source: branches/Mars_use_drstimefiles/mimage/MHillasSrc.cc@ 18481

Last change on this file since 18481 was 8601, checked in by tbretz, 17 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): Thomas Bretz 12/2000 <mailto:tbretz@uni-sw.gwdg.de>
19! Author(s): Harald Kornmayer 1/2001
20! Author(s): Rudolf Bock 10/2001 <mailto:Rudolf.Bock@cern.ch>
21! Author(s): Wolfgang Wittek 06/2002 <mailto:wittek@mppmu.mpg.de>
22!
23! Copyright: MAGIC Software Development, 2000-2002
24!
25!
26\* ======================================================================== */
27
28/////////////////////////////////////////////////////////////////////////////
29//
30// MHillasSrc
31//
32// Storage Container for image parameters
33//
34// source-dependent image parameters
35//
36//
37// Version 1:
38// ----------
39// fAlpha angle between major axis and line source-to-center
40// fDist distance from source to center of ellipse
41//
42//
43// Version 2:
44// ----------
45// fHeadTail added
46//
47//
48// Version 3:
49// ----------
50// fCosDeltaAlpha cosine of angle between d and a, where
51// - d is the vector from the source position to the
52// center of the ellipse
53// - a is a vector along the main axis of the ellipse,
54// defined with positive x-component
55//
56//
57// Version 4:
58// ----------
59// fHeadTail removed
60//
61//
62// Version 5:
63// ----------
64// - added Float_t fDCA; // [mm] Distance to closest approach 'DCA'
65// - added Float_t fDCADelta; // [deg] Angle of the shower axis with respect
66// to the x-axis [0,2pi]
67//
68/////////////////////////////////////////////////////////////////////////////
69#include "MHillasSrc.h"
70
71#include <TArrayF.h>
72
73#include <TLine.h>
74#include <TMarker.h>
75
76#include "MLog.h"
77#include "MLogManip.h"
78
79#include "MGeomCam.h"
80#include "MHillas.h"
81#include "MSrcPosCam.h"
82
83ClassImp(MHillasSrc);
84
85using namespace std;
86
87// --------------------------------------------------------------------------
88//
89// Default constructor.
90//
91MHillasSrc::MHillasSrc(const char *name, const char *title)
92{
93 fName = name ? name : "MHillasSrc";
94 fTitle = title ? title : "Parameters depending in source position";
95}
96
97void MHillasSrc::Reset()
98{
99 fDist = -1;
100 fAlpha = 0;
101 fCosDeltaAlpha = 0;
102
103 fDCA = -1;
104 fDCADelta = 0;
105}
106
107// --------------------------------------------------------------------------
108//
109// Calculation of source-dependent parameters
110// In case you don't call Calc from within an eventloop make sure, that
111// you call the Reset member function before.
112//
113Int_t MHillasSrc::Calc(const MHillas &hillas)
114{
115 const Double_t mx = hillas.GetMeanX(); // [mm]
116 const Double_t my = hillas.GetMeanY(); // [mm]
117
118 const Double_t sx = mx - fSrcPos->GetX(); // [mm]
119 const Double_t sy = my - fSrcPos->GetY(); // [mm]
120
121 const Double_t sd = hillas.GetSinDelta(); // [1]
122 const Double_t cd = hillas.GetCosDelta(); // [1]
123
124 //
125 // Distance from source position to center of ellipse.
126 // If the distance is 0 distance, Alpha is not specified.
127 // The calculation has failed and returnes kFALSE.
128 //
129 const Double_t dist = TMath::Sqrt(sx*sx + sy*sy); // [mm]
130 if (dist==0)
131 return 1;
132
133 //
134 // Calculate Alpha and Cosda = cos(d,a)
135 // The sign of Cosda will be used for quantities containing
136 // a head-tail information
137 //
138 // *OLD* const Double_t arg = (sy-tand*sx) / (dist*sqrt(tand*tand+1));
139 // *OLD* fAlpha = asin(arg)*kRad2Deg;
140 //
141 const Double_t arg2 = cd*sx + sd*sy; // [mm]
142 if (arg2==0)
143 return 2;
144
145 const Double_t arg1 = cd*sy - sd*sx; // [mm]
146
147 //
148 // Due to numerical uncertanties in the calculation of the
149 // square root (dist) and arg1 it can happen (in less than 1e-5 cases)
150 // that the absolute value of arg exceeds 1. Because this uncertainty
151 // results in an Delta Alpha which is still less than 1e-3 we don't care
152 // about this uncertainty in general and simply set values which exceed
153 // to 1 saving its sign.
