--- /dev/null
+#if !defined(__CINT__) || defined(__MAKECINT__)
+#include <TCanvas.h>
+#include <TGrid.h>
+#include <TFile.h>
+#include <TList.h>
+#include <TGridResult.h>
+#include <TPaveStats.h>
+#include <TGraph.h>
+#include <TMath.h>
+#include <TGraphErrors.h>
+#include <TH1.h>
+#include <TF1.h>
+#include <TH2.h>
+#include <TLegend.h>
+#include <TLegendEntry.h>
+#include <TLatex.h>
+#include <TStyle.h>
+#include <TROOT.h>
+#endif
+
+void PlotGeneral(TFile* fildat, TCanvas**& clist, Int_t& cnum);
+void PlotITSsa(TFile* fildat, TCanvas**& clist, Int_t& cnum);
+void PlotSDD(TFile* fildat, TCanvas**& clist, Int_t& cnum);
+void GetGainModuleLevelSSD(TFile* fildat, TCanvas**& clist, Int_t& cnum);
+void VertexQAMacro(TFile *fildat, TCanvas **&clist, Int_t &cnum);
+void PlotSPD(TFile* fildat, TFile* filMC, TCanvas**& clist, Int_t& cnum);
+Bool_t PlotITSTPCMatchingEff(TFile *f, TCanvas**& clist,Int_t& cnum);
+void SetDrawAtt(Int_t markerstyle,Int_t markercolor,Int_t markersize,Int_t linecolor,Int_t linewidth,TH1 *h1);
+Double_t LangausFun(Double_t *x, Double_t *par);
+void SaveC(TFile &fout, TCanvas**& clist, Int_t cnum);
+
+//_______________________________________________________________________
+void AliITSQAchecks_prova(TString option="local",
+ Int_t nRun=167713,
+ TString period="LHC11h",
+ TString qaTrain="QA90",
+TString filenamedata="QAresults.root", TString filenameMC="alien:///alice/data/2011/LHC11h/000167706/ESDs/pass1_HLT/QA90/QAresults.root"){
+ // option: "local" if filenamedata is the name of a local file
+ // "grid" if on alien
+ // Select here what you want to display
+ // the complete selection string is
+ // "general ITSSA SPD SDD SSD vertex ITSTPC"
+ // TString selection("general ITSSA SPD SDD SSD vertex ITSTPC");
+ TString selection("general ITSSA SPD SDD SSD vertex ITSTPC");
+ gROOT->SetStyle("Plain");
+ gStyle->SetOptStat(1111);
+ TFile *fildat;
+ TString path;
+ Int_t year=2011;
+ if(period.Contains("LHC10")) year=2010;
+ else if(period.Contains("LHC09")) year=2009;
+
+ if(option.Contains("local")){
+ fildat=new TFile(filenamedata.Data());
+ printf("Opened file %s\n",fildat->GetName());
+ }else{
+ TGrid::Connect("alien:");
+ if(qaTrain.Contains("QA")){
+ path=Form("/alice/data/%d/%s/%09d/ESDs/pass1_HLT/%s",year,period.Data(),nRun,qaTrain.Data());
+ } else {
+ path=Form("/alice/data/%d/%s/%09d/ESDs/pass1_HLT/",year,period.Data(),nRun);
+ }
+ printf("search in path %s\n",path.Data());
+ if(!gGrid||!gGrid->IsConnected()) {
+ printf("gGrid not found! exit macro\n");
+ return;
+ }
+ TGridResult *gr = gGrid->Query(path,filenamedata);
+ Int_t nFiles = gr->GetEntries();
+ if (nFiles < 1){
+ printf("QA file for run %d not found\n",nRun);
+ return;
+ }
+ printf("================>%d files found\n", nFiles);
+
+ Int_t theFile=0;
+ Int_t maxVer=0;
+ if (nFiles > 1){
+ for (Int_t iFil = 0; iFil <nFiles ; iFil++) {
+ filenamedata=Form("%s",gr->GetKey(iFil,"turl"));
+ TString cutFilename=filenamedata.ReplaceAll("/QAresults.root","");
+ Int_t last=cutFilename.Sizeof()-3;
+ cutFilename.Remove(0,last);
+ Int_t qaver=atoi(cutFilename.Data());
+ if(qaver>maxVer){
+ maxVer=qaver;
+ theFile=iFil;
+ }
+ }
+ }
+ filenamedata=Form("%s",gr->GetKey(theFile,"turl"));
+ fildat=TFile::Open(filenamedata.Data());
+ }
+ if(option.Contains("local") && filenameMC.Contains("alien"))TGrid::Connect("alien:");
+ TFile* filMC=TFile::Open(filenameMC.Data());
+ TCanvas** clist;
+ Int_t cnum;
+ TFile fout("Outfil.root","recreate");
+ if(selection.Contains("general")){
+ PlotGeneral(fildat,clist,cnum);
+ printf("GENERAL - cnum = %d\n",cnum);
+ SaveC(fout,clist,cnum);
+ }
+ if(selection.Contains("ITSSA")){
+ PlotITSsa(fildat,clist,cnum);
+ printf("ITSSA - cnum = %d\n",cnum);
+ SaveC(fout,clist,cnum);
+ }
+ if(selection.Contains("SDD")){
+ PlotSDD(fildat,clist,cnum);
+ printf("SDD - cnum = %d\n",cnum);
+ SaveC(fout,clist,cnum);
+ }
+ if(selection.Contains("SSD")){
+ GetGainModuleLevelSSD(fildat,clist,cnum);
+ printf("SSD - cnum = %d\n",cnum);
+ SaveC(fout,clist,cnum);
+ }
+ if(selection.Contains("vertex")){
+ VertexQAMacro(fildat,clist,cnum);
+ printf("VERTEX - cnum = %d\n",cnum);
+ SaveC(fout,clist,cnum);
+ }
+ if(selection.Contains("SPD")){
+ PlotSPD(fildat,filMC,clist,cnum);
+ printf("SPD - cnum = %d\n",cnum);
+ SaveC(fout,clist,cnum);
+ }
+ if(selection.Contains("ITSTPC")){
+ PlotITSTPCMatchingEff(fildat,clist,cnum);
+ printf("ITSTPC - cnum = %d\n",cnum);
+ SaveC(fout,clist,cnum);
+ }
+
+ fout.Close();
+
+}
+
+//_______________________________________________________________________
+void PlotGeneral(TFile* fildat, TCanvas**& clist, Int_t& cnum){
+ TDirectoryFile* df=(TDirectoryFile*)fildat->Get("SDD_Performance");
+ if(!df){
+ printf("SDD_Performance MISSING -> Exit\n");
+ return;
+ }
+ TList* l=(TList*)df->Get("coutputRP");
+ if(!df){
+ printf("coutputRP TList MISSING -> Exit\n");
+ return;
+ }
+ cnum=1; // number of canvases
+ clist= new TCanvas* [1];//array of pointers to TCanvases
+ gROOT->SetStyle("Plain");
+ gStyle->SetOptStat(1111);
+ TH1F* hcllay=(TH1F*)l->FindObject("hCluInLay");
+ TH1F* hev=(TH1F*)l->FindObject("hNEvents");
+ Int_t nTotEvents=hev->GetBinContent(2);
+ Int_t nTrigEvents=hev->GetBinContent(3);
+ Int_t nEvents=nTotEvents;
+ printf("---- Statistics ----\n");
+ printf("Number of Events = %d\n",nTotEvents);
+ if(nTrigEvents>0){
+ printf("Number of Triggered Events = %d\n",nTrigEvents);
+ nEvents=nTrigEvents;
+ }else{
+ printf("No request on the trigger done when running the task\n");
+ }
+ if(hcllay){
+ Double_t norm=hcllay->GetBinContent(1);
+ if(norm>0.){
+ hcllay->Scale(1./norm);
+ hcllay->SetTitle("");
+ hcllay->GetXaxis()->SetRange(2,7);
+ hcllay->SetMinimum(0.);
+ hcllay->SetMaximum(1.1);
+ hcllay->SetMarkerStyle(23);
+ TCanvas* ceffL=new TCanvas("ceffL","General checks: PointPerLayer",1000,800);
