Pi0Calibration/Common/fitpeak.cc

void pi0_mfitpeak(TH1F *mh1, Int_t etapi0flag, float xmin, float xmax, int npol, double res[], string dirName,string histName) 
  
{

  gROOT->Reset();
  //  gStyle->SetOptFit();
  //  gStyle->SetOptFit(0);
  //  gStyle->SetOptStat(0);
  //  gStyle->SetOptTitle(0);
Bool_t NOTE=1;
  if(NOTE) gStyle->SetCanvasBorderMode(0);

  gStyle->SetPadTopMargin(0.08);
  gStyle->SetPadBottomMargin(0.12);
  gStyle->SetPadLeftMargin(0.15);
  gStyle->SetPadRightMargin(0.08);

  mh1->GetXaxis()->SetRangeUser(xmin,xmax);
  
  
    // cout<<FileName<<" "<<HistName<<endl;

  //     TFile f(FileName);
  //   TH1F *mh1 = (TH1F*) f.Get(HistName);
      mh1->SetMarkerStyle(20);
      mh1->SetMarkerSize(1.);
      mh1->SetStats(0); // 1/0 to set the stat box

   mh1->GetXaxis()->SetTitle("Invariant Mass of Photon Pairs [GeV]");


   float binwidth = mh1->GetBinWidth(1);
   
   char *ytitle = new char[100];

   sprintf(ytitle,"Photon Pairs / %4.3f GeV",binwidth);
   

   mh1->GetYaxis()->SetTitle(ytitle);
   

   mh1->GetXaxis()->SetTitleSize(0.055);
   mh1->GetYaxis()->SetTitleSize(0.055);
   mh1->GetXaxis()->SetLabelSize(0.045);
   mh1->GetYaxis()->SetLabelSize(0.045);
   mh1->GetXaxis()->SetTitleOffset(0.90);
   mh1->GetXaxis()->CenterTitle();
   mh1->GetYaxis()->SetTitleOffset(1.32);
   

   // First work with the histogram and find the peak and fit ranges
   TAxis *xaxis = mh1->GetXaxis();
   Float_t binsiz= xaxis->GetBinCenter(3) - xaxis->GetBinCenter(2);
   Int_t nbins = xaxis->GetNbins(); 
   Float_t nevtperbin0[10000];
   //Float_t errorbin0[10000];
   Float_t nevttot;
   Float_t maxbin=0; Int_t nmaxbin=0, nminbord=0, nmaxbord=nbins;
   
   double maxbin_val = 0; 

   for (Int_t nn=1; nn <= nbins; nn++)
     {
       nevtperbin0[nn] = mh1->GetBinContent(nn); 
       if(nevtperbin0[nn] > maxbin) {
         maxbin_val = mh1->GetBinCenter(nn);
         maxbin=nevtperbin0[nn]; nmaxbin=nn; }
       //errorbin0[nn] = mh1->GetBinError(nn); 
       nevttot+=nevtperbin0[nn];
       if(nevtperbin0[nn] > 0 && nminbord == 0) nminbord=nn; 
       if(nevtperbin0[nn] == 0 && (nn > nminbord +10) && nmaxbord==0 && nminbord > 0) nmaxbord=nn; 
     }
   //cout<<"Minbordl "<<nminbord<<" with events: "<<nevtperbin0[nminbord]<<endl;
   //cout<<"Maxbordl "<<nmaxbord<<" with events: "<<nevtperbin0[nmaxbord]<<endl;
   nminbord+=0;
   nmaxbord-=0;
   //   Int_t nmin0=nminbord;
   while(nevtperbin0[nminbord] < nevtperbin0[nmaxbin]*0.025) nminbord++;
   while(nevtperbin0[nmaxbord] < nevtperbin0[nmaxbin]*0.025) nmaxbord--;
   // the above was just to get the info and low/high bins

   // Set the fit range ! This is for total fit !        
   Float_t fitl=xmin;
     float fith=xmax;
   //     Float_t fitl=0.07, fith=0.2;// this works better for pileup
   //         Float_t fitl=0.08, fith=0.18;// this works even better for pileup
     //  if(etapi0flag == 1)
     // {
     //  fitl=0.35; fith=0.75;
     //}
     