154 //
155 const Double_t arg = arg1/dist;
156 fAlpha = TMath::Abs(arg)>1 ? TMath::Sign(90., arg) : TMath::ASin(arg)*TMath::RadToDeg(); // [deg]
157
158 fCosDeltaAlpha = arg2/dist; // [1]
159 fDist = dist; // [mm]
160
161 // ----- Calculation of Distance to closest approach 'DCA' -----
162
163 // Components of DCA vector
164 const Double_t fpd1 = sx - arg2*cd; // [mm]
165 const Double_t fpd2 = sy - arg2*sd; // [mm]
166
167 // Determine the correct sign of the DCA (cross product of DCA vector and the
168 // vector going from the intersection point of the DCA vector with the shower axis
169 // to the COG)
170 const Double_t sign = arg2*cd*fpd2 - arg2*sd*fpd1;
171 fDCA = TMath::Sign(TMath::Sqrt(fpd1*fpd1 + fpd2*fpd2), sign); // [mm]
172
173 // Calculate angle of the shower axis with respect to the x-axis
174 fDCADelta = TMath::ACos((sx-fpd1)/TMath::Abs(arg2))*TMath::RadToDeg(); // [deg]
175
176 // Enlarge the interval of fDdca to [0, 2pi]
177 if (sy < fpd2)
178 fDCADelta = 360 - fDCADelta;
179
180 SetReadyToSave();
181
182 return 0;
183}
184
185void MHillasSrc::Paint(Option_t *opt)
186{
187 const Float_t x = fSrcPos ? fSrcPos->GetX() : 0;
188 const Float_t y = fSrcPos ? fSrcPos->GetY() : 0;
189
190 TMarker m;
191 m.SetMarkerColor(kYellow);
192 m.SetMarkerStyle(kStar);
193 m.PaintMarker(x, y);
194/*
195 m.SetMarkerColor(kMagenta);
196 m.PaintMarker(fDist*cos((fDCADelta-fAlpha)*TMath::DegToRad()),
197 fDist*sin((fDCADelta-fAlpha)*TMath::DegToRad()));
198
199 TLine line;
200 line.SetLineWidth(1);
201 line.SetLineColor(108);
202
203 line.PaintLine(-radius, y, radius, y);
204 line.PaintLine(x, -radius, x, radius);
205
206 // COG line
207 TLine line(x, y, meanX, meanY);
208 line.SetLineWidth(1);
209 line.SetLineColor(2);
210 line.Paint();*/
211}
212
213// --------------------------------------------------------------------------
214//
215// Print contents of MHillasSrc to *fLog
216//
217void MHillasSrc::Print(Option_t *) const
218{
219 *fLog << all;
220 *fLog << GetDescriptor() << endl;
221 *fLog << " - Dist [mm] = " << fDist << endl;
222 *fLog << " - Alpha [deg] = " << fAlpha << endl;
223 *fLog << " - CosDeltaAlpha = " << fCosDeltaAlpha << endl;
224 *fLog << " - DCA [mm] = " << fDCA << endl;
225 *fLog << " - DCA delta [deg] = " << fDCADelta << endl;
226}
227
228// --------------------------------------------------------------------------
229//
230// Print contents of MHillasSrc to *fLog depending on the geometry in
231// units of deg.
232//
233void MHillasSrc::Print(const MGeomCam &geom) const
234{
235 *fLog << all;
236 *fLog << GetDescriptor() << endl;
237 *fLog << " - Dist [deg] = " << fDist*geom.GetConvMm2Deg() << endl;
238 *fLog << " - Alpha [deg] = " << fAlpha << endl;
239 *fLog << " - CosDeltaAlpha = " << fCosDeltaAlpha << endl;
240 *fLog << " - DCA [deg] = " << fDCA*geom.GetConvMm2Deg() << endl;
241 *fLog << " - DCA delta [deg] = " << fDCADelta << endl;
242}
243
244// --------------------------------------------------------------------------
245//
246// This function is ment for special usage, please never try to set
247// values via this function
248//
249void MHillasSrc::Set(const TArrayF &arr)
250{
251 if (arr.GetSize() != 5)
252 return;
253
254 fAlpha = arr.At(0); // [deg] angle of major axis with vector to src
255 fDist = arr.At(1); // [mm] distance between src and center of ellipse
256 fCosDeltaAlpha = arr.At(2); // [1] cosine of angle between d and a
257 fDCA = arr.At(3); // [mm]
258 fDCADelta = arr.At(4); // [mm]
259}
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