMuonMinus: pFlux->Fill(-1.5,9); if(pPart->Rho()<0.01) pFlux->Fill(-1.5,8); break; case kPositron: pFlux->Fill(-0.5,9); if(pPart->Rho()<0.01) pFlux->Fill(-0.5,8); pEleAllP->Fill(-pPart->P()); break; case kElectron: pFlux->Fill( 0.5,9); if(pPart->Rho()<0.01) pFlux->Fill( 0.5,8); pEleAllP->Fill( pPart->P()); break; case kMuonPlus: pFlux->Fill( 1.5,9); if(pPart->Rho()<0.01) pFlux->Fill( 1.5,8); break; case kPiPlus: pFlux->Fill( 2.5,9); if(pPart->Rho()<0.01) pFlux->Fill( 2.5,8); break; case kKPlus: pFlux->Fill( 3.5,9); if(pPart->Rho()<0.01) pFlux->Fill( 3.5,8); break; case kProton: pFlux->Fill( 4.5,9); if(pPart->Rho()<0.01) pFlux->Fill( 4.5,8); break; }//switch }//stack loop //now hits analiser for(Int_t iEntryN=0;iEntryN < fLoader->TreeH()->GetEntries();iEntryN++){//TreeH loop fLoader->TreeH()->GetEntry(iEntryN); //get current entry (prim) for(Int_t iHitN=0;iHitN < Hits()->GetEntries();iHitN++){//hits loop AliHMPIDHit *pHit = (AliHMPIDHit*)Hits()->At(iHitN); //get current hit TParticle *pPart=pStack->Particle(pHit->GetTrack()); //get stack particle which produced the current hit if(pPart->GetPDG()->Charge()!=0&&pPart->Rho()>0.1) pVertex->Fill(pPart->Vx(),pPart->Vy()); //safe margin for sec. if(pPart->GetPDG()->Charge()!=0) pRho->Fill(pPart->Rho()); //safe margin for sec. if(pPart->R()>cutR) continue; //cut on production radius (cylindrical system) switch(pPart->GetPdgCode()){ case kProtonBar: if(pPart->P()>cutPantiproton) {pProHitP->Fill(-pPart->P()); pFlux->Fill(-4.5,pHit->Ch());}break; case kKMinus : if(pPart->P()>cutPkaonminus) {pKaoHitP->Fill(-pPart->P()); pFlux->Fill(-3.5,pHit->Ch());}break; case kPiMinus : if(pPart->P()>cutPpionminus) {pPioHitP->Fill(-pPart->P()); pFlux->Fill(-2.5,pHit->Ch());}break; case kMuonMinus: if(pPart->P()>cutPmuonminus) {pMuoHitP->Fill(-pPart->P()); pFlux->Fill(-1.5,pHit->Ch());}break; case kPositron : if(pPart->P()>cutPpositron) {pEleHitP->Fill(-pPart->P()); pFlux->Fill(-0.5,pHit->Ch()); pEleHitRP->Fill(-pPart->P(),pPart->R()); pEleHitRZ->Fill(pPart->Vz(),pPart->R()); }break; case kElectron : if(pPart->P()>cutPelectron) {pEleHitP->Fill( pPart->P()); pFlux->Fill( 0.5,pHit->Ch()); pEleHitRP->Fill( pPart->P(),pPart->R()); pEleHitRZ->Fill(pPart->Vz(),pPart->R()); }break; case kMuonPlus : if(pPart->P()>cutPmuonplus) {pMuoHitP->Fill( pPart->P()); pFlux->Fill( 1.5,pHit->Ch());}break; case kPiPlus : if(pPart->P()>cutPpionplus) {pPioHitP->Fill( pPart->P()); pFlux->Fill( 2.5,pHit->Ch());}break; case kKPlus : if(pPart->P()>cutPkaonplus) {pKaoHitP->Fill( pPart->P()); pFlux->Fill( 3.5,pHit->Ch());}break; case kProton : if(pPart->P()>cutPproton) {pProHitP->Fill( pPart->P()); pFlux->Fill( 4.5,pHit->Ch());}break; } }//hits