TCanvas* pHitSpecPos( )
{
  TCanvas* c = new TCanvas("cHitSpecPos","cHitSpecPos",1000,1100);
  c->Divide(2,2);
  TVirtualPad* p; TH2D *h;
  TText t; t.SetTextColor(4);

  p =c->cd(1); p->SetLogy(); p->SetGrid(1,0);
  h = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhi_BarMinus"); 
  h->GetYaxis()->SetRange(4,33);
  h->DrawCopy("box");
  t.DrawTextNDC(0.17,0.15, "BARREL MU MINUS");

  p =c->cd(2); p->SetLogy(); p->SetGrid(1,0);
  h = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhi_BarPlus"); 
  h->GetYaxis()->SetRange(4,32);
  h->DrawCopy("box");
  t.DrawTextNDC(0.17,0.15, "BARREL MU PLUS");

  p =c->cd(3); p->SetLogy(); p->SetGrid(1,0);
  h = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhi_EndMinus"); 
  h->GetYaxis()->SetRange(4,32);
  h->DrawCopy("box");
  t.DrawTextNDC(0.17,0.15, "ENDCAP MU MINUS");

  p =c->cd(4); p->SetLogy(); p->SetGrid(1,0);
  h = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhi_EndPlus"); 
  h->GetYaxis()->SetRange(4,32);
  h->DrawCopy("box");
  t.DrawTextNDC(0.17,0.15, "ENDCAP MU PLUS");

  return c;
}
Example #2
0
void plotTrk() {
  gStyle->SetOptStat(0);
  gStyle->SetOptTitle(1);
  char c[50];
  c1->Clear();  
  c1->Divide(2,3); 
  for(int hid=0; hid<6; hid++){
    TVirtualPad* pad = c1->cd(hid+1); 
    pad->SetLogy(lTrkHist[hid]);
    double xmin, xmax, ymin=0.0, ymax=0.0;
    if(lTrkHist[hid]==1) ymin=0.1;
    for(int quad=0; quad<kFgtNumQuads; quad++){
      sprintf(c,"Quad%1s-%s",cquad[quad],cTrkHist[hid]);
      //printf("Getting %s\n",c);
      TH1F *h = histTrk[quad][hid] = (TH1F*)file->Get(c);
      xmin=h->GetXaxis()->GetXmin();
      xmax=h->GetXaxis()->GetXmax();
      double m=h->GetMaximum();
      if(ymax<m) ymax=m;
      //printf("quad=%d max=%6.1f ymax=%6.1f xmin=%6.1f xmax=%6.1f\n",quad,m,ymax,xmin,xmax);
    }
    ymax*=1.2; if(lTrkHist[hid]==1){ymax*=20.0;}
    sprintf(c,"%s",cTrkHist[hid]);
    TH2F *frame = new TH2F(c,c,1,xmin,xmax,1,ymin,ymax); frame->SetStats(0); frame->Draw();
    for(int quad=0; quad<kFgtNumQuads; quad++){
      TH1F *h=histTrk[quad][hid];
      h->SetLineColor(colorQuad[quad]); h->SetLineWidth(3); 
      if(hid<5){
	h->Draw("SAME");  
	float mean=h->GetMean();
	if(hid==1 || hid==4) {sprintf(c,"%s mean=%6.4f",cquad[quad],mean);}
	else                 {sprintf(c,"%s mean=%6.2f",cquad[quad],mean);}
      }else{
	h->SetMarkerColor(colorQuad[quad]); h->SetMarkerStyle(20); h->SetMarkerSize(1);
	h->Draw("SAME PL");
	sprintf(c,"Quad%s",cquad[quad]);
      }
      TText *t1;
      float x1= 0.2, x2= 0.55;
      float y1=0.8 - 0.07*quad;
      float y2=0.8 - 0.07*(quad-2);
      if(quad<2) { t1 = new TText(x1,y1,c); }
      else       { t1 = new TText(x2,y2,c); }
      t1->SetNDC();
      t1->SetTextSize(0.06); 
      t1->SetTextColor(colorQuad[quad]); 
      t1->Draw();
    }
  }
  c1->Update();
  save("trk");
}
Example #3
0
File: Analyze.C Project: XuQiao/HI
//#endif
void DrawInPad(TVirtualPad* p,
               Int_t sub,
               TH1* h,
               Bool_t logy=false)
{
  TVirtualPad* pp = p->cd(sub);
  pp->SetRightMargin(0.02);
  if (logy) pp->SetLogy();
  TH1* copy = h->DrawCopy("hist");
  copy->GetXaxis()->SetLabelSize(0.13);
  copy->GetYaxis()->SetLabelSize(0.08);
  copy->SetDirectory(0);
}
Example #4
0
/* *********** multi-pad canvases ******************** */
void setLogy(TCanvas *c, bool on = true) {
    c->Modified();
    c->Update();
    //gSystem->ProcessEvents();
    TObject *obj;
    TIter    next(c->GetListOfPrimitives());
    while ((obj = next())) {
      if (obj->InheritsFrom(TVirtualPad::Class())) {
	TVirtualPad *pad = (TVirtualPad*)obj;
	pad->Modified();
	pad->Update();
	pad->SetLogy(on);
	pad->Modified();
	pad->Update();
      }
    }
}
Example #5
0
void
TestSPD(const TString& which, Double_t nVar=2)
{
  TFile* file = TFile::Open("forward.root", "READ");
  if (!file) return;

  Bool_t spd = which.EqualTo("spd", TString::kIgnoreCase);
  
  TList* l = 0;
  if (spd) l = static_cast<TList*>(file->Get("CentralSums"));
  else     l = static_cast<TList*>(file->Get("ForwardSums"));
  if (!l) { 
    Warning("", "%sSums not found", spd ? "Central" : "Forward");
    return;
  }

  TList* ei = static_cast<TList*>(l->FindObject("fmdEventInspector"));
  if (!l) { 
    Warning("", "fmdEventInspector not found");
    return;
  }
  
  TObject* run = ei->FindObject("runNo");
  if (!run) 
    Warning("", "No run number found");
  ULong_t runNo = run ? run->GetUniqueID() : 0;

  TH2* h = 0;
  if (spd) h = static_cast<TH2*>(l->FindObject("nClusterVsnTracklet"));
  else { 
    TList* den = static_cast<TList*>(l->FindObject("fmdDensityCalculator"));
    if (!den) { 
      Error("", "fmdDensityCalculator not found");
      return;
    }
    TList* rng = static_cast<TList*>(den->FindObject(which));
    if (!rng) { 
      Error("", "%s not found", which.Data());
      return;
    }
    h = static_cast<TH2*>(rng->FindObject("elossVsPoisson"));
  }
  if (!h) { 
    Warning("", "%s not found", spd ? nClusterVsnTracklet : "elossVsPoisson");
    return;
  }

  gStyle->SetOptFit(1111);
  gStyle->SetOptStat(0);
  TCanvas* c = new TCanvas("c", Form("Run %u", runNo));
  c->Divide(2,2);
  
  TVirtualPad* p = c->cd(1);
  if (spd) {
    p->SetLogx();
    p->SetLogy();
  }
  p->SetLogz();
  h->Draw("colz");

  TObjArray* fits = new TObjArray;
  h->FitSlicesY(0, 1, -1, 0, "QN", fits);

  TF1* mean = new TF1("mean", "pol1");
  TF1* var  = new TF1("var", "pol1");
  // mean->FixParameter(0, 0);
  // var->FixParameter(0, 0);
  for (Int_t i = 0; i < 3; i++) { 
    p = c->cd(2+i);
    if (spd) { 
      p->SetLogx();
      p->SetLogy();
    }
    TH1* hh = static_cast<TH1*>(fits->At(i));
    hh->Draw();

    if (i == 0) continue;
    
    hh->Fit((i == 1? mean : var), "+Q");
    
  }

  TGraphErrors* g1 = new TGraphErrors(h->GetNbinsX());
  g1->SetFillColor(kBlue-10);
  g1->SetFillStyle(3001);
  g1->SetLineStyle(1);
  TGraph* u1 = new TGraph(h->GetNbinsX());
  TGraph* l1 = new TGraph(h->GetNbinsX());
  u1->SetLineColor(kBlue+1);
  l1->SetLineColor(kBlue+1);
  u1->SetName("u1");
  l1->SetName("l1");
  TGraphErrors* g2 = new TGraphErrors(h->GetNbinsX());
  g2->SetFillColor(kRed-10);
  g2->SetFillStyle(3001);
  g2->SetLineStyle(2);
  TGraph* u2 = new TGraph(h->GetNbinsX());
  TGraph* l2 = new TGraph(h->GetNbinsX());
  u2->SetLineColor(kRed+1);
  l2->SetLineColor(kRed+1);
  u2->SetName("u2");
  l2->SetName("l2");
  for (Int_t i = 1; i <= h->GetNbinsX(); i++) {
    Double_t x  = hh->GetXaxis()->GetBinCenter(i);
    Double_t y  = mean->Eval(x);
    Double_t e  = var->Eval(y);
    Double_t e1 = nVar * e;
    if (spd) e1 *= TMath::Log10(e);
    // Printf("%10e -> %10e +/- %10e", x, y, ee);
    g1->SetPoint(i-1, x, y);
    g1->SetPointError(i-1, 0, e1);
    u1->SetPoint(i-1, x, y+e1);
    l1->SetPoint(i-1, x, y-e1);
    // Printf("%3d: %f -> %f +/- %f", i, x, y, ee);

    Double_t e2 = nVar*0.05*x;
    g2->SetPoint(i-1, x, x);
    g2->SetPointError(i-1, 0, e2);
    u2->SetPoint(i-1, x, x+e2);
    l2->SetPoint(i-1, x, x-e2);
  }

  p = c->cd(1);
  c->Clear();
  c->cd();
  c->SetLogz();
  h->Draw("colz");
  g1->Draw("3 same");
  u1->Draw("l same");
  l1->Draw("l same");
  g2->Draw("3 same");
  u2->Draw("l same");
  l2->Draw("l same");

  Double_t ly = 0.9;
  Double_t dy = 0.06;
  TLatex* ltx = new TLatex(0.15, ly, Form("#LTy#GT = %f + %f x",
					   mean->GetParameter(0),
					   mean->GetParameter(1)));
  ltx->SetNDC();
  ltx->SetTextSize(dy);
  ltx->SetTextAlign(13);
  ltx->Draw();

  ly -= dy + 0.01;
  ltx->DrawLatex(0.15, ly, Form("#sigma_{y} = %f + %f x", 
				var->GetParameter(0),
				var->GetParameter(1)));
  
  ly -= dy + 0.01;
  ltx->DrawLatex(0.15, ly, Form("#delta = %f #sigma %s", 
				nVar, (spd ? "log_{10}(#sigma" : "")));
	    
					   
}
Example #6
0
/** 
 * 
 * 
 * @param o 
 * @param useWeights 
 * @param correct
 *
 * @ingroup pwglf_forward_scripts_tests
 */
void
TestPoisson(Double_t o=.3, bool useWeights=false, bool correct=true)
{
  const char* load = "$ALICE_PHYSICS/PWGLF/FORWARD/analysis2/scripts/LoadLibs.C";
  if (!gROOT->GetClass("AliAODForwardMult")) {
    gROOT->Macro(load);
    gROOT->GetInterpreter()->UnloadFile(gSystem->ExpandPathName(load));
  }
  
  // --- Parameters of this script -----------------------------------
  Int_t      nBin =  5;  // Our detector matrix size 
  Int_t      nMax = TMath::Max(Int_t(nBin * nBin * o + .5)+nBin/2,nBin);  
  Int_t      nEv  = 10000; // Number of events
  Double_t   mp   = o;   // The 'hit' probability 


  TH2D* base = new TH2D("base", "Basic histogram", 
			nBin,-.5, nBin-.5, nBin, -.5, nBin-.5);
  base->SetXTitle("#eta");
  base->SetYTitle("#varphi");
  base->SetDirectory(0);
  base->SetOption("colz");

  Int_t tN1=nMax;    Double_t tMin1; Double_t tMax1;
  Int_t tN2=nMax*10; Double_t tMin2; Double_t tMax2=nMax;
  MakeIntegerAxis(tN1, tMin1, tMax1);
  MakeIntegerAxis(tN2, tMin2, tMax2);
  TH2D* corr = new TH2D("comp", "Comparison", 
			tN1, tMin1, tMax1, tN2, tMin2, tMax2);
  corr->SetXTitle("Input");
  corr->SetYTitle("Poisson");
  corr->SetDirectory(0);
  corr->SetOption("colz");
  corr->SetStats(0);
  TLine* lcorr = new TLine(0, 0, tMax2, tMax2);

  Int_t mm = TMath::Max(Int_t(nBin * o + .5),nBin/2);
  tN2=mm*10; tMax2 = mm;
  MakeIntegerAxis(tN2, tMin2, tMax2);
  Info("", "Making mean w/nbins=%d,range=[%f,%f]", tN2, tMin2, tMax2);
  TH2D* mean = new TH2D("mean", "Mean comparison", 
			tN2, tMin2, tMax2, tN2, tMin2, tMax2);
  mean->SetXTitle("Input");
  mean->SetYTitle("Poisson");
  mean->SetDirectory(0);
  mean->SetOption("colz");
  mean->SetStats(0);
  TLine* lmean = new TLine(tMin2, tMin2, tMax2, tMax2);

  TH1D* dist = new TH1D("dist", "Distribution of hits", tN1, tMin1, tMax1);
  dist->SetXTitle("s");
  dist->SetYTitle("P(s)");
  dist->SetFillColor(kRed+1);
  dist->SetFillStyle(3001);
  dist->SetDirectory(0);

  TH1D* diff = new TH1D("diff", "P-T", 100, -25, 25);
  diff->SetXTitle("Difference");
  diff->SetFillColor(kRed+1);
  diff->SetFillStyle(3001);
  diff->SetYTitle("Prob");

  AliPoissonCalculator* c = new AliPoissonCalculator("ignored");
  c->Init(nBin ,nBin);

  for (Int_t i = 0; i < nEv; i++) { 
    c->Reset(base);
    base->Reset();

    for (Int_t iEta = 0; iEta < nBin; iEta++) { 
      for (Int_t iPhi = 0; iPhi < nBin; iPhi++) { 
	// Throw a die 
	Int_t m = gRandom->Poisson(mp);
	dist->Fill(m);

