source: trunk/MagicSoft/Mars/mhist/MHMcEnergy.cc@ 951

Last change on this file since 951 was 891, checked in by tbretz, 23 years ago
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1/* ======================================================================== *\
2!
3! *
4! * This file is part of MARS, the MAGIC Analysis and Reconstruction
5! * Software. It is distributed to you in the hope that it can be a useful
6! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7! * It is distributed WITHOUT ANY WARRANTY.
8! *
9! * Permission to use, copy, modify and distribute this software and its
10! * documentation for any purpose is hereby granted without fee,
11! * provided that the above copyright notice appear in all copies and
12! * that both that copyright notice and this permission notice appear
13! * in supporting documentation. It is provided "as is" without express
14! * or implied warranty.
15! *
16!
17!
18! Author(s): Javier Lopez 05/2001 (jlopez@ifae.es)
19!
20! Copyright: MAGIC Software Development, 2000-2001
21!
22!
23\* ======================================================================== */
24
25/////////////////////////////////////////////////////////////////////////////
26//
27// MHMcEnergy
28//
29// This class holds the information (histogram and fit function)
30// about the energy threshold for a particular trigger condition.
31//
32////////////////////////////////////////////////////////////////////////////
33#include "MHMcEnergy.h"
34
35#include <stdlib.h>
36#include <iostream.h>
37
38#include <TH1.h>
39#include <TF1.h>
40#include <TCanvas.h>
41#include <TPaveLabel.h>
42
43ClassImp(MHMcEnergy);
44
45// -------------------------------------------------------------------------
46//
47// Default Constructor.
48//
49MHMcEnergy::MHMcEnergy(const char *name, const char *title)
50{
51 *fTitle = title ? title : "Container for an energy distribution histogram";
52
53 // - we initialize the histogram
54 // - we have to give diferent names for the diferent histograms because
55 // root don't allow us to have diferent histograms with the same name
56
57 fHist = new TH1F("", "", 40, 0.5, 4.5);
58 fHist->SetXTitle("log(E/GeV)");
59 fHist->SetYTitle("dN/dE");
60
61 SetName(name ? name : "MHMcEnergy");
62}
63
64// -------------------------------------------------------------------------
65//
66// This doesn't only set the name. It tries to get the number from the
67// name and creates also name and title of the histogram.
68//
69// This is necessary for example if a list of such MHMcEnergy histograms
70// is created (s. MParList::CreateObjList)
71//
72void MHMcEnergy::SetName(const char *name)
73{
74 TString cname(name);
75 const char *semicolon = strrchr(cname, ';');
76
77 UInt_t idx = semicolon ? atoi(semicolon+1) : 0;
78
79 *fName = cname;
80
81 char text[256];
82 if (idx>0)
83 sprintf(text, "Energy Distribution for trigger condition #%i", idx);
84 else
85 sprintf(text, "Energy Distribution");
86
87 char aux[256];
88 strcpy(aux, "log(E)");
89
90 if (idx>0)
91 sprintf(aux+strlen(aux), " #%i", idx);
92
93 fHist->SetName(aux);
94 fHist->SetTitle(text);
95}
96
97//-------------------------------------------------------------------------
98//
99// Defualt Destructor
100//
101MHMcEnergy::~MHMcEnergy()
102{
103 delete fHist;
104}
105
106//--------------------------------------------------------------------------
107//
108// Fill the histogram with the log10 of the energy for triggered events.
109//
110void MHMcEnergy::Fill(Float_t log10E, Float_t w)
111{
112 fHist->Fill(log10E, w);
113}
114
115// -------------------------------------------------------------------------
116//
117// Fitting function
118//
119void MHMcEnergy::Fit(Axis_t xxmin, Axis_t xxmax)
120{
121 //
122 // 0: don't draw the function (it is drawn together with the histogram)
123 // Q: quiet mode
124 //
125 fHist->Fit("gaus", "Q0", "", xxmin, xxmax);
126
127 TF1 *result = fHist->GetFunction("gaus");
128
129 fThreshold = CalcThreshold(result);
130 fThresholdErr = CalcThresholdErr(result);
131 fGaussPeak = CalcGaussPeak(result);
132 fGaussSigma = CalcGaussSigma(result);
133}
134
135// ------------------------------------------------------------------------
136//
137// Drawing function. It creates its own canvas.
138//
139void MHMcEnergy::Draw(Option_t *option)
140{
141 char text[256];
142
143 const Float_t min = fHist->GetMinimum();
144 const Float_t max = fHist->GetMaximum();
145 const Float_t sum = min+max;
146
147 TCanvas *c=new TCanvas(fHist->GetName(), fHist->GetTitle());
148
149 fHist->Draw(option);
150
151 sprintf(text, "Energy Threshold = %4.1f +- %4.1f GeV",
152 fThreshold, fThresholdErr);
153
154 TPaveLabel* label = new TPaveLabel(2.2, 0.75*sum, 4.4, 0.90*sum, text);
155 label->SetFillColor(10);
156 label->SetTextSize(0.3);
157 label->SetBit(kCanDelete);
158 label->Draw();
159
160 c->Modified();
161 c->Update();
162}
163
164// --------------------------------------------------------------------------
165//
166// Set the number of bins in the histogran.
167//
168void MHMcEnergy::SetNumBins(Int_t nbins)
169{
170 fHist->SetBins(nbins, 0.5, 4.5);
171}
172// --------------------------------------------------------------------------
173//
174// Write the threshold and its error in the standard output
175//
176void MHMcEnergy::Print(Option_t*)
177{
178 cout << "Threshold: " << fThreshold << " +- " << fThresholdErr << endl;
179}
180
181// -------------------------------------------------------------------------
182//
183// Return the threshold
184//
185Float_t MHMcEnergy::CalcThreshold(TF1 *gauss)
186{
187 const Float_t p1 = gauss->GetParameter(1);
188
189 return pow(10, p1);
190}
191
192// -------------------------------------------------------------------------
193//
194// Return the error of the threshold.
195//
196Float_t MHMcEnergy::CalcThresholdErr(TF1 *gauss)
197{
198 const Float_t lg10 = log(10);
199 const Float_t p1 = gauss->GetParameter(1);
200 const Float_t p1err = gauss->GetParError(1);
201
202 // The error has into accuont the error in the fit
203 return pow(10, p1) * p1err * lg10;
204}
205
206// -------------------------------------------------------------------------
207//
208// Return the peak of the fitted gaussan function.
209//
210Float_t MHMcEnergy::CalcGaussPeak(TF1 *gauss)
211{
212 return gauss->GetParameter(1);
213}
214
215// -------------------------------------------------------------------------
216//
217// Return the sigma of the fitted gaussan function.
218//
219Float_t MHMcEnergy::CalcGaussSigma(TF1 *gauss)
220{
221 return gauss->GetParameter(2);
222}
223
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