     
     //   if(fitl < xaxis->GetBinCenter(nmin0)) fitl = xaxis->GetBinCenter(nmin0);
   //if(fith > xaxis->GetBinCenter(nmaxbord)) fith = xaxis->GetBinCenter(nmaxbord);
 
   
     //cout<<" fit range "<<fitl<<" -- "<<fith<<endl;
     //cout <<"Bin size "<<binsiz<<endl;
     ///cout<<"Total events "<<nevttot<<endl;
     ///cout<<"MaxBin "<<nmaxbin<<" with events: "<<nevtperbin0[nmaxbin]<<endl;
     //cout<<"Minbord "<<nminbord<<" with events: "<<nevtperbin0[nminbord]<<endl;
     //cout<<"Maxbord "<<nmaxbord<<" with events: "<<nevtperbin0[nmaxbord]<<endl;
     //mh1->DrawCopy("sep");
     if(etapi0flag ==0){
       if( maxbin_val < 0.09 || maxbin_val >0.18){
         maxbin_val = 0.13; 
       }
     }else if(etapi0flag == 1){
       if( maxbin_val < 0.45 || maxbin_val >0.65){
         maxbin_val = 0.54; 
       }
     }


     Double_t lowgauss= maxbin_val-4.*0.010;
   Double_t highgauss= maxbin_val+4.*0.010;
   if(etapi0flag == 1)
     {
       lowgauss=maxbin_val-5.*0.025;
       highgauss=maxbin_val+5.*0.025;
     }


      Int_t nlowgauss=Int_t((lowgauss-xaxis->GetBinCenter(1))/Float_t(binsiz)+0.5);
      Int_t nhighgauss=Int_t((highgauss-xaxis->GetBinCenter(1))/Float_t(binsiz)+0.5);
      //cout <<xaxis->GetBinCenter(nlowgauss)<<" "<<xaxis->GetBinCenter(nhighgauss)<<endl;
   // now make the "background" histogram and fit it with p4
      Float_t lowvalgauss=nevtperbin0[nlowgauss];
      Float_t increm=(nevtperbin0[nhighgauss]-nevtperbin0[nlowgauss])/Float_t(nhighgauss-nlowgauss);
      TH1F *hbkg = (TH1F*)mh1->Clone();
      //      hbkg->SetName("bkg_clone");
      for (Int_t nn=nlowgauss; nn<=nhighgauss; nn++)
        {
          hbkg->SetBinContent(nn,Float_t(lowvalgauss+(nn-nlowgauss)*increm));
          hbkg->SetBinError(nn,sqrt(lowvalgauss+(nn-nlowgauss)*increm));
        }
      //hbkg->DrawCopy("samesep");
      //      break;
      // Now define the "gaussian" histogram
      TH1F *hgauss = (TH1F*)mh1->Clone();
      hgauss->SetName("gauss_clone");
      hgauss->Sumw2();
      hgauss->Add(mh1,hbkg,1,-1); // if errors are independent Add needs to be used !
       for (Int_t nn=1; nn <= nbins; nn++)
         {
           if(hgauss->GetBinContent(nn) < 0.) hgauss->SetBinContent(nn,0.001*nevtperbin0[nmaxbin]);
           hgauss->SetBinError(nn,sqrt(hgauss->GetBinContent(nn)));
         }

   // Declare function with wich to fit
       TF1 *g1 = new TF1("g1","gaus",lowgauss,highgauss);

   hgauss->Fit(g1,"R0q");

   //hgauss->DrawCopy("sep");
   //g1->Draw("same");

   
   char *polff = new char[20];

   sprintf(polff,"pol%d",npol);
   
   TF1 *p4bkg; 
   if(etapi0flag != 1)
     p4bkg   = new TF1("pm2",polff, xaxis->GetBinCenter(nminbord),xaxis->GetBinCenter(nmaxbord));
   else
     p4bkg   = new TF1("pm2",polff, 0.35,0.75);
   
   
   hbkg->Fit(p4bkg,"R0q");
   //hbkg->DrawCopy("sep");

   //p4bkg->Draw("same");
   