+ clist[0]=ceffL;
+ // ceffL->Divide(1,2);
+ // ceffL->cd(1);
+ ceffL->SetGridy();
+ hcllay->Draw();
+ TLatex* tg=new TLatex(0.15,0.2,"Fraction of tracks with point in ITS layer");
+ tg->SetTextSize(0.04);
+ tg->SetNDC();
+ tg->SetTextColor(1);
+ tg->Draw();
+ hcllay->GetXaxis()->SetTitle("Layer");
+ hcllay->GetYaxis()->SetTitle("Fraction of tracks with point in layer");
+ ceffL->Update();
+ ceffL->SaveAs("track_points_per_layer.pdf");
+ }
+ }
+}
+
+
+//_______________________________________________________________________
+//////////////////////////////////////////////////////////////////////
+/// ITSsa ////////////////////////////////////////////////////////////
+//////////////////////////////////////////////////////////////////////
+ void PlotITSsa(TFile* fildat, TCanvas**& clist, Int_t& cnum){
+ TDirectoryFile* df=(TDirectoryFile*)fildat->Get("TracksITSsa");
+ if(!df) df=(TDirectoryFile*)fildat->Get("ITSsaTracks");
+ if(!df){
+ printf("ITSsa_Performance MISSING -> Exit\n");
+ return;
+ }
+
+ TList* l=(TList*)df->Get("clistITSsaTracks");
+ if(!df){
+ printf("clistITSsaTracks TList MISSING -> Exit\n");
+ return;
+ }
+ cnum=2; // number of canvases
+ clist= new TCanvas* [2];//array of pointers to TCanvases
+ gROOT->SetStyle("Plain");
+ gStyle->SetOptStat(1111);
+
+
+ TH1F* hPtTPCITS=(TH1F*)l->FindObject("hPtTPCITS");
+ TH1F* hPtITSsa=(TH1F*)l->FindObject("hPtITSsa");
+ TH1F* hPtITSpureSA=(TH1F*)l->FindObject("hPtITSpureSA");
+
+ TH2F* hEtaPhiTPCITS=(TH2F*)l->FindObject("hEtaPhiTPCITS");
+ TH2F* hEtaPhiITSsa=(TH2F*)l->FindObject("hEtaPhiITSsa");
+ TH2F* hEtaPhiITSpureSA=(TH2F*)l->FindObject("hEtaPhiITSpureSA");
+
+ TH1F* hRatio=(TH1F*)hPtTPCITS->Clone("hRatio");
+ TH1F* hRatio1=(TH1F*)hPtTPCITS->Clone("hRatio1");
+ hRatio->Add(hPtITSsa);
+ hRatio->Divide(hPtITSpureSA);
+ hRatio->SetStats(0);
+ hRatio1->Divide(hPtITSsa);
+ hRatio1->SetStats(0);
+
+ TCanvas* cITSsa1=new TCanvas("cITSsa1","ITS standalone: performance vs Pt",1200,1200);
+ clist[0]=cITSsa1;
+ cITSsa1->Divide(1,2);
+ cITSsa1->cd(1);
+ // hPtITSpureSA->Draw();
+ // hPtITSpureSA->GetXaxis()->SetTitle("Pt (GeV/c)");
+ // gPad->Update();
+ // TPaveStats *st1=(TPaveStats*)hPtITSpureSA->GetListOfFunctions()->FindObject("stats");
+ // st1->SetY1NDC(0.71);
+ // st1->SetY2NDC(0.9);
+ hPtTPCITS->SetLineColor(2);
+ hPtTPCITS->GetXaxis()->SetTitle("Pt (GeV/c)");
+ // hPtTPCITS->Draw("sames");
+ hPtTPCITS->Draw();
+ gPad->Update();
+ TPaveStats *st2=(TPaveStats*)hPtTPCITS->GetListOfFunctions()->FindObject("stats");
+ st2->SetY1NDC(0.71);
+ st2->SetY2NDC(0.9);
+ st2->SetTextColor(2);
+
+ hPtITSsa->SetLineColor(4);
+ hPtITSsa->Draw("sames");
+ gPad->Update();
+ TPaveStats *st3=(TPaveStats*)hPtITSsa->GetListOfFunctions()->FindObject("stats");
+ st3->SetY1NDC(0.51);
+ st3->SetY2NDC(0.7);
+ st3->SetTextColor(4);
+ TLegend* leg=new TLegend(0.5,0.5,0.69,0.79);
+ leg->SetFillColor(0);
+ TLegendEntry* ent=leg->AddEntry(hPtTPCITS,"TPC+ITS","L");
+ ent->SetTextColor(hPtTPCITS->GetLineColor());
+ ent=leg->AddEntry(hPtITSsa,"ITSsa","L");
+ ent->SetTextColor(hPtITSsa->GetLineColor());
+ // to be used only with pp data (ITS pure SA)
+ // ent=leg->AddEntry(hPtITSpureSA,"ITS pureSA","L");
+ //ent->SetTextColor(hPtITSpureSA->GetLineColor());
+ leg->Draw();
+ cITSsa1->cd(2);
+ gPad->SetGridx();
+ gPad->SetGridy();
+ hRatio1->GetXaxis()->SetTitle("Pt (GeV/c)");
+ hRatio1->GetYaxis()->SetTitle("TPCITS/ITSsa");
+ // hRatio->GetYaxis()->SetTitle("(TPCITS+ITSsa)/ITSpureSA");
+ hRatio1->DrawCopy();
+ TLatex* tratio=new TLatex(0.2,0.75,"TPC+ITS/ITSsa vs Pt");
+ tratio->SetNDC();
+ tratio->SetTextColor(1);
+ tratio->Draw();
+ cITSsa1->Update();
+ cITSsa1->SaveAs("ITSsa1.pdf");
+ gStyle->SetPalette(1);
+ hEtaPhiITSpureSA->SetStats(0);
+ hEtaPhiITSpureSA->SetTitle("ITS pureSA");
+ hEtaPhiITSsa->SetStats(0);
+ hEtaPhiITSsa->SetTitle("ITSsa tracks");
+ hEtaPhiTPCITS->SetStats(0);
+ hEtaPhiTPCITS->SetTitle("TPC+ITS tracks");
+ TCanvas* cITSsa2=new TCanvas("cITSsa2","Eta-phi distribution for ITSsa and TPC+ITS tracks",1200,800);
+ clist[1]=cITSsa2;
+ // cITSsa2->Divide(3,1); for ITSpuresa
+ cITSsa2->Divide(2,1);
+ cITSsa2->cd(1);
+ // TPad* p1=new TPad("p1","Tracking: tracks distribution in EtaPhi",0,0.5,1.,1.);
+ // p1->Divide(3,1);
+ // p1->cd (1);
+ // hEtaPhiITSpureSA->Draw("colz");
+ // hEtaPhiITSpureSA->GetXaxis()->SetTitle("Eta");
+ // hEtaPhiITSpureSA->GetYaxis()->SetTitle("Phi");
+ // cITSsa2->cd(2);
+ // p1->cd(2);
+ hEtaPhiITSsa->Draw("colz");
+ hEtaPhiITSsa->GetXaxis()->SetTitle("Eta");
+ hEtaPhiITSsa->GetYaxis()->SetTitle("Phi");
+ cITSsa2->cd(2);
+ // p1->cd(3);
+ hEtaPhiTPCITS->Draw("colz");
+ hEtaPhiTPCITS->GetXaxis()->SetTitle("Eta");
+ hEtaPhiTPCITS->GetYaxis()->SetTitle("Phi");
+ // c4->cd(4);
+ cITSsa2->SaveAs("ITSsa2.pdf");
+}
+
+//-----------------------------------------------------
+// /////////// Plot SDD ////////////
+//_______________________________________________________________________
+void SetDrawAtt(Int_t markerstyle,Int_t markercolor,Int_t markersize,Int_t linecolor,Int_t linewidth,TH1 *h1){
+
+
+ h1->SetMarkerStyle(markerstyle);
+ h1->SetMarkerColor(markercolor);
+ h1->SetMarkerSize(markersize);
+ h1->SetLineColor(linecolor);
+ h1->SetLineWidth(linewidth);
+}
+
+//_______________________________________________________________________
+Double_t LangausFun(Double_t *x, Double_t *par) {
+
+ //Fit parameters:
+ //par[0]=Width (scale) parameter of Landau density
+ //par[1]=Most Probable (MP, location) parameter of Landau density
+ //par[2]=Total area (integral -inf to inf, normalization constant)
+ //par[3]=Width (sigma) of convoluted Gaussian function
+ //
+ //In the Landau distribution (represented by the CERNLIB approximation),
+ //the maximum is located at x=-0.22278298 with the location parameter=0.
