source: trunk/Mars/msim/MPhotonData.cc@ 18679

Last change on this file since 18679 was 18677, checked in by tbretz, 8 years ago
Fixed a numerical problem which could happen when the values were store with lower precision
File size: 11.0 KB
Line 
1/* ======================================================================== *\
2!
3! *
4! * This file is part of CheObs, the Modular 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 appears 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:thomas.bretz@epfl.ch>
19! Author(s): Qi Zhe, 06/2007 <mailto:qizhe@astro.uni-wuerzburg.de>
20!
21! Copyright: CheObs Software Development, 2000-2010
22!
23!
24\* ======================================================================== */
25
26/////////////////////////////////////////////////////////////////////////////
27//
28// MPhotonData
29//
30// Storage container to store Corsika events
31//
32// For details on the coordinate systems see our Wiki.
33//
34// Version 1:
35// ----------
36// * First implementation
37//
38// Version 2:
39// ----------
40// - fNumPhotons
41//
42/////////////////////////////////////////////////////////////////////////////
43#include "MPhotonData.h"
44
45#include <fstream>
46#include <iostream>
47
48#include <TMath.h>
49#include <TRandom.h>
50
51#include "MLog.h"
52#include "MLogManip.h"
53
54ClassImp(MPhotonData);
55
56using namespace std;
57
58// --------------------------------------------------------------------------
59//
60// Default constructor.
61//
62MPhotonData::MPhotonData(/*const char *name, const char *title*/)
63 : fPosX(0), fPosY(0), fCosU(0), fCosV(0), fTime(0), fWavelength(0),
64 /*fNumPhotons(1),*/ fProductionHeight(0), fPrimary(MMcEvtBasic::kUNDEFINED),
65 fTag(-1), fMirrorTag(-1), fWeight(1)
66{
67 // fName = name ? name : "MPhotonData";
68 // fTitle = title ? title : "Corsika Event Data Information";
69}
70
71/*
72MPhotonData::MPhotonData(const MPhotonData &ph)
73: fPosX(ph.fPosX), fPosY(ph.fPosY), fCosU(ph.fCosU), fCosV(ph.fCosV),
74fTime(ph.fTime), fWavelength(ph.fWavelength), fNumPhotons(ph.fNumPhotons),
75fProductionHeight(ph.fProductionHeight), fPrimary(ph.fPrimary),
76fTag(ph.fTag), fWeight(ph.fWeight)
77{
78}
79*/
80
81// --------------------------------------------------------------------------
82//
83// Copy function. Copy all data members into obj.
84//
85void MPhotonData::Copy(TObject &obj) const
86{
87 MPhotonData &d = static_cast<MPhotonData&>(obj);
88
89// d.fNumPhotons = fNumPhotons;
90 d.fPosX = fPosX;
91 d.fPosY = fPosY;
92 d.fCosU = fCosU;
93 d.fCosV = fCosV;
94 d.fWavelength = fWavelength;
95 d.fPrimary = fPrimary;
96 d.fTime = fTime;
97 d.fTag = fTag;
98 d.fWeight = fWeight;
99 d.fProductionHeight = fProductionHeight;
100
101 TObject::Copy(obj);
102}
103
104// --------------------------------------------------------------------------
105//
106// Return the square cosine of the Theta-angle == 1-CosU^2-CosV^2
107//
108Double_t MPhotonData::GetCosW2() const
109{
110 return 1 - GetSinW2();
111}
112
113// --------------------------------------------------------------------------
114//
115// Return the square sine of the Theta-angle == CosU^2+CosV^2
116//
117Double_t MPhotonData::GetSinW2() const
118{
119 const Double_t sinw2 = fCosU*fCosU + fCosV*fCosV;
120 return sinw2>1 ? 1 : sinw2;
121}
122
123// --------------------------------------------------------------------------
124//
125// return the cosine of the Theta-angle == sqrt(1-CosU^2-CosV^2)
126//
127Double_t MPhotonData::GetCosW() const
128{
129 return TMath::Sqrt(GetCosW2());
130}
131
132// --------------------------------------------------------------------------
133//
134// return the sine of the Theta-angle == sqrt(CosU^2+CosV^2)
135//
136Double_t MPhotonData::GetSinW() const
137{
138 return TMath::Sqrt(GetSinW2());
139}
140
141// --------------------------------------------------------------------------
142//
143// Return the theta angle in radians
144//
145Double_t MPhotonData::GetTheta() const
146{
147 return TMath::ASin(GetSinW());
148}
149
150// --------------------------------------------------------------------------
151//
152// Return a TQuaternion with the first three components x, y, and z
153// and the fourth component the time.