   
   Double_t par[20],parf[20],errparf[20];
   g1->GetParameters(&par[0]);
   p4bkg->GetParameters(&par[3]);

   char *totff = new char[20];
   
   sprintf(totff,"gaus(0)+pol%d(3)",npol);
   
   
   TF1 *total = new TF1("total",totff,fitl,fith);
   TF1 *p4bkgfin   = new TF1("pm2",polff,fitl,fith);


   if(etapi0flag==0){

     double allintegral = mh1->Integral(int(0.08/binsiz),int(0.18/binsiz));
     total->SetParLimits(0,1,allintegral);
          
     total->SetParLimits(1,0.08,0.18);
     total->SetParLimits(2,0.135*0.03,0.135*0.3);
     
     if( par[0] >= allintegral) par[0] = allintegral-1;
     if( par[1] <0.08 || par[1] >0.18) par[1] = 0.135;
     if( par[2] < 0.135*0.03 || par[2] > 0.135*0.3) par[2] =          0.01;
     
     
   }else{

     
     double allintegral = mh1->Integral(int(0.4/binsiz),int(0.65/binsiz));
     total->SetParLimits(0,1,allintegral);
     total->SetParLimits(1,0.4,0.65);
     total->SetParLimits(2,0.55*0.02,0.55*0.3);
     
     if( par[0] >= allintegral) par[0] = allintegral-1;
     if( par[1] <0.4 || par[1] >0.65) par[1] = 0.55;
     if( par[2] < 0.55*0.02 || par[2] > 0.55*0.3) par[2] =  0.55*0.04;
     
     
     //total->SetParLimits(1,0.4,0.6);
     // total->SetParLimits(2,0.55*0.02,0.55*0.2);
     //     total->SetParLimits(2,0.50*0.09,0.50*0.11);
       
     
   }
   
   
   //  total->FixParameter(1,1.21340e-01); 
   // total->FixParameter(2,2.69780e-02);
   
   
   total->SetParameters(par);


   mh1->Fit(total,"R0q");

   
   //cout<<" yield.. "<< total->GetParameter(0) <<"+/- " << total->GetParError(0)<<endl;
   

     total->GetParameters(parf);


     for( Int_t nn=0; nn < 3+npol+1; nn++) errparf[nn]=total->GetParError(nn);
     g1->SetParameters(&parf[0]);
     p4bkgfin->SetParameters(&parf[3]);
     
    Float_t int_min=parf[1]-2.*parf[2];
    Float_t int_max=parf[1]+2.*parf[2];
    Float_t sig_peak=g1->Integral(int_min,int_max)/binsiz;
    Float_t bkgd_peak=p4bkgfin->Integral(int_min,int_max)/binsiz;
    Float_t SB=sig_peak/bkgd_peak; Float_t SBerr=SB*(sqrt(1./sig_peak+1./bkgd_peak));
    
    int_min=parf[1]-5.*parf[2];
    int_max=parf[1]+5.*parf[2];
    float S_all = g1->Integral(int_min,int_max)/binsiz;
    float Serr_all = errparf[0]/ parf[0] * S_all;
    
    res[0] = parf[1];
    res[1] = errparf[1];

    res[2] = S_all;
    res[3] = Serr_all;
    
    res[4] = parf[2];
    res[5] = errparf[2];
    
    res[6] = SB;
    res[7] = SBerr;


    if( dirName != ""){
      
      TCanvas *c2 = new TCanvas("c2", "",448,184,625,583);
      
    total->SetLineWidth(3);
    
   total->SetLineColor(kBlue);

   p4bkgfin->SetLineWidth(3);
   
   p4bkgfin->SetLineColor(kRed);
   p4bkgfin->SetLineStyle(2);
   
   mh1->DrawCopy("sep");

   //   total->SetRange(0.07,0.185);
   //    p4bkgfin->SetRange(0.07,0.185);
   total->Draw("same");
   p4bkgfin->Draw("same");   

   TLatex l;
   l.SetTextSize(0.05);
   l.SetTextColor(1);
   l.SetNDC();

   float sigma = parf[2]/ parf[1]*100; 
   float sigmaerr = errparf[2]/ parf[1]*100; 
   char *sigma_name = new char[50]; 
   sprintf(sigma_name,"#sigma = %3.2f #pm %3.2f %% ",sigma,sigmaerr);
   
      l.DrawLatex(0.43,0.67,sigma_name);
      