loop }//TreeH loop iCntPrimParts +=pStack->GetNprimary(); iCntTotParts +=pStack->GetNtrack(); }//events loop //unload all loaded staff fLoader->UnloadHits(); fLoader->GetRunLoader()->UnloadHeader(); fLoader->GetRunLoader()->UnloadKinematics(); //Calculater some sums Stat_t sum=0; //sum row, sum over rows for(Int_t i=1;i<=pFlux->GetNbinsX();i++){ sum=0; for(Int_t j=2;j<=8;j++) sum+=pFlux->GetBinContent(i,j); pFlux->SetBinContent(i,1,sum); } //display everything new TCanvas("canvas1",Form("Events %i Nprims=%i Nparticles=%i",iNevents,iCntPrimParts,iCntTotParts),1000,900); pFlux->Draw("text"); gPad->SetGrid(); //total prims and particles TLatex latex; latex.SetTextSize(0.02); sum=0; for(Int_t i=1;i<=pFlux->GetNbinsX();i++) sum+=pFlux->GetBinContent(i,10); latex.DrawLatex(5.1,9.5,Form("%.0f",sum)); sum=0; for(Int_t i=1;i<=pFlux->GetNbinsX();i++) sum+=pFlux->GetBinContent(i,9); latex.DrawLatex(5.1,8.5,Form("%.0f",sum)); for(Int_t iCh=0;iCh<7;iCh++) { sum=0; for(Int_t i=1;i<=pFlux->GetNbinsX();i++) sum+=pFlux->GetBinContent(i,iCh+2);latex.DrawLatex(5.1,iCh+1.5,Form("%.0f",sum)); } sum=0; for(Int_t i=1;i<=pFlux->GetNbinsX();i++) sum+=pFlux->GetBinContent(i,1); latex.DrawLatex(5.1,0.5,Form("%.0f",sum)); new TCanvas("cEleAllP" ,"e" ,200,100); pEleAllP->Draw(); new TCanvas("cEleHitRP" ,"e" ,200,100); pEleHitRP->Draw(); new TCanvas("cEleHitRZ" ,"e" ,200,100); pEleHitRZ->Draw(); new TCanvas("cEleHitP" ,"e" ,200,100); pEleHitP->Draw(); new TCanvas("cMuoHitP" ,"mu",200,100); pMuoHitP->Draw(); new TCanvas("cPioHitP" ,"pi",200,100); pPioHitP->Draw(); new TCanvas("cKaoHitP" ,"K" ,200,100); pKaoHitP->Draw(); new TCanvas("cProHitP" ,"p" ,200,100); pProHitP->Draw(); new TCanvas("cVertex" ,"2d vertex" ,200,100); pVertex->Draw(); new TCanvas("cRho" ,"Rho of sec" ,200,100); pRho->Draw(); gBenchmark->Show("HitsPlots"); }//HitQA() void RecWithStack() { al->LoadHeader();al->LoadKinematics(); AliStack *pStk=al->Stack(); AliESD *pEsd=new AliESD; for(Int_t iTrk=0;iTrkGetNtrack();iTrk++){//stack loop TParticle *pPart=pStk->Particle(iTrk); if(pPart->GetPDG()->Charge()==0) continue; //neutral particles are not reconstructed pEsd->AddTrack(new AliESDtrack(pPart)); }//stack loop pEsd->Print(); AliTracker::SetFieldMap(new AliMagF,1); AliHMPIDTracker t; rl->LoadRecPoints(); t.LoadClusters(rl->TreeR()); t.PropagateBack(pEsd); rl->UnloadRecPoints(); } void AliHMPIDReconstructor::CluQA(AliRunLoader *pAL) { // Quality assesment plots for clusters. // This methode takes list of digits and form list of clusters again in order to // calculate cluster shape and cluster particle mixture AliLoader *pRL=pAL->GetDetectorLoader("HMPID"); AliHMPID *pRich=(AliHMPID*)pAL->GetAliRun()->GetDetector("HMPID");//get pointers for HMPID and HMPID loader Int_t iNevt=pAL->GetNumberOfEvents(); if(iNevt==0) {AliInfoClass("No events");return;} if(pRL->LoadDigits()) {AliInfoClass("No digits file");return;} pAL->LoadHeader(); pAL->LoadKinematics(); // AliStack *pStack=pAL->Stack(); TH1::AddDirectory(kFALSE); TH1F* pQ=new TH1F("RiAllQ" ,"Charge All" ,4000 ,0 ,4000);// Q hists TH1F* pCerQ=new TH1F("RiCerQ" ,"Charge Ckov" ,4000 ,0 ,4000); TH1F* pMipQ=new TH1F("RiMipQ" ,"Charge MIP" ,4000 ,0 ,4000); TH1F* pS=new TH1F("RichCluSize" ,"Cluster size;size" ,100 ,0 ,100 );// size hists TH1F* pCerS=new TH1F("RichCluCerSize" ,"Ckov size;size" ,100 ,0 ,100 ); TH1F* pMipS=new TH1F("RichCluMipSize" ,"MIP size;size" ,100 ,0 ,100 ); TH2F* pM=new TH2F("RichCluMap" ,"Cluster map;x [cm];y [cm]" ,1000 ,0 ,AliHMPIDDigit::SizePcX(),1000,0,AliHMPIDDigit::SizePcY()); // maps TH2F* pMipM=new TH2F("RichCluMipMap" ,"MIP map;x [cm];y [cm]" ,1000 ,0 ,AliHMPIDDigit::SizePcX(),1000,0,AliHMPIDDigit::SizePcY()); TH2F* pCerM=new TH2F("RichCluCerMap" ,"Ckov map;x [cm];y [cm]" ,1000 ,0 ,AliHMPIDDigit::SizePcX(),1000,0,AliHMPIDDigit::SizePcY()); for(Int_t iEvt=0;iEvtGetEvent(iEvt); pRL->TreeD()->GetEntry(0); TClonesArray *pCluLst=new TClonesArray("AliHMPIDCluster");//tmp list of clusters for this event for(Int_t iCh=0;iCh<7;iCh++) Dig2Clu(pRich->DigLst(iCh),pCluLst,kFALSE);//cluster finder for all chamber if any digits present for(Int_t iClu=0;iCluGetEntriesFast();iClu++){ AliHMPIDCluster *pClu = (AliHMPIDCluster*)pCluLst->At(iClu); Int_t cfm=0; for(Int_t iDig=0;iDigSize();iDig++) cfm+=pClu->Dig(iDig)->Ch(); //collect ckov-fee-mip structure of current cluster ????? Int_t iNckov=cfm/1000000; Int_t iNfee =cfm%1000000/1000; Int_t iNmip =cfm%1000000%1000; pQ ->Fill(pClu->Q()) ; pS ->Fill(pClu->Size()) ; pM ->Fill(pClu->X(),pClu->Y()); //all clusters if(iNckov!=0 && iNfee==0 && iNmip==0) {pCerQ->Fill(pClu->Q()) ; pCerS->Fill(pClu->Size()) ; pCerM ->Fill(pClu->X(),pClu->Y());}//ckov only cluster if(iNckov==0 && iNfee==0 && iNmip!=0) {pMipQ->Fill(pClu->Q()) ; pMipS->Fill(pClu->Size()) ; pMipM ->Fill(pClu->X(),pClu->Y());}//mip only cluster }//clusters loop pCluLst->Clear();delete pCluLst; }//events loop pRL->UnloadDigits(); pAL->UnloadKinematics(); pAL->UnloadHeader(); TCanvas *pC=new TCanvas("RichCluQA",Form("QA for cluster from %i events",iNevt),1000,900); pC->Divide(3,3); pC->cd(1); pM->Draw(); pC->cd(2); pQ->Draw(); pC->cd(3); pS->Draw(); pC->cd(4); pMipM->Draw(); pC->cd(5); pMipQ->Draw(); pC->cd(6); pMipS->Draw(); pC->cd(7); pCerM->Draw(); pC->cd(8); pCerQ->Draw(); pC->cd(9); pCerS->Draw(); }//CluQA() void AliHMPID::OccupancyPrint(Int_t