source: branches/MarsMoreSimulationTruth/msim/MPhotonData.cc@ 20019

Last change on this file since 20019 was 18549, checked in by tbretz, 8 years ago
The wavelength is now kept as a negative value so that it can be checked on the photon level if CEFFIC was turned on. It is however returned without sign for convenience. The loop to simulate the wavelength is only executed if the first photon has a zero wavelength -- it is assumed they are all consistent.
File size: 11.0 KB
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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 return fCosU*fCosU + fCosV*fCosV;
120}
121
122// --------------------------------------------------------------------------
123//
124// return the cosine of the Theta-angle == sqrt(1-CosU^2-CosV^2)
125//
126Double_t MPhotonData::GetCosW() const
127{
128 return TMath::Sqrt(GetCosW2());
129}
130
131// --------------------------------------------------------------------------
132//
133// return the sine of the Theta-angle == sqrt(CosU^2+CosV^2)
134//
135Double_t MPhotonData::GetSinW() const
136{
137 return TMath::Sqrt(GetSinW2());
138}
139
140// --------------------------------------------------------------------------
141//
142// Return the theta angle in radians
143//
144Double_t MPhotonData::GetTheta() const
145{
146 return TMath::ASin(GetSinW());
147}
148
149// --------------------------------------------------------------------------
150//
151// Return a TQuaternion with the first three components x, y, and z
152// and the fourth component the time.
153//
154TQuaternion MPhotonData::GetPosQ() const
155{
156 return TQuaternion(GetPos3(), fTime);
157}
158
159// --------------------------------------------------------------------------
160//
161// return a TQuaternion with the first three components the direction
162// moving in space (GetDir3()) and the fourth component is the
163// one devided by the speed of light (converted to cm/ns)
164//
165// FIXME: v in air!
166//
167TQuaternion MPhotonData::GetDirQ() const
168{
169 return TQuaternion(GetDir3(), 1./(TMath::C()*100/1e9));
170}
171
172// --------------------------------------------------------------------------
173//
174// Set the wavelength to a random lambda^-2 distributed value
175// between wmin and wmax.
176//
177void MPhotonData::SimWavelength(Float_t wmin, Float_t wmax)
178{
179 const Double_t w = gRandom->Uniform(wmin, wmax);
180
181 fWavelength = TMath::Nint(wmin*wmax / w);
182}
183
184
185// --------------------------------------------------------------------------
186//
187// Set the data member according to the 8 floats read from a reflector-file.
188// This function MUST reset all data-members, no matter whether these are
189// contained in the input stream.
190//
191Int_t MPhotonData::FillRfl(Float_t f[8])
192{
193 // Check coordinate system!!!!
194 fWavelength = TMath::Nint(f[0]);
195 fPosX = f[1]; // [cm]
196 fPosY = f[2]; // [cm]
197 fCosU = f[3]; // cos to x
198 fCosV = f[4]; // cos to y
199 fTime = f[5]; // [ns]
200 fProductionHeight = f[6];
201
202 // f[7]: Camera inclination angle
203
204 fPrimary = MMcEvtBasic::kUNDEFINED;
205// fNumPhotons = 1;
206 fTag = -1;
207 fWeight = 1;
208
209 return kTRUE;
210}
211
212// --------------------------------------------------------------------------
213//
214// Set the data member according to the 7 floats read from a corsika-file.
215// This function MUST reset all data-members, no matter whether these are
216// contained in the input stream.
217//
218// Currently we exchange x and y and set y=-y to convert Corsikas coordinate
219// system intpo our own.
220//
221Int_t MPhotonData::FillCorsika(Float_t f[7], Int_t i)
222{
223 const UInt_t n = TMath::Nint(f[0]);
224
225 if (n==0)
226 // FIXME: Do we need to decode the rest anyway?
227 return kCONTINUE;
228
229 // Check reuse
230 if (i >=0)
231 {
232 const Int_t reuse = (n/1000)%100; // Force this to be 1!
233 if (reuse!=i)
234 return kCONTINUE;
235 }
236
237 // This seems to be special to mmcs
238 fWavelength = n%1000;
239 fPrimary = MMcEvtBasic::ParticleId_t(n/100000);
240
241 // x=north, y=west
242 //fPosX = f[1]; // [cm]
243 //fPosY = f[2]; // [cm]
244 //fCosU = f[3]; // cos to x
245 //fCosV = f[4]; // cos to y
246 // x=west, y=south
247 fPosX = f[2]; // [cm]
248 fPosY = -f[1]; // [cm]
249
250 fCosU = f[4]; // cos to x
251 fCosV = -f[3]; // cos to y
252
253 fTime = f[5]; // [ns]
254
255 fProductionHeight = f[6]; // [cm]
256
257 // Now reset all data members which are not in the stream
258 fTag = -1;
259 fWeight = 1;
260
261 return kTRUE;
262}
263
264// --------------------------------------------------------------------------
265//
266// Set the data member according to the 8 shorts read from a eventio-file.
