source: trunk/MagicSoft/Simulation/Detector/StarResponse/MStarLight.cxx@ 5110

Last change on this file since 5110 was 5099, checked in by moralejo, 20 years ago
Adapted headers to current c++ style, removed -Wno-deprecated from compilation options.
File size: 9.0 KB
Line 
1#include "MStarLight.hxx"
2
3using namespace std;
4
5MStarLight::MStarLight() {
6 //
7 // default constructor
8 //
9
10 fBrightness = 0. ;
11 fTimeRange = TIMERANGE ;
12
13 fBinsTrig = TRIGBINS ;
14 fTrigShape = 0. ;
15 fAmplTrig = 0. ;
16 fFwhmTrig = 0. ;
17
18 fBinsFadc = FADCBINS ;
19 fFadcShape = 0. ;
20 fIntegFadc = 0. ;
21 fFwhmFadc = 0. ;
22
23
24 for (Int_t i= 0; i< TRIGBINS ; i++)
25 fTrig[i] = 0. ;
26
27 for (Int_t i= 0; i<FADCBINS; i++)
28 fFadc[i] = 0. ;
29
30 for (Int_t i= 0; i<40; i++)
31 fTrigResp[i] = 0. ;
32
33 for (Int_t i= 0; i<45; i++)
34 fFadcResp[i] = 0. ;
35}
36
37void MStarLight::Reset() {
38
39
40 fBrightness = 0. ;
41 fTimeRange = TIMERANGE ;
42
43 fBinsTrig = TRIGBINS ;
44 fTrigShape = 0. ;
45 fAmplTrig = 0. ;
46 fFwhmTrig = 0. ;
47
48 fBinsFadc = FADCBINS ;
49 fFadcShape = 0. ;
50 fIntegFadc = 0. ;
51 fFwhmFadc = 0. ;
52
53
54 for (Int_t i= 0; i< TRIGBINS ; i++)
55 fTrig[i] = 0. ;
56
57 for (Int_t i= 0; i<FADCBINS; i++)
58 fFadc[i] = 0. ;
59
60 for (Int_t i= 0; i<40; i++)
61 fTrigResp[i] = 0. ;
62
63 for (Int_t i= 0; i<45; i++)
64 fFadcResp[i] = 0. ;
65}
66
67
68
69Float_t MStarLight::GetBrightness ()
70{
71 return fBrightness ;
72}
73
74void MStarLight::SetBrightness (Float_t in )
75{
76 fBrightness = in ;
77}
78
79Float_t MStarLight::GetAmplTrig ()
80{
81 return fAmplTrig ;
82}
83
84void MStarLight::SetAmplTrig (Float_t in )
85{
86 fAmplTrig = in ;
87}
88
89Float_t MStarLight::GetFwhmTrig ()
90{
91 return fFwhmTrig ;
92}
93
94void MStarLight::SetFwhmTrig (Float_t in )
95{
96 fFwhmTrig = in ;
97}
98
99
100Float_t MStarLight::GetIntegFadc ()
101{
102 return fIntegFadc ;
103}
104
105void MStarLight::SetIntegFadc (Float_t in )
106{
107 fIntegFadc = in ;
108}
109
110Float_t MStarLight::GetFwhmFadc ()
111{
112 return fFwhmFadc ;
113}
114
115void MStarLight::SetFwhmFadc (Float_t in )
116{
117 fFwhmFadc = in ;
118}
119
120
121void MStarLight::SetTrigResponse( Float_t *in ) {
122
123 for (Int_t i= 0; i<40; i++)
124 fTrigResp[i] = in[i] ;
125
126}
127
128void MStarLight::SetFadcResponse( Float_t *in ) {
129
130 for (Int_t i= 0; i<45; i++)
131 fFadcResp[i] = in[i] ;
132}
133
134void MStarLight::FillResponse( Float_t ampl, Float_t time ) {
135
136 // fill the trigger response
137
138 Int_t startbin = (Int_t) (time * 4) ;
139
140 Int_t icount = 0 ;
141 Int_t idata ;
142
143 for ( Int_t i=startbin ; i<startbin+40 ; i++) {
144 //
145 if ( i < TRIGBINS )
146 idata = i ;
147 else if ( i >= TRIGBINS )
148 idata = i - TRIGBINS ;
149
150 fTrig[idata] = fTrig[idata] + ampl * fTrigResp[icount] ;
151
152 icount++ ;
153 }
154
155 //
156 // fill the FADC content
157 //
158
159 startbin = (Int_t) ( time / 0.6666666666 );
160
161 Int_t ichanfadc = 0 ;
162
163 //
164 // putting the response slices in the right sig slices.