      //  sprintf(sigma_name,"S/B = %3.2f #pm %3.2f ",SB,SBerr);
      //
      sprintf(sigma_name,"N_{sig} = %d #pm %d ",int(S_all),int(Serr_all));
      //
      
      l.DrawLatex(0.43,0.54,sigma_name);
      
      sprintf(sigma_name,"M = %3.2f #pm %3.2f MeV",parf[1]*1000.,errparf[1]*1000);
      l.DrawLatex(0.42,0.73,sigma_name);
      
      sprintf(sigma_name,"S/B_{#pm2#sigma} = %3.2f #pm %3.2f ",SB,SBerr);
      l.DrawLatex(0.383,0.47,sigma_name);

      //l.DrawLatex(0.169,470.,"d)");

      
      c2->Modified();

   c2->Update();
   char *filename = new char[1000];
   sprintf(filename,"%s/%s.gif",dirName.c_str(),histName.c_str());
   c2->SaveAs(filename);
   
   cout<<"res[0]: "<< res[0] <<" "<< res[2] <<" "<< res[6] <<" "<<res[1] <<endl;
   
    }
    

    p4bkg->Delete();
    g1->Delete();
    hbkg->Delete();
    hgauss->Delete();

    total->Delete();
    p4bkgfin->Delete();