	// Fill into our base histogram 
	base->Fill(iEta, iPhi, m);

	// Fill into poisson calculator 
	c->Fill(iEta, iPhi, m > 0, (useWeights ? m : 1));
      }
    }
    // Calculate the result 
    TH2D* res = c->Result(correct);
    
    // Now loop and compare 
    Double_t mBase = 0;
    Double_t mPois = 0;
    for (Int_t iEta = 0; iEta < nBin; iEta++) { 
      for (Int_t iPhi = 0; iPhi < nBin; iPhi++) { 
	Double_t p = res->GetBinContent(iEta, iPhi);
	Double_t t = base->GetBinContent(iEta, iPhi);

	mBase += t;
	mPois += p;
	corr->Fill(t, p);
	diff->Fill(p-t);
      }
    }
    Int_t nn = nBin * nBin;
    mean->Fill(mBase / nn, mPois / nn);
  }

  TCanvas* cc = new TCanvas("c", "c", 900, 900);
  cc->SetFillColor(0);
  cc->SetFillStyle(0);
  cc->SetBorderMode(0);
  cc->SetRightMargin(0.02);
  cc->SetTopMargin(0.02);
  cc->Divide(2,2);
  
  TVirtualPad* pp = cc->cd(1);
  pp->SetFillColor(0);
  pp->SetFillStyle(0);
  pp->SetBorderMode(0);
  pp->SetRightMargin(0.15);
  pp->SetTopMargin(0.02);
  pp->SetLogz();
  pp->SetGridx();
  pp->SetGridy();
  corr->Draw();
  lcorr->Draw();

  pp = cc->cd(2);
  pp->SetFillColor(0);
  pp->SetFillStyle(0);
  pp->SetBorderMode(0);
  pp->SetRightMargin(0.02);
  pp->SetTopMargin(0.02);
#if 0
  c->GetMean()->Draw();
#elif 1 
  pp->SetLogy();
  diff->Draw();
#elif 1
  c->GetOccupancy()->Draw();
#else
  pp->SetLogy();
  dist->SetStats(0);
  dist->Scale(1. / dist->Integral());
  dist->Draw();
  TH1D* m1 = c->GetMean();
  m1->Scale(1. / m1->Integral());
  m1->Draw("same");
  Double_t eI;
  Double_t ii = 100 * dist->Integral(2, 0);
  TLatex* ll = new TLatex(.97, .85, 
			  Form("Input #bar{m}: %5.3f", mp));
  ll->SetNDC();
  ll->SetTextFont(132);
  ll->SetTextAlign(31);
  ll->Draw();
  ll->DrawLatex(.97, .75, Form("Result #bar{m}: %5.3f", dist->GetMean()));
  ll->DrawLatex(.97, .65, Form("Occupancy: #int_{1}^{#infty}P(s)ds = %6.2f%%",
			       ii));
			 
#endif

  pp = cc->cd(3);
  pp->SetFillColor(0);
  pp->SetFillStyle(0);
  pp->SetBorderMode(0);
  pp->SetRightMargin(0.15);
  pp->SetTopMargin(0.02);
  pp->SetGridx();
  pp->SetGridy();
  c->GetCorrection()->Draw();

  pp = cc->cd(4);
  pp->SetFillColor(0);
  pp->SetFillStyle(0);
  pp->SetBorderMode(0);
  pp->SetRightMargin(0.15);
  pp->SetTopMargin(0.02);
  pp->SetLogz();
  pp->SetGridx();
  pp->SetGridy();
  mean->Draw();
  lmean->Draw();

  cc->cd();
}
Example #7
0
void makeqaplot(int run=0, int plt=0, int save=0){
  runnum=run;
  yearday=run/1000;
  if(save==0) {png=0; pdf=0;}
  if(save==1) {png=1; pdf=0;}
  if(save==2) {png=0; pdf=1;}
  if(save==3) {png=1; pdf=1;}

  c1 = new TCanvas("c1","QA",50,50,800,800);
  gStyle->SetLabelSize(0.04,"xy");
  //colortable();
  gStyle->SetPalette(1);
  gStyle->SetStatW(0.4);

  char fname[50];
  if(run==0) {sprintf(fname,"fgtQA.root");}
  else {sprintf(fname,"%d/fgtQA_%d.root",yearday,run);}

  cout << "Opening "<<fname<<endl;
  file=new TFile(fname,"");

  char c[50];
  if(plt==0 || plt==1) {
    gStyle->SetOptStat(111110);
    c1->Divide(1,3); 
    for(int i=0; i<3; i++){
      TVirtualPad* pad = c1->cd(i+1);
      int log=0;
      if(i>0) {log=1;} 
      pad->SetLogy(log); 
      hist0[i]=(TH1F*) file->Get(cHist[i]);
      hist0[i]->SetFillColor(kBlue); 
      hist0[i]->Draw();
      if(i==2){
	float ntot  = float(hist0[i]->GetEntries());
	if(ntot>0.0){
	  int    nbin = hist0[i]->GetNbinsX();
	  float nofgt = hist0[i]->Integral(1,1);	
	  int     bin = hist0[i]->FindBin(float(kFgtNumElecIds));
	  float nonzs = hist0[i]->Integral(bin-1,nbin+1);
	  float    zs = hist0[i]->Integral(2,bin-2);
	  hist0[i]->GetXaxis()->SetRange(2, bin-2);
	  float mean =  hist0[i]->GetMean() / float(kFgtNumElecIds);
	  char c[100];
	  sprintf(c,"Total  %d",ntot);                         TText *t1 = new TText(0.3,0.8,c); t1->SetNDC(); t1->SetTextSize(0.06); t1->Draw();
	  sprintf(c,"NoFGT  %d (%5.2f)",nofgt,nofgt/ntot);     TText *t2 = new TText(0.3,0.7,c); t2->SetNDC(); t2->SetTextSize(0.06); t2->Draw();
	  sprintf(c,"NoneZS %d (%5.2f)",nonzs,nonzs/ntot);     TText *t3 = new TText(0.3,0.6,c); t3->SetNDC(); t3->SetTextSize(0.06); t3->Draw();
	  sprintf(c,"ZS     %d (%5.2f)",zs,zs/ntot);           TText *t4 = new TText(0.3,0.5,c); t4->SetNDC(); t4->SetTextSize(0.06); t4->Draw();
	  sprintf(c,"Mean ZS data size/fullsize= %5.3f",mean); TText *t5 = new TText(0.3,0.4,c); t5->SetNDC(); t5->SetTextSize(0.06); t5->Draw();
	  if(mean>0.08) { t5->SetTextColor(2); }
	  else          { t5->SetTextColor(4); }
	}
      }
    }
    c1->Update();
    save("plot");
  }  
  if(plt==0 || plt==2) {
    c1->Clear();
    gStyle->SetOptStat(0);
    gStyle->SetOptTitle(0);
    c1->Divide(1,3);
    for(int i=3; i<6; i++){ hist0[i]=(TH1F*) file->Get(cHist[i]); }
    int nevt=hist0[5]->GetEntries();
    printf("Nevent=%d\n",nevt);
    TVirtualPad* pad;
    pad=c1->cd(1); pad->SetLogy(); pad->SetTopMargin(0.01); pad->SetRightMargin(0.01);
    hist0[3]->GetXaxis()->SetLabelSize(0.07); hist0[3]->GetYaxis()->SetLabelSize(0.07);     
    hist0[3]->SetFillColor(kRed);  hist0[3]->Scale(1/float(nevt)); hist0[3]->Draw();
    TText *tx= new TText(0.87,0.0,"EleID"); tx->SetNDC(); tx->SetTextSize(0.1); tx->Draw();
    TText *t3= new TText(0.05,0.1,"F3=frac in 3sig/2tb"); t3->SetNDC(); t3->SetTextSize(0.08); t3->SetTextAngle(90); t3->Draw();

    pad=c1->cd(2); pad->SetLogy(); pad->SetTopMargin(0.01); pad->SetRightMargin(0.01);
    hist0[4]->GetXaxis()->SetLabelSize(0.07); hist0[4]->GetYaxis()->SetLabelSize(0.07); 
    hist0[4]->SetFillColor(kBlue); hist0[4]->Scale(1/float(nevt)); hist0[4]->Draw(); 
    tx->Draw();
    TText *t4= new TText(0.05,0.1,"F10=frac in 10sig & >500"); t4->SetNDC(); t4->SetTextSize(0.08); t4->SetTextAngle(90); t4->Draw();

    float min=-4;
    int max=hist0[3]->GetNbinsX();
    printf("Max=%d\n",max);
    TH1F *h1 = new TH1F("ZSdataFrac","ZSdataFrac",50,min,0);
    TH1F *h2 = new TH1F("10SigmaFrac","10SigmaFrac",50,min,0);
    float f1[kFgtNumElecIds],f2[kFgtNumElecIds];
    for(int i=0; i<max; i++){
      f1[i] = log10(hist0[3]->GetBinContent(i+1)); if(f1[i]<min) {f1[i]=min;} h1->Fill(f1[i]);
      f2[i] = log10(hist0[4]->GetBinContent(i+1)); if(f2[i]<min) {f2[i]=min;} h2->Fill(f2[i]);
    }
    pad = c1->cd(3); pad->Divide(2,1);
    TVirtualPad *pad2;
    pad2 = pad->cd(1);
    pad2->SetLogy(); pad2->SetTopMargin(0.01); pad2->SetRightMargin(0.01);
    h1->GetXaxis()->SetLabelSize(0.1); h1->GetYaxis()->SetLabelSize(0.1);
    h2->GetXaxis()->SetLabelSize(0.1); h2->GetYaxis()->SetLabelSize(0.1);
    h1->SetLineColor(kRed);  h2->SetLineColor(kBlue); 
    if(h1->GetMaximum()>h2->GetMaximum()){
      h1->Draw(); h2->Draw("SAME");
    }else{
      h2->Draw(); h1->Draw("SAME");
    }
    TText *t5= new TText(0.2,0.88,"Log(F3)");  t5->SetNDC(); t5->SetTextSize(0.1); t5->SetTextColor(2); t5->Draw();
    TText *t6= new TText(0.6,0.88,"Log(F10)"); t6->SetNDC(); t6->SetTextSize(0.1); t6->SetTextColor(4); t6->Draw();

    //read ped file
    int eid, t;
    float ped[kFgtNumElecIds],rms[kFgtNumElecIds],p,r;
    int status[kFgtNumElecIds]; memset(status,0,sizeof(status));
    cout<<"Reading Ped File "<<endl;
    std::ifstream in("ped.txt");
    if (!in.is_open()) {
      cout << "Can't find file!\n"; 
      exit(0); 
    }   
    while (!in.eof()){
      in >> eid >> t >> p >> r;
      ped[eid]=p;
      rms[eid]=r;
    }  
    in.close();
    TH1F * hr1= new TH1F("RMS","RMS",60,0,120);
    TH1F * hr2= new TH1F("RMS2","RMS2",60,0,120);
    TH1F * hr3= new TH1F("RMS3","RMS3",60,0,120);
    TH1F * hr4= new TH1F("RMS4","RMS4",60,0,120);
    TH1F * hr5= new TH1F("RMS5","RMS5",60,0,120);
    float f1l=-3.5, f1h=-0.5;
    float f2l=-3.5, f2h=-1.2;
    for(int i=0; i<kFgtNumElecIds; i++){
      if(f1[i]<f1l) status[i]+=1;
      if(f1[i]>f1h) status[i]+=2;
      if(f1[i]<f2l) status[i]+=4;
      if(f1[i]>f2h) status[i]+=8;
      hr1->Fill(rms[i]);
      if(f1[i]<f1l) {hr2->Fill(rms[i]);}
      if(f1[i]<f1l || f1[i]>f1h) {hr3->Fill(rms[i]);}
      if(f1[i]<f1l || f1[i]>f1h || f2[i]<f2l) {hr4->Fill(rms[i]);} 
      if(f1[i]<f1l || f1[i]>f1h || f2[i]<f2l || f2[i]>f2h) {hr5->Fill(rms[i]);} 
    }
    char filename[150];
    if(nevt>=1000){
      sprintf(filename,"%d/status/status.%d.txt",yearday,run);
    }else{
      sprintf(filename,"%d/status/status.%d.lowstat.txt",yearday,run);
    }
    FILE* pfile=fopen(filename,"w");
    if(!pfile){
      printf("Couldn't open file %s\n",filename);
    }else{
      printf("Writing %s\n",filename);
      for(int i=0; i<kFgtNumElecIds; i++){
	fprintf(pfile,"%d 0x%d\n",i,status[i]);
      }
      fclose(pfile);
    }
    
    pad2 = pad->cd(2);
    pad2->SetLogy(0); pad2->SetTopMargin(0.01); pad2->SetRightMargin(0.01);
    hr1->GetXaxis()->SetLabelSize(0.1); hr1->GetYaxis()->SetLabelSize(0.05);
    hr1->SetFillColor(3); hr1->Draw(); 
    hr5->SetFillColor(9); hr5->Draw("same"); 
    hr4->SetFillColor(4); hr4->Draw("same"); 
    hr3->SetFillColor(6); hr3->Draw("same"); 
    hr2->SetFillColor(2); hr2->Draw("same"); 
    char cc1[100]; sprintf(cc1,"Log(F3)<%4.1f",f1l);
    char cc2[100]; sprintf(cc2,"Log(F3)>%4.1f",f1h);
    char cc3[100]; sprintf(cc3,"Log(F10)<%4.1f",f2l);
    char cc4[100]; sprintf(cc4,"Log(F10)>%4.1f",f2h);
    TText *t7 = new TText(0.6,0.88,cc1);   t7->SetNDC();  t7->SetTextSize(0.07);  t7->SetTextColor(2);  t7->Draw();
    TText *t8 = new TText(0.6,0.78,cc2);   t8->SetNDC();  t8->SetTextSize(0.07);  t8->SetTextColor(6);  t8->Draw();
    TText *t9 = new TText(0.6,0.68,cc3);   t9->SetNDC();  t9->SetTextSize(0.07);  t9->SetTextColor(4);  t9->Draw();
    TText *t10= new TText(0.6,0.58,cc4);   t10->SetNDC(); t10->SetTextSize(0.07); t10->SetTextColor(9); t10->Draw();
    TText *t11= new TText(0.6,0.48,"OK");  t11->SetNDC(); t11->SetTextSize(0.07); t11->SetTextColor(3); t11->Draw();
    TText *t12= new TText(0.8,0.15,"PedRMS"); t12->SetNDC(); t12->SetTextSize(0.07); t12->Draw();
    c1->Update();
    save("frac");
  }
Example #8
0
void mc2ibd_gtDiff(TChain *tMC, TFile *fBgnd, TCanvas *cv, const char *pdfname)
{
	char str[1024];
	TLatex *txt = new TLatex();
	TVirtualPad *pd;

