source: trunk/MagicSoft/Simulation/Detector/Camera/creadparam.cxx@ 5321

Last change on this file since 5321 was 5317, checked in by moralejo, 20 years ago
Added option gain_fluctuations_off
File size: 49.4 KB
Line 
1//=//////////////////////////////////////////////////////////////////////
2//=
3//= creadparam
4//=
5//= @file creadparam.cxx
6//= @desc Reading of parameters file
7//= @author J C Gonzalez
8//= @email gonzalez@mppmu.mpg.de
9//= @date Thu May 7 16:24:22 1998
10//=
11//=----------------------------------------------------------------------
12//=
13//= Created: Thu May 7 16:24:22 1998
14//= Author: Jose Carlos Gonzalez
15//= Purpose: Program for reflector simulation
16//= Notes: See files README for details
17//=
18//=----------------------------------------------------------------------
19//=
20//= $RCSfile: creadparam.cxx,v $
21//= $Revision: 1.33 $
22//= $Author: moralejo $
23//= $Date: 2004-10-26 13:58:59 $
24//=
25//=//////////////////////////////////////////////////////////////////////
26
27
28#include "creadparam.h"
29#include "camera.h" // Needed for MAX_NUMBER_OF_CTS
30
31// Here we define the global variables where the values from the
32// parameters file are stored.
33
34static char **Input_filename; //@< input filename
35static char Starfield_filename[PATH_MAX_LENGTH]; //@< starfield input filename
36static int Starfield_center[6]={0,0,0,0,0,0}; //@< center of the starfield FOV
37 //@< RA(H,M,S) & DEC (D,M,S)
38static char Data_filename[PATH_MAX_LENGTH]; //@< data filename
39static char ROOT_filename[PATH_MAX_LENGTH]; //@< data filename
40static char Loop_filename[PATH_MAX_LENGTH]; //@< special data filename
41static char CT_geom_string[256]; //@< Contains geometry ids of CTs
42static int CT_number = 1; //@< Number of CT
43static char **QE_filename; //@< name of the qe file
44static char NSB_directory[PATH_MAX_LENGTH]; //@< database for NSB
45static char NSB_outer_directory[PATH_MAX_LENGTH]; //@< database for NSB
46static int Starfield_rotate = FALSE; //@< switch on starfield rotation
47static int ElecNoise = TRUE; //@< Will we add ElecNoise?
48static float FADC_pedestal = 10.0; //@< Value for FADC Pedestal
49static float FADC_Noise_inner = 2.0; //@< Value for FADC ElecNoise
50static float FADC_Noise_outer = 2.0; //@< Value for FADC ElecNoise
51static float Digital_Noise = 0.0; //@< Value for FADC digital Noise
52static float Trig_Noise = 0.3; //@< Factor for Trigger ElecNoise
53static int simulateNSB = TRUE; //@< Will we simulate NSB?