}
Revision:	1.1
Committed:	Thu Jul 26 08:48:21 2012 UTC (12 years, 9 months ago) by yangyong
Content type:	text/plain
Branch:	MAIN
CVS Tags:	V00-00-01g, V00-00-01f, V00-00-01e, V00-00-01d, V00-00-01c, V00-00-01b, V00-00-01a, pi0calibrator_v01a, HEAD
Log Message:	first commit
#	User	Rev	Content
1	yangyong	1.1	void pi0_mfitpeak(TH1F *mh1, Int_t etapi0flag, float xmin, float xmax, int npol, double res[], string dirName,string histName)
2
3			{
4
5			gROOT->Reset();
6			// gStyle->SetOptFit();
7			// gStyle->SetOptFit(0);
8			// gStyle->SetOptStat(0);
9			// gStyle->SetOptTitle(0);
10			Bool_t NOTE=1;
11			if(NOTE) gStyle->SetCanvasBorderMode(0);
12
13			gStyle->SetPadTopMargin(0.08);
14			gStyle->SetPadBottomMargin(0.12);
15			gStyle->SetPadLeftMargin(0.15);
16			gStyle->SetPadRightMargin(0.08);
17
18			mh1->GetXaxis()->SetRangeUser(xmin,xmax);
19
20
21
22			// cout<<FileName<<" "<<HistName<<endl;
23
24			// TFile f(FileName);
25			// TH1F mh1 = (TH1F) f.Get(HistName);
26			mh1->SetMarkerStyle(20);
27			mh1->SetMarkerSize(1.);
28			mh1->SetStats(0); // 1/0 to set the stat box
29
30			mh1->GetXaxis()->SetTitle("Invariant Mass of Photon Pairs [GeV]");
31
32
33			float binwidth = mh1->GetBinWidth(1);
34
35			char *ytitle = new char[100];
36
37			sprintf(ytitle,"Photon Pairs / %4.3f GeV",binwidth);
38
39
40			mh1->GetYaxis()->SetTitle(ytitle);
41
42
43			mh1->GetXaxis()->SetTitleSize(0.055);
44			mh1->GetYaxis()->SetTitleSize(0.055);
45			mh1->GetXaxis()->SetLabelSize(0.045);
46			mh1->GetYaxis()->SetLabelSize(0.045);
47			mh1->GetXaxis()->SetTitleOffset(0.90);
48			mh1->GetXaxis()->CenterTitle();
49			mh1->GetYaxis()->SetTitleOffset(1.32);
50
51
52			// First work with the histogram and find the peak and fit ranges
53			TAxis *xaxis = mh1->GetXaxis();
54			Float_t binsiz= xaxis->GetBinCenter(3) - xaxis->GetBinCenter(2);
55			Int_t nbins = xaxis->GetNbins();
56			Float_t nevtperbin0[10000];
57			//Float_t errorbin0[10000];
58			Float_t nevttot;
59			Float_t maxbin=0; Int_t nmaxbin=0, nminbord=0, nmaxbord=nbins;
60
61			double maxbin_val = 0;
62
63			for (Int_t nn=1; nn <= nbins; nn++)
64			{
65			nevtperbin0[nn] = mh1->GetBinContent(nn);
66			if(nevtperbin0[nn] > maxbin) {
67			maxbin_val = mh1->GetBinCenter(nn);
68			maxbin=nevtperbin0[nn]; nmaxbin=nn; }
69			//errorbin0[nn] = mh1->GetBinError(nn);
70			nevttot+=nevtperbin0[nn];
71			if(nevtperbin0[nn] > 0 && nminbord == 0) nminbord=nn;
72			if(nevtperbin0[nn] == 0 && (nn > nminbord +10) && nmaxbord==0 && nminbord > 0) nmaxbord=nn;
73			}
74			//cout<<"Minbordl "<<nminbord<<" with events: "<<nevtperbin0[nminbord]<<endl;
75			//cout<<"Maxbordl "<<nmaxbord<<" with events: "<<nevtperbin0[nmaxbord]<<endl;
76			nminbord+=0;
77			nmaxbord-=0;
78			// Int_t nmin0=nminbord;
79			while(nevtperbin0[nminbord] < nevtperbin0[nmaxbin]*0.025) nminbord++;
80			while(nevtperbin0[nmaxbord] < nevtperbin0[nmaxbin]*0.025) nmaxbord--;
81			// the above was just to get the info and low/high bins
82
83			// Set the fit range ! This is for total fit !
84			Float_t fitl=xmin;
85			float fith=xmax;
86			// Float_t fitl=0.07, fith=0.2;// this works better for pileup
87			// Float_t fitl=0.08, fith=0.18;// this works even better for pileup
88			// if(etapi0flag == 1)
89			// {
90			// fitl=0.35; fith=0.75;
91			//}
92
93
94			// if(fitl < xaxis->GetBinCenter(nmin0)) fitl = xaxis->GetBinCenter(nmin0);
95			//if(fith > xaxis->GetBinCenter(nmaxbord)) fith = xaxis->GetBinCenter(nmaxbord);
96
97
98
99