+ //This shift is corrected within this function, so that the actual
+ //maximum is identical to the MP parameter.
+
+ // Numeric constants
+ Double_t invsq2pi = 0.3989422804014; // (2 pi)^(-1/2)
+ Double_t mpshift = -0.22278298; // Landau maximum location
+
+ // Control constants
+ Double_t np = 100.0; // number of convolution steps
+ Double_t sc = 5.0; // convolution extends to +-sc Gaussian sigmas
+
+ // Variables
+ Double_t xx;
+ Double_t mpc;
+ Double_t fland;
+ Double_t sum = 0.0;
+ Double_t xlow,xupp;
+ Double_t step;
+ Double_t i;
+
+
+ // MP shift correction
+ mpc = par[1] - mpshift * par[0];
+
+ // Range of convolution integral
+ xlow = x[0] - sc * par[3];
+ xupp = x[0] + sc * par[3];
+
+ step = (xupp-xlow) / np;
+
+ // Convolution integral of Landau and Gaussian by sum
+ for(i=1.0; i<=np/2; i++) {
+ xx = xlow + (i-.5) * step;
+ fland = TMath::Landau(xx,mpc,par[0]) / par[0];
+ sum += fland * TMath::Gaus(x[0],xx,par[3]);
+
+ xx = xupp - (i-.5) * step;
+ fland = TMath::Landau(xx,mpc,par[0]) / par[0];
+ sum += fland * TMath::Gaus(x[0],xx,par[3]);
+ }
+
+ return (par[2] * step * sum * invsq2pi / par[3]);
+
+}
+//_________________________________________________________________________
+void PlotSDD(TFile* fildat, TCanvas**& clist, Int_t& cnum){
+ TDirectoryFile* df=(TDirectoryFile*)fildat->Get("SDD_Performance");
+ if(!df){
+ printf("SDD_Performance MISSING -> Exit\n");
+ return;
+ }
+ TList* l=(TList*)df->Get("coutputRP");
+ if(!df){
+ printf("coutputRP TList MISSING -> Exit\n");
+ return;
+ }
+ cnum=1; // number of canvases
+ clist= new TCanvas* [cnum];//array of pointers to TCanvases
+ gROOT->SetStyle("Plain");
+ gStyle->SetOptStat(1111);
+ TH1F* htimT=(TH1F*)l->FindObject("hDrTimTPAll");
+ TH1F* htimTe=(TH1F*)l->FindObject("hDrTimTPExtra");
+ TH1F* htimTne=(TH1F*)l->FindObject("hDrTimTPNoExtra");
+ htimT->Rebin(4);
+ htimTe->Rebin(4);
+ htimTne->Rebin(4);
+ htimT->SetLineWidth(2);
+ htimTe->SetLineWidth(2);
+ htimTne->SetLineWidth(2);
+ // TH1F* hev=(TH1F*)l->FindObject("hNEvents");
+ // Int_t nTotEvents=hev->GetBinContent(2);
+ // Int_t nTrigEvents=hev->GetBinContent(3);
+ // Int_t nEvents=nTotEvents;
+ // printf("---- Statistics ----\n");
+ // printf("Number of Events = %d\n",nTotEvents);
+ // if(nTrigEvents>0){
+ // printf("Number of Triggered Events = %d\n",nTrigEvents);
+ // nEvents=nTrigEvents;
+ // }else{
+ // printf("No request on the trigger done when running the task\n");
+ // }
+ // if(hcllay){
+ // Double_t norm=hcllay->GetBinContent(1);
+ // if(norm>0.){
+ // hcllay->Scale(1./norm);
+ // hcllay->SetTitle("");
+ // hcllay->GetXaxis()->SetRange(2,7);
+ // hcllay->SetMinimum(0.);
+ // hcllay->SetMaximum(1.1);
+ // hcllay->SetMarkerStyle(23);
+ // TCanvas* ceffL=new TCanvas("ceffL","General: PointPerLayer",800,1000);
+ // clist[0]=ceffL;
+ // ceffL->Divide(1,2);
+ // ceffL->cd(1);
+ // ceffL->SetGridy();
+ // hcllay->Draw();
+ // hcllay->GetXaxis()->SetTitle("Layer");
+ // hcllay->GetYaxis()->SetTitle("Fraction of tracks with point in layer");
+ // ceffL->Update();
+ // }
+ // }
+ TH1F* hSigTim[8];
+ TGraphErrors* gmpv=new TGraphErrors(0);
+ TGraphErrors* gsigg=new TGraphErrors(0);
+ TGraphErrors* gsigl=new TGraphErrors(0);
+ gmpv->SetTitle("");
+ gsigg->SetTitle("");
+ gsigl->SetTitle("");
+ Int_t iPoint=0;
+ TF1 *lfun = new TF1("LangausFun",LangausFun,50.,300.,4);
+ for(Int_t it=0; it<8; it++){
+ hSigTim[it]=(TH1F*)l->FindObject(Form("hSigTimeInt%d",it));
+ if(hSigTim[it]->GetEntries()>200){
+ lfun->SetLineWidth(2);
+ lfun->SetParameter(0,5.);
+ lfun->SetParameter(1,80.);
+ lfun->SetParameter(2,hSigTim[it]->GetEntries()/10.);
+ lfun->SetParameter(3,10.);
+ lfun->SetParLimits(3,0.,20);
+
+ // hSigTim[it]->Fit("LangausFun","QLR");
+ hSigTim[it]->Fit("LangausFun","ON");
+ hSigTim[it]->GetXaxis()->SetTitle(Form("dE/dx, time interval %d",it+1));
+ hSigTim[it]->GetYaxis()->SetTitle("Events");
+ Float_t mpv=lfun->GetParameter(1);
+ Float_t empv=lfun->GetParError(1);
+ Float_t sig=lfun->GetParameter(3);
+ Float_t esig=lfun->GetParError(3);
+ Float_t sigl=lfun->GetParameter(0);
+ Float_t esigl=lfun->GetParError(0);
+ gmpv->SetPoint(iPoint,(Float_t)it,mpv);
+ gmpv->SetPointError(iPoint,0.,empv);
+ gsigg->SetPoint(iPoint,(Float_t)it,sig);
+ gsigg->SetPointError(iPoint,0.,esig);
+ gsigl->SetPoint(iPoint,(Float_t)it,sigl);
+ gsigl->SetPointError(iPoint,0.,esigl);
+ ++iPoint;
+ printf("Bin %d - MPV=%.3f \t SigmaLandau=%.3f \t SigmaGaus=%.3f\n",it,mpv,sigl,sig);
