Example #1
0
//________________________________________________________
TVirtualPad* GFHistManager::GetPad(Int_t layer, Int_t histNum)
{
  // pointer to pad where hists from layer/histNum are painted in
  // callable after draw!
    
  Int_t totHistsYet = 0;
  Int_t numHists = 0;
  TCanvas *can = NULL;

  for (Int_t numCan = 0; ; ++numCan) {
    can = this->GetCanvas(layer, numCan);
    if (!can) break;
    numHists = TMath::Max(1, this->NumberOfSubPadsOf(can));
    totHistsYet += numHists;
    if (totHistsYet > histNum) {
      totHistsYet -= numHists;
      break;
    }
  }

  TVirtualPad *result = NULL;
  if (can) {
    TVirtualPad *oldPad = gPad;
    if (numHists <= 1) can->cd(0); // one hist per canvas: no pads!
    else can->cd(histNum - totHistsYet + 1);
    result = gPad;
    oldPad->cd();
  }

  return result;
}
Example #2
0
//_______________________________________________________________________________________
void MakeFourView(TVirtualPad *pad=0)
{
//  Creates 4 pads view of the pad (or qPad)
//   ------------------------------
//   |              |             |
//   |              |             |
//   |              |             |
//   |    Front     |   Top       |
//   |    view      |   view      |
//   |              |             |
//   |              |             |
//   |              |             |
//   ---------------+-------------
//   |              |             |
//   |              |             |
//   |              |             |
//   |    Side      |  Spacial    |
//   |    view      |   view      |
//   |              |             |
//   |              |             |
//   |              |             |
//   ------------------------------
// begin_html  <P ALIGN=CENTER> <IMG SRC="gif/FourStarView.gif" ></P> end_html
//
  TVirtualPad *thisPad = pad;
  if (!thisPad) thisPad = qPad();
  TView *view = 0; 
  TList *thisPrimitives = 0; 
  if (thisPad && (thisPrimitives = thisPad->GetListOfPrimitives()) && (view =  thisPad->GetView()) ) 
  {
    Double_t min[3],max[3];
    view->GetRange(min,max);
    Int_t system = view->GetSystem();
    TCanvas *c = new TCanvas(" 4 views", thisPad->GetTitle(),600,600);
    c->Divide(2,2);
    TIter *next=  new TIter(thisPrimitives);
    for (int i =1; i <= 4; i++) {
      c->cd(i);
      TList *newPrimitives = qPad()->GetListOfPrimitives();
      TObject *obj = 0;
      while (obj = next->Next()) newPrimitives->Add(obj);
      TView *newView = new TView(system);
      newView->SetRange(min,max);
      next->Reset();
   }
   delete next;
   // set separate view;
   // Fron view
    Int_t j = 1;
    c->cd(j++); FrontView();
    c->cd(j++); TopView();
    c->cd(j++); SideView();
    c->cd(j++); RotateView(-30.0,60.0,0);
    c->Modified();
    c->Update();
  }
}
Example #3
0
//_______________________________________________________________________________________
static void SetBackround(Color_t color, TVirtualPad *pad=0)
{
  TVirtualPad *thisPad = pad;
  if (!thisPad) thisPad = qPad();
  if (thisPad)  {
    thisPad->SetFillColor(color);
    thisPad->Modified();
    thisPad->Update();
  }
}
Example #4
0
void DynamicExec()
{
   // Example of function called when a mouse event occurs in a pad.
   // When moving the mouse in the canvas, a second canvas shows the
   // projection along X of the bin corresponding to the Y position
   // of the mouse. The resulting histogram is fitted with a gaussian.
   // A "dynamic" line shows the current bin position in Y.
   // This more elaborated example can be used as a starting point
   // to develop more powerful interactive applications exploiting CINT
   // as a development engine.
   //
   // Author:  Rene Brun
   
   TObject *select = gPad->GetSelected();
   if(!select) return;
   if (!select->InheritsFrom("TH2")) {gPad->SetUniqueID(0); return;}
   TH2 *h = (TH2*)select;
   gPad->GetCanvas()->FeedbackMode(kTRUE);

   //erase old position and draw a line at current position
   int pyold = gPad->GetUniqueID();
   int px = gPad->GetEventX();
   int py = gPad->GetEventY();
   float uxmin = gPad->GetUxmin();
   float uxmax = gPad->GetUxmax();
   int pxmin = gPad->XtoAbsPixel(uxmin);
   int pxmax = gPad->XtoAbsPixel(uxmax);
   if(pyold) gVirtualX->DrawLine(pxmin,pyold,pxmax,pyold);
   gVirtualX->DrawLine(pxmin,py,pxmax,py);
   gPad->SetUniqueID(py);
   Float_t upy = gPad->AbsPixeltoY(py);
   Float_t y = gPad->PadtoY(upy);

   //create or set the new canvas c2
   TVirtualPad *padsav = gPad;
   TCanvas *c2 = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("c2");
   if(c2) delete c2->GetPrimitive("Projection");
   else   c2 = new TCanvas("c2","Projection Canvas",710,10,700,500);
   c2->SetGrid();
   c2->cd();

   //draw slice corresponding to mouse position
   Int_t biny = h->GetYaxis()->FindBin(y);
   TH1D *hp = h->ProjectionX("",biny,biny);
   hp->SetFillColor(38);
   char title[80];
   sprintf(title,"Projection of biny=%d",biny);
   hp->SetName("Projection");
   hp->SetTitle(title);
   hp->Fit("gaus","ql");
   hp->GetFunction("gaus")->SetLineColor(kRed);
   hp->GetFunction("gaus")->SetLineWidth(6);
   c2->Update();
   padsav->cd();
}
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 #6
0
void makeimage(const char *MacroName, const char *ImageName, const char *OutDir, bool cp)
{
   gROOT->ProcessLine(Form(".x %s",MacroName));
   if (cp) gSystem->Exec(TString::Format("cp %s %s/macros", MacroName, OutDir));

   TIter iCanvas(gROOT->GetListOfCanvases());
   TVirtualPad* pad = 0;

   while ((pad = (TVirtualPad*) iCanvas())) {
      pad->SaveAs(TString::Format("%s/html/%s",OutDir,ImageName));
   }
}
Example #7
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 #8
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 #9
0
void splithist(double ratio=0.2){
  TVirtualPad* pmain = TVirtualPad::Pad();
  
  double h = 1. - pmain->GetTopMargin() - pmain->GetBottomMargin();

  double xlow = 0.; //gStyle->GetPadLeftMargin();
  double xhigh = 1.; // - gStyle->GetPadRightMargin();

  double ytop = 1.; //- gStyle->GetPadTopMargin();
  double ybot = 0.; //gStyle->GetPadBottomMargin();
  double ymid = pmain->GetBottomMargin() + ratio * h; //ybot + ratio * (ytop-ybot);
  

  double yp1bot = ymid;
  double yp2top = ymid;

  TPad* p1 = new TPad(TString(pmain->GetName()) + "_1", pmain->GetTitle(),
		      xlow, yp1bot, xhigh, ytop);
  p1->SetNumber(1);
  TPad* p2 = new TPad(TString(pmain->GetName()) + "_2", pmain->GetTitle(), 
		      xlow, ybot, xhigh, yp2top);
  p2->SetNumber(2);
  p1->SetFillStyle(4000);
  p2->SetFillStyle(4000);

  double p1h = ytop - yp1bot;
  double p2h = yp2top - ybot;
  

/*
  p1->SetTopMargin(pmain->GetTopMargin()/p1h);
  p1->SetBottomMargin((ymid-yp1bot)/p1h);
  p1->SetLeftMargin(pmain->GetLeftMargin());
  p1->SetRightMargin(pmain->GetRightMargin());
  
  p2->SetTopMargin((ymid-yp2top)/p2h);
  p2->SetBottomMargin(pmain->GetBottomMargin()/p2h);
  p2->SetLeftMargin(pmain->GetLeftMargin());
  p2->SetRightMargin(pmain->GetRightMargin());
*/
    p1->SetTopMargin(0.11);
    p1->SetBottomMargin(0.);
    p1->SetRightMargin(0.02);
 
    p2->SetTopMargin(0.);
    p2->SetBottomMargin(0.3);
    p2->SetRightMargin(0.02);



  p2->Draw();
  p1->Draw();
  pmain->Modified();

  p1->cd();
}
Example #10
0
//_______________________________________________________________________________________
static void Inscrease3DScale()
{
  TVirtualPad *thisPad = qPad();
  if (thisPad) {
    TView *view = thisPad->GetView(); 
    if (!view) return;
    Double_t min[3],max[3];
    view->GetRange(min,max);
    int i;
    for (i=0;i<3; i++) {max[i] *= 0.8; min[i]=max[i]*0.1;}
    view->SetRange(min,max);
    thisPad->Modified();
    thisPad->Update();
  }
}
Example #11
0
//_______________________________________________________________________________________
static void Centered3DImages()
{
  // This macro prints out the sizes of the sekected 3d pad
  TVirtualPad *thisPad = qPad();
  if (thisPad) {
    TView *view = thisPad->GetView(); 
    if (!view) return;
    Double_t min[3],max[3];
    view->GetRange(min,max);
    int i;
    for (i=0;i<3; i++) min[i]=-max[i];
    view->SetRange(min,max);
    thisPad->Modified();
    thisPad->Update();
 }
}
Example #12
0
File: exec2.C Project: MycrofD/root
void exec2()
{

   if (!gPad) {
      Error("exec2", "gPad is null, you are not supposed to run this macro");
      return;
   }


   TObject *select = gPad->GetSelected();
   if(!select) return;
   if (!select->InheritsFrom(TH2::Class())) {gPad->SetUniqueID(0); return;}
   gPad->GetCanvas()->FeedbackMode(kTRUE);