100			//cout<<" fit range "<<fitl<<" -- "<<fith<<endl;
101			//cout <<"Bin size "<<binsiz<<endl;
102			///cout<<"Total events "<<nevttot<<endl;
103			///cout<<"MaxBin "<<nmaxbin<<" with events: "<<nevtperbin0[nmaxbin]<<endl;
104			//cout<<"Minbord "<<nminbord<<" with events: "<<nevtperbin0[nminbord]<<endl;
105			//cout<<"Maxbord "<<nmaxbord<<" with events: "<<nevtperbin0[nmaxbord]<<endl;
106			//mh1->DrawCopy("sep");
107			if(etapi0flag ==0){
108			if( maxbin_val < 0.09 \|\| maxbin_val >0.18){
109			maxbin_val = 0.13;
110			}
111			}else if(etapi0flag == 1){
112			if( maxbin_val < 0.45 \|\| maxbin_val >0.65){
113			maxbin_val = 0.54;
114			}
115			}
116
117
118
119
120			Double_t lowgauss= maxbin_val-4.*0.010;
121			Double_t highgauss= maxbin_val+4.*0.010;
122			if(etapi0flag == 1)
123			{
124			lowgauss=maxbin_val-5.*0.025;
125			highgauss=maxbin_val+5.*0.025;
126			}
127
128
129			Int_t nlowgauss=Int_t((lowgauss-xaxis->GetBinCenter(1))/Float_t(binsiz)+0.5);
130			Int_t nhighgauss=Int_t((highgauss-xaxis->GetBinCenter(1))/Float_t(binsiz)+0.5);
131			//cout <<xaxis->GetBinCenter(nlowgauss)<<" "<<xaxis->GetBinCenter(nhighgauss)<<endl;
132			// now make the "background" histogram and fit it with p4
133			Float_t lowvalgauss=nevtperbin0[nlowgauss];
134			Float_t increm=(nevtperbin0[nhighgauss]-nevtperbin0[nlowgauss])/Float_t(nhighgauss-nlowgauss);
135			TH1F hbkg = (TH1F)mh1->Clone();
136			// hbkg->SetName("bkg_clone");
137			for (Int_t nn=nlowgauss; nn<=nhighgauss; nn++)
138			{
139			hbkg->SetBinContent(nn,Float_t(lowvalgauss+(nn-nlowgauss)*increm));
140			hbkg->SetBinError(nn,sqrt(lowvalgauss+(nn-nlowgauss)*increm));
141			}
142			//hbkg->DrawCopy("samesep");
143			// break;
144			// Now define the "gaussian" histogram
145			TH1F hgauss = (TH1F)mh1->Clone();
146			hgauss->SetName("gauss_clone");
147			hgauss->Sumw2();
148			hgauss->Add(mh1,hbkg,1,-1); // if errors are independent Add needs to be used !
149			for (Int_t nn=1; nn <= nbins; nn++)
150			{
151			if(hgauss->GetBinContent(nn) < 0.) hgauss->SetBinContent(nn,0.001*nevtperbin0[nmaxbin]);
152			hgauss->SetBinError(nn,sqrt(hgauss->GetBinContent(nn)));
153			}
154
155			// Declare function with wich to fit
156			TF1 *g1 = new TF1("g1","gaus",lowgauss,highgauss);
157
158			hgauss->Fit(g1,"R0q");
159
160			//hgauss->DrawCopy("sep");
161			//g1->Draw("same");
162
163
164			char *polff = new char[20];
165
166			sprintf(polff,"pol%d",npol);
167
168			TF1 *p4bkg;
169			if(etapi0flag != 1)
170			p4bkg = new TF1("pm2",polff, xaxis->GetBinCenter(nminbord),xaxis->GetBinCenter(nmaxbord));
171			else
172			p4bkg = new TF1("pm2",polff, 0.35,0.75);
173
174
175
176			hbkg->Fit(p4bkg,"R0q");
177			//hbkg->DrawCopy("sep");
178
179			//p4bkg->Draw("same");
180
181
182			Double_t par[20],parf[20],errparf[20];
183			g1->GetParameters(&par[0]);
184			p4bkg->GetParameters(&par[3]);
185
186			char *totff = new char[20];
187
188			sprintf(totff,"gaus(0)+pol%d(3)",npol);
189
190
191			TF1 *total = new TF1("total",totff,fitl,fith);
192			TF1 *p4bkgfin = new TF1("pm2",polff,fitl,fith);
193
194
195			if(etapi0flag==0){
196
197			double allintegral = mh1->Integral(int(0.08/binsiz),int(0.18/binsiz));
198			total->SetParLimits(0,1,allintegral);
199
200			total->SetParLimits(1,0.08,0.18);
201			total->SetParLimits(2,0.1350.03,0.1350.3);
202
203			if( par[0] >= allintegral) par[0] = allintegral-1;
204			if( par[1] <0.08 \|\| par[1] >0.18) par[1] = 0.135;
205			if( par[2] < 0.1350.03 \|\| par[2] > 0.1350.3) par[2] = 0.01;
206
207
208			}else{