+ }
+ }
+ TCanvas* ctim=new TCanvas("ctim","SDD: DriftTime - dE/dx",800,1000);
+ clist[0]=ctim;
+ ctim->Divide(1,2);
+ ctim->cd(1);
+ // htimT->Draw();
+ // htimTe->SetLineColor(2);
+ // htimTe->Draw("same");
+ htimTne->SetLineColor(4);
+ htimTne->Draw("");
+ htimTne->GetXaxis()->SetTitle("Drift Time (ns)");
+ htimTne->GetYaxis()->SetTitle("TrackPoints");
+ htimTne->GetYaxis()->SetTitleOffset(1.2);
+ // TLatex* ta=new TLatex(0.5,0.85,"All Clusters");
+ // ta->SetNDC();
+ // ta->SetTextColor(1);
+ // ta->Draw();
+ // TLatex* te=new TLatex(0.5,0.8,"Extra Clusters");
+ // te->SetNDC();
+ // te->SetTextColor(2);
+ // te->Draw();
+ // TLatex* tn=new TLatex(0.3,0.3,"Non-Extra Clusters");
+ TLatex* tn=new TLatex(0.3,0.3,"Clusters on SDD modules");
+ tn->SetNDC();
+ tn->SetTextColor(4);
+ tn->Draw();
+ TLine* tlin3=new TLine(450.,0.,450.,htimTne->GetMaximum());
+ tlin3->SetLineColor(2);
+ tlin3->SetLineWidth(2);
+ tlin3->SetLineStyle(7);
+ tlin3->Draw("same");
+ TLine* tlin4=new TLine(620.,0.,620.,htimTne->GetMaximum());
+ tlin4->SetLineColor(2);
+ tlin4->SetLineWidth(2);
+ tlin4->SetLineStyle(7);
+ tlin4->Draw("same");
+ TLatex* tlimit1=new TLatex(0.2,0.5,"Range for t0");
+ tlimit1->SetNDC();
+ tlimit1->SetTextColor(2);
+ tlimit1->Draw();
+ TLine* tlin5=new TLine(6200.,0.,6200.,htimTne->GetMaximum());
+ tlin5->SetLineColor(2);
+ tlin5->SetLineStyle(7);
+ tlin5->SetLineWidth(2);
+ tlin5->Draw("same");
+ TLine* tlin6=new TLine(5150.,0.,5150.,htimTne->GetMaximum());
+ tlin6->SetLineColor(2);
+ tlin6->SetLineWidth(2);
+ tlin6->SetLineStyle(7);
+ tlin6->Draw("same");
+ TLatex* tlimit2=new TLatex(0.6,0.5,"Range for falling edge");
+ tlimit2->SetNDC();
+ tlimit2->SetTextColor(2);
+ tlimit2->Draw();
+
+ // ctim->Update();
+ // TCanvas* cpars=new TCanvas("cpars","Params",800,600);
+ ctim->cd(2);
+ gPad->SetLeftMargin(0.14);
+ gPad->SetFrameLineWidth(2);
+ gPad->SetTickx();
+ gPad->SetTicky();
+ gmpv->SetMarkerStyle(20);
+ gmpv->SetMinimum(75);
+ gmpv->SetMaximum(90);
+ gmpv->GetXaxis()->SetLimits(-0.2,6.8);
+ gmpv->Draw("AP");
+ gmpv->GetXaxis()->SetTitle("Drift Time interval number");
+ gmpv->GetYaxis()->SetTitle("Landau MPV (keV)");
+ gmpv->GetXaxis()->SetTitleSize(0.05);
+ gmpv->GetYaxis()->SetTitleSize(0.05);
+ gmpv->GetYaxis()->SetTitleOffset(1.2);
+ TLatex* tex=new TLatex(0.2,0.75,"dE/dx MPV vs Drift time interval");
+ tex->SetNDC();
+ tex->SetTextColor(1);
+ tex->Draw();
+ // cpars->Update();
+ ctim->Update();
+ ctim->SaveAs("SDD.pdf");
+}
+
+//_______________________________________________________________________
+//////////////// SSD ///////////////////////
+//_______________________________________________________________________
+void GetGainModuleLevelSSD(TFile* fildat, TCanvas**& clist, Int_t& cnum)
+{
+ gROOT->SetStyle("Plain");
+ gStyle->SetOptStat(1111);
+ gStyle->SetPalette(1,0);
+ cnum=1;
+ clist=new TCanvas*[1];
+
+ TDirectoryFile* df=(TDirectoryFile*)fildat->Get("PWG1dEdxSSDQA");
+ TList* listin=(TList*)df->Get("SSDdEdxQA");
+ if(!listin) return;
+ TH2F* fHistQ=0x0;
+ fHistQ=(TH2F*)listin ->FindObject("QACharge");
+ fHistQ->SetStats(111);
+ fHistQ->SetTitle("SSD Charge vs module number");
+if(!fHistQ) return;
+ TH2F* fHistCR=(TH2F*)listin ->FindObject("QAChargeRatio");
+ fHistCR->SetStats(0);
+ fHistCR->SetTitle("SSD Charge Ratio vs module number");
+
+ if(!fHistCR) return;
+
+ TH1F* fHistMPVs=new TH1F("SSD HistMPVS","HistMPVs;MPV;N",75,70,95);
+
+ TH1F* fHistCRmean=new TH1F("SSD HistCRmean","HistCRmean;CRmean;N",200,-1,1);
+
+ TH1F *fMPVGraph = new TH1F("SSD MPV","MPVgraph;Module number;MPV",1698,-0.5,1697.5);
+ fMPVGraph->SetMarkerColor(kRed);
+ fMPVGraph->SetMarkerSize(0.5);
+ fMPVGraph->SetMarkerStyle(22);
+ fMPVGraph->SetStats(111111);
+
+ TH1F *fCRmeanGraph = new TH1F("SSD CRmeangraph","CRmeangraph;Module number;MPV",1698,-0.5,1697.5);
+ fCRmeanGraph->SetMarkerColor(kBlue);
+ fCRmeanGraph->SetMarkerSize(0.5);
+ fCRmeanGraph->SetMarkerStyle(23);
+ fCRmeanGraph->SetStats(111111);
+
+ Float_t mpv[1698];
+ Int_t ntofit=200;
+
+ // ofstream outfiletxtbad;
+ //outfiletxtbad.open("QALHC11eCPass1_bis/badModules.txt");
+ for (int i =0;i<1698;i++)
+ {
+ // cout<<i<<endl;
+ TString tmpQ("Q");
+ tmpQ+=i;
+ TString tmpCR("CR");
+ tmpCR+=i;
+ TH1D* fHist1DCR= fHistCR->ProjectionY(tmpCR,i+1,i+1);
+ Double_t mean=fHist1DCR->GetMean();
+ if(!(TMath::Abs(mean)<1.0)||fHist1DCR->GetEntries()<10)
+ continue;
+ fHistCRmean->Fill(mean);
+ fCRmeanGraph->SetBinContent(i+1,mean);