	TH1D *hExp = (TH1D *) fBgnd->Get("hgtDiffA-diff");
	if (!hExp) {
		printf("Histogram hgtDiffA-diff not found in %s\n", fBgnd->GetName());
		return;
	}
	hExp->SetTitle("Time between prompt and delayed events (IBD);us;Events/us");
	hExp->SetLineColor(kBlack);
	hExp->SetMinimum(0);

	gROOT->cd();
	TH1D *hMC = new TH1D("hgtDiffMC", "Time between prompt and delayed events (MC);us;Events/us", 50, 0, 50);
	hMC->SetLineColor(kBlack);
	tMC->Project(hMC->GetName(), "gtDiff", cX && cY && cZ && cR && cGamma && cGammaMax && cPe && cN);
	hMC->Sumw2();
	hMC->Scale(hExp->Integral(2,50) / hMC->Integral(2,50));
//		Exp vs MC
	cv->Clear();
	cv->Divide(1, 2);
	cv->cd(1);
	hExp->SetLineColor(kBlack);
	hExp->SetLineWidth(3);
	hMC->SetLineColor(kBlue);
	hMC->SetLineWidth(1);
	hExp->Draw();
	hMC->Draw("hist,same");
	TLegend *lg = new TLegend(0.15, 0.2, 0.4, 0.35);
	lg->AddEntry(hExp, "IBD", "LE");
	lg->AddEntry(hMC, "MC", "L");
	lg->Draw();

	pd = cv->cd(2);
	hExp->SetMinimum(2000);
	hExp->Draw();
	hMC->Draw("hist,same");
	lg->Draw();
	pd->SetLogy(1);
	cv->Update();
	cv->SaveAs(pdfname);
	hExp->SetMinimum(0);
	hExp->SetLineWidth(1);
	hMC->SetLineColor(kBlack);
	
//		Fits
	TF1 *f2Exp = new TF1("f2Exp", "[0]*(exp(-x/[1]) - exp(-x/[2]))", 0, 100);
	f2Exp->SetParNames("Const.", "#tau_{capt}", "#tau_{th}");
	f2Exp->SetLineColor(kBlue);
	
	TF1 *fExp = new TF1("fExp", "expo", 0, 100);
	fExp->SetLineColor(kRed);
	
	cv->Clear();
	cv->Divide(1, 2);
	cv->cd(1);
	f2Exp->SetParameters(hExp->GetMaximum(), 13, 5);
	hExp->Fit(f2Exp, "", "", 1, 50);
	hExp->Fit(fExp, "+", "", 15, 50);
	lg = new TLegend(0.15, 0.2, 0.4, 0.35);
	lg->AddEntry(hExp, "Data", "LE");
	lg->AddEntry(f2Exp, "Fit with two exponents", "L");
	lg->AddEntry(fExp, "Capture exponent fit", "L");
	lg->Draw();
	sprintf(str, "#tau_{capt}=%5.2f us", -1/fExp->GetParameter(1));
	txt->DrawLatex(20, hExp->GetMaximum()/5, str);
	sprintf(str, "#chi^{2}/NDF=%6.1f/34", fExp->GetChisquare());
	txt->DrawLatex(20, hExp->GetMaximum()/10, str);
	
	cv->cd(2);
	f2Exp->SetParameters(hMC->GetMaximum(), 13, 5);
	hMC->Fit(f2Exp, "", "", 1, 50);
	hMC->Fit(fExp, "+", "", 15, 50);
	lg->Draw();
	sprintf(str, "#tau_{capt}=%5.2f us", -1/fExp->GetParameter(1));
	txt->DrawLatex(20, hMC->GetMaximum()/5, str);
	sprintf(str, "#chi^{2}/NDF=%6.1f/34", fExp->GetChisquare());
	txt->DrawLatex(20, hMC->GetMaximum()/10, str);
	cv->SaveAs(pdfname);
//		Tha same in log scale
	hExp->SetMinimum(2000);
	cv->Clear();
	cv->Divide(1, 2);
	pd = cv->cd(1);
	hExp->Draw();
	lg->Draw();
	pd->SetLogy(1);
	
	pd = cv->cd(2);
	hMC->Draw();
	lg->Draw();
	pd->SetLogy(1);
	cv->Update();
}
Example #9
0
void compareNtuples(TString file1, TString file2, bool doNotSaveSameHistos="true", bool drawWithErrors="true",
		    double ksMinThreshold = 0.001) {
  
  //TDirectory *rootdir = gDirectory->GetDirectory("Rint:");
  
  TFile *f1 = TFile::Open(file1.Data(), "READ");
  if(f1 == NULL) {
    cout << "Exiting" << endl;
    return;
  }
  TTree *tree1 = (TTree*)f1->Get("Events");
  if(tree1 == NULL) {
    cout << "Can't find the tree \"Events\" in " << file1 << " Exiting " << endl;
    return;
  }

  TFile *f2 = TFile::Open(file2.Data(), "READ");
  if(f2 == NULL) {
    cout << "Exiting" << endl;
    return;
  }
  TTree *tree2 = (TTree*)f2->Get("Events");
  if(tree2 == NULL) {
    cout << "Can't find the tree \"Events\" in " << file2 << " Exiting " << endl;
    return;
  }

  TObjArray *objArray= file1.Tokenize("/");
  TString fname1 = "";
  TString fname2 = "";
  for(int i = 0; i < objArray->GetSize(); i++) {
    if(fname1 != "")
      continue;
    cout << TString(objArray->At(i)->GetName()) << endl;
    if(TString(objArray->At(i)->GetName()).Contains("root")) {
      fname1 = TString(objArray->At(i)->GetName());
      continue;
    }
  }
  objArray = file2.Tokenize("/"); 
  for(int i = 0; i < objArray->GetSize(); i++) {
    if(fname2 != "")
      continue;
    cout << TString(objArray->At(i)->GetName()) << endl;
    if(TString(objArray->At(i)->GetName()).Contains("root")) {
      fname2 = TString(objArray->At(i)->GetName());
      continue;
    }
  }
  
  vector<TString> t1_aliasnames = getAliasNames(tree1);
  vector<TString> t2_aliasnames = getAliasNames(tree2);
  vector<TString> v_commonBranches;
  vector<TString> v1_notCommonBranches;
  vector<TString> v2_notCommonBranches;
  
  for(vector<TString>::iterator it = t1_aliasnames.begin(); 
      it != t1_aliasnames.end(); it++) {
    
    if(find(t2_aliasnames.begin(), t2_aliasnames.end(), *it) != t2_aliasnames.end())
      v_commonBranches.push_back(*it);
  }

  //figure out which branches are not common so you can output their names 
  //and draw them last
  v1_notCommonBranches = getUncommonBranches(t1_aliasnames, v_commonBranches);
  v2_notCommonBranches = getUncommonBranches(t2_aliasnames, v_commonBranches);

  TCanvas *c1 = new TCanvas();
  

  for(unsigned int i = 0; i < v1_notCommonBranches.size(); i++) {
    
    TString alias = v1_notCommonBranches.at(i);
    cout << "Branch: " << alias << " was found in " 
	 << file1 << " but not in " << file2 << endl;
    TString histname = "h1_"+(alias);
    TString command  = (alias) + ">>" + histname;
    TBranch *branch = tree1->GetBranch(tree1->GetAlias(alias));
    TString branchname(branch->GetName());
    
    if( branchname.Contains("LorentzVector") ) {
      histname = "h1_"+ alias + "_pt";
      command  = alias + ".Pt()>>" + histname;      
    }
    tree1->Draw(command.Data());
    TH1F *h1 = (TH1F*)gDirectory->Get(histname.Data());
    if(h1==NULL) {
      cout << "********** Branch " << v1_notCommonBranches.at(i) 
	   << " in file " << file1 << "exists, but is undrawable for some reason. " 
	   << "Skipping this branch" << endl;
      c1->Clear();
      continue; 
    }
    c1->Clear();

    if(drawWithErrors)
      h1->TH1F::Sumw2();
    

    h1->Scale(1./h1->GetEntries());
    if(!drawWithErrors) {
      h1->SetLineColor(0);
      h1->SetMarkerSize(1.1);
      h1->SetMarkerStyle(3);
    } else {
      h1->SetMarkerSize(1.3);
      h1->SetMarkerStyle(3);
    }
    
    TString histtitle = alias + ", " + fname1;
    h1->SetTitle(histtitle.Data());
    h1->Draw();
    c1->SaveAs("diff.ps(");
    c1->SetLogy();
    
    //if the canvas has been divided, want to set the logy
    for(int ii = 0; ii < c1->GetListOfPrimitives()->GetSize(); ii++) {
      if(string(c1->GetListOfPrimitives()->At(ii)->ClassName()) != "TVirtualPad")
	continue;
      TVirtualPad *vPad = (TVirtualPad*)(c1->GetListOfPrimitives()->At(ii));
      if(vPad != NULL) {
	vPad->SetLogy();
      }
    }
    c1->SaveAs("diff.ps(");
    c1->SetLogy(0);
  }

  for(unsigned int i = 0; i < v2_notCommonBranches.size(); i++) {
    
    TString alias = v2_notCommonBranches.at(i);
    cout << "Branch: " << alias << " was found in " 
	 << file1 << " but not in " << file2 << endl;
    TString histname = "h2_"+(alias);
    TString command  = (alias) + ">>" + histname;
    TBranch *branch = tree2->GetBranch(tree2->GetAlias(alias));
    TString branchname(branch->GetName());
    
    if( branchname.Contains("LorentzVector") ) {
      histname = "h2_"+ alias + "_pt";
      command  = alias + ".Pt()>>" + histname;      
    }
    tree2->Draw(command.Data());
    TH1F *h2 = (TH1F*)gDirectory->Get(histname.Data());
    if(h2==NULL) {
      cout << "********** Branch " << v2_notCommonBranches.at(i) 
	   << " in file " << file2 << "exists, but is undrawable for some reason. " 
	   << "Skipping this branch" << endl;
      c1->Clear();
      continue; 
    }
    c1->Clear();

    if(drawWithErrors)
      h2->TH1F::Sumw2();


    h2->Scale(1./h2->GetEntries());
    
    if(!drawWithErrors) {
      h2->SetLineColor(kRed);
      h2->SetLineStyle(7);
    } else {
      h2->SetMarkerSize(1.1);
      h2->SetMarkerStyle(8);
      h2->SetMarkerColor(kRed);
    }
    TString histtitle = alias + ", " + fname2;
    h2->SetTitle(histtitle.Data());
    h2->Draw();
    c1->SaveAs("diff.ps(");
    c1->SetLogy();
    //if the canvas has been divided, want to set the logy
    for(int ii = 0; ii < c1->GetListOfPrimitives()->GetSize(); ii++) {
      if(string(c1->GetListOfPrimitives()->At(ii)->ClassName()) != "TVirtualPad")
	continue;
      TVirtualPad *vPad = (TVirtualPad*)c1->GetListOfPrimitives()->At(ii);
      if(vPad != NULL)
	vPad->SetLogy();
    }
    c1->SaveAs("diff.ps(");
    c1->SetLogy(0);
  }




  for(unsigned int i =  0; i < v_commonBranches.size(); i++) {
        
    TString alias = v_commonBranches.at(i);
    cout << "Comparing Branch: " << alias << endl;
    TString hist1name = "h1_"+ alias;
    TString hist2name = "h2_"+ alias;
    TString command1 = (alias)+"+9990.*((abs("+alias +"+9999)<1)*1.)>>"+hist1name;
    TString command2 = (alias)+"+9990.*((abs("+alias +"+9999)<1)*1.)>>"+hist2name;
    TBranch *branch = tree2->GetBranch(tree2->GetAlias(alias));
    TString branchname(branch->GetName());
        
    if(branchname.Contains("p4") ) {
      hist1name = "h1_"+ alias + "_Pt";
      hist2name = "h2_"+ alias + "_Pt";
      command1 = alias + ".pt()+14130.*((abs("+alias+".pt()-14140.7)<1)*1.)>>"+hist1name;
      command2 = alias + ".pt()+14130.*((abs("+alias+".pt()-14140.7)<1)*1.)>>"+hist2name;
    }
    
    tree1->Draw(command1.Data());
    //TH1F *h1 = (TH1F*)c1->GetPrimitive(hist1name.Data());
    TH1F *h1 = (TH1F*)gDirectory->Get(hist1name.Data());
    if(h1==NULL) {
      cout << "********** Branch " << v_commonBranches.at(i) 
	   << " in file " << file1 << " exists, but is undrawable for some reason. " 
	   << "Skipping this branch" << endl;
      c1->Clear();
      continue; 
    }
    //set the Overflow at the last bin
    tree2->Draw(command2.Data());
    //TH1F *h2 = (TH1F*)c1->GetPrimitive(hist2name.Data());
    TH1F *h2 = (TH1F*)gDirectory->Get(hist2name.Data());
    if(h2==NULL) {
      cout << "********** Branch " << v_commonBranches.at(i) 
	   << " in file " << file2 << "exists, but is undrawable for some reason. " 
	   << "Skipping this branch" << endl;
      c1->Clear();
      continue;  
    }
    c1->Clear();

    bool histos_theSame = areHistosTheSame(h1, h2);
    if(histos_theSame && doNotSaveSameHistos)
      continue;
    