   //erase old position and draw a line at current position
   int pyold = gPad->GetUniqueID();
   int px = gPad->GetEventX();
   int py = gPad->GetEventY();
   float uxmin = gPad->GetUxmin();
   float uxmax = gPad->GetUxmax();
   int pxmin = gPad->XtoAbsPixel(uxmin);
   int pxmax = gPad->XtoAbsPixel(uxmax);
   if(pyold) gVirtualX->DrawLine(pxmin,pyold,pxmax,pyold);
   gVirtualX->DrawLine(pxmin,py,pxmax,py);
   gPad->SetUniqueID(py);
   Float_t upy = gPad->AbsPixeltoY(py);
   Float_t y = gPad->PadtoY(upy);

   //create or set the new canvas c2
   TVirtualPad *padsav = gPad;
   TCanvas *c2 = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("c2");
   if(c2) delete c2->GetPrimitive("Projection");
   else   c2 = new TCanvas("c2");
   c2->cd();

   //draw slice corresponding to mouse position
   TH2 *h = (TH2*)select;
   Int_t biny = h->GetYaxis()->FindBin(y);
   TH1D *hp = h->ProjectionX("",biny,biny);
   char title[80];
   sprintf(title,"Projection of biny=%d",biny);
   hp->SetName("Projection");
   hp->SetTitle(title);
   hp->Fit("gaus","ql");
   c2->Update();
   padsav->cd();
}
Example #13
0
//______________________________________________________________________________
void HighlightFragment()
{
  // TODO templates: what and how highlighing
  if (!gPad || !gr) return;

  // not correct
  TVirtualPad *ph = (TVirtualPad *)gPad->FindObject("ph");
  if (!ph) {
    ph = new TPad("ph", "ph", 0.0, 0.2, 1.0, 1.0);
    ph->SetFillColor(kBlue-10);
    ph->Draw();
  }

  Int_t ih = gr->GetHighlightPoint();
  if (ih == -1) return;
  TRsnFragment *frag = group->FragmentAt(ih);
  if (!frag) return;

  TVirtualPad *save = gPad;
  ph->cd();
  TObject *element = frag->FindElement(tagname);
  if (!element) ph->Clear();
  else element->Draw();
  save->cd();
}
Example #14
0
void  QtPrintDialog(TVirtualPad *pad = 0) {

   TVirtualPad *pd = pad;
   if (!pd) pd = TPad::Pad(); // ->GetCanvas();
   if (pd) {
      QPrinter p;
      // Open the Qt "Setup Printer" dialog to configure the "QPrinter p" object
      QPrintDialog printDialog(&p);
      if (printDialog.exec() == QDialog::Accepted) {
         Int_t id = pd->GetPixmapID();
         QPixmap *pix = (QPixmap *)(TGQt::iwid(id));
         QPainter pnt(&p);
         pnt.drawPixmap(0,0,*pix);
      }
   } else {
      printf(" No TCanvas has been selected yet! \n");
   }
}
Example #15
0
//_______________________________________________________________________________________
static void AdjustScales()
{
  TVirtualPad *thisPad = qPad();
  if (thisPad) {
    TView *view = thisPad->GetView(); 
    if (!view) return;
    Double_t min[3],max[3];
    view->GetRange(min,max);
    int i;
    Double_t maxSide = 0;
    // Find the largest side
    for (i=0;i<3; i++) maxSide = TMath::Max(maxSide,max[i]-min[i]);
    //Adjust scales:
    for (i=0;i<3; i++) max[i] += maxSide - (max[i]-min[i]);
    view->SetRange(min,max);
    thisPad->Modified();
    thisPad->Update();
 }
}
Example #16
0
//_______________________________________________________________________________________
static void AddGrid()
{ 
  TVirtualPad *thisPad = qPad();

  if (thisPad) {
 
    TView *view = thisPad->GetView(); 
    if (!view) return;
    Double_t min[3],max[3];
    view->GetRange(min,max);

    TList *list      = thisPad->GetListOfPrimitives();
    TString histName = thisPad->GetName();
    TH2F *m_DummyHist = 0; 
    const Char_t *dummyName = "Axis3D";
    histName += dummyName;
    m_DummyHist = list->FindObject(histName.Data());
    if (!m_DummyHist) { 
      m_DummyHist = new TH2F(histName.Data(),"",1,min[0],max[0],1,min[1],max[1]);
      m_DummyHist->SetDirectory(0);
      m_DummyHist->Draw("surf,same");
    }
    m_DummyHist->GetXaxis()->SetLimits(min[0],max[0]);
    m_DummyHist->GetYaxis()->SetLimits(min[1],max[1]);
    m_DummyHist->GetZaxis()->SetLimits(min[2],max[2]);
 
    thisPad->Modified();
    thisPad->Update();
  }
}
Example #17
0
void fixsplithist(TH1* htop, TH1* hbot){
  TVirtualPad* pmain = TVirtualPad::Pad()->GetCanvas();
  if(!pmain) return;
  TVirtualPad* p1 = pmain->cd(1);
  TVirtualPad* p2 = pmain->cd(2);

  if(!p1 || !p2) return;
  
  double scale = p1->GetHNDC() / p2->GetHNDC();

  double s = htop->GetYaxis()->GetLabelSize() * scale;
  double ss = htop->GetYaxis()->GetLabelSize();
  hbot->GetYaxis()->SetLabelSize(s);
  htop->GetYaxis()->SetLabelSize(ss);
  s = htop->GetYaxis()->GetTitleSize() * scale;
  hbot->GetYaxis()->SetTitleSize(s);

   hbot->GetYaxis()->SetTitleOffset(0.5);  
   htop->GetYaxis()->SetTitleOffset(0.5);  

  s = htop->GetYaxis()->GetLabelOffset() * scale;

  s = htop->GetXaxis()->GetLabelSize() * scale;
  hbot->GetXaxis()->SetLabelSize(s);
  htop->GetXaxis()->SetLabelSize(0.);
  s = htop->GetXaxis()->GetTitleSize() * scale;
  hbot->GetXaxis()->SetTitleSize(s);

 

  s = htop->GetXaxis()->GetLabelOffset() * scale;
  hbot->GetXaxis()->SetLabelOffset(s);  


  hbot->GetYaxis()->SetNdivisions(5);
}
Example #18
0
void makeimage(const char *MacroName, const char *ImageName, const char *OutDir, bool cp, bool py)
{
   if (!py) gROOT->ProcessLine(Form(".x %s",MacroName));
   else     gROOT->ProcessLine(Form("TPython::ExecScript(\"%s\");",MacroName));
   if (cp) {
      TString MN = MacroName;
      Int_t i = MN.Index("(");
      Int_t l = MN.Length();
      if (i>0) MN.Remove(i, l);
      gSystem->Exec(TString::Format("cp %s %s/macros", MN.Data(), OutDir));
   }

   TIter iCanvas(gROOT->GetListOfCanvases());
   TVirtualPad* pad = 0;
   int ImageNum = 0;
   while ((pad = (TVirtualPad*) iCanvas())) {
      ImageNum++;
      pad->SaveAs(TString::Format("%s/html/pict%d_%s",OutDir,ImageNum,ImageName));
   }

   FILE *f = fopen("NumberOfImages.dat", "w");
   fprintf(f,"%d\n",ImageNum);
   fclose(f);
}
Example #19
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 #20
0
//_______________________________________________________________________________________
static void RotateView(Float_t phi, Float_t theta, TVirtualPad *pad=0)
{
  TVirtualPad *thisPad = pad;
  if (!thisPad) thisPad = qPad();
  if (thisPad) {
    TView *view = thisPad->GetView(); 
    if (view) {
      Int_t iret;
      Float_t p = phi;
      Float_t t = theta;
      view->SetView(p, t, 0, iret);
      thisPad->SetPhi(-90-p);
      thisPad->SetTheta(90-t);
      thisPad->Modified();
      thisPad->Update();
    }
  }
}
Example #21
0
//_______________________________________________________________________________________
static void SetBackroundStyle(TVirtualPad *pad=0)
{
  TVirtualPad *thisPad = pad;
  if (!thisPad) thisPad = qPad();
  if (thisPad) thisPad->SetFillAttributes();  
}
Example #22
0
void draw_R2m(void)
{
	const double er[9] = {0, 0, 0, 0, 0, 0, 0, 0, 0};
	double ccnt[9];
	double eccnt[9];
	double dcnt[9];
	TGraphErrors *gr;
	TGraphErrors *grd;
	TH1D *hst;
	TH1D *hstd;
	double effUp, effDown, C, shift, size;
	double eeffUp, eeffDown, eC, eshift, esize;
	double fmin, fedm, errdef;
	int npari, nparx;
	int i, irc;
	char str[1024];
	TF1 *fR2;
	TVirtualPad *pd;
	
	gStyle->SetOptStat(0);
	gStyle->SetOptFit(0);
	
	MyMinuit = new TMinuit(5);
	MyMinuit->SetFCN(chi2fun);
	MyMinuit->DefineParameter(0, "Const", 1000, 10, 0, 1E10);
	MyMinuit->DefineParameter(1, "EffUp", 1, 0.1, 0.5, 1.5);
	MyMinuit->DefineParameter(2, "EffDown", 1, 0.1, 0.5, 1.5);
	MyMinuit->DefineParameter(3, "Shift", 0, 0.1, -10, 10);
	MyMinuit->DefineParameter(4, "Size", 3, 1, 0, 10);
	MyMinuit->FixParameter(3);
	MyMinuit->FixParameter(4);
	MyMinuit->Migrad();
	MyMinuit->GetParameter(0, C, eC);
	MyMinuit->GetParameter(1, effUp, eeffUp);
	MyMinuit->GetParameter(2, effDown, eeffDown);
	MyMinuit->GetParameter(3, shift, eshift);
	MyMinuit->GetParameter(4, size, esize);
	MyMinuit->mnstat(fmin, fedm, errdef, npari, nparx, irc);