+ fCRmeanGraph->SetBinError(i+1,fHist1DCR->GetRMS());
+ fCRmeanGraph->GetYaxis()->SetTitle("CR");
+ TH1D* fHist1DQ=fHistQ->ProjectionY(tmpQ,i+1,i+1);
+ //check bad modules
+ if(fHist1DQ->GetEntries()<ntofit)
+ {
+ //outfiletxtbad<<"Low statistic \t module= "<<i<<" netries="<<fHist1DQ->GetEntries()<<endl;
+ continue;
+ }
+ else
+ {
+ tmpQ+="fit";
+ Float_t range=fHist1DQ->GetBinCenter(fHist1DQ->GetMaximumBin());
+ TF1 *f1 = new TF1(tmpQ,LangausFun,range*0.45,range*3.0,4);
+ f1->SetParameters(7.0,range,1.0,5.5);
+ Float_t normalization=fHist1DQ->GetEntries()*fHist1DQ->GetXaxis()->GetBinWidth(2)/f1->Integral(range*0.45,range*3.0);
+ f1->SetParameters(7.0,range,normalization,5.5);
+ //f1->SetParameters(7.0,range,fHist1DQ->GetMaximum(),5.5);
+ f1->SetParNames("sigma Landau","MPV","N","sigma Gaus");
+ f1->SetParLimits(0,2.0,100.0);
+ f1->SetParLimits(3,0.0,100.0);
+ if(fHist1DQ->Fit(tmpQ,"BRQON")==0)
+ {
+ mpv[i]=f1->GetParameter(1);
+ fHistMPVs->Fill(mpv[i]);
+ fMPVGraph->SetBinContent(i+1,f1->GetParameter(1));
+ fMPVGraph->SetBinError(i+1,f1->GetParError(1));
+ if(mpv[i]<75.0)
+ {
+ //outfiletxtbad<<"MPV lower than 75 \t module="<<i<<endl;
+ }
+ if(mpv[i]>100.0)
+ {
+ // outfiletxtbad<<"MPV higher than 100 \t module="<<i<<endl;
+ }
+ if(f1->GetParError(1)>1.0)
+ {
+ //outfiletxtbad<<"MPV high error on MPV \t module="<<i<<endl;
+ }
+ }
+ else
+ {
+ mpv[i]=1;
+ //outfiletxtbad<<"BAD FIT \t module="<<i<<endl;
+ continue;
+ }
+ }
+ }
+
+
+ TCanvas *c1SSD = new TCanvas("c1SSD","SSD Calibration 1",1000,1000);
+ clist[0]=c1SSD;
+ c1SSD->Divide(2,3);
+ c1SSD->cd(1);
+ fHistQ->DrawCopy("colz");
+ c1SSD->cd(2);
+ fHistCR->DrawCopy("colz");
+
+ // TCanvas *c2SSD = new TCanvas("c2SSD","SSD Calibration 2",1000,1000);
+ //clist[1]=c2SSD;
+ //c2SSD->Divide(2,2);
+ c1SSD->cd(3);
+ fMPVGraph->DrawCopy();
+ TLine* tlin0=new TLine(0.,80.,1698.,80.);
+ tlin0->SetLineColor(2);
+ tlin0->SetLineWidth(2);
+ tlin0->Draw("same");
+ TLine* tlin01=new TLine(0.,90.,1698.,90.);
+ tlin01->SetLineColor(2);
+ tlin01->SetLineWidth(2);
+ tlin01->Draw("same");
+ c1SSD->cd(4);
+ fHistMPVs->DrawCopy();
+ c1SSD->cd(5);
+ fCRmeanGraph->DrawCopy();
+ TLine* tlin1=new TLine(0.,0.2,1698.,0.2);
+ tlin1->SetLineColor(2);
+ tlin1->SetLineWidth(2);
+ tlin1->Draw("same");
+ TLine* tlin2=new TLine(0.,-0.2,1698.,-0.2);
+ tlin2->SetLineColor(2);
+ tlin2->SetLineWidth(2);
+ tlin2->Draw("same");
+ TLatex* ta1=new TLatex(0.2,0.8,"SSD Calibration");
+ ta1->SetNDC();
+ ta1->SetTextSize(0.05);
+ ta1->SetTextColor(2);
+ ta1->Draw("same");
+ c1SSD->cd(6);
+ fHistCRmean->DrawCopy();
+ c1SSD->Update();
+ c1SSD->SaveAs("SSD.pdf");
+}
+
+//_______________________________________________________________________
+void VertexQAMacro(TFile *fildat, TCanvas **&clist, Int_t &cnum){
+
+ TDirectoryFile *dir = (TDirectoryFile*)fildat->Get("Vertex_Performance");
+ if(!dir){
+ Printf("Vertex directory not found... check!");
+ }
+
+ TList *lt = (TList*)dir->Get("cOutputVtxESD");
+
+ cnum = 1;
+ clist = new TCanvas*[1];
+
+
+ TH1F *xVtxSPD = (TH1F*)lt->FindObject("fhSPDVertexX");
+ TH1F *yVtxSPD = (TH1F*)lt->FindObject("fhSPDVertexY");
+ TH1F *zVtxSPD = (TH1F*)lt->FindObject("fhSPDVertexZ");
+
+ TH1F *zVtxSPD_Zonly = (TH1F*)lt->FindObject("fhSPDVertexZonly");
+
+ if(!zVtxSPD_Zonly){
+ Printf("using SPD 3D histo, Zonly not available");
+ zVtxSPD_Zonly = (TH1F*)lt->FindObject("fhSPDVertexZ");
+ }
+
+ TH1F *xVtxTRK = (TH1F*)lt->FindObject("fhTRKVertexX");
+ TH1F *yVtxTRK = (TH1F*)lt->FindObject("fhTRKVertexY");
+ TH1F *zVtxTRK = (TH1F*)lt->FindObject("fhTRKVertexZ");
+
+ TH2F *hntrksSPDvsSPDcls = (TH2F*)lt->FindObject("fhntrksSPDvsSPDcls");
+ TH2F *hntrksZvsSPDcls = (TH2F*)lt->FindObject("fhntrksZvsSPDcls");
+
+ Bool_t histoCorelation = kTRUE;
+
+ if(!hntrksZvsSPDcls){
+ Printf("skipping the second part, no 2D histos available");
+ histoCorelation=kFALSE;
+ }
+
+ TCanvas *TRK_SPD3D_Vtx = new TCanvas("TRKandSPD3DVtx", "TRKandSPD3DxVtx",1000,1000);
+ TRK_SPD3D_Vtx->Divide(3,2);
+ clist[0]=TRK_SPD3D_Vtx;
+ gStyle->SetOptFit(111);
+
+ TRK_SPD3D_Vtx->cd(1);
+ xVtxSPD->SetMarkerStyle(20);
+ xVtxSPD->SetLineWidth(3);
+ xVtxSPD->SetMarkerColor(kBlue+2);
+ TF1 *fx = new TF1("gaus", "gaus", -1, 1);
+ xVtxTRK->SetMarkerStyle(20);
+ xVtxTRK->SetLineWidth(4);
+ xVtxTRK->SetLineColor(2);
+ xVtxTRK->Draw("PE");
+ xVtxTRK->Fit("gaus", "M");
+ xVtxSPD->Draw("PE SAME");
+ xVtxTRK->GetXaxis()->SetRangeUser(-0.05, 0.15);
+ xVtxSPD->GetXaxis()->SetRangeUser(-0.05, 0.15);