    if (! histos_theSame){
      double min1 = h1->GetXaxis()->GetXmin();
      double min2 = h2->GetXaxis()->GetXmin(); 
      double max1 = h1->GetXaxis()->GetXmax();
      double max2 = h2->GetXaxis()->GetXmax();

      double hmin = min1 > min2 ? min2 : min1;
      double hmax = max1 > max2 ? max1 : max2;

      command1 += Form("_fix(100,%f,%f)", hmin, hmax);
      command2 += Form("_fix(100,%f,%f)", hmin, hmax);
      hist1name += "_fix";
      hist2name += "_fix";
      tree1->Draw(command1.Data());
      tree2->Draw(command2.Data());
      h1 = (TH1F*)gDirectory->Get(hist1name.Data());
      h2 = (TH1F*)gDirectory->Get(hist2name.Data());
   }

    if(drawWithErrors) {
      h1->TH1F::Sumw2();
      h2->TH1F::Sumw2();
    }


    h1->Scale(1./h1->GetEntries());
    h2->Scale(1./h2->GetEntries());


    double bDiff = 0;
    unsigned int nX1 = h1->GetNbinsX();
    for(unsigned int iB=0; iB<=nX1+1; ++iB){
      if(h1->GetBinError(iB)==0 && h1->GetBinContent(iB)!=0) h1->SetBinError(iB,1e-3*fabs(h1->GetBinContent(iB)));
      if(h2->GetBinError(iB)==0 && h2->GetBinContent(iB)!=0) h2->SetBinError(iB,1e-3*fabs(h2->GetBinContent(iB)));
      bDiff +=fabs(h1->GetBinContent(iB) - h2->GetBinContent(iB));
    }
    double ksProb = 0;
    if (bDiff == 0) ksProb = 1;
    else ksProb = h1->KolmogorovTest(h2);

    if (bDiff ==0 || ksProb > ksMinThreshold ) continue;

    if(h1->GetNbinsX() != h2->GetNbinsX() ) {
      cout << "Branch " << v_commonBranches.at(i) << " not the same between the 2 files" 
	   << ". They will be drawn side by side" << endl;
      
      c1->Divide(2,1);
      h2->SetTitle(fname2);
      h1->SetTitle(fname1);
      if(!drawWithErrors) {
	h1->SetLineColor(0);
	h1->SetMarkerSize(1.1);
	h1->SetMarkerStyle(3);
	h2->SetLineColor(kRed);
	h2->SetLineStyle(7);
	c1->cd(1);
	h1->Draw();
	c1->cd(2);
	h2->Draw();
      } else {
	h1->SetMarkerSize(1.3);
	h1->SetMarkerStyle(3);
	h2->SetMarkerSize(1.1);
	h2->SetMarkerStyle(8);
	h2->SetMarkerColor(kRed);
	c1->cd(1);
	h1->Draw("e");
	c1->cd(2);
	h2->Draw("e");
      }
      TPaveText ksPt(0,0, 0.35, 0.05, "NDC");
      ksPt.AddText(Form("P(KS)=%g, diffBins=%g, eblk %g ered %g",ksProb, bDiff, h1->GetEntries(), h2->GetEntries()));
      ksPt.Draw();


      if(i < v_commonBranches.size() - 1) {
	c1->SaveAs("diff.ps(");
	c1->SetLogy();
	//if the canvas has been divided, want to set the logy
	for(int ii = 0; ii < c1->GetListOfPrimitives()->GetSize(); ii++) {
	  if(string(c1->GetListOfPrimitives()->At(ii)->ClassName()) != "TVirtualPad")
	    continue;
	  TVirtualPad *vPad = (TVirtualPad*)c1->GetListOfPrimitives()->At(ii);
	  if(vPad != NULL)
	    vPad->SetLogy();
	}
	c1->SaveAs("diff.ps(");
	c1->SetLogy(0);
      } else {
	cout << "done" << endl;
	c1->SaveAs("diff.ps(");
	c1->SetLogy();
	for(int ii = 0; ii < c1->GetListOfPrimitives()->GetSize(); ii++) {
	  if(string(c1->GetListOfPrimitives()->At(ii)->ClassName()) != "TVirtualPad")
	    continue;
	  TVirtualPad *vPad = (TVirtualPad*)c1->GetListOfPrimitives()->At(ii);
	  if(vPad != NULL)
	    vPad->SetLogy();
	}
	c1->SaveAs("diff.ps)");
	c1->SetLogy(0);
      } 
      continue;
    }
            
      if(h1->GetMaximum() >= h2->GetMaximum()) {
      
	double max = 1.1*h1->GetMaximum();
	h1->SetMaximum(max);
	h2->SetMaximum(max);
      
	if(!drawWithErrors) {
	  h1->SetLineColor(0);
	  h1->SetMarkerSize(1.1);
	  h1->SetMarkerStyle(3);
	  h2->SetLineColor(kRed);
	  h2->SetLineStyle(7);
	  h2->Draw();
	  h1->Draw("samesh*");
	} else {
	  h1->SetMarkerSize(1.3);
	  h1->SetMarkerStyle(3);
	  h2->SetMarkerSize(1.1);
	  h2->SetMarkerStyle(8);
	  h2->SetMarkerColor(kRed);
	  h2->Draw("e");
	  h1->Draw("samese");
	}
      
      } else {
	double max = 1.1*h2->GetMaximum();
      
	h1->SetMaximum(max);
	h2->SetMaximum(max);
      
	if(!drawWithErrors) {
	  h1->SetLineColor(0);
	  h1->SetMarkerSize(1.1);
	  h1->SetMarkerStyle(3);
	  h2->SetLineColor(kRed);
	  h2->SetLineStyle(7);
	  TString histtitle = fname1+" (black) " + fname2 + " (red)";
	  h2->SetTitle(histtitle.Data());
	  h1->SetTitle(histtitle.Data());
	  h1->Draw();
	  h2->Draw("samesh*");
	} else {
	  h1->SetMarkerSize(1.3);
	  h1->SetMarkerStyle(3);
	  h2->SetMarkerSize(1.1);
	  h2->SetMarkerStyle(8);
	  h2->SetMarkerColor(kRed);
	  TString histtitle = fname1+" (black) " + fname2 + " (red)";
	  h2->SetTitle(histtitle.Data());
	  h1->SetTitle(histtitle.Data());
	  h1->Draw("e");
	  h2->Draw("samese");
	}

      }
      TPaveText ksPt(0,0, 0.35, 0.05, "NDC");
      ksPt.AddText(Form("P(KS)=%g, diffBins=%g, eblk %g ered %g",ksProb, bDiff, h1->GetEntries(), h2->GetEntries()));
      ksPt.Draw();
      
        
      if(i < v_commonBranches.size() - 1) {
	c1->SaveAs("diff.ps(");
	c1->SetLogy();
	//if the canvas has been divided, want to set the logy
	for(int ii = 0; ii < c1->GetListOfPrimitives()->GetSize(); ii++) {
	  if(string(c1->GetListOfPrimitives()->At(ii)->ClassName()) != "TVirtualPad")
	    continue;
	  TVirtualPad *vPad = (TVirtualPad*)c1->GetListOfPrimitives()->At(ii);
	  if(vPad != NULL)
	    vPad->SetLogy();
	}
	c1->SaveAs("diff.ps(");
	c1->SetLogy(0);
      } else {
	cout << "done" << endl;
	c1->SaveAs("diff.ps(");
	c1->SetLogy();
	for(int ii = 0; ii < c1->GetListOfPrimitives()->GetSize(); ii++) {
	  if(string(c1->GetListOfPrimitives()->At(ii)->ClassName()) != "TVirtualPad")
	    continue;
	  TVirtualPad *vPad = (TVirtualPad*)c1->GetListOfPrimitives()->At(ii);
	  if(vPad != NULL)
	    vPad->SetLogy();
	}
	c1->SaveAs("diff.ps)");
	c1->SetLogy(0);
      }
    
  }//for loop
   
  //c1->SaveAs("diff.ps)");  
}
Example #10
0
void validation()
{
	msglvl[DBG] = SILENT;
	msglvl[INF] = VISUAL;
	msglvl[WRN] = VISUAL;
	msglvl[ERR] = VISUAL;
	msglvl[FAT] = VISUAL;

	TDirectory* oldDir = gDirectory; // remember old directory

	style();

	Int_t g4bin = (ng4bins/g4max+1); //==> g^4=1 ==> SSM !
	
	TString suffix = "";
	if(doTruth) suffix = "_truth";
	
	TString mctype  = (isMC11c) ? "mc11c" : "mc11a";
	
	// TString fBGname = "plots/ZP_2dtemplates_"+mctype+"_33st_overallEWkF_noInAmpSigEWkF_noHighMbins_wthOfficialZP_Xmass2000.root";
	// TString fBGname = "plots/ZP_2dtemplates_"+mctype+"_33st_noKKtmplates_overallEWkF_noInAmpSigEWkF_noTruth_wthOfficialZP_treeLevelMass_Xmass2000.root";
	// TString fBGname = "plots/ZP_2dtemplates_"+mctype+"_33st_noKKtmplates_overallEWkF_noInAmpSigEWkF_wthOfficialZP_treeLevelMass_Xmass2000.root";
	// TString fBGname = "plots/ZP_2dtemplates_mc11c_33st_noKKtmplates_overallEWkF_noInAmpSigEWkF_wthOfficialZP_fixedBWwidth_treeLevelMass_Xmass2000.root";
	// TString fBGname = "plots/ZP_2dtemplates_mc11c_33st_noKKtmplates_overallEWkF_noInAmpSigEWkF_noTruth_wthOfficialZP_treeLevelMass_Xmass2000.root";
	// TString fBGname = "plots/ZP_2dtemplates_"+mctype+"_33st_noKKtmplates_overallEWkF_noInAmpSigEWkF_noTruth_wthOfficialZP_treeLevelMass_Xmass2000.root";
	// TString fBGname = "plots/ZP_2dtemplates_"+mctype+"_33st_noKKtmplates_overallEWkF_noInAmpSigEWkF_noTruth_wthOfficialZP_fixedBWwidth_treeLevelMass_Xmass2000.root";

	TLegend* legR = new TLegend(0.15,0.75,0.35,0.85,NULL,"brNDC");
	legR->SetFillStyle(4000); //will be transparent
	legR->SetFillColor(0);
	legR->SetTextFont(42);
	TH1D* hDummy = new TH1D("","",1,0.,1.);
	hDummy->SetMarkerStyle(20);
	hDummy->SetMarkerSize(0.8);
	hDummy->SetMarkerColor(kBlack);
	if(!doResiduals) legR->AddEntry(hDummy,"#frac{template}{official}","lep");
	else             legR->AddEntry(hDummy,"#frac{template - official}{#sqrt{#delta^{2}template + #delta^{2}official}}","lep");
	
	TPaveText* ptxt = new TPaveText(0.145,0.35,0.245,0.55,"NDC");
	TText* txt;
	ptxt->SetTextSize(0.03);
	ptxt->SetBorderSize(0);
	ptxt->SetFillStyle(4000); //will be transparent
	ptxt->SetFillColor(0);
	ptxt->SetTextAlign(12);
	txt = ptxt->AddText("This range");
	txt = ptxt->AddText("is chopped");
	txt = ptxt->AddText("before the");
	txt = ptxt->AddText("template is");
	txt = ptxt->AddText("handed to");
	txt = ptxt->AddText("BAT (limit).");
	
	oldDir->cd();

	TString fBGname = "plots/validation/ZP_2dtemplates_mc11c_33st_noKKtmplates_wthOfficialZP_treeLevelMass_Xmass2000.root";
	TFile* fD = new TFile(fBGname,"READ");
	TH1D* hDY = NULL;
	if(doTruth) hDY = (TH1D*)fD->Get("hMass_DYmumu_truth")->Clone();
	else        hDY = (TH1D*)fD->Get("hMass_DYmumu")->Clone();
	hDY->SetLineColor(kMagenta-5);
	hDY->SetMarkerColor(kMagenta-5);

	oldDir->cd();

	TFile* fDYrozmin    = new TFile("plots/mass_plot_tables_3st.root","READ");
	TH1D* hDYrozmin = (TH1D*)fDYrozmin->Get("mass_log_dy")->Clone();
	hDYrozmin = (TH1D*)hGeV2TeV(hDYrozmin)->Clone();
	hDYrozmin = (TH1D*)hChopper(hDYrozmin,bins2chop)->Clone();
	oldDir->cd();
	TFile* f1dTemplates = new TFile("plots/ZpSignal_MM_MC11c_5points.root","READ");
	TObjArray* toarr1d = new TObjArray();
	toarr1d->Read("template");
	TMapTSP2TH1D h1dBrandeisTmpltMap;
	double Nflat = 399948;
	double sigmaflat = 4.3988E+07*nb2fb;
	double Lmcflat = Nflat/sigmaflat;
	double scale = luminosity/Lmcflat;
	TH1D* h1dTmp = NULL;
	h1dTmp = (TH1D*)((TObjArray*)toarr1d->At(0/*22*/))->Clone();
	h1dTmp->Scale(scale);
	h1dTmp = (TH1D*)hChopper(h1dTmp,bins2chop)->Clone();
	h1dTmp->Add(hDYrozmin);
	h1dBrandeisTmpltMap.insert( make_pair("1000",(TH1D*)resetErrors(h1dTmp)->Clone("1000")) );
	h1dTmp = NULL;
	h1dTmp = (TH1D*)((TObjArray*)toarr1d->At(1/*28*/))->Clone();
	h1dTmp->Scale(scale);
	h1dTmp = (TH1D*)hChopper(h1dTmp,bins2chop)->Clone();
	h1dTmp->Add(hDYrozmin);
	h1dBrandeisTmpltMap.insert( make_pair("1250",(TH1D*)resetErrors(h1dTmp)->Clone("1250")) );
	h1dTmp = NULL;
	h1dTmp = (TH1D*)((TObjArray*)toarr1d->At(2/*34*/))->Clone();
	h1dTmp->Scale(scale);
	h1dTmp = (TH1D*)hChopper(h1dTmp,bins2chop)->Clone();
	h1dTmp->Add(hDYrozmin);
	h1dBrandeisTmpltMap.insert( make_pair("1500",(TH1D*)resetErrors(h1dTmp)->Clone("1500")) );
	h1dTmp = NULL;
	h1dTmp = (TH1D*)((TObjArray*)toarr1d->At(3/*40*/))->Clone();
	h1dTmp->Scale(scale);
	h1dTmp = (TH1D*)hChopper(h1dTmp,bins2chop)->Clone();
	h1dTmp->Add(hDYrozmin);
	h1dBrandeisTmpltMap.insert( make_pair("1750",(TH1D*)resetErrors(h1dTmp)->Clone("1750")) );
	h1dTmp = NULL;
	h1dTmp = (TH1D*)((TObjArray*)toarr1d->At(4/*47*/))->Clone();
	h1dTmp->Scale(scale);
	h1dTmp = (TH1D*)hChopper(h1dTmp,bins2chop)->Clone();
	h1dTmp->Add(hDYrozmin);
	h1dBrandeisTmpltMap.insert( make_pair("2000",(TH1D*)resetErrors(h1dTmp)->Clone("2000")) );

	oldDir->cd();