//		Renorm top and bottom sections to the middle
	for (i=0; i<3; i++) {
		ccnt[i] = DataArray.cnt[i] / effUp;
		ccnt[i+3] = DataArray.cnt[i+3];
		ccnt[i+6] = DataArray.cnt[i+6] / effDown;
		eccnt[i] = DataArray.ecnt[i] / effUp;
		eccnt[i+3] = DataArray.ecnt[i+3];
		eccnt[i+6] = DataArray.ecnt[i+6] / effDown;
	}
//	for (i=0; i<9; i++) printf("L = %8.3f    CNT = %6.1f +- %4.1f\n", r[i], cnt[i], ecnt[i]);
	gr = new TGraphErrors(9, DataArray.r, ccnt, er, eccnt);
	gr->SetLineColor(kBlue);
	gr->SetLineWidth(4);
	gr->SetMarkerStyle(20);
	gr->SetMarkerColor(kBlue);
	gr->SetMarkerSize(2);
	
	fR2 = new TF1("fR2", "[0] / ((x - [1]) * (x - [1]) - [2] * [2] / 4.0)", 1, 100);
	fR2->SetParameter(0, C);
	fR2->SetParameter(1, shift);
	fR2->SetParameter(2, size);
	fR2->SetLineColor(kRed);
	fR2->SetLineWidth(3);
	
	hst = new TH1D("H", ";Distance to reactor core center, m;Events per day", 35, 10, 13.5);
	hst->SetMinimum(DataArray.cnt[4] * 0.5);
	hst->SetMaximum(DataArray.cnt[4] * 1.5);
	hst->GetXaxis()->SetLabelSize(0.06);
	hst->GetYaxis()->SetLabelSize(0.06);
	hst->GetXaxis()->SetTitleSize(0.06);
	hst->GetYaxis()->SetTitleSize(0.06);
	hst->GetYaxis()->SetTitleOffset(1.25);

	hstd = new TH1D("H", ";Distance to reactor core center, m;Events per day", 35, 10, 13.5);
	hstd->SetMinimum(-40);
	hstd->SetMaximum(40);
	hstd->GetXaxis()->SetLabelSize(0.06);
	hstd->GetYaxis()->SetLabelSize(0.06);
	hstd->GetXaxis()->SetTitleSize(0.06);
	hstd->GetYaxis()->SetTitleSize(0.06);
	hstd->GetYaxis()->SetTitleOffset(1.25);
	
	TCanvas *cv = new TCanvas("CV", "R2", 800, 1200);
	cv->Divide(1, 2);
//		Do common fit and draw
	pd = cv->cd(1);
	pd->SetLeftMargin(0.15);
	pd->SetBottomMargin(0.15);
	pd->SetTopMargin(0.03);
	hst->Draw();
	gr->Draw("p");
	fR2->Draw("same");
	TLatex txt;
	txt.SetTextSize(0.07);
	sprintf(str, "#chi^{2}/n.d.f. = %6.2f/5", fmin);
	txt.DrawLatex(11.3, DataArray.cnt[4] * 1.3, str);
//		Draw difference
	for (i=0; i<9; i++) dcnt[i] = ccnt[i] - fR2->Eval(DataArray.r[i]);
	grd = new TGraphErrors(9, DataArray.r, dcnt, er, eccnt);
	grd->SetLineColor(kBlue);
	grd->SetLineWidth(4);
	grd->SetMarkerStyle(20);
	grd->SetMarkerColor(kBlue);
	grd->SetMarkerSize(2);
	
	pd = cv->cd(2);
	pd->SetLeftMargin(0.15);
	pd->SetBottomMargin(0.15);
	pd->SetTopMargin(0.03);
	hstd->Draw();
	grd->Draw("p");
}
Example #23
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 #24
0
void danss_calc_ratio(void)
{
#ifdef STRONG_CUTS
	const char fname[] = "danss_report_strong.root";
	const char pname[] = "danss_ratio_strong.pdf";
#else
	const char fname[] = "danss_report.root";
	const char pname[] = "danss_ratio.pdf";
#endif
	const struct {
		char name[32];
		int first;
		int last;
	} positions[] = {
		{ "down_21.04.16",   2307, 2361},	// [0] - 0-
		{ "up_22.04.16",     2366, 2387},	// [1] - 0+
		{ "down_23.04.16",   2399, 2445},	// [2] - 0-
		{ "mid_24.04.16",    2449, 2512},
		{ "up_25.04.16",     2514, 2562},	// [4] - 1+
		{ "down_26.04.16",   2564, 2609},	// [5] - 1-
		{ "mid_27.04.16",    2620, 2685},
		{ "up_28.04.16",     2687, 2730},	// [7] - 2+
		{ "down_29.04.16",   2733, 2788},	// [8] - 2-
		{ "mid_30.04.16",    2791, 2832},
		{ "stuck_01.05.16",  2836, 3399},
		{ "stuck_10.05.16",  3400, 3788},
		{ "up_03.06.16",     4261, 4400},	// [12] - 3+
		{ "down_06.06.16",   4403, 4439},	// [13] - 3-
		{ "up_08.06.16",     4508, 4601},	// [14] - 3+
		{ "raised_30.09.16", 5540, 5807},
		{ "raised_04.10.16", 5808, 5903},	// veto corners on
		{ "mid_05.10.16",    5907, 5995},	// [17]
		{ "up_10.10.16",     6007, 6130},	// [18] - 5+
//		{ "mid_12.10.16",    6136, 6275},
//		{ "down_14.10.16",   6278, 6467},
//		{ "up_17.10.16",     6469, 6570},
//		{ "mid_21.10.16",    6573, 6582},
//		{ "down_21.10.16",   6587, 6745},
//		{ "up_24.10.16",     6757, 6815},
//		{ "mid_27.10.16",    6842, 6923},
//		{ "down_28.10.16",   6926, 7095},
		{ "up_31.10.16",     7106, 7364},	// [19] - 5+
		{ "mid_11.11.16",    7387, 7406},	// [20]
		{ "down_11.11.16",   7418, 7458},	// [21] - 5-
		{ "up_14.11.16",     7478, 7579},	// [22] - 6+
//		{ "mid_16.11.16",    7581, 7717},
		{ "down_18.11.16",   7727, 7913},	// [23] - 6-
		{ "up_21.11.16",     7922, 8042},	// [24] - 7+
		{ "mid_23.11.16",    8048, 8179},	// [25]
		{ "down_25.11.16",   8185, 8353},	// [26] - 7-
		{ "up_28.11.16",     8357, 8430},	// [27] - 8+
		{ "mid_01.12.16",    8470, 8571},	// [28]
		{ "down_02.12.16",   8574, 8738},	// [29] - 8-
		{ "up_05.12.16",     8741, 8869},	// [30] - 8+
		{ "mid_07.12.16",    8873, 9009},	// [31]
		{ "up_12.12.16",     9012, 9112},	// [32] - 9+
		{ "mid_14.12.16",    9116, 9245},	// [33]
		{ "down_16.12.16",   9253, 9470},	// [34] - 9-
//		{ "up_19.12.16",     9475, 9600},
//		{ "mid_21.12.16",    9603, 9712},
//		{ "down_23.12.16",   9715, 9869},
//		{ "up_26.12.16",     9871, 10019}
//		{ "mid_28.12.16",    10021, 10171},
//		{ "down_30.12.16",   10175, 10307},
//		{ "down_02.01.17",   10308, 10356},
//		{ "down_03.01.17",   10357, 10424},
		{ "up_04.01.17",     10433, 10832},	// [35] - 10+
		{ "mid_11.01.17",    10834, 10973},	// [36]
		{ "down_13.01.17",   10979, 11147},	// [37] - 10-
		{ "up_16.01.17",     11150, 11267},	// [38] - 11+
		{ "mid_18.01.17",    11271, 11401},	// [39]
		{ "down_20.01.17",   11404, 11563},	// [40] - 11-
		{ "up_23.01.17",     11570, 11619}	// [41] - 11+
	};
	int i, j;
	int N;
	TCanvas *cv;
	TFile *f;
	TH1 *h[sizeof(positions) / sizeof(positions[0])];
	TH1 *hSum[12];
	TH1 *hRatio[7];
	TH1 *hTmp[3];
	char str[1024];
	TLatex *txt;
	double val, err;
	TVirtualPad *pd;
	const char periods[3][30] = {"April-June", "October-November", "December-January"};
	
	gStyle->SetOptStat(0);
	gStyle->SetOptFit(1);
	N = sizeof(positions) / sizeof(positions[0]);
	cv = new TCanvas("CV", "Results", 2400, 1200);
	f = new TFile(fname, "UPDATE");
	if (!f->IsOpen()) return;
	sprintf(str, "%s[", pname);
	cv->Print(str);
	txt = new TLatex();
	
	for (i=0; i<N; i++) {
		sprintf(str, "%s_hRes", positions[i].name);
		h[i] = (TH1 *) f->Get(str);
		if (!h[i]) {
			printf("%s not found in %s\n", positions[i].name, fname);
			return;
		}
		h[i]->SetBit(TH1::kIsAverage);
	}
	
	hSum[0] = (TH1 *) h[0]->Clone("hUp");
	hSum[1] = (TH1 *) h[0]->Clone("hDown");
	hSum[2] = (TH1 *) h[0]->Clone("hMid");
	hSum[3] = (TH1 *) h[0]->Clone("hSum");
	hSum[4] = (TH1 *) h[0]->Clone("hSum_first");
	hSum[5] = (TH1 *) h[0]->Clone("hSum_last");
	hSum[6] = (TH1 *) h[0]->Clone("hUpAprilJune");
	hSum[7] = (TH1 *) h[0]->Clone("hDownAprilJune");
	hSum[8] = (TH1 *) h[0]->Clone("hUpOctoberNovember");
	hSum[9] = (TH1 *) h[0]->Clone("hDownOctoberNovember");
	hSum[10] = (TH1 *) h[0]->Clone("hUpDecemberJanuary");
	hSum[11] = (TH1 *) h[0]->Clone("hDownDecemberJanuary");
	hRatio[0] = (TH1 *) h[0]->Clone("hRatio");
	hRatio[1] = (TH1 *) h[0]->Clone("hMix");
	hRatio[2] = (TH1 *) h[0]->Clone("hRatio2");
	hRatio[3] = (TH1 *) h[0]->Clone("hRatioMidUp");
	hRatio[4] = (TH1 *) h[0]->Clone("hRatioAprilJune");
	hRatio[5] = (TH1 *) h[0]->Clone("hRatioOctoberNovember");
	hRatio[6] = (TH1 *) h[0]->Clone("hRatioDecemberJanuary");
	hTmp[0] = (TH1 *) h[0]->Clone("hTmpUp");
	hTmp[1] = (TH1 *) h[0]->Clone("hTmpDown");
	hTmp[2] = (TH1 *) h[0]->Clone("hTmpRatio");
	for (i=0; i<12; i++) hSum[i]->Reset();
	for (i=0; i<12; i++) hSum[i]->SetLineWidth(2);
	