iEvtNreq) { //prints occupancy for each chamber in a given event Int_t iEvtNmin,iEvtNmax; if(iEvtNreq==-1){ iEvtNmin=0; iEvtNmax=gAlice->GetEventsPerRun(); } else { iEvtNmin=iEvtNreq;iEvtNmax=iEvtNreq+1; } if(GetLoader()->GetRunLoader()->LoadHeader()) return; if(GetLoader()->GetRunLoader()->LoadKinematics()) return; // Info("Occupancy","for event %i",iEvtN); if(GetLoader()->LoadHits()) return; if(GetLoader()->LoadDigits()) return; for(Int_t iEvtN=iEvtNmin;iEvtNGetRunLoader()->GetEvent(iEvtN)) return; AliStack *pStack = GetLoader()->GetRunLoader()->Stack(); for(Int_t iPrimN=0;iPrimNTreeH()->GetEntries();iPrimN++){//prims loop GetLoader()->TreeH()->GetEntry(iPrimN); for(Int_t iHitN=0;iHitNGetEntries();iHitN++){ AliHMPIDHit *pHit = (AliHMPIDHit*)Hits()->At(iHitN); if(pHit->E()>0){ iChHits[pHit->Ch()]++; if(pStack->Particle(pHit->GetTrack())->Rho()<0.01) nPrim[pHit->Ch()]++;else nSec[pHit->Ch()]++; } } } GetLoader()->TreeD()->GetEntry(0); for(Int_t iCh=0;iCh<7;iCh++){ for(Int_t iDig=0;iDigGetEntries();iDig++){ AliHMPIDDigit *pDig=(AliHMPIDDigit*)DigLst(iCh)->At(iDig); nDigCh[pDig->Ch()]++; } Printf("Occupancy for chamber %i = %4.2f %% and charged prim tracks %i and sec. tracks %i with total %i", iCh,Float_t(nDigCh[iCh])*100/AliHMPIDDigit::kPadAll,nPrim[iCh],nSec[iCh],iChHits[iCh]); } }//events loop GetLoader()->UnloadHits(); GetLoader()->UnloadDigits(); GetLoader()->GetRunLoader()->UnloadHeader(); GetLoader()->GetRunLoader()->UnloadKinematics(); } //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ void AliHMPID::SummaryOfEvent(Int_t iEvtN) const { //prints a summary for a given event AliInfo(Form("Summary of event %i",iEvtN)); GetLoader()->GetRunLoader()->GetEvent(iEvtN); if(GetLoader()->GetRunLoader()->LoadHeader()) return; if(GetLoader()->GetRunLoader()->LoadKinematics()) return; AliStack *pStack=GetLoader()->GetRunLoader()->Stack(); AliGenEventHeader* pGenHeader = gAlice->GetHeader()->GenEventHeader(); if(pGenHeader->InheritsFrom("AliGenHijingEventHeader")) { AliInfo(Form(" Hijing event with impact parameter b = %.2f (fm)",((AliGenHijingEventHeader*) pGenHeader)->ImpactParameter())); } Int_t nChargedPrimaries=0; for(Int_t i=0;iGetNtrack();i++) { TParticle *pParticle = pStack->Particle(i); if(pParticle->IsPrimary()&&pParticle->GetPDG()->Charge()!=0) nChargedPrimaries++; } AliInfo(Form("Total number of primaries %i",pStack->GetNprimary())); AliInfo(Form("Total number of charged primaries %i",nChargedPrimaries)); AliInfo(Form("Total n. of tracks in stack(+sec) %i",pStack->GetNtrack())); GetLoader()->GetRunLoader()->UnloadHeader(); GetLoader()->GetRunLoader()->UnloadKinematics(); } //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++