54static float meanNSB; //@< NSB mean value (per pixel)
55static int nphe2NSB=0; //@< Number of phe from shower to do NSB simulation
56static float **qThreshold; //@< Threshold values
57static int Individual_Thres = FALSE;
58static float RiseDisc = -1.0;
59static float SecureDisc = 7.0;
60static long int Seeds[2]={69184,10406};
61static int *Skip;
62static int nSkip=0;
63static int Data_From_STDIN = FALSE;
64static int Write_All_Images = FALSE;
65static int Write_McEvt = TRUE;
66static int Write_McTrig = FALSE;
67static int Write_McFadc = FALSE;
68static int Write_RawEvt = TRUE;
69static int Select_Energy = TRUE;
70static float Select_Energy_le = 0.0; //@< GeV
71static float Select_Energy_ue = 100000.0; //@< GeV
72static int Trigger_Scan = FALSE;
73static int FADC_Scan = FALSE;
74static int Trigger_Loop = FALSE;
75static float Trigger_gate_length = 3.0;
76static float Trigger_over_time = 0.25;
77static float Trigger_response_ampl = 1.0;
78static float Trigger_response_fwhm = 2.0;
79static float Trigger_threshold[MAX_NUMBER_OF_CTS];
80static int Trigger_multiplicity[MAX_NUMBER_OF_CTS];
81static int Trigger_topology[MAX_NUMBER_OF_CTS];
82static float Trigger_loop_lthres = 3.0;
83static float Trigger_loop_uthres = 10.0;
84static float Trigger_loop_sthres = 1.0;
85static int Trigger_loop_lmult = 2;
86static int Trigger_loop_umult = 10;
87static int Trigger_loop_ltop = 0;
88static int Trigger_loop_utop = 2;
89static int FADC_shape = 0;
90static float FADC_response_ampl = MFADC_RESPONSE_INTEGRAL;
91static float FADC_response_fwhm = MFADC_RESPONSE_FWHM;
92static int FADC_shape_out = 0;
93static float FADC_resp_ampl_out = MFADC_RESPONSE_INTEGRAL;
94static float FADC_resp_fwhm_out = MFADC_RESPONSE_FWHM;
95static float FADC_slices_per_ns = FADC_SLICES_PER_NSEC;
96static int FADC_slices_written = FADC_SLICES;
97static float High_to_Low = 10.0; //@< Low gain channel respct to High
98
99static float sigma_x_spot = 0.; // Sigma in x and y (cm) for additional
100static float sigma_y_spot = 0.; // gaussian spread of the mirror spot.
101
102static float misp_x = 0.; // Mispointing in x
103static float misp_y = 0.; // Mispointing in y
104
105static float trig_delay = 25.; // Delay in ns between beginning of FADC
106 // time window and the trigger instant.
107
108static float CTcoor[MAX_NUMBER_OF_CTS][3];
109
110static float m_fraction[MAX_NUMBER_OF_CTS];
111
112static int CalibrationRun = 0; // > 0 if a calibration run has been chosen
113static float lambda = 0.; // Mean wavelength for photons of calibration pulses.
114static float sigma_lambda = 0.; // Sigma of wavelength distribution for calibration.
115static float phot_per_pix = 0.; // Average number of photons per inner pixel for calibration.
116static float fwhm_time = 0.; // Time spread (FWHM of gaussian) of calibration photons.
117static int nevents = 0; // Number of events in calibration run.
118static int selected_pixel = -1; // Selected pixel: if >= 0 ==> only this pixel is filled!
119
120static int gain_fluctuations = 1; // Is 0 if PMT gain fluctuations are disabled
121
122// Coordinates of CT locations, in centimeters, in the Corsika system.
123
124void
125readparam(char * filename)
126{
127 char sign[] = GLUE_postp( PROGRAM, VERSION ); //@< initialize sign
128 char line[LINE_MAX_LENGTH]; //@< line to get from the stdin
129 char token[ITEM_MAX_LENGTH]; //@< a single token
130 int i, j, k; //@< dummy counters
131 float aux, aux1, aux2; //@< auxiliar variable
132 int aux3, aux4; //@< auxiliar variable
133 ifstream ifile;
134 char filename_tmp[PATH_MAX_LENGTH];
135
136
137 memset((char*)CT_geom_string, 0, sizeof(CT_geom_string));
138
139 Input_filename = new char *[MAX_NUMBER_OF_CTS];
140 QE_filename = new char *[MAX_NUMBER_OF_CTS];
141 qThreshold = new float *[MAX_NUMBER_OF_CTS];
142
143 for (int i = 0; i < MAX_NUMBER_OF_CTS; i++)
144 {
145 Input_filename[i] = new char[PATH_MAX_LENGTH];
146 QE_filename[i] = new char[PATH_MAX_LENGTH];
147 qThreshold[i] = new float[CAMERA_PIXELS];
148 CTcoor[i][0] = 0.; CTcoor[i][1] = 0.; CTcoor[i][2] = 0.;
149 m_fraction[i] = 1.;
150 }
151
152 // use cin or ifile (reading from STDIN or from parameters file?