+
+ TLatex* tVTX1=new TLatex(0.15,0.85,"VertexSPD");
+ tVTX1->SetNDC();
+ tVTX1->SetTextColor(kBlue+2);
+ tVTX1->Draw();
+ TLatex* tVTX2=new TLatex(0.15,0.8,"VertexTRK");
+ tVTX2->SetNDC();
+ tVTX2->SetTextColor(2);
+ tVTX2->Draw();
+
+ TRK_SPD3D_Vtx->cd(2);
+ yVtxSPD->SetMarkerStyle(20);
+ yVtxSPD->SetLineWidth(3);
+ yVtxSPD->SetMarkerColor(kBlue+2);
+ TF1 *fy = new TF1("gaus", "gaus", -1, 1);
+ yVtxTRK->SetMarkerStyle(20);
+ yVtxTRK->SetLineWidth(3);
+ yVtxTRK->SetLineColor(2);
+ yVtxTRK->Draw("PE");
+ yVtxTRK->Fit("gaus", "M");
+ yVtxSPD->Draw("PE SAME");
+ yVtxTRK->GetXaxis()->SetRangeUser(0.15, 0.4);
+ yVtxSPD->GetXaxis()->SetRangeUser(0.15, 0.4);
+
+ TLatex* tVTX3=new TLatex(0.15,0.85,"VertexSPD");
+ tVTX3->SetNDC();
+ tVTX3->SetTextColor(kBlue+2);
+ tVTX3->Draw();
+ TLatex* tVTX4=new TLatex(0.15,0.8,"VertexTRK");
+ tVTX4->SetNDC();
+ tVTX4->SetTextColor(2);
+ tVTX4->Draw();
+
+
+
+ TRK_SPD3D_Vtx->cd(3);
+
+ TF1 *fz = new TF1("gaus", "gaus", -20, 20);
+ zVtxTRK->SetMarkerStyle(20);
+ zVtxTRK->SetLineWidth(3);
+ zVtxTRK->SetMarkerColor(2);
+ zVtxTRK->SetLineColor(2);
+ zVtxTRK->Draw("PE");
+ zVtxTRK->Fit("gaus", "M");
+ zVtxSPD->SetMarkerStyle(20);
+ zVtxSPD->SetLineWidth(1);
+ zVtxSPD->SetLineColor(kBlue+2);
+ zVtxSPD->SetMarkerColor(kBlue+2);
+ zVtxSPD->SetMarkerSize(0.8);
+ zVtxSPD->Draw("PE SAME");
+ TLatex* tVTX5=new TLatex(0.15,0.85,"VertexSPD");
+ tVTX5->SetNDC();
+ tVTX5->SetTextColor(kBlue+2);
+ tVTX5->Draw();
+ TLatex* tVTX6=new TLatex(0.15,0.8,"VertexTRK");
+ tVTX6->SetNDC();
+ tVTX6->SetTextColor(2);
+ tVTX6->Draw();
+
+
+
+ // TCanvas *corrContrSPDClusters = new TCanvas("corrContrSPDClusters", "corrContrSPDClusters");
+ // corrContrSPDClusters->Divide(3,1);
+ //clist[1]=corrContrSPDClusters;
+ TRK_SPD3D_Vtx->cd(4);
+ // corrContrSPDClusters->cd(1);
+ zVtxSPD_Zonly->SetLineWidth(3);
+ zVtxSPD_Zonly->SetLineColor(kBlue+2);
+ zVtxSPD_Zonly->Draw();
+ TLatex* tVTX7=new TLatex(0.15,0.8,"Vertex Z only");
+ tVTX7->SetNDC();
+ tVTX7->SetTextColor(2);
+ tVTX7->Draw();
+
+ if(histoCorelation){
+ TRK_SPD3D_Vtx->cd(5);
+ //corrContrSPDClusters->cd(2);
+ hntrksSPDvsSPDcls->SetMarkerStyle(20);
+ hntrksSPDvsSPDcls->Draw();
+
+ TRK_SPD3D_Vtx->cd(6);
+ // corrContrSPDClusters->cd(3);
+ hntrksZvsSPDcls->SetMarkerStyle(20);
+ hntrksZvsSPDcls->Draw();
+ }
+ TRK_SPD3D_Vtx->SaveAs("vertex.pdf");
+ delete fx;
+ delete fy;
+ delete fz;
+}
+
+//_______________________________________________________________________
+void PlotSPD(TFile *fildat, TFile *filMC, TCanvas **&clist, Int_t &cnum){
+
+ gROOT->SetStyle("Plain");
+ gStyle->SetPalette(1);
+ gStyle->SetOptStat(0);
+ gStyle->SetOptFit(111);
+ cnum=2; // number of canvases
+ clist= new TCanvas* [2];//array of pointers to TCanvases
+
+ TDirectoryFile *spddata = (TDirectoryFile*)fildat->Get("SPD_Performance");
+ spddata->cd();
+ TList *fListData = (TList*)spddata->Get("coutput1");
+
+ TString fTitleData = "Data";
+ TString fTitleMc = "MC";
+
+
+ Double_t nevtsData = ((TH1I*)(fListData->FindObject("hEventsProcessed")))->GetEntries();
+ printf(" #events in %s : %f \n",fTitleData.Data(),nevtsData);
+
+ TDirectoryFile *spdmc = (TDirectoryFile*)filMC->Get("SPD_Performance");
+ spdmc->cd();
+ TList *fListMc = (TList*)spdmc->Get("coutput1");
+ Double_t nevtsMc = ((TH1I*)(fListMc->FindObject("hEventsProcessed")))->GetEntries();
+ printf(" #events in %s : %f \n",fTitleMc.Data(),nevtsMc);
+ //printf("Available functions : \n - ratiomodules() \n - ratiochips() \n - mapsinner(isShowMaps) \n - phiTracklet() \n - phiTrackletsZ() \n - foEfficiency() \n");
+ // phi projection
+ TH2F *trackData = (TH2F*)fListData->FindObject("hSPDphivsSPDeta");
+ trackData->SetTitle(Form("%s %s",trackData->GetTitle(),fTitleData.Data()));
+ TH1D *trackDataPhi = trackData->ProjectionY();
+ if(!trackDataPhi) printf("NO 1 \n");
+ //trackDataPhi->SetTitle(Form("%s %s",trackDataPhi->GetTitle(),fTitleData.Data()));
+ trackDataPhi->SetTitle("Tracklets vs Phi");
+ //rawDist->cd(1);
+ //trackDataPhi->SetLineColor(kRed);
+ //trackDataPhi->DrawCopy();
+ TH1D *trackDataEta = trackData->ProjectionX();
+ if(!trackDataEta) printf("NO 2 \n");
+ trackDataEta->SetTitle("Tracklets vs eta");
+ //trackDataEta->SetTitle(Form("%s %s",trackDataEta->GetTitle(),fTitleData.Data()));
+ // rawDist->cd(2);
+ // trackDataEta->SetLineColor(kRed);
+ // trackDataEta->DrawCopy();
+
+ TH1F etaData, phiData;
+ trackDataEta->Copy(etaData);
+ trackDataPhi->Copy(phiData);
+ //////???????
