source: trunk/MagicSoft/Simulation/Detector/include-MFadc/MFadc.cxx@ 427

Last change on this file since 427 was 396, checked in by blanch, 25 years ago
I introduced a member function that selects the 15 slices after Trigger. This class still needs a big improvement.
File size: 7.5 KB
Line 
1/////////////////////////////////////////////////////////////////
2//
3// MFadc
4//
5//
6#include "MFadc.hxx"
7
8#include "MMcEvt.h"
9
10#include "TROOT.h"
11#include <TApplication.h>
12#include <TVirtualX.h>
13#include <TGClient.h>
14
15#include "TH1.h"
16#include "TObjArray.h"
17
18#include "MGFadcSignal.hxx"
19
20MFadc::MFadc() {
21 //
22 // default constructor
23 //
24 // The procedure is the following:
25 // 1. some parameters of the trigger are set to default.
26 // this parameters of the trigger may be changed
27 // 3. Then the all signals are set to zero
28
29 fwhm_resp = MFADC_RESPONSE_FWHM ;
30 ampl_resp = MFADC_RESPONSE_AMPLITUDE ;
31
32 //
33 // set up the response shape
34 //
35 Int_t i,j ;
36
37 Float_t sigma ;
38 Float_t x, x0 ;
39
40 sigma = fwhm_resp / 2.35 ;
41 x0 = 3*sigma ;
42
43 Float_t dX, dX2 ;
44
45 dX = WIDTH_FADC_TIMESLICE / SUBBINS ;
46 dX2 = dX/2. ;
47
48 for (i=0; i< RESPONSE_SLICES_MFADC ; i++ ) {
49
50 x = i * dX + dX2 ;
51
52 //
53 // the value 0.125 was introduced to normalize the things
54 //
55 sing_resp[i] = 0.125 *
56 ampl_resp * expf(-0.5 * (x-x0)*(x-x0) / (sigma*sigma) ) ;
57
58 }
59
60 //
61 // init the Random Generator for Electonic Noise
62 //
63
64 GenElec = new TRandom () ;
65
66 //
67 // set all the booleans used to FALSE, indicating that the pixel is not
68 // used in this event.
69 //
70
71 for ( i =0 ; i <CAMERA_PIXELS ; i++ ) {
72 used [i] = FALSE ;
73 }
74
75 //
76 // set tha values of FADC slices that would be read after trigger to zero
77 //
78
79 for (i=0; i <CAMERA_PIXELS; i++){
80 for (j=0; j<FADC_SLICES;j++){
81 output[i][j]=0;
82 }
83 }
84
85}
86
87
88void MFadc::Reset() {
89 //
90 // set all values of the signals to zero
91 //
92 Int_t i,j ;
93
94 for ( i =0 ; i <CAMERA_PIXELS ; i++ ) {
95 used [i] = FALSE ;
96 }
97 //
98 // set tha values of FADC slices that would be read after trigger to zero
99 //
100
101 for (i=0; i <CAMERA_PIXELS; i++){
102 for (j=0; j<FADC_SLICES;j++){
103 output[i][j]=0;
104 }
105 }
106}
107
108
109void MFadc::Fill( Int_t iPix, Float_t time, Float_t amplitude ) {
110
111 //
112 // fills the information about one single Phe in the Trigger class
113 //
114 // parameter is the number of the pixel and the time-difference to the
115 // first particle
116 //
117 //
118
119 Int_t i, ichan, ichanfadc ;
120
121 //
122 // first we have to check if the pixel iPix is used or not until now
123 // if this is the first use, reset all signal for that pixels
124 //
125 if ( iPix > CAMERA_PIXELS ) {
126 cout << " WARNING: MFadc::Fill() : iPix greater than CAMERA_PIXELS"
127 << endl ;
128 exit(987) ;
129 }
130
131 if ( used[iPix] == FALSE ) {
132 used [iPix] = TRUE ;
133
134 for (i=0; i < SLICES_MFADC; i++ ) {
135 sig[iPix][i] = 0. ;
136 }
137 }
138
139 //
140 // then select the time slice to use (ican)
141 //
142
143
144 if ( time < 0. ) {
145 cout << " WARNING! Fadc::Fill " << time << " below ZERO!! Very strange!!"
146 << endl ;
147 }
148 else if ( time < TOTAL_TRIGGER_TIME ) {
149 //
150 // determine the slices number assuming the WIDTH_RESPONSE_MFADC
151 //
152 ichan = (Int_t) ( time / ((Float_t) WIDTH_RESPONSE_MFADC ));
153
154 //
155 // putting the response slices in the right sig slices.
156 // Be carefull, because both slices have different widths.