	TMapTSP2TH1D h1Map;
	h1Map.insert( make_pair("1000o", (TH1D*)fD->Get("hMass_Zprime_SSM1000"+suffix)->Clone()) );
	h1Map.insert( make_pair("1000t", (TH1D*)fD->Get("hMass_Zprime_SSM1000_template"+suffix)->Clone()) );
	if(isMC11c)
	{
		h1Map.insert( make_pair("1250o", (TH1D*)fD->Get("hMass_Zprime_SSM1250"+suffix)->Clone()) );
		h1Map.insert( make_pair("1250t", (TH1D*)fD->Get("hMass_Zprime_SSM1250_template"+suffix)->Clone()) );
	}
	h1Map.insert( make_pair("1500o", (TH1D*)fD->Get("hMass_Zprime_SSM1500"+suffix)->Clone()) );
	h1Map.insert( make_pair("1500t", (TH1D*)fD->Get("hMass_Zprime_SSM1500_template"+suffix)->Clone()) );
	h1Map.insert( make_pair("1750o", (TH1D*)fD->Get("hMass_Zprime_SSM1750"+suffix)->Clone()) );
	h1Map.insert( make_pair("1750t", (TH1D*)fD->Get("hMass_Zprime_SSM1750_template"+suffix)->Clone()) );
	h1Map.insert( make_pair("2000o", (TH1D*)fD->Get("hMass_Zprime_SSM2000"+suffix)->Clone()) );
	h1Map.insert( make_pair("2000t", (TH1D*)fD->Get("hMass_Zprime_SSM2000_template"+suffix)->Clone()) );

	TMapTSP2TH1D h1rMap;
	h1rMap.insert( make_pair("1000", (TH1D*)fD->Get("hMass_Zprime_SSM1000"+suffix)->Clone()) );
	if(isMC11c) h1rMap.insert( make_pair("1250", (TH1D*)fD->Get("hMass_Zprime_SSM1250"+suffix)->Clone()) );
	h1rMap.insert( make_pair("1500", (TH1D*)fD->Get("hMass_Zprime_SSM1500"+suffix)->Clone()) );
	h1rMap.insert( make_pair("1750", (TH1D*)fD->Get("hMass_Zprime_SSM1750"+suffix)->Clone()) );
	h1rMap.insert( make_pair("2000", (TH1D*)fD->Get("hMass_Zprime_SSM2000"+suffix)->Clone()) );
	for(TMapTSP2TH1D::iterator it=h1rMap.begin() ; it!=h1rMap.end() ; ++it)
	{
		it->second->Reset();
		if(!doResiduals) it->second->Divide(h1Map[it->first+"o"],h1Map[it->first+"t"],1.,1.,"B");
		else             residuals(h1Map[it->first+"o"], h1Map[it->first+"t"], it->second);
		
		// for(Int_t i=0 ; i<=it->second->GetNbinsX()+1 ; i++) it->second->SetBinError(i,0);
		it->second->SetMarkerStyle(20);
		it->second->SetMarkerSize(0.5);
		it->second->GetXaxis()->SetLabelSize(0.073);
		it->second->GetYaxis()->SetLabelSize(0.073);
		it->second->GetXaxis()->SetTitleSize(0.073);
		it->second->GetYaxis()->SetTitleSize(0.073);
		it->second->SetTitleSize(0.075);
		it->second->GetYaxis()->SetTitleOffset(0.5);
		if(!doResiduals)
		{
			it->second->SetMinimum(0.2);
			it->second->SetMaximum(1.8);
		}
		else
		{
			it->second->SetMinimum(-5.);
			it->second->SetMaximum(+5.);
		}
		it->second->SetTitle("");
		if(!doResiduals) it->second->GetYaxis()->SetTitle("ratio");
		else             it->second->GetYaxis()->SetTitle("residuals");
	}

	TMapTSP2TGAE poissonGraphMap;
	TMapTSP2TLeg legMap;


	_INFO("");

	oldDir->cd();

	fD->cd();	
	TH1D* h1Template = (TH1D*)fD->Get("hMass_DYmumu"+suffix)->Clone();
	h1Template->Reset();
	TObjArray* toarr = new TObjArray();
	if(doTruth) toarr->Read("truth_template2d");
	else        toarr->Read("template2d");
	TH2D* h2SSM2000 = (TH2D*)((TObjArray*)toarr->At(0))->Clone("hMass"+suffix+"_Zprime_SSM2000_template2d");
	for(Int_t bin=1 ; bin<=h2SSM2000->GetNbinsX() ; bin++)
	{
		h1Template->SetBinContent(bin, h2SSM2000->GetBinContent(bin,g4bin));
		h1Template->SetBinError(bin, h2SSM2000->GetBinError(bin,g4bin));
	}
	h1Template->SetLineColor(kViolet);
	h1Template->SetLineWidth(1);
	h1Template->SetMarkerStyle(20);
	h1Template->SetMarkerSize(0.3);
	h1Template->SetMarkerColor(kViolet);
	// the functions
	h2Template = (TH2D*)h2SSM2000->Clone();
	vector<TF1*> vfunc;
	unsigned int nmllbins = h2Template->GetNbinsX();
	for(unsigned int mll=1 ; mll<=(nmllbins-bins2chop) ; mll++) // 1...(56-9 = 47)
	{
		TString mllname = (TString)_s(mll);
		TString mllval  = (TString)_s(h2Template->GetXaxis()->GetBinCenter(mll+bins2chop));
		
		TF1* f = new TF1("fNominal_mll"+mllname,fTH1toTF1,g4min,g4max,1);
		f->SetParameter(0,mll);
		f->SetParNames("mll");
		// f->SetLineColor(kBlue);
		// f->SetLineWidth(1);
		f->SetNpx(400);
		vfunc.push_back(f);
	}
	TGraph* graphDY = new TGraph();
	graphDY->SetMarkerStyle(25);
	graphDY->SetMarkerSize(0.6);
	graphDY->SetMarkerColor(kGreen+2);
	TGraph* graphSSM = new TGraph();
	graphSSM->SetMarkerStyle(24);
	graphSSM->SetMarkerSize(0.6);
	graphSSM->SetMarkerColor(kOrange+8);
	for(unsigned int i=0 ; i<vfunc.size() ; i++)
	{
		double DY = vfunc[i]->Eval(0.0);
		double SSM = vfunc[i]->Eval(1.0);
		graphDY->SetPoint(i,h2Template->GetXaxis()->GetBinCenter(bins2chop+i+1),DY);
		graphSSM->SetPoint(i,h2Template->GetXaxis()->GetBinCenter(bins2chop+i+1),SSM);
	}
	
	
	oldDir->cd();

	TObjArray* toarr1dTLV = new TObjArray();
	TMapTSP2TH1D h1dTlvTmpltMap;
	TFile* fT = NULL;
	TString fTname = "plots/validation/ZP_2dtemplates_mc11c_33st_noInterference_noKKtmplates_noOverallEWkF_wthOfficialZP_treeLevelMass_Xmass";
	
	fT = new TFile(fTname+"1000.root","READ");
	toarr1dTLV->Read("template");
	h1dTmp = (TH1D*)((TObjArray*)toarr1dTLV->At(0))->Clone();
	h1dTmp->Add(hDY);
	h1dTlvTmpltMap.insert( make_pair("1000",(TH1D*)resetErrors(h1dTmp)->Clone("1000")) );
	fT = new TFile(fTname+"1250.root","READ");
	toarr1dTLV->Read("template");
	h1dTmp = (TH1D*)((TObjArray*)toarr1dTLV->At(0))->Clone();
	h1dTmp->Add(hDY);
	h1dTlvTmpltMap.insert( make_pair("1250",(TH1D*)resetErrors(h1dTmp)->Clone("1250")) );
	fT = new TFile(fTname+"1500.root","READ");
	toarr1dTLV->Read("template");
	h1dTmp = (TH1D*)((TObjArray*)toarr1dTLV->At(0))->Clone();
	h1dTmp->Add(hDY);
	h1dTlvTmpltMap.insert( make_pair("1500",(TH1D*)resetErrors(h1dTmp)->Clone("1500")) );
	fT = new TFile(fTname+"1750.root","READ");
	toarr1dTLV->Read("template");
	h1dTmp = (TH1D*)((TObjArray*)toarr1dTLV->At(0))->Clone();
	h1dTmp->Add(hDY);
	h1dTlvTmpltMap.insert( make_pair("1750",(TH1D*)resetErrors(h1dTmp)->Clone("1750")) );
	fT = new TFile(fTname+"2000.root","READ");
	toarr1dTLV->Read("template");
	h1dTmp = (TH1D*)((TObjArray*)toarr1dTLV->At(0))->Clone();
	h1dTmp->Add(hDY);
	h1dTlvTmpltMap.insert( make_pair("2000",(TH1D*)resetErrors(h1dTmp)->Clone("2000")) );

	oldDir->cd();
	
	
	for(TMapTSP2TH1D::iterator it=h1Map.begin() ; it!=h1Map.end() ; ++it)
	{
		if(it->first.Contains("o"))
		{
			TString name = it->first;
			name.ReplaceAll("o","");
			it->second->SetFillColor(kAzure-9);
			if(doTruth) it->second->SetTitle("m_{Z'} = "+name+" GeV (truth)");
			else        it->second->SetTitle("m_{Z'} = "+name+" GeV");
		}
		if(it->first.Contains("t"))
		{
			//TGraphAsymmErrors* poisson(TH1D* h)
			it->second->SetLineColor(kBlue);
			it->second->SetMarkerStyle(20);
			it->second->SetMarkerSize(0.4);
			it->second->SetMarkerColor(kBlue);
			it->second->SetLineWidth(1);
			
			TString name = it->first;
			name.ReplaceAll("t","");
			poissonGraphMap.insert( make_pair(name, (TGraphAsymmErrors*)poisson(it->second)->Clone()) );
			poissonGraphMap[name]->SetMarkerStyle(20);
			poissonGraphMap[name]->SetMarkerSize(0.3);
			poissonGraphMap[name]->SetMarkerColor(kBlue);
			poissonGraphMap[name]->SetLineWidth(1);
			poissonGraphMap[name]->SetLineColor(kBlue);
		}
	}	

	Double_t yLine = (!doResiduals) ? 1. : 0.;

	TLine* line = new TLine(0.07,yLine,3.,yLine);	
	line->SetLineColor(kRed);
	line->SetLineWidth(2);
	
	TMapTSP2TCNV cnvMap;
	cnvMap.insert( make_pair("1000", new TCanvas("1000","1000",600,550)) );
	if(isMC11c) cnvMap.insert( make_pair("1250", new TCanvas("1250","1250",600,550)) );
	cnvMap.insert( make_pair("1500", new TCanvas("1500","1500",600,550)) );
	cnvMap.insert( make_pair("1750", new TCanvas("1750","1750",600,550)) );
	cnvMap.insert( make_pair("2000", new TCanvas("2000","2000",600,550)) );
	for(TMapTSP2TCNV::iterator it=cnvMap.begin() ; it!=cnvMap.end() ; ++it)
	{
		_INFO("starting "+(string)it->first);
		if(it->first=="2000") legMap.insert( make_pair(it->first, new TLegend(0.35,0.55,0.83,0.84,NULL,"brNDC")) );
		else                  legMap.insert( make_pair(it->first, new TLegend(0.35,0.60,0.83,0.84,NULL,"brNDC")) );
		legMap[it->first]->SetFillStyle(4000); //will be transparent
		legMap[it->first]->SetFillColor(0);
		legMap[it->first]->SetTextFont(42);
		legMap[it->first]->AddEntry(h1Map[it->first+"o"],"Official Z'_{SSM}","F");
		legMap[it->first]->AddEntry(hDY,"Official DY#mu#mu","lep");
		legMap[it->first]->AddEntry(h1Map[it->first+"t"],"ME^{2} method: Template w/o couplings scale","lep");
		if(it->first=="2000")
		{
			legMap[it->first]->AddEntry(h1Template,"ME^{2} method: Template histogram at  #it{g=1} (SSM)","lep");
			legMap[it->first]->AddEntry(graphSSM,  "ME^{2} method: Template function  at  #it{g=1} (SSM)","p");
			legMap[it->first]->AddEntry(graphDY,   "ME^{2} method: Template function  at  #it{g=0} (DY)","p");
		}
		if(!doTruth)
		{
			h1dTlvTmpltMap[it->first]->SetLineColor(kCyan+2);
			h1dTlvTmpltMap[it->first]->SetMarkerColor(kCyan+2);
			h1dTlvTmpltMap[it->first]->SetMarkerStyle(5);
			h1dTlvTmpltMap[it->first]->SetMarkerSize(0.5);
			legMap[it->first]->AddEntry(h1dTlvTmpltMap[it->first],"ME^{2} method: DY+Template (no interference)","p");
		
			h1dBrandeisTmpltMap[it->first]->SetLineColor(kRed);
			h1dBrandeisTmpltMap[it->first]->SetMarkerColor(kRed);
			h1dBrandeisTmpltMap[it->first]->SetMarkerStyle(27);
			h1dBrandeisTmpltMap[it->first]->SetMarkerSize(0.5);
			legMap[it->first]->AddEntry(h1dBrandeisTmpltMap[it->first],"Flat Z' method: DY+Template (no interference)","p");
		}

		it->second->Divide(1,2);
		TVirtualPad* ph = it->second->cd(1);
		TVirtualPad* pr = it->second->cd(2);	
		ph->SetPad(0.00, 0.35, 1.00, 1.00);
		pr->SetPad(0.00, 0.00, 1.00, 0.35);
		ph->SetBottomMargin(0.012);
		pr->SetBottomMargin(0.20);
		pr->SetTopMargin(0.012);
		
		ph->cd();
		ph->Draw();
		ph->SetTicks(1,1);
		ph->SetLogy();
		ph->SetLogx();
		// h1Map[it->first+"o"]->SetMaximum( h1Map[it->first+"t"]->GetMaximum()*1.5 );
		// h1Map[it->first+"o"]->Draw();
		TH1D* hTmpNoErr = (TH1D*)resetErrors(h1Map[it->first+"o"])->Clone();
		hTmpNoErr->SetMaximum( h1Map[it->first+"t"]->GetMaximum()*1.5 );
		hTmpNoErr->SetLineStyle(1);
		hTmpNoErr->SetLineColor(kBlack);
		hTmpNoErr->SetFillColor(kAzure-9);
		hTmpNoErr->Draw();
		TH1D* hTmpErr = (TH1D*)ShiftLog(h1Map[it->first+"o"],0.2)->Clone();
		hTmpErr->SetFillStyle(4000); //will be transparent
		hTmpErr->SetFillColor(0);
		hTmpErr->DrawCopy("epx0SAMES");
		hDY->Draw("SAMES");
		h1Map[it->first+"t"]->Draw("epSAMES");
		//poissonGraphMap[it->first]->Draw("pSAMES");
		if(it->first=="2000")
		{
			graphDY->Draw("SAMESp");
			graphSSM->Draw("SAMESp");
			h1Template->Draw("epSAMES");
		}
		_INFO("");
		h1dTlvTmpltMap[it->first]->Draw("SAMESp");
		h1dBrandeisTmpltMap[it->first]->Draw("SAMESp");
		