165 // Be carefull, because both slices have different widths.
166 //
167
168 //
169 // Changed, Jan 2004, A. Moralejo: now the FADC does not integrate all
170 // the signal within each FADC slice, but measures just the signal height
171 // at one point, like the real FADC does. By default, each FADC slice
172 // contains 5 bins of the response histogram(fFadcResp[45]). Warning:
173 // do not change this unless you do the corresponding modifications also
174 // in MFadc.cxx, or the signal and the noise photoelectrons will be treated
175 // differently!!
176 //
177
178 for ( Int_t i = 0 ; i < 45; i += 5 ) {
179 ichanfadc = (Int_t) ((startbin+i)/5) ;
180
181 if ( (ichanfadc) < FADCBINS )
182 idata = ichanfadc ;
183 else if ( ichanfadc >=FADCBINS )
184 idata = ichanfadc-FADCBINS ;
185
186 fFadc[idata] += (ampl * fFadcResp[i] ) ;
187
188 }
189
190}
191
192void MStarLight::ElecNoise ( Float_t noiseTrig, Float_t noiseFadc ) {
193 //
194 // putting some noise to the baseline
195 //
196
197 TRandom2 wuerfel( (UInt_t) (noiseTrig*100) ) ;
198
199 for (Int_t i=0; i< TRIGBINS ; i++ ) {
200 fTrig[i] += wuerfel.Gaus(0., noiseTrig ) ;
201 }
202
203 for (Int_t i=0; i< FADCBINS ; i++ ) {
204 fFadc[i] += wuerfel.Gaus(0., noiseFadc ) ;
205 }
206
207
208}
209
210Float_t MStarLight::GetTrig( Int_t i){
211 //------------------------------------------------------------------
212 //
213 // It gets the value of the simualted trigger in the i bin
214 //
215 return fTrig[i];
216}
217
218Float_t MStarLight::GetFadc( Int_t i){
219 //------------------------------------------------------------------
220 //
221 // It gets the value of the simualted FADC signal in the i bin
222 //
223 return fFadc[i];
224}
225
226void MStarLight::StoreHisto( char *filename) {
227
228 Float_t baseline = 0. ;
229
230
231 // first the histogramms for trigger
232 //
233 // the calculated trigger signal before baseline
234 //
235
236 TH1F trigresp ("trigresp", "Trigger Response", TRIGBINS, 0., TIMERANGE) ;
237
238 for (Int_t i=0; i< TRIGBINS ; i++ ) {
239
240 trigresp.SetBinContent(i, fTrig[i]) ;
241
242 baseline = baseline + fTrig[i] ;
243 }
244
245 baseline = baseline / TRIGBINS ;
246
247 TH1F trigbase ("trigbase", "Response after Baseline shift",
248 TRIGBINS, 0., TIMERANGE) ;
249 for (Int_t i=0; i< TRIGBINS ; i++ ) {
250
251 trigbase.SetBinContent(i, fTrig[i]-baseline ) ;
252
253 }
254
255 TH1F trigdist ("trigdist", "Noise on the baseline",
256 1000, -25., 25. ) ;
257
258 for (Int_t i=0; i< TRIGBINS ; i++ ) {
259
260 trigdist.Fill( (Float_t) trigbase.GetBinContent(i) ) ;
261 }
262
263
264 //
265 // second the histograms for the fadc
266 //
267
268
269 TH1F fadcresp ("fadcresp", "Fadc Response", FADCBINS, 0., TIMERANGE) ;
270
271 for (Int_t i=0; i< FADCBINS ; i++ ) {
272
273 fadcresp.SetBinContent(i, fFadc[i]) ;
274
275 baseline = baseline + fFadc[i] ;
276 }
277
278 baseline = baseline / FADCBINS ;
279
280 TH1F fadcbase ("fadcbase", "Fadc after Baseline shift",
281 FADCBINS, 0., TIMERANGE) ;
282 for (Int_t i=0; i< FADCBINS ; i++ ) {
283
284 fadcbase.SetBinContent(i, fFadc[i]-baseline ) ;
285
286 }
287
288 TH1F fadcdist ("fadcdist", "Noise on fadc",
289 1000, -100., 100. ) ;
290
291 for (Int_t i=0; i< FADCBINS ; i++ ) {
292
293 fadcdist.Fill( (Float_t) fadcbase.GetBinContent(i) ) ;
294 }
295
296
297
298
299 TFile outfile( filename, "UPDATE" ) ;
300
301 trigresp.Write() ;
302 trigbase.Write() ;
303 trigdist.Write() ;
304