	for (i=0; i<N; i++) {
		switch (positions[i].name[0]) {
			case 'u' : j = 0; break;
			case 'd' : j = 1; break;
			case 'm' : j = 2; break;
			default : j = -1; break;
		}
		if (j >= 0) hSum[j]->Add(h[i]);
		hSum[(i < N/2) ? 4 : 5]->Add(h[i]);
		hSum[3]->Add(h[i]);
	}
//	for (i=0; i<3; i++) hSum[3]->Add(hSum[i]);
	hRatio[0]->Divide(hSum[1], hSum[0]);
	hRatio[1]->Divide(hSum[5], hSum[4]);
	hRatio[3]->Divide(hSum[2], hSum[0]);
//	Ratio from short ratios
	hRatio[2]->Reset();
	hRatio[2]->SetBit(TH1::kIsAverage);
//	0+2 / 1
	hTmp[0]->Add(h[0], h[2]);
	hTmp[2]->Divide(hTmp[0], h[1]);
	hRatio[2]->Add(hTmp[2]);
//	5 / 4
	hTmp[2]->Divide(h[5], h[4]);
	hRatio[2]->Add(hTmp[2]);
//	8 / 7
	hTmp[2]->Divide(h[8], h[7]);
	hRatio[2]->Add(hTmp[2]);
//	13 / 12 + 14
	hTmp[0]->Add(h[12], h[14]);
	hTmp[2]->Divide(h[13], hTmp[0]);
	hRatio[2]->Add(hTmp[2]);
//	21 / 18+19
	hTmp[0]->Add(h[18], h[19]);
	hTmp[2]->Divide(h[21], hTmp[0]);
	hRatio[2]->Add(hTmp[2]);
//	23 / 22
	hTmp[2]->Divide(h[23], h[22]);
	hRatio[2]->Add(hTmp[2]);
//	26 / 24
	hTmp[2]->Divide(h[26], h[24]);
	hRatio[2]->Add(hTmp[2]);
//	29 / 27 + 30
	hTmp[0]->Add(h[27], h[30]);
	hTmp[2]->Divide(h[29], hTmp[0]);
	hRatio[2]->Add(hTmp[2]);
//	34 / 32
	hTmp[2]->Divide(h[34], h[32]);
	hRatio[2]->Add(hTmp[2]);
//	37 / 35
	hTmp[2]->Divide(h[37], h[35]);
	hRatio[2]->Add(hTmp[2]);
//	40 / 38 + 41
	hTmp[0]->Add(h[38], h[41]);
	hTmp[2]->Divide(h[40], hTmp[0]);
	hRatio[2]->Add(hTmp[2]);
//	AprilJune (0 + 2 + 5 + 8 + 13) / (1 + 4 + 7 + 12 + 14)
	hSum[6]->Add(h[1]);
	hSum[6]->Add(h[4]);
	hSum[6]->Add(h[7]);
	hSum[6]->Add(h[12]);
	hSum[6]->Add(h[14]);
	hSum[7]->Add(h[0]);
	hSum[7]->Add(h[2]);
	hSum[7]->Add(h[5]);
	hSum[7]->Add(h[8]);
	hSum[7]->Add(h[13]);
	hRatio[4]->Divide(hSum[7], hSum[6]);
//	OctoberNovember (21 + 23 + 26 + 29) / (18 + 19 + 22 + 24 + 27 + 30)
	hSum[8]->Add(h[18]);
	hSum[8]->Add(h[19]);
	hSum[8]->Add(h[22]);
	hSum[8]->Add(h[24]);
	hSum[8]->Add(h[27]);
	hSum[8]->Add(h[30]);
	hSum[9]->Add(h[21]);
	hSum[9]->Add(h[23]);
	hSum[9]->Add(h[26]);
	hSum[9]->Add(h[29]);
	hRatio[5]->Divide(hSum[9], hSum[8]);
//	DecemberJanuary (34 + 37 + 40) / (32 + 35 + 38 + 41)
	hSum[10]->Add(h[32]);
	hSum[10]->Add(h[35]);
	hSum[10]->Add(h[38]);
	hSum[10]->Add(h[41]);
	hSum[11]->Add(h[34]);
	hSum[11]->Add(h[37]);
	hSum[11]->Add(h[40]);
	hRatio[6]->Divide(hSum[11], hSum[10]);
	cv->Divide(2, 1);

	pd = cv->cd(1);
	pd->Divide(1, 2);
	pd->cd(1);
	hSum[0]->SetTitle("Up - Middle - Down;MeV;mHz");
	hSum[0]->SetLineColor(kRed);
	hSum[2]->SetLineColor(kGreen);
	hSum[1]->SetLineColor(kBlue);
	for (i=0; i<4; i++) hSum[i]->SetLineWidth(2);
	hSum[0]->Draw();
	hSum[2]->Draw("same");
	hSum[1]->Draw("same");
	val = hSum[0]->IntegralAndError(1, 35, err);
	sprintf(str, "Up = %5.2f+-%4.2f", val, err);
	txt->SetTextColor(kRed);
	txt->DrawTextNDC(0.4, 0.85, str);
	val = hSum[2]->IntegralAndError(1, 35, err);
	sprintf(str, "Mid = %5.2f+-%4.2f", val, err);
	txt->SetTextColor(kGreen);
	txt->DrawTextNDC(0.4, 0.8, str);
	val = hSum[1]->IntegralAndError(1, 35, err);
	sprintf(str, "Down = %5.2f+-%4.2f", val, err);
	txt->SetTextColor(kBlue);
	txt->DrawTextNDC(0.4, 0.75, str);
	
	pd->cd(2);
	hSum[3]->SetTitle("Average of all positions;MeV;mHz");
	hSum[3]->SetLineColor(kBlack);
	hSum[3]->Draw();
	val = hSum[3]->IntegralAndError(1, 35, err);
	sprintf(str, "Avr = %5.2f+-%4.2f", val, err);
	txt->SetTextColor(kBlack);
	txt->DrawTextNDC(0.4, 0.8, str);

	pd = cv->cd(2);
	pd->Divide(1, 4);
	pd->cd(1);
	hRatio[0]->SetTitle("Down/Up all by all;MeV;");
	hRatio[0]->SetLineColor(kBlack);
	hRatio[0]->SetLineWidth(2);
	hRatio[0]->SetMinimum(0.5);
	hRatio[0]->SetMaximum(1.0);
	hRatio[0]->Fit("pol0", "", "", 1, 7);
	
	pd->cd(2);
	hRatio[2]->SetTitle("Down/Up pair by pair;MeV;");
	hRatio[2]->SetLineColor(kBlack);
	hRatio[2]->SetLineWidth(2);
	hRatio[2]->SetMinimum(0.5);
	hRatio[2]->SetMaximum(1.0);
	hRatio[2]->Fit("pol0", "", "", 1, 7);

	pd->cd(3);
	hRatio[3]->SetTitle("Mid/Up all by all;MeV;");
	hRatio[3]->SetLineColor(kBlack);
	hRatio[3]->SetLineWidth(2);
	hRatio[3]->SetMinimum(0.65);
	hRatio[3]->SetMaximum(1.15);
	hRatio[3]->Fit("pol0", "", "", 1, 7);

	pd->cd(4);
	hRatio[1]->SetTitle("First half/Last half;MeV;");
	hRatio[1]->SetLineColor(kBlack);
	hRatio[1]->SetLineWidth(2);
	hRatio[1]->SetMinimum(0.75);
	hRatio[1]->SetMaximum(1.25);
	hRatio[1]->Fit("pol0", "", "", 1, 7);

	cv->Update();
	cv->Print(pname);

	cv->Clear();
	cv->Divide(2, 2);
	for (i=0; i<3; i++) {
		cv->cd(i+1);
		sprintf(str, "Down/Up all by all for %s;MeV;", periods[i]);
		hRatio[4+i]->SetTitle(str);
		hRatio[4+i]->SetLineColor(kBlack);
		hRatio[4+i]->SetLineWidth(2);
		hRatio[4+i]->SetMinimum(0.5);
		hRatio[4+i]->SetMaximum(1.0);
		hRatio[4+i]->Fit("pol0", "", "", 1, 7);
	}
	cv->Update();
	cv->Print(pname);

	sprintf(str, "%s]", pname);
	cv->Print(str);
	for (i=0; i<12; i++) hSum[i]->Write();
	for (i=0; i<7; i++) hRatio[i]->Write();
	f->Close();
	delete cv;
}
Example #25
0
void ExtractOutputHistos(Bool_t onlyPrims=0,Bool_t onlyPion=0,Int_t plotFlag=0) {

  //  gROOT->SetStyle("Plain");
  gStyle->SetPalette(1);

  const Int_t nbins=20;
  Double_t ptmin=0.06;//04;
  Double_t ptmax=2.0;//GeV
  Double_t logxmin = TMath::Log10(ptmin);
  Double_t logxmax = TMath::Log10(ptmax);
  Double_t binwidth = (logxmax-logxmin)/(nbins+1);
  enum {nb=nbins+1};
  Double_t xbins[nb];
  xbins[0] = ptmin;
  for (Int_t i=1;i<=nbins;i++) {
    xbins[i] = ptmin + TMath::Power(10,logxmin+(i)*binwidth);
    //    cout<<xbins[i]<<endl;
  }
  //  TH1F *h = new TH1F("h","hist with log x axis",nbins,xbins);

  TH1F *hMultCount = new TH1F("mult","averaged multiplicity (charg. prim)",80,-4.,4.);
  hMultCount->GetXaxis()->SetTitle("eta");
  hMultCount->GetYaxis()->SetTitle("N/d#eta");