		TLine* chopline = new TLine(0.12805,getYmin(h1Map[it->first+"o"]),0.12805,7.e5);
		chopline->SetLineStyle(2);
		chopline->SetLineColor(kBlack);
		chopline->Draw("SAMES");
		ptxt->Draw("SAMES");
		
		legMap[it->first]->Draw("SAMES");
		ph->RedrawAxis();
		ph->Update();

		_INFO("");

		pr->cd();
		pr->Draw();
		pr->SetTicks(1,1);
		pr->SetGridy();
		pr->SetLogx();
		h1rMap[it->first]->Draw("ep");
		line->Draw("SAMES");
		h1rMap[it->first]->Draw("epSAMES");
		legR->Draw("SAMES");
		pr->RedrawAxis();
		pr->Update();

		unsigned int savestate = 1;
		if(it->first=="1000")      savestate = 0;
		else if(it->first=="2000") savestate = 2;
		else                       savestate = 1;
		TString testType = (doResiduals) ? "_residuals" : "_ratio";
		mutype   = (doTruth)     ? "_truth"     : "_recon";
		savemultipdf(it->second, "plots/validation/validation"+mutype+testType+"_"+mctype+"_all.pdf", savestate);
		saveas(it->second, "plots/validation/validation"+mutype+testType+"_"+mctype+"_"+it->first);
		
		TCanvas* c = new TCanvas(it->first,"",600,400);
		c->cd();
		c->Draw();
		c->SetTicks(1,1);
		c->SetLogy();
		c->SetLogx();
		hTmpNoErr->Draw();
		hTmpErr->DrawCopy("epx0SAMES");
		hDY->Draw("SAMES");
		h1Map[it->first+"t"]->Draw("epSAMES");
		//poissonGraphMap[it->first]->Draw("pSAMES");
		if(it->first=="2000")
		{
			graphDY->Draw("SAMESp");
			graphSSM->Draw("SAMESp");
			h1Template->Draw("epSAMES");
		}
		h1dTlvTmpltMap[it->first]->Draw("SAMESp");
		h1dBrandeisTmpltMap[it->first]->Draw("SAMESp");
		legMap[it->first]->Draw("SAMES");
		chopline->Draw("SAMES");
		ptxt->Draw("SAMES");
		c->RedrawAxis();
		c->Update();
		saveas(c,"plots/validation/validation_"+it->first+"_"+mutype+testType);
		
		_INFO("done "+(string)it->first);
	}
}
//______________________________________________________________________________
void CMSApplicationTBB::FinishRun() {
#ifdef USE_ROOT
  if (fScore == kNoScore)
    return;
  TCanvas *c1 = new TCanvas("CMS test flux", "Simple scoring in CMS geometry", 700, 1200);
  double norm = 1. / fRunMgr->GetNprimaries();
  TVirtualPad *pad;
  TFile *f = TFile::Open("ScoreECAL.root", "RECREATE");
  c1->Divide(2, 3);
  pad = c1->cd(1);
  pad->SetLogx();
  pad->SetLogy();
  fFluxElec->Sumw2();
  fFluxElec->Scale(norm);
  fFluxElec->Draw("9");
  pad = c1->cd(2);
  pad->SetLogx();
  pad->SetLogy();
  fFluxGamma->Sumw2();
  fFluxGamma->Scale(norm);
  fFluxGamma->Draw("9");
  pad = c1->cd(3);
  pad->SetLogx();
  pad->SetLogy();
  fFluxP->Sumw2();
  fFluxP->Scale(norm);
  fFluxP->Draw("9");
  pad = c1->cd(4);
  pad->SetLogx();
  pad->SetLogy();
  fFluxPi->Sumw2();
  fFluxPi->Scale(norm);
  fFluxPi->Draw("9");
  pad = c1->cd(5);
  pad->SetLogx();
  pad->SetLogy();
  fFluxK->Sumw2();
  fFluxK->Scale(norm);
  fFluxK->Draw("9");
  fFluxElec->Write();
  fFluxGamma->Write();
  fFluxP->Write();
  fFluxPi->Write();
  fFluxK->Write();

  TCanvas *c2 = new TCanvas("CMS test edep", "Simple scoring in CMS geometry", 700, 1200);
  c2->Divide(2, 3);
  pad = c2->cd(1);
  pad->SetLogx();
  pad->SetLogy();
  fEdepElec->Sumw2();
  fEdepElec->Scale(norm);
  fEdepElec->Draw("9");
  pad = c2->cd(2);
  pad->SetLogx();
  pad->SetLogy();
  fEdepP->Sumw2();
  fEdepP->Scale(norm);
  fEdepP->Draw("9");
  pad = c2->cd(3);
  pad->SetLogx();
  pad->SetLogy();
  fEdepPi->Sumw2();
  fEdepPi->Scale(norm);
  fEdepPi->Draw("9");
  pad = c2->cd(4);
  pad->SetLogx();
  pad->SetLogy();
  fEdepK->Sumw2();
  fEdepK->Scale(norm);
  fEdepK->Draw("9");
  pad = c2->cd(5);
  pad->SetLogx();
  pad->SetLogy();
  fEdepGamma->Sumw2();
  fEdepGamma->Scale(norm);
  fEdepGamma->Draw("9");
  fEdepElec->Write();
  fEdepGamma->Write();
  fEdepP->Write();
  fEdepPi->Write();
  fEdepK->Write();

  // Close file
  f->Close();
#endif
}
TCanvas* pHitSpecPosGen( )
{
  TCanvas* c = new TCanvas("cHitSpecPosGen","cHitSpecPosGen",1200,600);
  c->Divide(2,1);
  TVirtualPad* p; TH2D *h; TH2D *hAtPhi0;
  TText t; t.SetTextColor(4);

  p =c->cd(1); p->SetLogy(); p->SetGrid(0,1);
  h = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhiGen_Minus"); 
  hAtPhi0 = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhiGenAtPhi0_Minus"); 
  h->GetYaxis()->SetRange(4,33);
  h->GetXaxis()->SetNdivisions(505); h->GetXaxis()->SetLabelSize(0.04);
  h->DrawCopy("box");
  hAtPhi0->SetLineColor(2);
  hAtPhi0->DrawCopy("box same");
  t.DrawTextNDC(0.17,0.15, "BARREL MU MINUS");
  std::cout <<h->GetTitle() << std::endl;
  for (int iy = 1; iy <=h->GetNbinsY(); iy++) {
  std::cout <<" pt: " << h->GetYaxis()->GetBinLowEdge(iy);
  double xmin=100.;
  double xAtMax = 0.; double valAtMax = 0.;
  double xmax=-100.;
  for (int ix = 1; ix <=h->GetNbinsX(); ix++) {
     double val = h->GetBinContent(ix,iy); 
     double xbmin = h->GetXaxis()->GetBinLowEdge(ix);
     double xcent = h->GetXaxis()->GetBinCenter(ix);
     double xbmax = h->GetXaxis()->GetBinUpEdge(ix);
     if (val > valAtMax) { valAtMax = val; xAtMax = xcent; }
     if (val > 1 && (xbmin < xmin)) xmin = xbmin;    
     if (val > 1 && (xbmax > xmax)) xmax = xbmax;    
  }
  std::cout <<"  set DPHI0 = "<<1.025-xAtMax 
            <<"; set DPHI_MARGIN = " <<std::max( (xAtMax-xmin), (xmax-xAtMax))
<<";" << std::endl;
  }

  p =c->cd(2); p->SetLogy(); p->SetGrid(1,1);
  h = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhiGen_Plus"); 
  hAtPhi0 = (TH2D*)gROOT->FindObject("hHitSpec_PtVsPhiGenAtPhi0_Plus"); 
  h->GetYaxis()->SetRange(4,32);
  h->GetXaxis()->SetNdivisions(505); h->GetXaxis()->SetLabelSize(0.04);
  h->DrawCopy("box");
  hAtPhi0->SetLineColor(2);
  hAtPhi0->DrawCopy("box same");
  t.DrawTextNDC(0.17,0.15, "BARREL MU PLUS");
  std::cout <<h->GetTitle() << std::endl;
  for (int iy = 1; iy <=h->GetNbinsY(); iy++) {
  std::cout <<" pt: " << h->GetYaxis()->GetBinLowEdge(iy);
  double xmin=100.;
  double xAtMax = 0.; double valAtMax = 0.;
  double xmax=-100.;
  for (int ix = 1; ix <=h->GetNbinsX(); ix++) {
     double val = h->GetBinContent(ix,iy); 
     double xbmin = h->GetXaxis()->GetBinLowEdge(ix);
     double xcent = h->GetXaxis()->GetBinCenter(ix);
     double xbmax = h->GetXaxis()->GetBinUpEdge(ix);
     if (val > valAtMax) { valAtMax = val; xAtMax = xcent; }
     if (val > 1 && (xbmin < xmin)) xmin = xbmin;    
     if (val > 1 && (xbmax > xmax)) xmax = xbmax;    
  }
  std::cout <<"  set DPHI0 = "<<1.025-xAtMax 
            <<"; set DPHI_MARGIN = " <<std::max( (xAtMax-xmin), (xmax-xAtMax))
<<";" << std::endl;
  }

  return c;
}
void EstimateBg_76X(bool save=0, std::string in = "",
		std::string out = "/afs/cern.ch/user/j/jkarancs/public/NOTES/notes/AN-14-290/trunk/Plots/v1.0/", std::string ext="png") {
  gStyle->SetOptTitle(0);
  gStyle->SetOptStat(0);
  
  bool latex = save;
  
  bool ABCD_prime = 0;
  bool TT_only = 0;
  
  std::stringstream ss, ss2;
  ss<<DPHI_CUT; ss2<<R_CUT;
  std::string dphi_cut = ss.str().replace(ss.str().find("."),1,"p");
  std::string r_cut = ss2.str().replace(ss2.str().find("."),1,"p");
  
  std::string filename = in.size() ? in : 
    //"results/Plotter_out_2016_05_31_08h48m57_replot.root";
    "results/Plotter_out_2016_06_24_14h28m51.root";
  
  std::vector<std::string> samples[4];
  //samples[0].push_back("TTJetsMGHT");
  //samples[0].push_back("TTJetsMG");
  //samples[0].push_back("TTJetsNLOFXFX");
  //samples[0].push_back("TTNLO");
  //samples[0].push_back("TTNLOHerwig");
  //samples[0].push_back("TTPowheg");
  //samples[0].push_back("TTPowhegmpiOff");
  //samples[0].push_back("TTPowhegnoCR");
  //samples[0].push_back("TTPowhegHerwig");
  
  //+data+ samples[1].push_back("SingleElectron");
  //+data+ samples[1].push_back("SingleMuon");
  if (TT_only) {
    samples[1].push_back("TTJetsMGHT");
    samples[1].push_back("TTJetsMG");
    samples[1].push_back("TTJetsNLOFXFX");
    samples[1].push_back("TTNLO");
    samples[1].push_back("TTNLOHerwig");
    samples[1].push_back("TTPowheg");
    samples[1].push_back("TTPowhegmpiOFF");
    samples[1].push_back("TTPowhegnoCR");
    samples[1].push_back("TTPowhegHerwig");
  } else {
    samples[1].push_back("TTJetsMGHT");
    //samples[1].push_back("TTJetsMG");
    //samples[1].push_back("TTJetsNLOFXFX");
    //samples[1].push_back("TTNLO");
    //samples[1].push_back("TTNLOHerwig");
    //samples[1].push_back("TTPowheg");
    //samples[1].push_back("TTPowhegmpiOff");
    //samples[1].push_back("TTPowhegnoCR");
    //samples[1].push_back("TTPowhegHerwig");
    samples[1].push_back("ZJets");
    samples[1].push_back("TTX");
    samples[1].push_back("WJets");
    samples[1].push_back("Diboson");
    samples[1].push_back("Top");
    samples[1].push_back("QCD");
    //ZERO samples[1].push_back("TZQ");
    //ZERO samples[1].push_back("ZJetsToQQ"); // Also WJetsToQQ
    //ZERO samples[1].push_back("GJets");
  }
  //samples[1].push_back("Data");
  // NTop Sideband All background summed
  samples[2].push_back("All Bkg.");
    