153 if ( filename != NULL )
154 ifile.open( filename );
155
156 // get signature
157 if ( filename != NULL )
158 ifile.getline(line, LINE_MAX_LENGTH);
159 else
160 cin.getline(line, LINE_MAX_LENGTH);
161 line[strlen(SIGNATURE)] = '\0';
162 strcpy(sign, line);
163 cout<< '"' << sign << '"' << '\n';
164 if (strcmp(sign, SIGNATURE) != 0) {
165 cerr << "ERROR: Signature of parameters file is not correct\n";
166 cerr << '"' << sign << '"' << '\n';
167 cerr << "should be: " << SIGNATURE << '\n';
168 exit(1);
169 }
170
171 // loop till the "end" directive is reached
172 int is_end = FALSE;
173 while (! is_end) {
174
175 // get line from file or stdin
176 if ( filename != NULL )
177 ifile.getline(line, LINE_MAX_LENGTH);
178 else
179 cin.getline(line, LINE_MAX_LENGTH);
180
181 // skip comments (start with '#')
182 if (line[0] == '#')
183 continue;
184
185 // show user comments (start with '>')
186 if (line[0] == '>') {
187 cout << line << endl << flush;
188 continue;
189 }
190
191 // look for each item at the beginning of the line
192 for (i=0; i<=end_file; i++)
193 if (strstr(line, ITEM_NAMES[i]) == line)
194 break;
195
196 // if it is not a valid line, just ignore it
197 if (i == end_file+1) {
198 cerr << "ERROR: Unknown token in [" << line << "]\n";
199 exit(-1);
200 }
201
202 // case block for each directive
203 switch ( i ) {
204
205 case input_file: //@< name of the input file
206
207 // get the name of the input_file from the line
208 sscanf(line, "%s %i %s", token,&k, filename_tmp);
209 if(k>99 || k<0){
210 printf("ERROR : The input_file command in input card is faulty. \n\t Most likely the control index for CT is missing.\n");
211 exit(1);
212 }
213 strcpy(&Input_filename[k][0],&filename_tmp[0]);
214 break;
215
216 case starfield_file: //@< name of the output file
217
218 // get the name of the output_file from the line
219 sscanf(line, "%s %s", token, Starfield_filename);
220
221 break;
222
223 case starfield_center: //@< name of the output file
224
225 // get the name of the output_file from the line
226 sscanf(line, "%s %i %i %i %i %i %i", token, &Starfield_center[0], &Starfield_center[1], &Starfield_center[2], &Starfield_center[3], &Starfield_center[4], &Starfield_center[5]);
227
228 break;
229
230 case data_file: //@< name of the data file
231
232 // get the name of the data_file from the line
233 sscanf(line, "%s %s", token, Data_filename);
234
235 break;
236
237 case root_file: //@< name of the ROOT file
238
239 // get the name of the data_file from the line
240 sscanf(line, "%s %s", token, ROOT_filename);
241 cout << '[' << ROOT_filename << ']' << endl << flush;
242
243 break;
244
245 case ct_num: //@< number of telescopes
246
247 // get the name of the ct_file from the line
248 sscanf(line, "%s %i", token, &CT_number);
249
250 break;
251
252 case ct_geom: //@< name of the telescope file
253
254 // get the name of the ct_file from the line
255 sscanf(line, "%s %s", token, CT_geom_string);
256 if ( strlen(CT_geom_string) > MAX_NUMBER_OF_CTS )
257 {
258 printf("\nError: ct_geom option read from input card wrong:\n");
259 printf("Number of digits (%d) is larger than maximum number\n",strlen(CT_geom_string) );
260 printf("of allowed telescopes (%d). Exiting.\n\n", MAX_NUMBER_OF_CTS);
261 exit(1);
262 }
263
264 break;
265
266 case qe_file: //@< name of the telescope file
267
268 // get the name of the ct_file from the line
269 sscanf(line, "%s %i %s", token, &k, filename_tmp);
270 strcpy(&QE_filename[k][0],&filename_tmp[0]);
271
272 break;
273
274 case elec_noise_off: //@< add ElecNoise?
