source: trunk/MagicSoft/Mars/mtemp/mberlin/macros/AlphaPlot.C@ 6724

Last change on this file since 6724 was 4137, checked in by hengsteb, 21 years ago
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File size: 7.3 KB
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1#include "TString.h"
2#include "TChain.h"
3#include "TCanvas.h"
4#include "TH1F.h"
5#include "TF1.h"
6#include "TLegend.h"
7#include "TArrayF.h"
8#include "TGraphErrors.h"
9#include "MRawRunHeader.h"
10#include "TPad.h"
11#include "TPaveText.h"
12#include "iostream.h"
13#include "TObjArray.h"
14#include "TFile.h"
15
16//--------------------------------------------------------------------------------------
17// MAIN INPUT/OUTPUT
18
19#include "IOMkn421.h"
20//--------------------------------------------------------------------------------------
21
22Double_t signal(Double_t *x, Double_t *par)
23{
24 return par[0]/(TMath::Sqrt(2.*TMath::Pi())*par[1])*TMath::Exp(-(x[0]-par[2])*(x[0]-par[2])/2./par[1]/par[1]);
25}
26
27Double_t background(Double_t *x, Double_t *par)
28{
29 return par[0]+par[1]*x[0]+par[2]*x[0]*x[0]+par[3]*x[0]*x[0]*x[0];
30}
31
32Double_t fitFunction(Double_t *x, Double_t *par)
33{
34 return signal(x,par) + background(x,&par[3]);
35}
36
37void AlphaPlot()
38{
39 DistLo*=deg2mm;
40 DistUp*=deg2mm;
41
42 Double_t acut = 10; // alpha region of excess
43 Int_t nbins = 36;
44 Int_t nbin_flat= nbins/3;
45
46 // input file chain
47 TChain *fEvents=new TChain("Events");
48 fEvents->Add(fileOn1.Data());
49 fEvents->Add(fileOn2.Data());
50
51 TChain *fEventsOff=new TChain("Events");
52 fEventsOff->Add(fileOff1.Data());
53 fEventsOff->Add(fileOff2.Data());
54
55
56 cout<<"Non="<<fEvents->GetEntries()<<" Noff="<<fEventsOff->GetEntries()<<endl;
57 //************************************************************************
58 // alpha plot + fit
59
60 // make alpha plot (after cuts)
61 TCanvas *c1 = new TCanvas("c1","Alpha distribution after g/h separation",200,10,800,500);
62 c1->SetFillColor(0);
63 c1->SetBorderMode(0);
64 c1->cd();
65
66 TH1F *halpha=new TH1F("halpha","",nbins,0.,90.);
67 halpha->GetXaxis()->SetTitle("Alpha [deg]");
68 halpha->GetYaxis()->SetTitle("Counts");
69
70 TH1F *halphaOff=new TH1F("halphaOff","",nbins,0.,90.);
71 halpha->SetStats(kFALSE);
72 halphaOff->SetStats(kFALSE);
73
74 TString strcut=Form("MHillas.fSize>%f",SizeLo);
75
76 strcut+=Form("&& MHillasSrc.fDist>%f",DistLo);
77 strcut+=Form("&& MHillasSrc.fDist<%f",DistUp);
78
79 strcut+=Form("&& MHillas.fWidth>%f",WidthLo);
80 strcut+=Form("&& MHillas.fWidth<%f",WidthUp);
81
82 strcut+=Form("&& MHillas.fLength>%f",LengthLo);
83 strcut+=Form("&& MHillas.fLength<%f",LengthUp);
84
85 // fill histograms
86 fEvents->Project("halpha","TMath::Abs(MHillasSrc.fAlpha)",strcut.Data());
87 halpha->SetLineWidth(2);
88 halpha->DrawCopy("e");
89
90 fEventsOff->Project("halphaOff","TMath::Abs(MHillasSrc.fAlpha)",strcut.Data());
91 halphaOff->SetLineColor(2);
92 halphaOff->SetLineWidth(2);
93
94
95 // scale Off histogram to On data using bins nbin_flat(first bin after peak) - nbins
96 Double_t nsample_on=0;
97 Double_t nsample_off=0;
98 for(Int_t i=nbin_flat;i<nbins;i++)
99 nsample_on+=halpha->GetBinContent(i);
100 for(Int_t i=nbin_flat;i<nbins;i++)
101 nsample_off+=halphaOff->GetBinContent(i);
102
103 Double_t scal=nsample_on/nsample_off;
104 halphaOff->Sumw2();
105 halphaOff->Scale(scal);
106 halphaOff->Draw("e same");
107
108 gPad->SetGridx();
109 gPad->SetGridy();
110
111 //--------------------------------------------------------------------------
112 // fit alpha hist
113 TF1 *backFcn = new TF1("backFcn",background,20.,89.5,4);
114 backFcn->SetLineWidth(2);
115 backFcn->SetLineColor(kRed);
116
117 TF1 *signalFcn = new TF1("signalFcn",signal,0.,89.5,3);
118 signalFcn->SetLineWidth(2);
119 signalFcn->SetLineColor(kBlue);
120 signalFcn->SetNpx(500);
121
122 TF1 *fitFcn = new TF1("fitFcn",fitFunction,0.,89.5,7);
123 fitFcn->SetNpx(500);