  TH1F *hAllMC = new TH1F("allMC","All Tracks MC primaries",nbins,xbins);
  TH1F *hAllFound = new TH1F("allFound","All Tracks found",nbins,xbins);
  TH1F *hImperfect = new TH1F("imperfect","Imperfect tracks",nbins,xbins);
  TH1F *hPerfect = new TH1F("perfect","Perfect tracks",nbins,xbins);
  TH1F *hEff = new TH1F("efficiency","Efficiency (Perfect tracks in \"ALL MC\")",nbins,xbins);
  TH1F *hFake = new TH1F("fake","Fake tracks (Inperfect tracks in \"ALL MC\")",nbins,xbins);
  TH1F *hPurity = new TH1F("purity","Purity (Perfect tracks in \"All Found\")",nbins,xbins);
  TH1F *hAnna = new TH1F("annaEff","AnnalisaEff ",nbins,xbins);
  TH1F *hNoMCTrack = new TH1F("noMCtrack","noMCtrack ",nbins,xbins);

  TH1F *hEta = new TH1F("","",50,-2,2);
  //  TH1F *hEtaMC = new TH1F("","",50,-2,2);

  TH2D *h2Ddca = new TH2D("dca2D","DCAvsPt2D",nbins,xbins,50,-0.05,0.05);
  TH2D *h2Dpt = new TH2D("dPt2D","dPtdvsPt2D",nbins,xbins,50,-25,25);

  // open run loader and load gAlice, kinematics and header
  AliRunLoader* runLoader = AliRunLoader::Open("galice.root");
  if (!runLoader) {
    Error("Check kine", "getting run loader from file %s failed",
          "galice.root");
    return;
  }
  runLoader->LoadgAlice();
  gAlice = runLoader->GetAliRun();
  if (!gAlice) {
    Error("Check kine", "no galice object found");
    return;
  }
  runLoader->LoadHeader();
  runLoader->LoadKinematics();

  TFile* esdFile = TFile::Open("AliESDs.root");
  if (!esdFile || !esdFile->IsOpen()) {
    Error("CheckESD", "opening ESD file %s failed", "AliESDs.root");
    return;
  }
  AliESDEvent *esd = new AliESDEvent();
  TTree* tree = (TTree*) esdFile->Get("esdTree");
  if (!tree) {
    Error("CheckESD", "no ESD tree found");
    return;
  }
  esd->ReadFromTree(tree);
  
  Int_t nTrackTotalMC = 0;
  Int_t nTrackFound = 0;
  Int_t nTrackImperfect = 0;
  Int_t nTrackPerfect = 0;
  Int_t nNoMCTrack = 0;

  
  for(Int_t iEv =0; iEv<tree->GetEntries(); iEv++){
    tree->GetEvent(iEv);
    runLoader->GetEvent(iEv);
    
    printf("+++ event %i (of %lld) +++++++++++++++++++++++  # ESDtracks: %d \n",iEv,tree->GetEntries()-1,esd->GetNumberOfTracks());
    Int_t nESDtracks = esd->GetNumberOfTracks();
    for (Int_t iTrack = 0; iTrack < nESDtracks; iTrack++) {
      AliESDtrack* track = esd->GetTrack(iTrack);
      if (!(iTrack%1000)) printf("event %i: ESD track count %d (of %d)\n",iEv,iTrack,nESDtracks);

      Int_t label = track->GetLabel();
  
      Int_t idx[12];
      //      Int_t ncl = track->GetITSclusters(idx);
   
      if(label<0) {
	//	cout<< " ESD track label " << label;
	//	cout<<"  ---> imperfect track (label "<<label<<"<0) !! -> track Pt: "<< track->Pt() << endl;
      }

      AliStack* stack = runLoader->Stack();
      //     nTrackTotalMC += stack->GetNprimary();
    

      TParticle* particle = stack->Particle(TMath::Abs(label)); 
      Double_t pt = track->Pt();
      
      if(particle) {

	if (TMath::Abs(particle->Eta())>etaCut) continue;

	Double_t ptMC = particle->Pt();

	// Efficiencies
	if (onlyPion && TMath::Abs(particle->GetPdgCode())!=211) continue;

	if ( (!onlyPrims) || stack->IsPhysicalPrimary(TMath::Abs(label))) {
	  //  cout<<" # clusters "<<ncl<<endl;

	  nTrackFound++;
	  hAllFound->Fill(ptMC);
	  hEta->Fill(track->Eta());
	  
	  if (label<0) {
	    nTrackImperfect++;
	    hImperfect->Fill(ptMC);
	  } else {
	    nTrackPerfect++;
	    hPerfect->Fill(ptMC);
	  }

	}


	// following only for "true tracks, pions

	if(particle->Pt() < 0.001)continue;
	if (TMath::Abs(particle->GetPdgCode())!=211) continue;
	if (label>0) {
	  
	  // Impact parameters for Pions only
	  Double_t dca = track->GetD(0,0,0.5);
	  h2Ddca->Fill(ptMC,dca);
	  
	  // Pt resolution for Pions only
	  Double_t dPt = (pt-ptMC)/ptMC*100;
	  h2Dpt->Fill(ptMC,dPt);
	}

      } else {
	nNoMCTrackFound++;
	hNoMCTrack->Fill(pt);
	cout<<" according MC particle not found"<<endl;
      }
      
    } //entries track esd
  

  }//entries tree
  runLoader->UnloadHeader();
  runLoader->UnloadKinematics();
  delete runLoader;

 
  // Count trackable MC tracks
  CountTrackableMCs(hAllMC, onlyPrims, onlyPion);


  // Count trackable MC tracks
  CountPrimaries(hMultCount);

 


  // Get Errors right
  hMultCount->Sumw2();
  hAllMC->Sumw2();   
  hAllFound->Sumw2();
  hPerfect->Sumw2(); 
  hImperfect->Sumw2(); 
  h2Dpt->Sumw2();
  h2Ddca->Sumw2();

  // -- Global efficienies

  nTrackTotalMC = hAllMC->GetEntries();
  Double_t eff = ((Double_t)nTrackPerfect)/nTrackTotalMC;
  printf("-> Total number of events: %lld -> MCtracks %d -> nPerfect %d  -> Eff: %3.2lf \n",
	 tree->GetEntries(),nTrackTotalMC,nTrackPerfect,eff);

  Double_t purity = ((Double_t)nTrackPerfect)/nTrackFound;
  printf("-> Total number of events: %lld -> FoundTracks %d -> nPerfect %d  -> Purity: %3.2lf \n",
	 tree->GetEntries(),nTrackFound,nTrackPerfect,purity);

  // Efficiencies - and normalize to 100%

  TF1 f1("f1","100+x*0",0.,1.e3);

  hPurity->Divide(hPerfect,hAllFound,1,1,"b"); 
  hPurity->Multiply(&f1);
  hPurity->SetMarkerColor(kGreen);
  hPurity->SetMarkerStyle(21);
  hPurity->GetXaxis()->SetTitle("transverse momentum p_{t} (GeV)");
  hPurity->SetStats(0);

  hPurity->GetYaxis()->SetRangeUser(0,100);
  hPurity->SetTitle("Efficiency & Purity");

  hEff->Divide(hPerfect,hAllMC,1,1,"b");
  hEff->Multiply(&f1);
  hEff->GetXaxis()->SetTitle("transverse momentum p_{t} (GeV)");
  hEff->SetMarkerColor(kBlue);
  hEff->SetMarkerStyle(21);
  hEff->SetStats(0);

  hFake->Divide(hImperfect,hAllMC,1,1,"b");
  hFake->Multiply(&f1);
  hFake->GetXaxis()->SetTitle("transverse momentum p_{t} (GeV)");
  hFake->SetMarkerColor(kRed);
  hFake->SetMarkerStyle(21);
  hFake->SetStats(0);


  hAnna->Divide(hAllFound,hAllMC,1,1,"b");
  hAnna->Multiply(&f1);
  hAnna->GetXaxis()->SetTitle("transverse momentum p_{t} (GeV)");
  hAnna->SetMarkerColor(kBlack);
  hAnna->SetMarkerStyle(21);
  hAnna->SetStats(0);

  TCanvas *c1 = new TCanvas("c1","NoMCTrackFound");//,200,10,900,900);
  TVirtualPad *pad =   c1->cd();
  pad->SetGridx();   pad->SetGridy();
  hNoMCTrack->Draw();

  TCanvas *c2 = new TCanvas("c2","Eff&Purity");//,200,10,900,900);
  TVirtualPad *pad =   c2->cd();
  pad->SetGridx();   pad->SetGridy();
  //  pad->SetLogx();

  hPurity->Draw("E");
  hEff->Draw("Same E");
  hFake->Draw("Same E");
  hAnna->Draw("Same E");

  TLegend *leg = new TLegend(0.1,0.8,0.6,0.9);leg->SetFillColor(0);
  leg->AddEntry(hPurity,"Purity (\"Perfect tracks\" within \"Found Tracks\")","PE");
  leg->AddEntry(hEff,"Efficiency (\"Perfect tracks\" within \"MC findable Tracks\")","PE");
  leg->AddEntry(hFake,"Fake (\"Inperfect tracks\" within \"MC findable Tracks\")","PE");
  leg->AddEntry(hAnna,"AnnaLisa - Efficiency (\"Found tracks\" within \"MC findable Tracks\")","PE");
  leg->Draw();


  if (plotFlag==1){
    hAllMC->GetXaxis()->SetTitle("transverse momentum p_{t} (GeV)");
    hAllMC->Draw();  // MC pt distribution
    hAllFound->SetLineColor(2);
    hAllFound->Draw("same");  // MC pt distribution
  }
 
 
  /*

  .L ~/ITSupgrade/BuildDetector/DetectorK.cxx+
  
  // All NEW
  DetectorK its("ALICE","ITS");
  its.MakeAliceAllNew(0);
  its.SetMaxRadiusOfSlowDetectors(0.01);
  its.SolveViaBilloir(0);
  TGraph *c = its.GetGraphRecoEfficiency(0,3,2);
  c->Draw("C");