305 fadcresp.Write() ;
306 fadcbase.Write() ;
307 fadcdist.Write() ;
308
309
310 outfile.Close() ;
311}
312
313void MStarLight::WriteBinary( char *filename) {
314 //
315 // write the things to the binary file
316
317 FILE *datei ;
318
319 datei = fopen ( filename, "w" ) ;
320
321 if ( ! datei ) {
322 cout << " ERROR: Can't open the file " << filename
323 << endl ;
324 exit (230) ;
325 }
326
327 Float_t version = VERSIONSR;
328
329 // write them out
330
331 fwrite ( &version, sizeof(Float_t), 1, datei ) ;
332 fwrite ( &fBrightness, sizeof(Float_t), 1, datei ) ;
333 fwrite ( &fTimeRange , sizeof(Float_t), 1, datei ) ;
334
335 fwrite ( &fBinsTrig , sizeof(Float_t), 1, datei ) ;
336 fwrite ( &fTrigShape , sizeof(Float_t), 1, datei ) ;
337 fwrite ( &fAmplTrig , sizeof(Float_t), 1, datei ) ;
338 fwrite ( &fFwhmTrig , sizeof(Float_t), 1, datei ) ;
339
340 fwrite ( &fBinsFadc , sizeof(Float_t), 1, datei ) ;
341 fwrite ( &fFadcShape , sizeof(Float_t), 1, datei ) ;
342 fwrite ( &fIntegFadc , sizeof(Float_t), 1, datei ) ;
343 fwrite ( &fFwhmFadc , sizeof(Float_t), 1, datei ) ;
344
345 fwrite ( &fTrig , sizeof(Float_t), TRIGBINS, datei ) ;
346
347 // We want to store the FADC signal taking into account the AC
348 // coupling
349 //
350 // We calculate and substract the baseline
351 //
352
353 Float_t baseline = 0. ;
354
355 for (Int_t i=0; i< FADCBINS ; i++ ) {
356
357 baseline = baseline + fFadc[i] ;
358 }
359
360 baseline = baseline / FADCBINS ;
361
362 for (Int_t i=0; i< FADCBINS ; i++ ) {
363
364 fFadc[i]=fFadc[i]-baseline;
365
366 }
367
368 fwrite ( &fFadc , sizeof(Float_t), FADCBINS, datei ) ;
369
370
371 fclose ( datei ) ;
372
373}
374
375void MStarLight::ReadBinary( char *filename) {
376
377 //
378 // read the things from the binary file
379
380 FILE *datei ;
381
382 datei = fopen ( filename, "r" ) ;
383
384 if ( ! datei ) {
385 cout << " ERROR: Can't open the file " << filename
386 << endl ;
387 cout<< " The database for the NSB may be too small. "
388 << endl;
389 cout<< " See the How to Use of the Camera simulation for more information"
390 << endl;
391 exit (230) ;
392 }
393
394 Float_t read_version;
395 Float_t current_version=VERSIONSR;
396
397 // Check taht we read the right version of the Database
398 fread ( &read_version, sizeof(Float_t), 1, datei ) ;
399
400 if(Int_t(read_version)!=Int_t(current_version)){
401 cout<<" ERROR: You are trying to read database VERSION "<<
402 read_version<<endl;
403 cout<<" You must generate a database for the current VERSION "<<
404 current_version<<endl;
405 cout<<" See the NSB database section in the Camera How to Use note."
406 <<endl;
407 exit (230);
408 }
409
410 fread ( &fBrightness, sizeof(Float_t), 1, datei ) ;
411 fread ( &fTimeRange , sizeof(Float_t), 1, datei ) ;
412
413
414 fread ( &fBinsTrig , sizeof(Float_t), 1, datei ) ;
415 fread ( &fTrigShape , sizeof(Float_t), 1, datei ) ;
416 fread ( &fAmplTrig , sizeof(Float_t), 1, datei ) ;
417 fread ( &fFwhmTrig , sizeof(Float_t), 1, datei ) ;
418
419 fread ( &fBinsFadc , sizeof(Float_t), 1, datei ) ;
420 fread ( &fFadcShape , sizeof(Float_t), 1, datei ) ;
421 fread ( &fIntegFadc , sizeof(Float_t), 1, datei ) ;
422 fread ( &fFwhmFadc , sizeof(Float_t), 1, datei ) ;
423
424 fread ( &fTrig , sizeof(Float_t), TRIGBINS, datei ) ;
425
426 fread ( &fFadc , sizeof(Float_t), FADCBINS, datei ) ;
427
428
429
430 fclose ( datei ) ;
431}
432
433
434
435
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