124 fitFcn->SetLineWidth(2);
125 fitFcn->SetLineColor(kMagenta);
126
127 // start-parameters
128 Double_t p3start=halpha->GetBinContent(halpha->GetNbinsX()-1);
129 Double_t p4start=0.;
130 Double_t p5start=0.;
131 Double_t p6start=0.;
132
133 Double_t p0start=(halpha->GetEntries()-p3start*nbins)*halpha->GetBinWidth(1);
134 Double_t p1start=5.;
135 Double_t p2start=0.;
136
137 cout<<"Start values for fit:"<<endl;
138
139 cout<<" Gaussian:"<<endl;
140 cout<<" p0 = "<<p0start<<endl;
141 cout<<" p1 = "<<p1start<<endl;
142 cout<<" p2 = "<<p2start<<endl;
143
144 cout<<" Pol3:"<<endl;
145 cout<<" p0 = "<<p3start<<endl;
146 cout<<" p1 = "<<p4start<<endl;
147 cout<<" p2 = "<<p5start<<endl;
148 cout<<" p3 = "<<p6start<<endl<<endl<<endl;
149
150 // background fit
151 Double_t parb[4];
152 backFcn->SetParameters(p3start,p4start,p5start,p6start);
153 backFcn->FixParameter(1,0); // deriv. at zero equal zero
154 //backFcn->FixParameter(2,0); // no 2nd order term
155 backFcn->FixParameter(3,0); // no 3rd order term
156 halpha->Fit ("backFcn","RN");
157 backFcn->GetParameters(parb);
158
159 // total fit
160 Double_t par[7];
161 fitFcn->SetParameters(p0start,p1start,p2start,
162 parb[0],parb[1],parb[2],parb[3]);
163
164 fitFcn->FixParameter(2,0.);
165 fitFcn->FixParameter(3,parb[0]);
166 fitFcn->FixParameter(4,parb[1]);
167 fitFcn->FixParameter(5,parb[2]);
168 fitFcn->FixParameter(6,parb[3]);
169 halpha->Fit ("fitFcn","RN");
170
171 // draw fit results + legend
172 TLegend *legend=new TLegend(0.4,0.5,0.93,0.65);
173 legend->SetTextFont(40);
174 legend->SetTextSize(0.04);
175 legend->SetFillColor(19);
176 legend->AddEntry(halpha,"Data","lp");
177 TString strpol("");
178 strpol=Form("Polynom");
179 legend->AddEntry(backFcn,strpol.Data(),"l");
180 legend->AddEntry(fitFcn,"Global Fit","l");
181 //legend->Draw();
182
183 fitFcn->GetParameters(par);
184 fitFcn->SetRange(-90.,90.);
185 fitFcn->SetLineWidth(2);
186 fitFcn->Draw("same");
187
188 signalFcn->SetParameters(par);
189 //signalFcn->SetLineWidth(2);
190 //signalFcn->Draw("same");
191
192 backFcn->SetParameters(&par[3]);
193 backFcn->SetRange(-90,90);
194 backFcn->SetLineWidth(2);
195 backFcn->Draw("same");
196
197 //-----------------------------------------------------------------------
198 // calculate significance
199
200 // analytical method
201 Double_t nSig=signalFcn->Integral(0.,acut)/halpha->GetBinWidth(1);
202 Double_t nOffScaled=backFcn->Integral(0.,acut)/halpha->GetBinWidth(1);
203
204 Double_t nOn=nSig+nOffScaled;
205
206 // significance after Li/Ma
207 Double_t theta=1.; // should be = Ton/Toff ???
208 Double_t nOff=nOffScaled/theta;
209 Double_t siglima = sqrt(2*(nOn*TMath::Log((1+theta)*nOn/(theta*(nOn+nOff)))
210 +nOff*TMath::Log((1+theta)*(nOff/(nOn+nOff)))));
211
212 // "standard" significance
213 Double_t sigstd = nSig/sqrt(nOn+nOffScaled);
214
215 TPaveText *pt = new TPaveText(0.25,0.75,0.56,0.98,"brNDC");
216 pt->SetTextFont(60);
217 pt->SetTextSize(0.03);
218 pt->SetTextAlign(12);
219
220 TString strcut1(Form("cuts:"));
221 TString strcut3(Form(" |alpha| < %4.2f ",acut));
222 pt->AddText(strcut3.Data());
223 TString str("");
224 pt->AddText(str);
225
226 TString strsig(Form("NExcess = %d",Int_t(nSig)));
227 pt->AddText(strsig.Data());
228 TString strbak(Form("NOff = %d",Int_t(nOffScaled)));
229 pt->AddText(strbak.Data());
230 pt->AddText(str);
231
232 TString strsg(Form("Significance (Li/Ma) = %4.2f",siglima));
233 pt->AddText(strsg.Data());
234 strsg=Form("Significance (std) = %4.2f",sigstd);
235 pt->AddText(strsg.Data());
236 pt->Draw();
237
238 cout<<endl<<"Results for events with |alpha| < "<<acut<<" degrees :"<<endl;
239 cout<<" noff ="<<nOffScaled<<endl;
240 cout<<" nexcess ="<<nSig<<endl;
241 cout<<" sig. (Li/Ma) ="<<siglima<<endl;
242 cout<<" sig.-std ="<<sigstd<<endl<<endl<<endl;
243
244 gPad->SetGridx();
245 gPad->SetGridy();
246
247 c1->Update();
248
249 return;
250}
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