275
276 // we will not add electronic noise for FADC and Trigger channels.
277 ElecNoise = FALSE;
278 FADC_Noise_inner = 0.0;
279 FADC_Noise_outer = 0.0;
280 Trig_Noise =0.0;
281
282 break;
283
284 case fadc_pedestal: //@< FADC pedestal
285
286 // value for FADC Pedestal
287 sscanf(line, "%s %f", token, &FADC_pedestal);
288
289 //
290 // A. Moralejo:
291 // Require integer mean pedestal. Although it seems a silly
292 // restriction, this saves lots of trouble (due to rounding
293 // happening in the FADC), particularly when running the
294 // simulation with no noise (NSB or electronic):
295 //
296
297 if (fmod((double)FADC_pedestal, (double)1.) > 1.e-4)
298 {
299 printf("ERROR : requested average FADC pedestal (%f) is not integer. Please use an integer value.\n", FADC_pedestal);
300 exit(1);
301 }
302
303 break;
304
305 case high_to_low: //@< High to Low gain ratio
306
307 // Value for the Low Gain channel respect to the High gain
308 sscanf(line, "%s %f", token, &High_to_Low);
309
310 break;
311
312 case fadc_noise: //@< FADC ElecNoise
313
314 // value for FADC Elec Noise
315 sscanf(line, "%s %f %f %f", token,
316 &FADC_Noise_inner, &FADC_Noise_outer,
317 &Digital_Noise);
318
319 ElecNoise = TRUE;
320
321 break;
322
323 case trig_noise: //@< add ElecNoise?
324
325 // factor for Trigger Elec Noise
326 sscanf(line, "%s %f", token, &Trig_Noise);
327 ElecNoise = TRUE;
328
329 break;
330
331 case sfr_on: //@< simulate starfield rotation?
332
333 // we will simulate Starfield rotation
334 Starfield_rotate = TRUE;
335
336 break;
337
338
339 case nsb_on: //@< simulate NSB?
340
341 // we will simulate NSB
342 simulateNSB = TRUE;
343
344 break;
345
346 case nsb_off: //@< simulate NSB?
347
348 // we will NOT simulate NSB
349 simulateNSB = FALSE;
350
351 break;
352
353 case nsb_mean: //@< value of <NSB> per pixel
354
355 // get value of <NSB> (in photons)
356 sscanf(line, "%s %f %d", token, &meanNSB, &nphe2NSB);
357
358 break;
359
360 case nsb_directory: //@< name of the output file
361
362 // get the name of the NSB diretory for inner pixels
363 sscanf(line, "%s %s", token, NSB_directory);
364
365 break;
366
367 case nsb_dir_outer: //@< name of the output file
368
369 // get the name of the NSB diretory for outer pixels
370 sscanf(line, "%s %s", token, NSB_outer_directory);
371
372 break;
373
374 case pixel_thres: //@< value of threshold for trigger (q0)
375
376 // get value of threshold (in ph.e.)
377 sscanf(line, "%s %i %f", token,&k, &aux);
378 if(k>99 || k<0){
379 printf("ERROR : The input_file command in input card is faulty. \n\t Most likely the control index for CT is missing.\n");
380 exit(1);
381 }
382 qThreshold[0][k]=aux;
383 Individual_Thres = TRUE;
384
385 break;
386
387 case secure_disc: //@< value of secure threshold
388
389 // get value of secure threshold (in ph.e.)