209
210
211			double allintegral = mh1->Integral(int(0.4/binsiz),int(0.65/binsiz));
212			total->SetParLimits(0,1,allintegral);
213			total->SetParLimits(1,0.4,0.65);
214			total->SetParLimits(2,0.550.02,0.550.3);
215
216			if( par[0] >= allintegral) par[0] = allintegral-1;
217			if( par[1] <0.4 \|\| par[1] >0.65) par[1] = 0.55;
218			if( par[2] < 0.550.02 \|\| par[2] > 0.550.3) par[2] = 0.55*0.04;
219
220
221			//total->SetParLimits(1,0.4,0.6);
222			// total->SetParLimits(2,0.550.02,0.550.2);
223			// total->SetParLimits(2,0.500.09,0.500.11);
224
225
226			}
227
228
229			// total->FixParameter(1,1.21340e-01);
230			// total->FixParameter(2,2.69780e-02);
231
232
233			total->SetParameters(par);
234
235
236
237			mh1->Fit(total,"R0q");
238
239
240
241
242			//cout<<" yield.. "<< total->GetParameter(0) <<"+/- " << total->GetParError(0)<<endl;
243
244
245			total->GetParameters(parf);
246
247
248			for( Int_t nn=0; nn < 3+npol+1; nn++) errparf[nn]=total->GetParError(nn);
249			g1->SetParameters(&parf[0]);
250			p4bkgfin->SetParameters(&parf[3]);
251
252			Float_t int_min=parf[1]-2.*parf[2];
253			Float_t int_max=parf[1]+2.*parf[2];
254			Float_t sig_peak=g1->Integral(int_min,int_max)/binsiz;
255			Float_t bkgd_peak=p4bkgfin->Integral(int_min,int_max)/binsiz;
256			Float_t SB=sig_peak/bkgd_peak; Float_t SBerr=SB*(sqrt(1./sig_peak+1./bkgd_peak));
257
258			int_min=parf[1]-5.*parf[2];
259			int_max=parf[1]+5.*parf[2];
260			float S_all = g1->Integral(int_min,int_max)/binsiz;
261			float Serr_all = errparf[0]/ parf[0] * S_all;
262
263			res[0] = parf[1];
264			res[1] = errparf[1];
265
266			res[2] = S_all;
267			res[3] = Serr_all;
268
269			res[4] = parf[2];
270			res[5] = errparf[2];
271
272			res[6] = SB;
273			res[7] = SBerr;
274
275
276
277			if( dirName != ""){
278
279			TCanvas *c2 = new TCanvas("c2", "",448,184,625,583);
280
281			total->SetLineWidth(3);
282
283			total->SetLineColor(kBlue);
284
285			p4bkgfin->SetLineWidth(3);
286
287			p4bkgfin->SetLineColor(kRed);
288			p4bkgfin->SetLineStyle(2);
289
290			mh1->DrawCopy("sep");
291
292			// total->SetRange(0.07,0.185);
293			// p4bkgfin->SetRange(0.07,0.185);
294			total->Draw("same");
295			p4bkgfin->Draw("same");
296
297			TLatex l;
298			l.SetTextSize(0.05);
299			l.SetTextColor(1);
300			l.SetNDC();
301
302			float sigma = parf[2]/ parf[1]*100;
303			float sigmaerr = errparf[2]/ parf[1]*100;
304			char *sigma_name = new char[50];
305			sprintf(sigma_name,"#sigma = %3.2f #pm %3.2f %% ",sigma,sigmaerr);
306
307			l.DrawLatex(0.43,0.67,sigma_name);
308
309			// sprintf(sigma_name,"S/B = %3.2f #pm %3.2f ",SB,SBerr);
310			//
311			sprintf(sigma_name,"N_{sig} = %d #pm %d ",int(S_all),int(Serr_all));
312			//
313
314			l.DrawLatex(0.43,0.54,sigma_name);
315
316			sprintf(sigma_name,"M = %3.2f #pm %3.2f MeV",parf[1]1000.,errparf[1]1000);
317			l.DrawLatex(0.42,0.73,sigma_name);
318
319			sprintf(sigma_name,"S/B_{#pm2#sigma} = %3.2f #pm %3.2f ",SB,SBerr);
320			l.DrawLatex(0.383,0.47,sigma_name);
321
322			//l.DrawLatex(0.169,470.,"d)");
323
324
325			c2->Modified();
326
327			c2->Update();
328			char *filename = new char[1000];
329			sprintf(filename,"%s/%s.gif",dirName.c_str(),histName.c_str());
330			c2->SaveAs(filename);
331
332			cout<<"res[0]: "<< res[0] <<" "<< res[2] <<" "<< res[6] <<" "<<res[1] <<endl;
333
334			}
335
336
337			p4bkg->Delete();
338			g1->Delete();
339			hbkg->Delete();
340			hgauss->Delete();
341
342			total->Delete();
343			p4bkgfin->Delete();
344
345
346			}