+ TH1F etaFrac, phiFrac, mcEta, mcPhi;
+ trackDataEta->Copy(etaFrac);
+ trackDataPhi->Copy(phiFrac);
+
+ TH2F *trackMc = (TH2F*)fListMc->FindObject("hSPDphivsSPDeta");
+ trackMc->SetTitle(Form("%s %s",trackMc->GetTitle(),fTitleMc.Data()));
+
+ TCanvas *tracklets = new TCanvas("tracklets","tracklets",1200,600);
+ clist[0]=tracklets;
+ tracklets->Divide(2,1);
+ tracklets->cd(1);
+ tracklets->cd(1)->SetRightMargin(0.15);
+ //trackData->SetTitle(Form("%s %s",trackData->GetTitle(),fTitleData.Data()));
+ trackData->SetTitle("Data 2011");
+ trackData->DrawCopy("colz");
+ tracklets->cd(2);
+ tracklets->cd(2)->SetRightMargin(0.15);
+ //trackMc->SetTitle(Form("%s %s",trackMc->GetTitle(),fTitleMc.Data()));
+ trackMc->SetTitle("Data 2010");
+ TH1D *h = (TH1D*)trackMc->DrawCopy("colz");
+ // fTitleData.ReplaceAll(" ","");
+ // fTitleMc.ReplaceAll(" ","");
+ // tracklets->SaveAs(Form("trackletsPhiEtaMaps_%s_%s.png",fTitleData.Data(),fTitleMc.Data()));
+ tracklets->SaveAs("SPDtracklets.pdf");
+
+ TH1D *trackMcPhi = trackMc->ProjectionY();
+ trackMcPhi->SetTitle(Form("%s",h->GetTitle()));
+ // rawDist->cd(3);
+ // trackMcPhi->DrawCopy();
+ TH1D *trackMcEta = trackMc->ProjectionX();
+ trackMcEta->SetTitle(Form("%s",h->GetTitle()));
+ // rawDist->cd(4);
+ // trackMcEta->DrawCopy();
+
+ //rawDist->SaveAs(Form("trackletsPhiEtaRaw_%s_%s.png",fTitleData.Data(),fTitleMc.Data()));
+
+ TH1F etaMc, phiMc;
+ trackMcEta->Copy(etaMc);
+ trackMcPhi->Copy(phiMc);
+
+ trackMcEta->Copy(mcEta);
+ trackMcPhi->Copy(mcPhi);
+
+ etaFrac.Scale(1./etaFrac.GetEntries());
+ mcEta.Scale(1./mcEta.GetEntries());
+ etaFrac.Add(&mcEta,-1);
+ etaFrac.Divide(&mcEta);
+
+ phiFrac.Scale(1./phiFrac.GetEntries());
+ mcPhi.Scale(1./mcPhi.GetEntries());
+ phiFrac.Add(&mcPhi,-1);
+ phiFrac.Divide(&mcPhi);
+
+
+ TCanvas *track = new TCanvas("track","tracklets and ratios vs eta and phi",1200,1200);
+ clist[1]=track;
+ track->Divide(2,2);
+ track->cd(1);
+ phiData.SetLineColor(kRed);
+ phiData.SetLineWidth(2);
+ phiData.Scale(1./phiData.GetEntries());
+ phiData.DrawCopy();
+ phiMc.Scale(1./phiMc.GetEntries());
+ // TLatex* tphi=new TLatex(0.6,0.85,"Red = data; Blue =MC");
+ TLatex* tphi=new TLatex(0.6,0.85,"Red = LHC11h; Blue = LHC10h");
+ tphi->SetNDC();
+ tphi->SetTextSize(0.04);
+ tphi->SetTextColor(1);
+ tphi->Draw();
+ phiMc.DrawCopy("same");
+ track->cd(2);
+ etaData.SetLineColor(kRed);
+ etaData.SetLineWidth(2);
+ etaData.Scale(1./etaData.GetEntries());
+ etaData.DrawCopy();
+ etaMc.Scale(1./etaMc.GetEntries());
+ tphi->Draw();
+ etaMc.DrawCopy("same");
+ // track->SaveAs(Form("trackletsPhiEtaNorm_%s_%s.png",fTitleData.Data(),fTitleMc.Data()));
+
+ // TCanvas *frac = new TCanvas("frac","fractions",1200,600);
+ //frac->Divide(2,1);
+ // frac->cd(1);
+ track->cd(3);
+ // phiFrac.SetTitle(Form(" #Delta#varphi/#varphi_{%s} %s - %s ",fTitleMc.Data(),fTitleData.Data(),fTitleMc.Data()));
+ phiFrac.SetLineColor(1);
+ // TLatex* tratio=new TLatex(0.2,0.85,"Data/MC");
+ TLatex* tratio=new TLatex(0.2,0.85,"Data 2011/ Data 2010");
+ tratio->SetNDC();
+ // tratio->SetTextSize();
+ tratio->SetTextColor(1);
+ phiFrac.DrawCopy();
+ tratio->Draw();
+ track->cd(4);
+ // etaFrac.SetTitle(Form(" #Delta#eta/#eta_{%s} %s - %s ",fTitleMc.Data(),fTitleData.Data(),fTitleMc.Data()));
+ etaFrac.SetLineColor(1);
+ etaFrac.DrawCopy();
+ // track->SaveAs(Form("trackletsPhiEtaNorm_%s_%s.png",fTitleData.Data(),fTitleMc.Data()));
+ // frac->SaveAs(Form("relativeRatios_%s_%s.png",fTitleData.Data(),fTitleMc.Data()));
+ tratio->Draw();
+ track->SaveAs("SPD_eta_phi.pdf");
+}
+
+//_______________________________________________________________________
+Bool_t PlotITSTPCMatchingEff(TFile *f, TCanvas**& clist,Int_t& cnum) {
+
+ cnum=1;
+ clist = new TCanvas*[1];
+
+ // clist = new TCanvas* [1];
+ TCanvas* cITSTPCmatch = new TCanvas("cITSTPCmatch","cITSTPCmatch",10,10,1200,600);
+ clist[0]=cITSTPCmatch;
+ cITSTPCmatch->Divide(2,1);
+ cITSTPCmatch->cd(1);
+ gPad->SetGridy();
+ gPad->SetLogx();
+ cITSTPCmatch->cd(2);
+ gPad->SetGridy();
+ gPad->SetLogx();
+
+ // clist = cITSTPCmatch;
+
+ if(!f) return kFALSE;
+
+ TList *list=0;
+ TList *listSPD=0;
+ TDirectoryFile *dir=0;
+
+ // count active SPD HSs
+ dir=(TDirectoryFile*)f->GetDirectory("SPD_Performance");
+ if(dir) listSPD = (TList*)dir->Get("coutput1");
+ if(!dir) return kFALSE;
+
+ Float_t spdFrac[2]={0.,0.};
+ TH1F *hnHSsSPD=new TH1F("hnHSsSPD","Active HSs in SPD layers 1 and 2; layer; HSs",2,0.5,2.5);
+ if(listSPD) {
+ //listSPD->Print();
+ TH1F *hFiredChip = (TH1F*)listSPD->FindObject("hFiredChip");
+ Int_t nHSsInner=0,nHSsOuter=0;
+ for(Int_t i=0;i<400;i++) if(hFiredChip->GetBinContent(i)>0) nHSsInner++;
+ for(Int_t i=400;i<1200;i++) if(hFiredChip->GetBinContent(i)>0) nHSsOuter++;
+ nHSsInner = (Int_t)(nHSsInner/10);
+ nHSsOuter = (Int_t)(nHSsOuter/10);
+ hnHSsSPD->SetBinContent(1,nHSsInner);
+ hnHSsSPD->SetBinContent(2,nHSsOuter);
+ spdFrac[0]=(Float_t)nHSsInner/40.;
+ spdFrac[1]=(Float_t)nHSsOuter/80.;
+ }
+ TGraph *spdFrac0=new TGraph(1);
+ spdFrac0->SetPoint(0,0.08,spdFrac[0]);
+ spdFrac0->SetMarkerColor(1); spdFrac0->SetMarkerStyle(20);
+ TGraph *spdFrac1=new TGraph(1);
+ spdFrac1->SetPoint(0,0.08,spdFrac[1]);
+ spdFrac1->SetMarkerColor(1); spdFrac1->SetMarkerStyle(24);
+ TLegend *l2=new TLegend(0.1,0.62,0.5,0.93);
+ l2->SetBorderSize(1);
+ l2->AddEntry(spdFrac0,"Frac. active SPD0","p");
+ l2->AddEntry(spdFrac1,"Frac. active SPD1","p");
+
+ //
+ // Efficiencies for CENTRAL
+ //
+ dir=(TDirectoryFile*)f->GetDirectory("ITS_Performance");
+ if(dir) list = (TList*)dir->Get("cOutputITS_3500_10000");
+ if(!list) return kFALSE;
+
+ TH1F *fHistPtTPCInAcc = (TH1F*)list->FindObject("fHistPtTPCInAcc");
+ TH1F *fHistPtITSMI6InAcc = (TH1F*)list->FindObject("fHistPtITSMI6InAcc");
+ TH1F *fHistPtITSMI5InAcc = (TH1F*)list->FindObject("fHistPtITSMI5InAcc");
+ TH1F *fHistPtITSMI4InAcc = (TH1F*)list->FindObject("fHistPtITSMI4InAcc");
+ TH1F *fHistPtITSMI3InAcc = (TH1F*)list->FindObject("fHistPtITSMI3InAcc");
+ TH1F *fHistPtITSMI2InAcc = (TH1F*)list->FindObject("fHistPtITSMI2InAcc");
+ TH1F *fHistPtITSMISPDInAcc = (TH1F*)list->FindObject("fHistPtITSMISPDInAcc");
+ TH1F *fHistPtITSMIoneSPDInAcc = (TH1F*)list->FindObject("fHistPtITSMIoneSPDInAcc");