390 sscanf(line, "%s %f %f", token,&aux, &aux2);
391 RiseDisc=aux;
392 SecureDisc=aux2;
393
394 break;
395
396 case seeds: //@< values of seeds for random numbers
397
398 // get seeds
399 sscanf(line, "%s %ld %ld", token, &Seeds[0], &Seeds[1]);
400
401 break;
402
403 case skip: //@< skip pathological showers
404
405 // get showers to skip
406 cin >> nSkip;
407 Skip = new int[nSkip];
408 for (j=0; j<nSkip; ++j) {
409 cin >> Skip[j];
410 cout << Skip[j] << endl << flush;
411 }
412
413 break;
414
415 case data_from_stdin: //@< to read data from stdin
416
417 // change boolean value
418 Data_From_STDIN = TRUE;
419
420 break;
421
422 case write_all_events: //@< to write ALL the images
423
424 // change boolean value
425 Write_All_Images = TRUE;
426
427 break;
428
429 case nowrite_McEvt: //@< do not write the McEvt info
430
431 // change boolean value
432 Write_McEvt = FALSE;
433
434 break;
435
436 case write_McTrig: //@< to write the McTrig info
437
438 // change boolean value
439 Write_McTrig = TRUE;
440
441 break;
442
443 case write_McFadc: //@< to write the McFadc info
444
445 // change boolean value
446 Write_McFadc = TRUE;
447
448 break;
449
450 case nowrite_RawEvt: //@< to write the McFadc info
451
452 // change boolean value
453 Write_RawEvt = FALSE;
454
455 break;
456
457 case select_energy: //@< value of islands_cut (i0)
458
459 // get energy range
460 sscanf(line, "%s %f %f", token, &Select_Energy_le, &Select_Energy_ue);
461 Select_Energy = TRUE;
462
463 break;
464
465 case fadc_scan:
466
467 // change boolean value
468 FADC_Scan = TRUE;
469
470 break;
471
472 case fadc_prop:
473
474 // Get parameters for the fadc response for one phe
475 sscanf(line, "%s %i %f %f", token, &FADC_shape, &FADC_response_ampl,&FADC_response_fwhm);
476
477 break;
478
479 case fadc_outer:
480
481 // Get parameters for the fadc response for one phe
482 sscanf(line, "%s %i %f %f", token, &FADC_shape_out, &FADC_resp_ampl_out,&FADC_resp_fwhm_out);
483
484 break;
485
486 case fadc_GHz:
487
488 // Get FADC sampling frequency in GHz (default 0.3)
489 sscanf(line, "%s %f %i", token, &FADC_slices_per_ns, &FADC_slices_written);
490
491 break;
492
493 case trigger_scan:
494
495 // change boolean value
496 Trigger_Scan = TRUE;
497
498 break;
499 case trigger_prop:
500
501 // Get parameters for the diskriminator and the electronic
502 // response for one phe
503 sscanf(line, "%s %f %f %f %f", token, &Trigger_gate_length,&Trigger_over_time, &Trigger_response_ampl,&Trigger_response_fwhm);
504
505 break;
506
507 case trigger_loop:
508
509 // Get loop's limits
510 sscanf(line, "%s %f %f %f %d %d %d %d", token, &Trigger_loop_lthres, &Trigger_loop_uthres, &Trigger_loop_sthres, &Trigger_loop_lmult, &Trigger_loop_umult, &Trigger_loop_ltop, &Trigger_loop_utop );
511
512 // Set qThreshold to a global value
513 for(k=0;k<CAMERA_PIXELS;k++){
514 qThreshold[0][k]=Trigger_loop_lthres;
515 }
516
517 // change boolean value
518 Trigger_Loop = TRUE;
519 Write_RawEvt = FALSE;
520 Individual_Thres = FALSE;
521
522 break;
523
524 case trigger_single:
525
526 // Get trigger conditions
527 sscanf(line, "%s %d %f %d %d", token, &j, &aux, &aux3, &aux4);
528 if(j>99 || j<0){