  // Current
  DetectorK its("ALICE","ITS");
  its.MakeAliceCurrent(0,0);
  its.SetMaxRadiusOfSlowDetectors(0.01);
  its.SolveViaBilloir(0);
  TGraph *c = its.GetGraphRecoEfficiency(0,4,2);
  c->Draw("C");

  */

  TCanvas *c3 = new TCanvas("c3","impact");//,200,10,900,900);
  c3->Divide(2,1); c3->cd(1);
  // Impact parameter

  // Impact parameter resolution ---------------
  h2Ddca->Draw("colz");
  h2Ddca->FitSlicesY() ;
  TH2D *dcaM = (TH2D*)gDirectory->Get("dca2D_1"); dcaM->Draw("same");
  TH2D *dcaRMS = (TH2D*)gDirectory->Get("dca2D_2"); //dcaRMS->Draw();
  TGraphErrors *d0 = new TGraphErrors(); 
  for (Int_t ibin =1; ibin<=dcaRMS->GetXaxis()->GetNbins(); ibin++) {
    d0->SetPoint(     ibin-1,dcaRMS->GetBinCenter(ibin),dcaRMS->GetBinContent(ibin)*1e4); // microns
    d0->SetPointError(ibin-1,0,dcaRMS->GetBinError(ibin)*1e4); // microns
  }
  d0->SetMarkerStyle(21);
  d0->SetMaximum(200);  d0->SetMinimum(0);
  d0->GetXaxis()->SetTitle("transverse momentum p_{t} (GeV)");
  d0->GetYaxis()->SetTitle("R-#phi Pointing Resolution (#mum)");
  d0->SetName("dca");  d0->SetTitle("DCAvsPt");

  c3->cd(1);  h2Ddca->Draw("surf2");
  c3->cd(2);  d0->Draw("APE");

  // PT RESOLUTION ------------
  TCanvas *c4 = new TCanvas("c4","pt resolution");//,200,10,900,900);
  c4->Divide(2,1); c4->cd(1);
  // Impact parameter
  h2Dpt->Draw("colz");
  h2Dpt->FitSlicesY() ;
  TH2D *dPtM = (TH2D*)gDirectory->Get("dPt2D_1"); dPtM->Draw("same");
  TH2D *dPtRMS = (TH2D*)gDirectory->Get("dPt2D_2"); // dPtRMS->Draw("");
  TGraphErrors *gPt = new TGraphErrors(); 
  for (Int_t ibin =1; ibin<=dPtRMS->GetXaxis()->GetNbins(); ibin++) {
    gPt->SetPoint(     ibin-1,dPtRMS->GetBinCenter(ibin),dPtRMS->GetBinContent(ibin)); 
    gPt->SetPointError(ibin-1,0,dPtRMS->GetBinError(ibin)); 
  }
  gPt->SetMarkerStyle(21);
  gPt->SetMaximum(20);  gPt->SetMinimum(0);
  gPt->GetXaxis()->SetTitle("transverse momentum p_{t} (GeV)");
  gPt->GetYaxis()->SetTitle("relative momentum resolution (%)");
  gPt->SetName("dPt");  gPt->SetTitle("DPTvsPt");

  c4->cd(1);  h2Dpt->Draw("surf2");
  c4->cd(2);  gPt->Draw("APE");


  // EXPORT --------

  TFile f("histos.root","RECREATE");

  hMultCount->Write();
  hAllMC->Write();
  hAllFound->Write();
  hImperfect->Write();
  hPerfect->Write();
  hNoMCTrack->Write();

  hPurity->Write();
  hEff->Write();
  hFake->Write();
  hAnna->Write();

  h2Ddca->Write();
  d0->Write();

  h2Dpt->Write();
  gPt->Write();

  f.Close();

  return;

}
void makePlot(const std::string& inputFilePath, const std::string& canvasName, const std::string& sample, int massPoint, const std::string& channel, double k, 
	      const std::string& inputFileName, const std::string& outputFilePath, const std::string& outputFileName)
{
  std::string inputFileName_full = Form("%s%s", inputFilePath.data(), inputFileName.data());
  TFile* inputFile = new TFile(inputFileName_full.data());
  if ( !inputFile ) {
    std::cerr << "Failed to open input file = " << inputFileName_full << " !!" << std::endl;
    assert(0);
  }

  inputFile->ls();

  TCanvas* canvas = dynamic_cast<TCanvas*>(inputFile->Get(canvasName.data()));
  if ( !canvas ) {
    std::cerr << "Failed to load canvas = " << canvasName << " !!" << std::endl;
    assert(0);
  }

  int idxPad = -1;
  if ( massPoint ==  90 ) idxPad = 1;
  if ( massPoint == 125 ) idxPad = 2;
  if ( massPoint == 200 ) idxPad = 3;
  if ( massPoint == 300 ) idxPad = 4;
  if ( massPoint == 500 ) idxPad = 5;
  if ( massPoint == 800 ) idxPad = 6;  
  if ( !(idxPad >= 1 && idxPad <= 6) ) {
    std::cerr << "Invalid sample = " << sample << " !!" << std::endl;
    assert(0);
  }
  TVirtualPad* pad = canvas->GetPad(idxPad);
  std::cout << "pad = " << pad << ": ClassName = " << pad->ClassName() << std::endl;

  TCanvas* canvas_new = new TCanvas("canvas_new", "canvas_new", 900, 800);
  canvas_new->SetFillColor(10);
  canvas_new->SetBorderSize(2);
  canvas_new->SetTopMargin(0.065);
  canvas_new->SetLeftMargin(0.17);
  canvas_new->SetBottomMargin(0.165);
  canvas_new->SetRightMargin(0.015);
  canvas_new->SetLogx(true);
  canvas_new->SetLogy(true);
  canvas_new->Draw();
  canvas_new->cd();

  //TList* pad_primitives = canvas->GetListOfPrimitives();
  TList* pad_primitives = pad->GetListOfPrimitives();

  TH1* histogramCA            = 0;
  TH1* histogramSVfit         = 0;
  TH1* histogramSVfitMEMkEq0  = 0;
  TH1* histogramSVfitMEMkNeq0 = 0;

  TIter pad_nextObj(pad_primitives);
  while ( TObject* obj = pad_nextObj() ) {
    std::string objName = "";
    if ( dynamic_cast<TNamed*>(obj) ) objName = (dynamic_cast<TNamed*>(obj))->GetName();    
    std::cout << "obj = " << obj << ": name = " << objName << ", type = " << obj->ClassName() << std::endl;

    TH1* tmpHistogram = dynamic_cast<TH1*>(obj);
    if ( tmpHistogram ) {
      std::cout << "tmpHistogram:" 
		<< " fillColor = " << tmpHistogram->GetFillColor() << ", fillStyle = " << tmpHistogram->GetFillStyle() << ","
		<< " lineColor = " << tmpHistogram->GetLineColor() << ", lineStyle = " << tmpHistogram->GetLineStyle() << ", lineWidth = " << tmpHistogram->GetLineWidth() << ","
		<< " markerColor = " << tmpHistogram->GetMarkerColor() << ", markerStyle = " << tmpHistogram->GetMarkerStyle() << ", markerSize = " << tmpHistogram->GetMarkerSize() << ","
		<< " integral = " << tmpHistogram->Integral() << std::endl;
      std::cout << "(mean = " << tmpHistogram->GetMean() << ", rms = " << tmpHistogram->GetRMS() << ": rms/mean = " << (tmpHistogram->GetRMS()/tmpHistogram->GetMean()) << ")" << std::endl;
      if ( tmpHistogram->GetLineColor() == 416 ) histogramCA            = tmpHistogram;
      if ( tmpHistogram->GetLineColor() == 600 ) histogramSVfit         = tmpHistogram;
      if ( tmpHistogram->GetLineColor() == 616 ) histogramSVfitMEMkEq0  = tmpHistogram;
      if ( tmpHistogram->GetLineColor() == 632 ) histogramSVfitMEMkNeq0 = tmpHistogram;
    }
  }

  if ( !(histogramCA && histogramSVfit && histogramSVfitMEMkEq0 && histogramSVfitMEMkNeq0) ) {
    std::cerr << "Failed to load histograms !!" << std::endl;
    assert(0);
  }

  //gStyle->SetLineStyleString(2,"40 10 10 10 10 10 10 10");
  //gStyle->SetLineStyleString(3,"25 15");
  //gStyle->SetLineStyleString(4,"60 25");

  //int colors[4] = { kBlack, kGreen - 6, kBlue - 7, kMagenta - 7  };
  int colors[4] = { 28, kGreen - 6, kBlue - 7, kBlack };
  //int lineStyles[4] = { 2, 3, 4, 1 };
  int lineStyles[4] = { 7, 1, 1, 1 };
  //int lineWidths[4] = { 3, 3, 4, 3 };
  int lineWidths[4] = { 3, 3, 1, 1 };
  int markerStyles[4] = { 20, 25, 21, 24 };
  int markerSizes[4] = { 2, 2, 2, 2 };

  histogramCA->SetFillColor(0);
  histogramCA->SetFillStyle(0);
  histogramCA->SetLineColor(colors[0]);
  histogramCA->SetLineStyle(lineStyles[0]);
  histogramCA->SetLineWidth(lineWidths[0]);
  histogramCA->SetMarkerColor(colors[0]);
  histogramCA->SetMarkerStyle(markerStyles[0]);
  histogramCA->SetMarkerSize(markerSizes[0]);

  histogramSVfit->SetFillColor(0);
  histogramSVfit->SetFillStyle(0);
  histogramSVfit->SetLineColor(colors[1]);
  histogramSVfit->SetLineStyle(lineStyles[1]);
  histogramSVfit->SetLineWidth(lineWidths[1]);
  histogramSVfit->SetMarkerColor(colors[1]);
  histogramSVfit->SetMarkerStyle(markerStyles[1]);
  histogramSVfit->SetMarkerSize(markerSizes[1]);