157 //
158
159 for ( i = 0 ; i<RESPONSE_SLICES; i++ ) {
160 ichanfadc = (Int_t) ((ichan+i)/SUBBINS) ;
161 if ( (ichanfadc) < SLICES_MFADC ) {
162 sig[iPix][ichanfadc] += (amplitude * sing_resp[i] ) ;
163 }
164 }
165 }
166 else {
167 cout << " WARNING! Fadc::Fill " << time << " out of TriggerTimeRange "
168 << TOTAL_TRIGGER_TIME << endl ;
169 }
170
171}
172
173void MFadc::ElecNoise() {
174 //
175 //
176 //
177
178 for ( Int_t i = 0 ; i < CAMERA_PIXELS; i++) {
179 if ( used [i] == TRUE ) {
180 for ( Int_t is=0 ; is< SLICES_MFADC ; is++ ) {
181
182 sig[i][is] += GenElec->Gaus(0., 2.) ;
183
184 }
185 }
186 }
187}
188
189
190
191void MFadc::Scan() {
192
193
194 for ( Int_t ip=0; ip<CAMERA_PIXELS; ip++ ) {
195
196 if ( used[ip] == kTRUE ) {
197
198 printf ("Pid %3d", ip ) ;
199
200 for ( Int_t is=0 ; is < SLICES_MFADC; is++ ) {
201
202 if ( sig[ip][is] > 0. ) {
203 printf (" %4.1f/", sig[ip][is] ) ;
204 }
205 else {
206 printf ("----/" ) ;
207 }
208 }
209
210 printf ("\n");
211
212 }
213 }
214
215}
216
217void MFadc::Scan(Float_t time) {
218
219 //
220 // first of all we subtract from the time a offset (8 ns)
221 //
222
223 Float_t t ;
224
225 (0 > time - TIME_BEFORE_TRIGGER)? t=0: t=(time-TIME_BEFORE_TRIGGER) ; // to show also the start of the pulse before the trigger time
226
227 if ( t < 0. ) {
228 cout << " WARNING!! FROM MFADC::SCAN(t) " << endl ;
229 exit (776) ;
230 }
231
232 //
233 // calculate the first slice to write out
234 //
235
236 Int_t iFirstSlice ;
237
238 iFirstSlice = (Int_t) ( t / WIDTH_FADC_TIMESLICE ) ;
239
240 for ( Int_t ip=0; ip<CAMERA_PIXELS; ip++ ) {
241
242 if ( used[ip] == kTRUE ) {
243
244 printf ("Pid %3d", ip ) ;
245
246 for ( Int_t is=iFirstSlice ; is < (iFirstSlice+15); is++ ) {
247 printf (" %5.2f /", sig[ip][is] ) ;
248 }
249
250 printf ("\n");
251
252 }
253 }
254}
255
256void MFadc::TriggeredFadc(Float_t time) {
257
258 //
259 // first of all we subtract from the time a offset (8 ns)
260 //
261
262 Float_t t ;
263
264 (0>time-TIME_BEFORE_TRIGGER)? t=0: t=(time-TIME_BEFORE_TRIGGER) ; // to show also the start of the pulse before the trigger time
265
266 if ( t < 0. ) {
267 cout << " WARNING!! FROM MFADC::SCAN(t) " << endl ;
268 exit (776) ;
269 }
270
271 //
272 // calculate the first slice to write out
273 //
274
275 Int_t iFirstSlice ;
276 Int_t i;
277
278 iFirstSlice = (Int_t) ( t / WIDTH_FADC_TIMESLICE ) ;
279
280 for ( Int_t ip=0; ip<CAMERA_PIXELS; ip++ ) {
281
282 if ( used[ip] == kTRUE ) {
283 i=0;
284 for ( Int_t is=iFirstSlice ; is < (iFirstSlice+FADC_SLICES); is++ ) {
285 output[ip][i++]=(UChar_t) sig[ip][is];
286 }
287
288 }
289 }
290}
291
292void MFadc::ShowSignal (MMcEvt *McEvt, Float_t trigTime) {
293 // ============================================================
294 //
295 // This method is used to book the histogramm to show the signal in
296 // a special gui frame (class MGTriggerSignal). After the look onto the
297 // signals for a better understanding of the things we will expect
298 // the gui frame and all histogramms will be destroyed.
299 //
300
301 //
302 // first of all create a list of the histograms to show
303 //
304 // take only that one with a entry
305
306 TH1F *hist ;
307 Char_t dumm[10];
308 Char_t name[256];
309
310 TObjArray *AList ;
311 AList = new TObjArray(10) ;
312
313 // the list of analog signal histograms
314 // at the beginning we initalise 10 elements
315 // but this array expand automaticly if neccessay
316
317 Int_t ic = 0 ;
318 for ( Int_t i=0 ; i < CAMERA_PIXELS; i++ ) {
319 if ( used [i] == TRUE ) {
320
321 sprintf (dumm, "FADC_%d", i ) ;
322 sprintf (name, "fadc signal %d", i ) ;
323
324 hist = new TH1F(dumm, name, SLICES_MFADC, 0., TOTAL_TRIGGER_TIME);
325 //
326 // fill the histogram
327 //
328
329 for (Int_t ibin=1; ibin <=SLICES_MFADC; ibin++) {
330 hist->SetBinContent (ibin, sig[i][ibin-1]) ;
331 }
332
333 // hist->SetMaximum( 5.);
334 // hist->SetMinimum(-10.);
335 hist->SetStats(kFALSE);
336
337 // hist->SetAxisRange(0., 80. ) ;
338
339 AList->Add(hist) ;
340
341 ic++ ;
342 }
343 }
344
345 //
346 // create the Gui Tool
347 //
348 //
349
350 new MGFadcSignal(McEvt,
351 AList,
352 trigTime,
353 gClient->GetRoot(),
354 gClient->GetRoot(),
355 400, 400 ) ;
356
357 //
358 // delete the List of histogramms
359 //
360 AList->Delete() ;
361
362 delete AList ;
363}
364
365Float_t MFadc::GetFadcSignal(Int_t pixel, Int_t slice){
366
367 // It returns the analog signal for a given pixel and a given FADC
368 // time slice which would be read.
369
370 return (output[pixel][slice]);
371}
372
373
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