267// This function MUST reset all data-members, no matter whether these are
268// contained in the input stream.
269//
270// Currently we exchange x and y and set y=-y to convert Corsikas coordinate
271// system into our own.
272//
273Int_t MPhotonData::FillEventIO(Short_t f[8])
274{
275 // From 5.5 compact_bunch:
276 // https://www.mpi-hd.mpg.de/hfm/~bernlohr/iact-atmo/iact_refman.pdf
277
278 // photons in this bunch f[6]/100.
279
280 fPosY = -f[0]/10.; // ypos relative to telescope [cm]
281 fPosX = f[1]/10.; // xpos relative to telescope [cm]
282 fCosV = -f[2]/30000.; // cos to y
283 fCosU = f[3]/30000.; // cos to x
284
285 fTime = f[4]/10.; // a relative arival time [ns]
286 fProductionHeight = pow(10, f[5]/1000.); // altitude of emission a.s.l. [cm]
287 fWavelength = f[7]; // wavelength [nm]: 0 undetermined, <0 already in p.e.
288
289 // Now reset all data members which are not in the stream
290 fPrimary = MMcEvtBasic::kUNDEFINED;
291 fTag = -1;
292 fWeight = 1;
293
294 return 1;
295}
296
297// --------------------------------------------------------------------------
298//
299// Set the data member according to the 8 floats read from a eventio-file.
300// This function MUST reset all data-members, no matter whether these are
301// contained in the input stream.
302//
303// Currently we exchange x and y and set y=-y to convert Corsikas coordinate
304// system into our own.
305//
306Int_t MPhotonData::FillEventIO(Float_t f[8])
307{
308 // photons in this bunch
309 const UInt_t n = TMath::Nint(f[6]);
310 if (n==0)
311 return 0;
312
313 fPosX = f[1]; // xpos relative to telescope [cm]
314 fPosY = -f[0]; // ypos relative to telescope [cm]
315 fCosU = f[3]; // cos to x
316 fCosV = -f[2]; // cos to y
317 //fTime = f[4]; // a relative arival time [ns]
318 //fProductionHeight = f[5]; // altitude of emission [cm]
319 fWavelength = 0; // so far always zeor = unspec. [nm]
320
321 // Now reset all data members which are not in the stream
322 fPrimary = MMcEvtBasic::kUNDEFINED;
323 fTag = -1;
324 fWeight = 1;
325
326 return n-1;
327}
328
329/*
330// --------------------------------------------------------------------------
331//
332// Read seven floats from the stream and call FillCorsika for them.
333//
334Int_t MPhotonData::ReadCorsikaEvt(istream &fin)
335{
336 Float_t f[7];
337 fin.read((char*)&f, 7*4);
338
339 const Int_t rc = FillCorsika(f);
340
341 return rc==kTRUE ? !fin.eof() : rc;
342}
343
344// --------------------------------------------------------------------------
345//
346// Read eight floats from the stream and call FillRfl for them.
347//
348Int_t MPhotonData::ReadRflEvt(istream &fin)
349{
350 Float_t f[8];
351 fin.read((char*)&f, 8*4);
352
353 const Int_t rc = FillRfl(f);
354
355 return rc==kTRUE ? !fin.eof() : rc;
356}
357*/
358
359// --------------------------------------------------------------------------
360//
361// Print contents. The tag and Weight are only printed if they are different
362// from the default.
363//
364void MPhotonData::Print(Option_t *) const
365{
366 gLog << inf << endl;
367// gLog << "Num Photons: " << fNumPhotons << " from " << MMcEvtBasic::GetParticleName(fPrimary) << endl;
368 gLog << "Origin: " << MMcEvtBasic::GetParticleName(fPrimary) << endl;
369 gLog << "Wavelength: " << fWavelength << "nm" << endl;
370 gLog << "Pos X/Y Cos U/V: " << fPosX << "/" << fPosY << " " << fCosU << "/" << fCosV << endl;
371 gLog << "Time/Prod.Height: " << fTime << "ns/" << fProductionHeight/100 << "m" << endl;
372 if (fTag>=0)
373 gLog << "Tag: " << fTag << endl;
374 if (fWeight!=1)
375 gLog << "Weight: " << fWeight << endl;
376}
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