  histogramSVfitMEMkEq0->SetFillColor(0);
  histogramSVfitMEMkEq0->SetFillStyle(0);
  histogramSVfitMEMkEq0->SetLineColor(colors[2]);
  histogramSVfitMEMkEq0->SetLineStyle(lineStyles[2]);
  histogramSVfitMEMkEq0->SetLineWidth(lineWidths[2]);
  histogramSVfitMEMkEq0->SetMarkerColor(colors[2]);
  histogramSVfitMEMkEq0->SetMarkerStyle(markerStyles[2]);
  histogramSVfitMEMkEq0->SetMarkerSize(markerSizes[2]);
  // CV: fix pathological bins at high mass for which dN/dm increases
  int numBins = histogramSVfitMEMkEq0->GetNbinsX();
  for ( int idxBin = 1; idxBin <= numBins; ++idxBin ) {
    double binCenter = histogramSVfitMEMkEq0->GetBinCenter(idxBin);
    if ( (channel == "#tau_{h}#tau_{h}" && massPoint == 500 && binCenter > 1500.) ||
	 (channel == "#tau_{h}#tau_{h}" && massPoint == 800 && binCenter > 2000.) ||
	 (channel == "#mu#tau_{h}"      && massPoint == 500 && binCenter > 1500.) ||
	 (channel == "#mu#tau_{h}"      && massPoint == 800 && binCenter > 2500.) ) {
      histogramSVfitMEMkEq0->SetBinContent(idxBin, 0.);
    }
  }

  histogramSVfitMEMkNeq0->SetFillColor(0);
  histogramSVfitMEMkNeq0->SetFillStyle(0);
  histogramSVfitMEMkNeq0->SetLineColor(colors[3]);
  histogramSVfitMEMkNeq0->SetLineStyle(lineStyles[3]);
  histogramSVfitMEMkNeq0->SetLineWidth(lineWidths[3]);
  histogramSVfitMEMkNeq0->SetMarkerColor(colors[3]);
  histogramSVfitMEMkNeq0->SetMarkerStyle(markerStyles[3]);
  histogramSVfitMEMkNeq0->SetMarkerSize(markerSizes[3]);

  TAxis* xAxis = histogramCA->GetXaxis();
  xAxis->SetTitle("m_{#tau#tau} [GeV]");
  xAxis->SetTitleOffset(1.15);
  xAxis->SetTitleSize(0.070);
  xAxis->SetTitleFont(42);
  xAxis->SetLabelOffset(0.010);
  xAxis->SetLabelSize(0.055);
  xAxis->SetLabelFont(42);
  xAxis->SetTickLength(0.040);
  xAxis->SetNdivisions(510);

  //double xMin = 20.;
  //double xMax = xAxis->GetXmax();
  //xAxis->SetRangeUser(xMin, xMax);

  TAxis* yAxis = histogramCA->GetYaxis();
  yAxis->SetTitle("dN/dm_{#tau#tau} [1/GeV]");
  yAxis->SetTitleOffset(1.20);
  yAxis->SetTitleSize(0.070);
  yAxis->SetTitleFont(42);
  yAxis->SetLabelOffset(0.010);
  yAxis->SetLabelSize(0.055);
  yAxis->SetLabelFont(42);
  yAxis->SetTickLength(0.040);  
  yAxis->SetNdivisions(505);

  double massPoint_double = 0.;
  if ( massPoint == 90 ) massPoint_double = 91.2;
  else massPoint_double = massPoint;
  double dLog = (TMath::Log(5.*massPoint_double) - TMath::Log(50.))/25.; // xMin = 50, xMax = 5*massPoint, numBins = 25
  double binWidth = TMath::Exp(TMath::Log(massPoint_double) + 0.5*dLog) - TMath::Exp(TMath::Log(massPoint_double) - 0.5*dLog);
  double sf_binWidth = 1./binWidth;
  std::cout << "massPoint = " << massPoint << ": sf_binWidth = " << sf_binWidth << std::endl;

  histogramCA->SetTitle("");
  histogramCA->SetStats(false);
  histogramCA->SetMaximum(sf_binWidth*0.79);
  histogramCA->SetMinimum(sf_binWidth*1.1e-4);
  histogramCA->Draw("hist");
  histogramSVfit->Draw("histsame");
  //histogramSVfitMEMkEq0->Draw("histsame");
  histogramSVfitMEMkEq0->Draw("epsame");
  //histogramSVfitMEMkNeq0->Draw("histsame");
  histogramSVfitMEMkNeq0->Draw("epsame");
  histogramCA->Draw("axissame");

  //TPaveText* label_sample = new TPaveText(0.21, 0.86, 0.46, 0.94, "NDC");
  TPaveText* label_sample = new TPaveText(0.1700, 0.9475, 0.4600, 1.0375, "NDC");
  label_sample->SetFillStyle(0);
  label_sample->SetBorderSize(0);
  label_sample->AddText(sample.data());
  label_sample->SetTextFont(42);
  label_sample->SetTextSize(0.055);
  label_sample->SetTextColor(1);
  label_sample->SetTextAlign(13);
  label_sample->Draw();

  //TLegend* legend_new = new TLegend(0.225, 0.52, 0.41, 0.82, NULL, "brNDC");
  TLegend* legend_new = new TLegend(0.30, 0.30, 0.80, 0.80, NULL, "brNDC");
  legend_new->SetFillColor(10);
  legend_new->SetFillStyle(0);
  legend_new->SetBorderSize(0);
  legend_new->SetTextFont(42);
  legend_new->SetTextSize(0.055);
  legend_new->SetTextColor(1);
  legend_new->SetMargin(0.20);
  legend_new->AddEntry(histogramCA, "CA", "l");
  legend_new->AddEntry(histogramSVfit, "SVfit", "l");
  //legend_new->AddEntry(histogramSVfitMEMkEq0, "SVfitMEM (k=0)", "l");
  legend_new->AddEntry(histogramSVfitMEMkEq0, "SVfitMEM (k=0)", "p");
  //legend_new->AddEntry(histogramSVfitMEMkNeq0, Form("SVfitMEM(k=%1.0f)", k), "l");
  legend_new->AddEntry(histogramSVfitMEMkNeq0, Form("SVfitMEM (k=%1.0f)", k), "p");
  //legend_new->Draw();

  double label_channel_y0;
  if      ( channel == "e#mu"             ) label_channel_y0 = 0.9275;
  else if ( channel == "#mu#tau_{h}"      ) label_channel_y0 = 0.9400;
  else if ( channel == "#tau_{h}#tau_{h}" ) label_channel_y0 = 0.9350;
  else {
    std::cerr << "Invalid channel = " << channel << " !!" << std::endl;
    assert(0);
  }
  TPaveText* label_channel = new TPaveText(0.895, label_channel_y0, 0.975, label_channel_y0 + 0.055, "NDC");
  label_channel->SetFillStyle(0);
  label_channel->SetBorderSize(0);
  label_channel->AddText(channel.data());
  label_channel->SetTextFont(62);
  label_channel->SetTextSize(0.055);
  label_channel->SetTextColor(1);
  label_channel->SetTextAlign(31);
  label_channel->Draw();

  canvas_new->Update();

  std::string outputFileName_full = Form("%s%s", outputFilePath.data(), outputFileName.data());
  size_t idx = outputFileName_full.find_last_of('.');
  std::string outputFileName_plot = std::string(outputFileName_full, 0, idx);
  canvas_new->Print(std::string(outputFileName_plot).append(".pdf").data());
  canvas_new->Print(std::string(outputFileName_plot).append(".root").data());

  std::string channel_string;
  if      ( channel == "e#mu"             ) channel_string = "emu";
  else if ( channel == "#mu#tau_{h}"      ) channel_string = "muhad";
  else if ( channel == "#tau_{h}#tau_{h}" ) channel_string = "hadhad";
  else {
    std::cerr << "Invalid channel = " << channel << " !!" << std::endl;
    assert(0);
  }
  std::string outputFileName_legend = Form("makeSVfitMEM_PerformancePlots_legend_%s.pdf", channel_string.data());
  makePlot_legend(legend_new, outputFilePath, outputFileName_legend);

  delete label_sample;
  delete legend_new;
  delete label_channel;
  delete canvas_new;

  delete inputFile;
}
Example #27
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 #28
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 #29
0
/** 
 * Draw final plot for QM2011
 * 
 * @param max 
 * 
 * @ingroup pwglf_forward_scripts
 */
void
dndeta_final(Double_t max=6)
{
  gStyle->SetOptTitle(0);
  gStyle->SetOptFit(0);
  gStyle->SetTitleFont(132, "xyz");
  gStyle->SetTitleSize(0.1, "xyz");
  gStyle->SetTitleOffset(0.4, "y");
  gStyle->SetTitleOffset(0.8, "x");
  gStyle->SetLabelFont(132, "xyz");
  gStyle->SetLabelSize(0.08, "xyz");
  gStyle->SetNdivisions(212, "x");
  gStyle->SetNdivisions(208, "y");
  gStyle->SetTextFont(132);
  gStyle->SetPadColor(0);
  gStyle->SetPadBorderMode(0);
  // gStyle->SetFillColor(0);
  // gStyle->SetFillStyle(0);
  
  TCanvas* c = new TCanvas("c", "c", 900, 900);
  c->SetFillColor(0);
  c->SetFillStyle(0);
  c->SetBorderSize(0);
  c->SetBorderMode(0);
  c->SetRightMargin(0.02);
  c->SetTopMargin(0.02);
  c->SetBottomMargin(0.15);
  c->Divide(1,3,0,0);
  