  // Signal in NTop bins
  samples[3].push_back("T1tttt");
  
  bool baderror = false;
  double weight[] = { 0.32686, 0.0505037, 0.00921411, 6.80717, 0.354934, 0.00484915 };
  int rebin = /*(R_CUT*10-int(R_CUT*10))==0 ? 10 :*/ (R_CUT*20-int(R_CUT*20))==0 ? 5 : (R_CUT*50-int(R_CUT*50))==0 ? 2 : 1;
  double sideband_fit_low_range[] = { 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15, 0.15 };
  
  int i_h_side[]   = { 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
  int i_h_signal[] = { 3, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1 };
  
  double scale_factors[] = { 1, 1, 1, 1, 1, 1, 1}; // All normal
  //double scale_factors[] = { /* TT */ 1, /* W */ 1, /* Z */ 1, /* T */ 1, /* TTV */ 1, /* QCD */ 2, /* VV */ 1 }; // QCD high
  //double scale_factors[] = { /* TT */ 5, /* W */ 1, /* Z */ 1, /* T */ 1, /* TTV */ 5, /* QCD */ 1, /* VV */ 1 }; // TT/TTV high
  //double scale_factors[] = { /* TT */ 1, /* W */ 2, /* Z */ 2, /* T */ 2, /* TTV */ 1, /* QCD */ 1, /* VV */ 2 }; // T/V/VV high
  
  Double_t Rranges_ABCD[][4] = 
    { { DPHI_CUT, 3.2, 0.0, DPHI_CUT  },
      { R_CUT_LOW-1e-10, R_CUT, R_CUT-1e-10, 1.20 },
      { R_CUT_LOW-1e-10, R_CUT, R_CUT-1e-10, 1.20 },
      { R_CUT_LOW-1e-10, R_CUT, R_CUT-1e-10, 1.20 } };
  bool doFitting = false;
  double sum_a = 0, sum_b = 0, sum_c = 0, sum_d = 0, sum_d_abcd = 0, sum_d_nevt = 0;
  double sum_a_err = 0, sum_b_err = 0, sum_c_err = 0, sum_d_err = 0, sum_d_abcd_err = 0;
  double sum_b_fit = 0, sum_d_fit = 0, sum_d_fit_comb = 0;
  double sum_b_fit_err = 0, sum_d_fit_err = 0, sum_d_fit_comb_err = 0;
  double comb_d = 0, comb_d_err = 0, comb_d_abcd = 0, comb_d_abcd_err = 0;
  if (latex) {
    printf("\\begin{table*}[htbH]\n");
    printf("\\small\n");
    printf("\\begin{center}\n");
    printf("\\topcaption{Estimated Standard Model background yields in ABCD regions. A, B is in the sideband, C and D is the signal band, D is the signal region.\\label{tab:SMBkgEstimate}}\n");
    printf("\\begin{tabular}{lrrrrrrrr}\n");
  }
  TFile *f = TFile::Open(filename.c_str());
  for (size_t iMethod = 0; iMethod<4; ++iMethod) if (!(iMethod==0&&samples[0].size()==0)){
    // Print Top row for each method
    if (latex) {
      if (iMethod==0) {
        printf("\\hline\n");
        printf("Method 2 & A & B & C & D = B*C/A & D obs. & Ratio pred./obs. & Pull & KS test\\\\\n");
      }	else if (iMethod==1){
        printf("\\hline\n");
        printf("Method 1 & A & B & C & D = B*C/A & D obs. & Ratio pred./obs. & Pull & KS test\\\\\n");
      }
      printf("\\hline\n");
    } else {
      std::stringstream r_sb_cut;
      if (R_CUT_LOW==0) r_sb_cut<<"R<"<<R_CUT;
      else r_sb_cut<<R_CUT_LOW<<"<R<"<<R_CUT;
      const char* prime = ABCD_prime ? "'" : "";
      //if (iMethod==0) printf("| *Sample* | *A (DPhi>2.8, SB)* | *B (DPhi<2.8, SB)* | *C (DPhi>2.8, Sig.B.)* | - | *D = B*C/A pred.* | *D (DPhi<2.8, Sig.B.) obs.* | *Ratio pred./obs.* |\n");
      //else if (iMethod==1) printf("| *Sample* | *A (R<%1.1f, SB)* | *B (R>%1.1f, SB)* | *C (R<%1.1f, Sig.B.)* | *D = B (R fit, SB) * C/A pred.* | *D = B*C/A pred.* | *D (R>%1.1f, Sig.B.) obs.* | *Ratio pred./obs.* | \n", R_CUT, R_CUT, R_CUT, R_CUT);
      if (iMethod==0) printf("| *Sample* | *A (DPhi>%1.1f, %s)* | *B (DPhi<%1.1f, %s)* | *C (DPhi>%1.1f, R>0.4)* | *D = B*C/A pred.* | *D (DPhi<%1.1f, R>0.4) obs.* | *Ratio pred./obs.* | *Pull (pred-obs)/error* | *KS test* |\n", DPHI_CUT, r_sb_cut.str().c_str(), DPHI_CUT, r_sb_cut.str().c_str(), DPHI_CUT, DPHI_CUT);
      else if (iMethod==1) printf("| *Sample* | *A%s (%s, <2 tag)* | *B%s (R>%1.1f, <2 tag)* | *C%s (%s, 2 tag)* | *D%s = B%s*C%s/A%s pred.* | *D%s (R>%1.1f, 2 tag) obs.* | *Ratio pred./obs.* | *Pull (pred-obs)/error* | *KS test* |\n", prime, r_sb_cut.str().c_str(), prime, R_CUT, prime, r_sb_cut.str().c_str(), prime, prime, prime, prime, prime, R_CUT);
    }
    TH1D *h_side_sum, *h_signal_sum;
    for (size_t iSample = 0; iSample<samples[iMethod].size(); ++iSample)  {
      std::string canname = 
	iMethod==0 ? std::string("DPhiBins")+(ABCD_prime ? "/RBins_0To1HadTop_" : "/RBins_2HadTop_")+samples[iMethod][iSample] :
	iMethod==1 ? std::string("RFine/Tau32Cuts_")+(ABCD_prime ? "Fail" : "Pass")+"DPhiCut_"+samples[iMethod][iSample] :
	iMethod==2 ? std::string("RFine/Tau32Cuts_")+(ABCD_prime ? "Fail" : "Pass")+"DPhiCut_Background" :
	iMethod==3 ? std::string("RFine/Tau32Cuts_")+(ABCD_prime ? "Fail" : "Pass")+"DPhiCut_"+samples[iMethod][iSample] : "";
      TCanvas *can = (TCanvas*)(f->Get(canname.c_str()));
      can = (TCanvas*)can->Clone();
      can->Draw();
      TH1D *h_side = (TH1D*)can->GetListOfPrimitives()->At(i_h_side[iMethod]);
      TH1D *h_signal = (TH1D*)can->GetListOfPrimitives()->At(i_h_signal[iMethod]);
      // Simulate different cross section by scaling a certain background
      if (iMethod==1) {
        TH1D *h_side_temp_scaled = (TH1D*)h_side->Clone(); h_side_temp_scaled->Scale(scale_factors[iSample]);
        TH1D *h_signal_temp_scaled = (TH1D*)h_signal->Clone(); h_signal_temp_scaled->Scale(scale_factors[iSample]);
        if (iSample==0) {
          h_side_sum = h_side_temp_scaled;
          h_signal_sum = h_signal_temp_scaled;
        } else {
          h_side_sum->Add(h_side_temp_scaled);
          h_signal_sum->Add(h_signal_temp_scaled);
        }
      } else if (iMethod==2) {
        h_side = h_side_sum;
        h_signal = h_signal_sum;
      }
      TH1D *h_pred =(TH1D*)h_side->Clone();
      if (iMethod!=0&&rebin>1) { h_side->Rebin(rebin); h_signal->Rebin(rebin); h_pred->Rebin(rebin); }
      TLegend *leg = (TLegend*)can->GetListOfPrimitives()->At(can->GetListOfPrimitives()->GetEntries()-1);
      leg->SetX1(0.35); leg->SetX2(0.65); leg->SetY1(0.6);
      
      // Add ratio plot
      int y1 = 350;
      int y2 = 150;
      int mid2 = 10;
      can->Divide(1,2);
      // Pad 1 (80+500+20 x 40+500)
      TVirtualPad* p = can->cd(1);
      p->SetPad(0,(y2+60+mid2)/(y1+y2+100.0+mid2),1,1);
      p->SetTopMargin(40.0/(y1+40));
      p->SetBottomMargin(0);
      p->SetRightMargin(0.05);
      p->SetLogy(1);
      h_side->GetYaxis()->SetRangeUser(1.00001e-4,1e4);
      h_side->Draw("HIST");
      h_signal->Draw("SAMEHISTE1");
      leg->Draw();
      // Pad 2 (80+500+20 x 200+60)
      p = can->cd(2);
      p->SetGrid(0,1);
      p->SetPad(0,0,1,(y2+60+mid2)/(y1+y2+100.0+mid2));
      p->SetTopMargin(((float)mid2)/(y2+60+mid2));
      p->SetBottomMargin(60.0/(y2+60+mid2));
      p->SetRightMargin(0.05);
      TH1D* ratio = (TH1D*)h_signal->Clone();
      TH1D* div = (TH1D*)h_side->Clone();
      //ratio->Scale(1/ratio->GetSumOfWeights());
      double sum_bins_ratio = iMethod==0 ? ratio->Integral():
	ratio->Integral(ratio->FindBin(R_CUT_LOW),ratio->FindBin(Rranges_ABCD[iMethod][3]));
      ratio->Scale(1/sum_bins_ratio);
      ratio->SetTitleSize(32.0/(y2+60+mid2),"xyz");
      ratio->SetLabelSize(20.0/(y2+60+mid2),"xyz");
      //ratio->Scale(1/div->GetSumOfWeights());
      double sum_bins_div = iMethod==0 ? div->Integral():
	div->Integral(div->FindBin(R_CUT_LOW),div->FindBin(Rranges_ABCD[iMethod][3]));
      div->Scale(1/sum_bins_div);
      ratio->Divide(div);
      //ratio->GetYaxis()->SetRangeUser(0,2);
      ratio->GetXaxis()->SetTitleOffset(0.7);
      ratio->GetYaxis()->SetNdivisions(305);
      ratio->GetYaxis()->SetTitle("Ratio (Norm.)");
      ratio->GetYaxis()->SetTitleOffset(0.4);
      ratio->SetTitleSize(24.0/(y2+60+mid2),"y");
      ratio->SetTitle("");
      ratio->SetMarkerStyle(20);
      ratio->SetMarkerColor(1);
      ratio->SetLineColor(1);
      ratio->GetYaxis()->SetRangeUser(0,4);
      ratio->Draw("PE1");
      TLine* l = new TLine(ratio->GetXaxis()->GetXmin(), 1, ratio->GetXaxis()->GetXmax(), 1);
      l->SetLineWidth(2);
      //l->SetLineColor(2);
      l->SetLineStyle(2);
      l->Draw();
      gPad->Update();
      // Fit ratio
      //TF1 *fit_ratio;
      //if (iMethod==1) {
      //  fit_ratio = new TF1("fit_ratio","pol0", Rranges_ABCD[iMethod][0], Rranges_ABCD[iMethod][1]);
      //  fit_ratio->SetLineColor(1);
      //  ratio->Fit("fit_ratio","RE");
      //  fit_ratio->SetRange(Rranges_ABCD[iMethod][0], Rranges_ABCD[iMethod][2]);
      //  fit_ratio->Draw("SAME");
      //}
      p = can->cd(1);
      
      // calculate integrals
      double integral[2][2] = { { 0, 0 }, { 0, 0 } };
      double integral_error[2][2] = { { 0, 0 }, { 0, 0 } };
      double nevt[2][2] = { { 0, 0 }, { 0, 0 } };
      //std::cout<<samples[iMethod][iSample]<<":"<<std::endl;
      for (int i=0; i<2; ++i) {
        for (int bin=1; bin<=h_side->GetNbinsX(); ++bin) {
          if (h_signal->GetXaxis()->GetBinLowEdge(bin)>=Rranges_ABCD[iMethod][i*2] && 
              h_signal->GetXaxis()->GetBinUpEdge(bin)<=Rranges_ABCD[iMethod][i*2+1]) {
	    //std::cout<<bin<<"="<<h_side->GetBinCenter(bin);
	    //if (i==0) std::cout<<" in, ";
	    //else std::cout<<" out, ";
            double c0 = h_side->GetBinContent(bin), c1 = h_signal->GetBinContent(bin);
            double e0 = h_side->GetBinError(bin),   e1 = h_signal->GetBinError(bin);
            //std::cout<<h_signal->GetBinError(bin)<<" "<<sqrt(c1*weight[iSample])<<std::endl;
            if (baderror&&iMethod==1) {
              e0 = sqrt(c0*weight[iSample]);
              e1 = sqrt(c1*weight[iSample]);
            }
            nevt[0][i] += (int)(c0*c0/(e0*e0) + 0.5);
            nevt[1][i] += (int)(c1*c1/(e1*e1) + 0.5);
            integral[0][i] += c0;
            integral[1][i] += c1;
            //if (iMethod==1) { // weight bin by projected ratio (correction)
            //  double bincent = h_signal->GetXaxis()->GetBinLowEdge(bin);
            //  integral[0][1] *= fit_ratio->Eval(bincent);
            //}
            integral_error[0][i] += e0*e0;
            integral_error[1][i] += e1*e1;
            //if (iSample==0&&e1>0) std::cout<<bin<<" "<<c1<<" +- "<<e1*e1<<" nevt = "<<((int)(c1*c1/(e1*e1) + 0.5))<<std::endl;
          }
        }
        //if (iSample==1&&i==1) std::cout<<integral[1][i]<<" +- "<<integral_error[1][i]<<std::endl;
        integral_error[0][i] = sqrt(integral_error[0][i]);
        integral_error[1][i] = sqrt(integral_error[1][i]);
      }
      //std::cout<<nevt[1][1]<<std::endl;
      