154//
155TQuaternion MPhotonData::GetPosQ() const
156{
157 return TQuaternion(GetPos3(), fTime);
158}
159
160// --------------------------------------------------------------------------
161//
162// return a TQuaternion with the first three components the direction
163// moving in space (GetDir3()) and the fourth component is the
164// one devided by the speed of light (converted to cm/ns)
165//
166// FIXME: v in air!
167//
168TQuaternion MPhotonData::GetDirQ() const
169{
170 return TQuaternion(GetDir3(), 1./(TMath::C()*100/1e9));
171}
172
173// --------------------------------------------------------------------------
174//
175// Set the wavelength to a random lambda^-2 distributed value
176// between wmin and wmax.
177//
178void MPhotonData::SimWavelength(Float_t wmin, Float_t wmax)
179{
180 const Double_t w = gRandom->Uniform(wmin, wmax);
181
182 fWavelength = TMath::Nint(wmin*wmax / w);
183}
184
185
186// --------------------------------------------------------------------------
187//
188// Set the data member according to the 8 floats read from a reflector-file.
189// This function MUST reset all data-members, no matter whether these are
190// contained in the input stream.
191//
192Int_t MPhotonData::FillRfl(Float_t f[8])
193{
194 // Check coordinate system!!!!
195 fWavelength = TMath::Nint(f[0]);
196 fPosX = f[1]; // [cm]
197 fPosY = f[2]; // [cm]
198 fCosU = f[3]; // cos to x
199 fCosV = f[4]; // cos to y
200 fTime = f[5]; // [ns]
201 fProductionHeight = f[6];
202
203 // f[7]: Camera inclination angle
204
205 fPrimary = MMcEvtBasic::kUNDEFINED;
206// fNumPhotons = 1;
207 fTag = -1;
208 fWeight = 1;
209
210 return kTRUE;
211}
212
213// --------------------------------------------------------------------------
214//
215// Set the data member according to the 7 floats read from a corsika-file.
216// This function MUST reset all data-members, no matter whether these are
217// contained in the input stream.
218//
219// Currently we exchange x and y and set y=-y to convert Corsikas coordinate
220// system intpo our own.
221//
222Int_t MPhotonData::FillCorsika(Float_t f[7], Int_t i)
223{
224 const UInt_t n = TMath::Nint(f[0]);
225
226 if (n==0)
227 // FIXME: Do we need to decode the rest anyway?
228 return kCONTINUE;
229
230 // Check reuse
231 if (i >=0)
232 {
233 const Int_t reuse = (n/1000)%100; // Force this to be 1!
234 if (reuse!=i)
235 return kCONTINUE;
236 }
237
238 // This seems to be special to mmcs
239 fWavelength = n%1000;
240 fPrimary = MMcEvtBasic::ParticleId_t(n/100000);
241
242 // x=north, y=west
243 //fPosX = f[1]; // [cm]
244 //fPosY = f[2]; // [cm]
245 //fCosU = f[3]; // cos to x
246 //fCosV = f[4]; // cos to y
247 // x=west, y=south
248 fPosX = f[2]; // [cm]
249 fPosY = -f[1]; // [cm]
250
251 fCosU = f[4]; // cos to x
252 fCosV = -f[3]; // cos to y
253
254 fTime = f[5]; // [ns]
255
256 fProductionHeight = f[6]; // [cm]
257
258 // Now reset all data members which are not in the stream
259 fTag = -1;
260 fWeight = 1;
261
262 return kTRUE;
263}
264
265// --------------------------------------------------------------------------
266//
267// Set the data member according to the 8 shorts read from a eventio-file.
268// This function MUST reset all data-members, no matter whether these are
269// contained in the input stream.