  // --- INEL --------------------------------------------------------
  TVirtualPad* p = c->cd(1);
  p->SetGridx();
  p->SetRightMargin(.01);
  THStack* inel     = new THStack("inel", "INEL");
  TLatex*  inelT    = new TLatex(1-p->GetRightMargin()-.01, 
				 1-p->GetTopMargin()-.01, 
				 "INEL");
  inelT->SetNDC();
  inelT->SetTextAlign(33);
  inelT->SetTextSize(0.12);
  TLegend* inelL    = new TLegend(.3, .02, .8, .4);
  inelL->SetBorderSize(0);
  inelL->SetNColumns(2);
  inelL->SetFillColor(0);
  inelL->SetFillStyle(0);
  TLegendEntry* e = inelL->AddEntry("d1", "Forward", "lp");
  e->SetMarkerColor(kRed+2);
  e->SetMarkerStyle(29);
  e = inelL->AddEntry("d2", "Central", "lp");
  e->SetMarkerColor(kMagenta+2);    
  e->SetMarkerStyle(29);
  e = inelL->AddEntry("d3", "Data", "lp");
  e->SetMarkerStyle(29);
  e = inelL->AddEntry("d4", "Mirrored data", "lp");
  e->SetMarkerStyle(30);
  e = inelL->AddEntry("d5", "Systematic error", "f");
  e->SetFillColor(kGray); 
  e->SetLineColor(kGray);
  e->SetLineWidth(0);
  e->SetFillStyle(3001);
  
  gROOT->LoadMacro("export_pp_0900GeV_INEL_m10p10cm_000100000ev.C");
  export_pp_0900GeV_INEL_m10p10cm_000100000ev(inel, inelL, 20);
  export_pp_0900GeV_INEL_m10p10cm_000100000ev(inel, inelL, 21);
  export_pp_0900GeV_INEL_m10p10cm_000100000ev(inel, inelL, 22);
  inel->Draw("nostack e1");
  inel->GetHistogram()->SetYTitle("#frac{1}{N}#frac{dN_{ch}}{d#eta}");
  inel->GetHistogram()->SetXTitle("#eta");
  inel->GetHistogram()->GetYaxis()->SetDecimals();
  inelL->Draw();
  inelT->Draw();

  // --- INEL>0 ------------------------------------------------------
  p = c->cd(2);
  p->SetGridx();
  p->SetRightMargin(.01);
  THStack* inelgt0     = new THStack("inelgt0", "INEL>0");
  TLatex*  inelgt0T    = new TLatex(1-p->GetRightMargin()-.01, 
				    1-p->GetTopMargin()-.01, 
				    "INEL>0");
  inelgt0T->SetNDC();
  inelgt0T->SetTextAlign(33);
  inelgt0T->SetTextSize(0.12);
  gROOT->LoadMacro("export_pp_0900GeV_INEL_m10p10cm_000100000ev.C");
  export_pp_0900GeV_INEL_m10p10cm_000100000ev(inelgt0, 0, 20);
  export_pp_0900GeV_INEL_m10p10cm_000100000ev(inelgt0, 0, 21);
  export_pp_0900GeV_INEL_m10p10cm_000100000ev(inelgt0, 0, 22);
  inelgt0->Draw("nostack e1");
  inelgt0->GetHistogram()->SetXTitle("#eta");
  inelgt0->GetHistogram()->GetYaxis()->SetDecimals();
  inelgt0T->Draw();

  // --- NSD ---------------------------------------------------------
  p = c->cd(3);
  p->SetGridx();
  p->SetRightMargin(.01);
  THStack* nsd     = new THStack("nsd", "NSD");
  TLatex*  nsdT    = new TLatex(1-p->GetRightMargin()-.01, 
				1-p->GetTopMargin()-.01, 
				"NSD");
  nsdT->SetNDC();
  nsdT->SetTextAlign(33);
  nsdT->SetTextSize(0.12);
  gROOT->LoadMacro("export_pp_0900GeV_NSD_m10p10cm_000100000ev.C");
  export_pp_0900GeV_NSD_m10p10cm_000100000ev(nsd, 0, 20);
  export_pp_0900GeV_NSD_m10p10cm_000100000ev(nsd, 0, 21);
  export_pp_0900GeV_NSD_m10p10cm_000100000ev(nsd, 0, 22);
  nsd->Draw("nostack e1");
  nsd->GetHistogram()->SetXTitle("#eta");
  nsd->GetHistogram()->GetYaxis()->SetDecimals();
  nsdT->Draw();

  c->cd();
  c->SaveAs("dndeta_final.png");
}
Example #30
0
void KVSpIdGUI::SpiderIdentification()
{
   if ((!fHisto) || (!fGrid)) return;

   TVirtualPad* pad = fGrid->GetPad();
   fGrid->UnDraw();

   fZp = fZpEntry->GetIntNumber();
   if (!fUserParameter) fSpFactor = GetFactor();
   else fSpFactor = fSpiderFactorEntry->GetNumber();

   fAnglesUp   = fAngleUpEntry->GetIntNumber();
   fAnglesDown = fAngleDownEntry->GetIntNumber();
   fAlpha      = fApertureUpEntry->GetNumber();
   fPiedType   = fPiedChoice->GetSelected();
   fMatrixType = fTypeChoice->GetSelected();
   Int_t type  = fMatrixType;

   TH2*   tmpHisto = fHisto;
   TList* tmpCut   = 0;
   if (fUseCut) {
      tmpHisto = (TH2*)fHisto->Clone(Form("%s_cut", fHisto->GetName()));
      tmpHisto->Reset();
      for (int i = 1; i <= fHisto->GetNbinsX(); i++) {
         for (int j = 1; j <= fHisto->GetNbinsY(); j++) {
            Stat_t ww = fHisto->GetBinContent(i, j);
            Axis_t x0 = fHisto->GetXaxis()->GetBinCenter(i);
            Axis_t y0 = fHisto->GetYaxis()->GetBinCenter(j);
            if (fGrid->IsIdentifiable(x0, y0)) tmpHisto->Fill(x0, y0, ww);
         }
      }
      tmpCut = (TList*)fGrid->GetCuts()->Clone("tmpCuts");
   }

   fGrid->Clear();

   if (fScaledHisto) delete fScaledHisto;
   KVHistoManipulator hm;

   TF1 RtLt("RtLt", Form("x*%lf", fSfx), 0, tmpHisto->GetXaxis()->GetXmax());
   TF1 RtLty("RtLty", Form("x*%lf", fSfy), 0, tmpHisto->GetXaxis()->GetXmax());
   fScaledHisto = (TH2F*)hm.ScaleHisto(tmpHisto, &RtLt, &RtLty);

   if (fIdentificator) delete fIdentificator;
   fIdentificator = new KVSpiderIdentificator(fScaledHisto, fXm * fSfx, fYm * fSfy);

   switch (fPiedType) {
      case kUser:
         fIdentificator->SetX0(fPdx * fSfx);
         fIdentificator->SetY0(fPdy * fSfy);
         break;
      case kAuto:
         break;
      case kNone:
         fIdentificator->SetX0(0.);
         fIdentificator->SetY0(0.);
   }

   fIdentificator->SetParameters(fSpFactor);
   fIdentificator->SetNangles(fAnglesUp, fAnglesDown);
   fIdentificator->SetAlpha(fAlpha);

   fProgressBar->SetRange(0, fAnglesUp + fAnglesDown + 1);
   fProgressBar->Reset();
   fIdentificator->Connect("Increment(Float_t)", "TGHProgressBar", fProgressBar, "SetPosition(Float_t)");

   fTestButton->SetEnabled(kFALSE);
   fCloseButton->SetEnabled(kFALSE);
   fIdentificator->ProcessIdentification();
   fTestButton->SetEnabled(kTRUE);
   fCloseButton->SetEnabled(kTRUE);

   fIdentificator->Disconnect("Increment(Float_t)", fProgressBar, "SetPosition(Float_t)");
   fProgressBar->Reset();

   if (fDebug) fIdentificator->Draw(fOption.Data());

   TList* ll = (TList*)fIdentificator->GetListOfLines();

   KVIDZALine* TheLine = 0;
   int zmax = 0;

   KVSpiderLine* spline = 0;
   TIter next_line(ll);
   while ((spline = (KVSpiderLine*)next_line())) {
      if ((spline->GetN() > 10)) { //&&(spline->GetX(0)<=fIdentificator->GetX0()+200.))
         TF1* ff1 = 0;
         if (type == kSiCsI) ff1 = spline->GetFunction(fPdx * fSfx, TMath::Max(fScaledHisto->GetXaxis()->GetXmax() * 0.9, spline->GetX(spline->GetN() - 1)));
         else if (type == kSiSi)  ff1 = spline->GetFunction(fPdx * fSfx, TMath::Min(fScaledHisto->GetXaxis()->GetXmax() * 0.9, spline->GetX(spline->GetN() - 1) * 1.5));
         else if (type == kChIoSi)  ff1 = spline->GetFunction(fPdx * fSfx, TMath::Min(fScaledHisto->GetXaxis()->GetXmax() * 0.9, spline->GetX(spline->GetN() - 1) * 1.5));
         else ff1 = spline->GetFunction();
         if ((type == kSiCsI) && (ff1->GetParameter(1) >= 3000. || (ff1->GetParameter(2) <= 0.35) || (ff1->GetParameter(2) >= 1.))) {
            Info("SpiderIdentification", "Z = %d has been rejected (fit parameters)", spline->GetZ());
            continue;
         }
         TheLine = (KVIDZALine*)((KVIDZAGrid*)fGrid)->NewLine("ID");
         TheLine->SetZ(spline->GetZ());
         double min, max;
         ff1->GetRange(min, max);
         double step = TMath::Min((max - min) * 0.05, 20.); //20.;
         double stepmax = (max - min) * 0.2; //800.;
         double x = 0.;
         for (x = min + 1; x < max + step; x += step) {
            if (step <= stepmax) step *= 1.3;
            if (ff1->Eval(x) < 4000) TheLine->SetPoint(TheLine->GetN(), x, ff1->Eval(x));
         }
         if (max > x) TheLine->SetPoint(TheLine->GetN(), max, ff1->Eval(max));

         fGrid->Add("ID", TheLine);
         if (spline->GetZ() >= zmax) zmax = spline->GetZ();
      } else {
         Info("SpiderIdentification", "Z = %d has been rejected (too few points)", spline->GetZ());
      }
   }

   TF1 fx("fx12", Form("x/%lf", fSfx), 0., fScaledHisto->GetNbinsX() * 1.);
   TF1 fy("fy12", Form("x/%lf", fSfy), 0., fScaledHisto->GetNbinsY() * 1.);
   fGrid->Scale(&fx, &fy);

   if (fUseCut) delete tmpHisto;

   if (tmpCut) fGrid->GetCuts()->AddAll(tmpCut);
   pad->cd();
   fGrid->Draw();
   pad->Modified();
   pad->Update();

   DoClose();
}