+ TH1F *fHistPtITSTPCsel = (TH1F*)list->FindObject("fHistPtITSTPCsel");
+ TH1F *fHistPtITSMIge2InAcc = (TH1F*)fHistPtITSMI6InAcc->Clone("fHistPtITSMIge2InAcc");
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI5InAcc);
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI4InAcc);
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI3InAcc);
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI2InAcc);
+
+
+ TLegend *l3=new TLegend(0.5,0.62,0.95,0.93);
+ l3->SetBorderSize(1);
+ cITSTPCmatch->cd(1);
+ fHistPtITSMIge2InAcc->SetTitle("Fraction of prolonged tracks with N ITS points: central");
+ fHistPtITSMIge2InAcc->SetYTitle("ITS+TPC / TPC");
+ fHistPtITSMIge2InAcc->Divide(fHistPtITSMIge2InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMIge2InAcc->SetMaximum(1.6);
+ fHistPtITSMIge2InAcc->SetMinimum(0);
+ fHistPtITSMIge2InAcc->GetXaxis()->SetRangeUser(0.1,30);
+ fHistPtITSMIge2InAcc->Draw();
+ l3->AddEntry(fHistPtITSMIge2InAcc,">=2 cls","l");
+ fHistPtITSMI6InAcc->Divide(fHistPtITSMI6InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI6InAcc->SetLineColor(2);
+ l3->AddEntry(fHistPtITSMI6InAcc,"6 cls","l");
+ fHistPtITSMI6InAcc->Draw("same");
+ fHistPtITSMI5InAcc->Divide(fHistPtITSMI5InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI5InAcc->SetLineColor(3);
+ l3->AddEntry(fHistPtITSMI5InAcc,"5 cls","l");
+ fHistPtITSMI5InAcc->Draw("same");
+ fHistPtITSMI4InAcc->Divide(fHistPtITSMI4InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI4InAcc->SetLineColor(4);
+ l3->AddEntry(fHistPtITSMI4InAcc,"4 cls","l");
+ fHistPtITSMI4InAcc->Draw("same");
+ fHistPtITSMI3InAcc->Divide(fHistPtITSMI3InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI3InAcc->SetLineColor(6);
+ l3->AddEntry(fHistPtITSMI3InAcc,"3 cls","l");
+ fHistPtITSMI3InAcc->Draw("same");
+ fHistPtITSMI2InAcc->Divide(fHistPtITSMI2InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI2InAcc->SetLineColor(7);
+ l3->AddEntry(fHistPtITSMI2InAcc,"2 cls","l");
+ fHistPtITSMI2InAcc->Draw("same");
+ fHistPtITSMISPDInAcc->Divide(fHistPtITSMISPDInAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMISPDInAcc->SetLineColor(9);
+ l3->AddEntry(fHistPtITSMISPDInAcc,"2SPD + any","l");
+ fHistPtITSMISPDInAcc->Draw("same");
+ fHistPtITSMIoneSPDInAcc->Divide(fHistPtITSMIoneSPDInAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMIoneSPDInAcc->SetLineColor(15);
+ l3->AddEntry(fHistPtITSMIoneSPDInAcc,">=1SPD + any","l");
+ fHistPtITSMIoneSPDInAcc->Draw("same");
+ fHistPtITSTPCsel->Divide(fHistPtITSTPCsel,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSTPCsel->SetLineColor(kAzure+1);
+ l3->AddEntry(fHistPtITSTPCsel,">=1SPD + any + d_{0} cut","l");
+ fHistPtITSTPCsel->Draw("same");
+ fHistPtITSMIge2InAcc->Draw("same");
+ l3->Draw();
+ l2->Draw();
+ spdFrac0->Draw("p");
+ spdFrac1->Draw("p");
+
+ //
+ // Efficiencies for PERIPHERAL
+ //
+ dir=(TDirectoryFile*)f->GetDirectory("ITS_Performance");
+ if(dir) list = (TList*)dir->Get("cOutputITS_70_310");
+ if(!list) return kFALSE;
+
+ fHistPtTPCInAcc = (TH1F*)list->FindObject("fHistPtTPCInAcc");
+ fHistPtITSMI6InAcc = (TH1F*)list->FindObject("fHistPtITSMI6InAcc");
+ fHistPtITSMI5InAcc = (TH1F*)list->FindObject("fHistPtITSMI5InAcc");
+ fHistPtITSMI4InAcc = (TH1F*)list->FindObject("fHistPtITSMI4InAcc");
+ fHistPtITSMI3InAcc = (TH1F*)list->FindObject("fHistPtITSMI3InAcc");
+ fHistPtITSMI2InAcc = (TH1F*)list->FindObject("fHistPtITSMI2InAcc");
+ fHistPtITSMISPDInAcc = (TH1F*)list->FindObject("fHistPtITSMISPDInAcc");
+ fHistPtITSMIoneSPDInAcc = (TH1F*)list->FindObject("fHistPtITSMIoneSPDInAcc");
+ fHistPtITSTPCsel = (TH1F*)list->FindObject("fHistPtITSTPCsel");
+ fHistPtITSMIge2InAcc = (TH1F*)fHistPtITSMI6InAcc->Clone("fHistPtITSMIge2InAcc");
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI5InAcc);
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI4InAcc);
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI3InAcc);
+ fHistPtITSMIge2InAcc->Add(fHistPtITSMI2InAcc);
+
+
+ cITSTPCmatch->cd(2);
+ fHistPtITSMIge2InAcc->SetTitle("Fraction of prolonged tracks with N ITS points: peripheral");
+ fHistPtITSMIge2InAcc->SetYTitle("ITS+TPC / TPC");
+ fHistPtITSMIge2InAcc->Divide(fHistPtITSMIge2InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMIge2InAcc->SetMaximum(1.6);
+ fHistPtITSMIge2InAcc->SetMinimum(0);
+ fHistPtITSMIge2InAcc->GetXaxis()->SetRangeUser(0.1,30);
+ fHistPtITSMIge2InAcc->Draw();
+ fHistPtITSMI6InAcc->Divide(fHistPtITSMI6InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI6InAcc->SetLineColor(2);
+ fHistPtITSMI6InAcc->Draw("same");
+ fHistPtITSMI5InAcc->Divide(fHistPtITSMI5InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI5InAcc->SetLineColor(3);
+ fHistPtITSMI5InAcc->Draw("same");
+ fHistPtITSMI4InAcc->Divide(fHistPtITSMI4InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI4InAcc->SetLineColor(4);
+ fHistPtITSMI4InAcc->Draw("same");
+ fHistPtITSMI3InAcc->Divide(fHistPtITSMI3InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI3InAcc->SetLineColor(6);
+ fHistPtITSMI3InAcc->Draw("same");
+ fHistPtITSMI2InAcc->Divide(fHistPtITSMI2InAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMI2InAcc->SetLineColor(7);
+ fHistPtITSMI2InAcc->Draw("same");
+ fHistPtITSMISPDInAcc->Divide(fHistPtITSMISPDInAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMISPDInAcc->SetLineColor(9);
+ fHistPtITSMISPDInAcc->Draw("same");
+ fHistPtITSMIoneSPDInAcc->Divide(fHistPtITSMIoneSPDInAcc,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSMIoneSPDInAcc->SetLineColor(15);
+ fHistPtITSMIoneSPDInAcc->Draw("same");
+ fHistPtITSTPCsel->Divide(fHistPtITSTPCsel,fHistPtTPCInAcc,1,1,"B");
+ fHistPtITSTPCsel->SetLineColor(kAzure+1);
+ fHistPtITSTPCsel->Draw("same");
+ fHistPtITSMIge2InAcc->Draw("same");
+ l3->Draw();
+ l2->Draw();
+ spdFrac0->Draw("p");
+ spdFrac1->Draw("p");
+ cITSTPCmatch->SaveAs("TPCITSmatching.pdf");
+ return kTRUE;
+}
+
+//_______________________________________________________________________
+void SaveC(TFile &fout, TCanvas**& clist, Int_t cnum){
+ TDirectory *current = gDirectory;
+ fout.cd();
+ for(Int_t i=0;i<cnum;i++)clist[i]->Write();
+ delete[] clist;
+ current->cd();
+}