270//
271// Currently we exchange x and y and set y=-y to convert Corsikas coordinate
272// system into our own.
273//
274Int_t MPhotonData::FillEventIO(Short_t f[8])
275{
276 // From 5.5 compact_bunch:
277 // https://www.mpi-hd.mpg.de/hfm/~bernlohr/iact-atmo/iact_refman.pdf
278
279 // photons in this bunch f[6]/100.
280
281 fPosY = -f[0]/10.; // ypos relative to telescope [cm]
282 fPosX = f[1]/10.; // xpos relative to telescope [cm]
283 fCosV = -f[2]/30000.; // cos to y
284 fCosU = f[3]/30000.; // cos to x
285
286 fTime = f[4]/10.; // a relative arival time [ns]
287 fProductionHeight = pow(10, f[5]/1000.); // altitude of emission a.s.l. [cm]
288 fWavelength = f[7]; // wavelength [nm]: 0 undetermined, <0 already in p.e.
289
290 // Now reset all data members which are not in the stream
291 fPrimary = MMcEvtBasic::kUNDEFINED;
292 fTag = -1;
293 fWeight = 1;
294
295 return 1;
296}
297
298// --------------------------------------------------------------------------
299//
300// Set the data member according to the 8 floats read from a eventio-file.
301// This function MUST reset all data-members, no matter whether these are
302// contained in the input stream.
303//
304// Currently we exchange x and y and set y=-y to convert Corsikas coordinate
305// system into our own.
306//
307Int_t MPhotonData::FillEventIO(Float_t f[8])
308{
309 // photons in this bunch
310 const UInt_t n = TMath::Nint(f[6]);
311 if (n==0)
312 return 0;
313
314 fPosX = f[1]; // xpos relative to telescope [cm]
315 fPosY = -f[0]; // ypos relative to telescope [cm]
316 fCosU = f[3]; // cos to x
317 fCosV = -f[2]; // cos to y
318 //fTime = f[4]; // a relative arival time [ns]
319 //fProductionHeight = f[5]; // altitude of emission [cm]
320 fWavelength = 0; // so far always zeor = unspec. [nm]
321
322 // Now reset all data members which are not in the stream
323 fPrimary = MMcEvtBasic::kUNDEFINED;
324 fTag = -1;
325 fWeight = 1;
326
327 return n-1;
328}
329
330/*
331// --------------------------------------------------------------------------
332//
333// Read seven floats from the stream and call FillCorsika for them.
334//
335Int_t MPhotonData::ReadCorsikaEvt(istream &fin)
336{
337 Float_t f[7];
338 fin.read((char*)&f, 7*4);
339
340 const Int_t rc = FillCorsika(f);
341
342 return rc==kTRUE ? !fin.eof() : rc;
343}
344
345// --------------------------------------------------------------------------
346//
347// Read eight floats from the stream and call FillRfl for them.
348//
349Int_t MPhotonData::ReadRflEvt(istream &fin)
350{
351 Float_t f[8];
352 fin.read((char*)&f, 8*4);
353
354 const Int_t rc = FillRfl(f);
355
356 return rc==kTRUE ? !fin.eof() : rc;
357}
358*/
359
360// --------------------------------------------------------------------------
361//
362// Print contents. The tag and Weight are only printed if they are different
363// from the default.
364//
365void MPhotonData::Print(Option_t *) const
366{
367 gLog << inf << endl;
368// gLog << "Num Photons: " << fNumPhotons << " from " << MMcEvtBasic::GetParticleName(fPrimary) << endl;
369 gLog << "Origin: " << MMcEvtBasic::GetParticleName(fPrimary) << endl;
370 gLog << "Wavelength: " << fWavelength << "nm" << endl;
371 gLog << "Pos X/Y Cos U/V: " << fPosX << "/" << fPosY << " " << fCosU << "/" << fCosV << endl;
372 gLog << "Time/Prod.Height: " << fTime << "ns/" << fProductionHeight/100 << "m" << endl;
373 if (fTag>=0)
374 gLog << "Tag: " << fTag << endl;
375 if (fWeight!=1)
376 gLog << "Weight: " << fWeight << endl;
377}
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