      // predict yields using 2 methods (ABCD and constrained R-shape fit method combined)
      // ABCD method
      double a = integral[0][0], b = integral[0][1], c = integral[1][0], d = integral[1][1];
      double a_err = integral_error[0][0], b_err = integral_error[0][1], c_err = integral_error[1][0], d_err = integral_error[1][1];
      // Calculate error
      // z = x / y -> z_err = sqrt( (x*x*y_err*y_err + y*y*x_err*x_err)/(y*y*y*y) )
      // z = x * y -> z_err = sqrt ( x*x*y_err*y_err + y*y*x_err*x_err )
      double c_per_a_err = sqrt((c*c*a_err*a_err + a*a*c_err*c_err)/(a*a*a*a));
      double d_abcd = b * (c/a), d_abcd_err = sqrt(b*b*c_per_a_err*c_per_a_err + (c/a)*(c/a)*b_err*b_err);
      double d_nevt = nevt[1][1];
      double d_ratio = d_abcd / d;
      double d_ratio_err = sqrt((d_err/d)*(d_err/d) + (d_abcd_err/d_abcd)*(d_abcd_err/d_abcd))*d_ratio;
      double d_pull = (d_abcd-d)/sqrt(d_abcd_err*d_abcd_err + d_err*d_err);
      // Scaled plot
      h_pred->Scale(c/a);
      h_pred->SetLineColor(1);
      h_pred->SetLineStyle(2);
      h_pred->Draw("SAMEHIST");
      leg->AddEntry(h_pred, "Prediction (ABCD)", "l");
      
      double fit_integral[2][2], fit_integral_error[2][2], d_fit_comb = 0, d_fit_comb_err = 0;
      if (iMethod==1) {
	// Fit in the full range of NTop Sideband
	// Do fitting and calculate integrals
	TF1 *fit_side = new TF1("NTopSide_fit","exp([0]+[1]*x)", iMethod==2 ? 0.2 : sideband_fit_low_range[iSample], Rranges_ABCD[iMethod][3]);
        fit_side->SetLineColor(h_side->GetLineColor());
        h_side->Fit("NTopSide_fit","QRE");
        //fit_side->Draw("SAME");
        double Rranges_ACfit[3] = { sideband_fit_low_range[iSample], Rranges_ABCD[iMethod][2], Rranges_ABCD[iMethod][3] };
        for (int i=0; i<2; ++i) {
          fit_integral[0][i] = fit_side->Integral(Rranges_ACfit[i], Rranges_ACfit[i+1])/h_signal->GetXaxis()->GetBinWidth(1);
          fit_integral_error[0][i] = fit_side->IntegralError(Rranges_ACfit[i], Rranges_ACfit[i+1])/h_signal->GetXaxis()->GetBinWidth(1);
        }
        double par0 = fit_side->GetParameter(0), par0_error = fit_side->GetParError(0);
        double par1 = fit_side->GetParameter(1), par1_error = fit_side->GetParError(1);
        double par1min, par1max; fit_side->GetParLimits(1, par1min, par1max);
	
        // Fit in the Signal region
        // Fitting in sideband, get B area under curve and scale by C/A
        TF1 *fit_signal = new TF1("NTopSignal_RSide_fit","exp([0]+[1]*x)", Rranges_ACfit[0], Rranges_ABCD[iMethod][3]);
        fit_signal->SetLineColor(h_signal->GetLineColor());
        //fit_signal->SetParameter(1, par1); 
        //fit_signal->SetParLimits(1, par1min, par1max);
        h_signal->Fit("NTopSignal_RSide_fit","QREB");
        //fit_signal->Draw("SAME");
        for (int i=0; i<2; ++i) {
          fit_integral[1][i] = fit_signal->Integral(Rranges_ACfit[i], Rranges_ACfit[i+1])/h_signal->GetXaxis()->GetBinWidth(1);
          fit_integral_error[1][i] = fit_signal->IntegralError(Rranges_ACfit[i], Rranges_ACfit[i+1])/h_signal->GetXaxis()->GetBinWidth(1);
        }
        d_fit_comb = fit_integral[0][1] * (c/a);
        d_fit_comb_err = sqrt(fit_integral[0][1]*fit_integral[0][1]*c_per_a_err*c_per_a_err + (c/a)*(c/a)*fit_integral_error[0][1]*fit_integral_error[0][1]);
        TF1 *fit_pred = new TF1("Predicted_fit","exp([0]+[1]*x)", Rranges_ACfit[0], Rranges_ACfit[2]);
        fit_pred->SetLineColor(1);
        fit_pred->SetLineStyle(2);
        fit_pred->FixParameter(0, par0+std::log(c/a)); 
        fit_pred->FixParameter(1, par1); 
        h_signal->Fit("Predicted_fit","QREB+");
        //fit_pred->Draw("SAME");
      }
      // Save plot
      if (iMethod==3) samples[iMethod][iSample] = "T1tttt";
      std::string name = samples[iMethod][iSample];
      if (iMethod==2) name = "AllBkg";
      if (save)	can->SaveAs((out+"BkgEst/ABCD_closure_"+name+"."+ext).c_str());
      
      // Check compatibility of prediction to observed distribution
      double ks_test = h_pred->KolmogorovTest(h_signal);
      
      if (iMethod==1) {
	sum_a += a; sum_b += b; sum_c += c; sum_d += d;
	sum_a_err += a_err*a_err; sum_b_err += b_err*b_err; sum_c_err += c_err*c_err; sum_d_err += d_err*d_err;
	sum_d_abcd += d_abcd; sum_d_abcd_err += d_abcd_err*d_abcd_err;
	sum_b_fit += fit_integral[0][1]; sum_b_fit_err += fit_integral_error[0][1]*fit_integral_error[0][1];
	sum_d_fit += fit_integral[1][1]; sum_d_fit_err += fit_integral_error[1][1]*fit_integral_error[1][1];
	sum_d_fit_comb += d_fit_comb; sum_d_fit_comb_err += d_fit_comb_err*d_fit_comb_err;
	sum_d_nevt += d_nevt;
	//printf("  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |\n", d_fit_comb, d_fit_comb_err, d_abcd, d_abcd_err, d, d_err, d_ratio, d_ratio_err);
      }
      if (latex) {
	printf("%s &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &", samples[iMethod][iSample].c_str(), a, a_err, b, b_err, c, c_err);
	printf("  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  %.2f &  %.2f \\\\\n", d_abcd, d_abcd_err, d, d_err, d_ratio, d_ratio_err, d_pull, ks_test);
      } else {
	printf("| %s |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |", samples[iMethod][iSample].c_str(), a, a_err, b, b_err, c, c_err);
	printf("  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f |  %.2f |\n", d_abcd, d_abcd_err, d, d_err, d_ratio, d_ratio_err, d_pull, ks_test);
      }
      // Combining best methods
      if ((iMethod==0&&iSample==0)||(iMethod==1&&iSample!=0)) {
	comb_d_abcd += d_abcd; comb_d += d; comb_d_abcd_err += d_abcd_err*d_abcd_err; comb_d_err += d_err*d_err;
      }
    }
    if (iMethod==1) {
      sum_a_err = sqrt(sum_a_err); sum_b_err = sqrt(sum_b_err); sum_c_err = sqrt(sum_c_err); sum_d_err = sqrt(sum_d_err);
      sum_b_fit_err = sqrt(sum_b_fit_err); sum_d_fit_err = sqrt(sum_d_fit_err); sum_d_fit_comb_err = sqrt(sum_d_fit_comb_err);
      double sum_d_ratio = sum_d_abcd / sum_d;
      double sum_d_ratio_err = sqrt((sum_d_err/sum_d)*(sum_d_err/sum_d) + (sum_d_abcd_err/sum_d_abcd)*(sum_d_abcd_err/sum_d_abcd))*sum_d_ratio;
      double sum_d_pull = (sum_d_abcd-sum_d)/sqrt(sum_d_abcd_err*sum_d_abcd_err + sum_d_err*sum_d_err);
      if (latex) {
	printf("\\hline\n");
	printf("Sum Bkg. &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &", sum_a, sum_a_err, sum_b, sum_b_err, sum_c, sum_c_err);
	printf("  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  %.2f & \\\\\n", sum_d_abcd, sum_d_abcd_err, sum_d, sum_d_err, sum_d_ratio, sum_d_ratio_err, sum_d_pull);
      } else {
	//printf("| Sum Bkg.|  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |", sum_a, sum_a_err, sum_b_fit, sum_b_fit_err, sum_b, sum_b_err, sum_c, sum_c_err);
	printf("| Sum Bkg.|  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |", sum_a, sum_a_err, sum_b, sum_b_err, sum_c, sum_c_err);
	//printf("  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |\n", sum_d_fit_comb, sum_d_fit_comb_err, sum_d_abcd, sum_d_abcd_err, sum_d, sum_d_err, sum_d_ratio, sum_d_ratio_err);
	printf("  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f |  - |\n", sum_d_abcd, sum_d_abcd_err, sum_d, sum_d_err, sum_d_ratio, sum_d_ratio_err, sum_d_pull);
      }
    } else if (iMethod==2&&samples[0].size()) {
      double comb_d_ratio = comb_d_abcd / comb_d;
      double comb_d_ratio_err = sqrt((comb_d_err/comb_d)*(comb_d_err/comb_d) + (comb_d_abcd_err/comb_d_abcd)*(comb_d_abcd_err/comb_d_abcd))*comb_d_ratio;
      double comb_d_pull = (comb_d_abcd-comb_d)/sqrt(comb_d_abcd_err*comb_d_abcd_err + comb_d_err*comb_d_err);
      if (latex) {
	printf("\\hline\n");
	printf("\\hline\n");
	printf("Combined Bkg. & & & &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  $%.2f \\pm %.2f$ &  %.2f & \\\\\n", comb_d_abcd, comb_d_abcd_err, comb_d, comb_d_err, comb_d_ratio, comb_d_ratio_err, comb_d_pull);
	printf("\\hline\n");
      } else {
	printf("| Combined Bkg.| | | |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f +- %.2f |  %.2f | - |\n", comb_d_abcd, comb_d_abcd_err, comb_d, comb_d_err, comb_d_ratio, comb_d_ratio_err, comb_d_pull);
      }
    }
  }
  if (latex) {
    printf("\\hline\n");
    printf("\\end{tabular}\n");
    printf("\\end{center}\n");
    printf("\\end{table*}\n");
  }

  if (save) gApplication->Terminate();
}
Example #14
0
void DrawTwoInPad(TVirtualPad* p,
                  Int_t        sub,
                  TH1*         h1,
                  TH1*         h2,
		  Bool_t       ratio,
		  Bool_t       logy=false,
		  Bool_t       legend=false)
{
  TVirtualPad* pp = p->cd(sub);
  pp->SetRightMargin(0.02);
  pp->SetLeftMargin(0.10);
  TVirtualPad* ppp = pp;
  if (ratio) {
    pp->Divide(1,2,0,0);
    ppp = pp->cd(1);				
    ppp->SetRightMargin(0.02);
  }
  if (logy) ppp->SetLogy();
  TH1* hs[] = { h1, h2, 0 };
  if (h1->GetMaximum() < h2->GetMaximum()) {
    hs[0] = h2;
    hs[1] = h1;
  }
  TH1** ph = hs;
  Double_t size = (ratio ? 0.1 : 0.05);
  Double_t off  = (ratio ? 0.6 : 0.5);
  h1->SetFillStyle(3004);
  h2->SetFillStyle(3005);
  while (*ph) {
    TString opt("hist");
    if (ph != hs) opt.Append(" same");

    TH1* copy = (*ph)->DrawCopy(opt);
    copy->GetXaxis()->SetLabelSize(2*size);
    copy->GetYaxis()->SetLabelSize(size);
    copy->GetYaxis()->SetTitleSize(size);
    copy->GetYaxis()->SetTitleOffset(off);
    copy->SetYTitle(copy->GetTitle());
    copy->SetTitle("");
    copy->SetDirectory(0);
    ph++;
  }
  TString s1 = h1->GetYaxis()->GetTitle();
  TString s2 = h2->GetYaxis()->GetTitle();
  
  if (legend) { 
    TLegend* l = new TLegend(0.6, 0.1, 0.9, 0.9);
    l->SetBorderSize(0);
    TLegendEntry* e = l->AddEntry("dummy", s1, "lf");
    l->SetFillColor(kWhite);
    e->SetFillColor(kBlack);
    e->SetFillStyle(h1->GetFillStyle());
    e = l->AddEntry("dummy", s2, "lf");
    e->SetFillColor(kBlack);
    e->SetFillStyle(h2->GetFillStyle());
    l->Draw();
  }
  if (!ratio) return;
  ppp = pp->cd(2);
  ppp->SetRightMargin(0.02);
  TH1* r = static_cast<TH1*>(h1->Clone(Form("ratio%s", h1->GetName())));
  r->SetDirectory(0);
  r->SetTitle("");
  r->GetXaxis()->SetLabelSize(size);
  r->GetYaxis()->SetLabelSize(size);
  r->GetYaxis()->SetTitleSize(0.9*size);
  r->GetYaxis()->SetTitleOffset(0.9*off);
  r->SetMarkerStyle(20);
  r->SetMarkerColor(h1->GetFillColor()+1);
  r->SetFillStyle(3007);
  r->SetYTitle(Form("#frac{%s}{%s}", s1.Data(), s2.Data()));

  // r->Add(h2, -1);
  // r->Divide(h1);
  if (!r->IsA()->InheritsFrom(TProfile::Class())) {
    r->GetSumw2()->Set(0); // r->Sumw2(false);
    h2->GetSumw2()->Set(0); // h2->Sumw2(false);
  }
  r->Divide(h2);
  Printf("%s", r->GetName());
  for (UShort_t bin = 1; bin <= r->GetNbinsX(); bin++) {
    Printf("  bin # %2d: Diff=%g+/-%g", bin, r->GetBinContent(bin),
	   r->GetBinError(bin));
    r->SetBinError(bin, 0);
  }
  r->GetSumw2()->Set(0); //r->Sumw2(false);
  r->SetMarkerSize(4);
  r->SetMaximum(r->GetMaximum()*1.2);
  r->SetMinimum(r->GetMinimum()*0.8);
  r->Draw("hist text30");  
  p->Modified();
  p->Update();
  p->cd();
}