529 printf("ERROR : The input_file command in input card is faulty. \n\t Most likely the control index for CT is missing.\n");
530 exit(1);
531 }
532 Trigger_threshold[j]=aux;
533 Trigger_multiplicity[j]=aux3;
534 Trigger_topology[j]=aux4;
535
536 // Set qThreshold to a global value
537 for(k=0;k<CAMERA_PIXELS;k++){
538 qThreshold[j][k]=Trigger_threshold[j];
539 }
540
541 // change boolean value
542 Trigger_Loop = FALSE;
543 Write_RawEvt = TRUE;
544 Individual_Thres = FALSE;
545
546 break;
547
548 case Trigger_Loop_Output_Only_Specialists:
549
550 // get the name of the data_file from the line
551 sscanf(line, "%s %s", token, Loop_filename);
552 cout << '[' << Loop_filename << ']' << endl << flush;
553
554 // change boolean value
555 Write_RawEvt = TRUE;
556
557 break;
558
559 case trigger_delay:
560
561 sscanf(line, "%s %f", token, &trig_delay);
562 break;
563
564
565 case sigma_xy_cm_spot:
566
567 sscanf(line, "%s %f", token, &sigma_x_spot);
568 sigma_y_spot=sigma_x_spot;
569 break;
570
571 case sigma_x_cm_spot:
572
573 sscanf(line, "%s %f", token, &sigma_x_spot);
574 break;
575
576 case sigma_y_cm_spot:
577
578 sscanf(line, "%s %f", token, &sigma_y_spot);
579 break;
580
581 case misspoint_deg:
582
583 sscanf(line, "%s %f %f", token, &misp_x, &misp_y);
584 break;
585
586 case telescope_location_cm:
587
588 if ( 5 != sscanf(line, "%s %d %f %f %f", token, &j, &aux, &aux1, &aux2) )
589 {
590 printf("\nError: wrong number of arguments for command telescope_location_cm.\n");
591 printf("Usage: telescope_location_cm ct_id x y z\n");
592 printf("Coordinates must be written in centimeters.");
593 printf("Exiting.\n\n");
594 exit(1);
595 }
596
597 if (j >= MAX_NUMBER_OF_CTS)
598 {
599 printf("\nError: coordinates were supplied for a telescope index (%d)\n", j);
600 printf("larger than allowed. Valid telescope ids range from 0 to %d. Exiting.\n\n", MAX_NUMBER_OF_CTS-1);
601 exit(1);
602 }
603 CTcoor[j][0] = aux;
604 CTcoor[j][1] = aux1;
605 CTcoor[j][2] = aux2;
606
607 break;
608
609 case mirror_fraction:
610
611 sscanf(line, "%s %d %f", token, &j, &aux);
612 m_fraction[j] = aux;
613
614 break;
615
616 case calibration_run:
617
618 sscanf(line, "%s %f %f %f %f %i %i", token, &lambda, &sigma_lambda, &phot_per_pix,
619 &fwhm_time, &nevents, &selected_pixel);
620
621 CalibrationRun = 1;
622
623 break;
624
625 case gain_fluctuations_off:
626
627 gain_fluctuations = 0;
628
629 break;
630
631 case end_file: //@< end of the parameters file
632
633 // show a short message
634 is_end = TRUE;
635
636 break;
637
638
639 } // switch ( i )
640
641 } // while (! is_end)
642
643 // after the loop is finished, return to the main function
644 return;
645}
646//!@}
647
648
649//!-----------------------------------------------------------
650// @name get_input_filename
651//
652// @desc get name of the input file
653//
654// @return Name of the Input file
655//
656// @date Mon Sep 14 13:27:56 MET DST 1998
657//------------------------------------------------------------
658// @function
659
660//!@{
661char *
662get_input_filename(int i)
663{
664 return (Input_filename[i]);
665}
666//!@}
667
668
669//!-----------------------------------------------------------
670// @name get_starfield_filename
671//
672// @desc get name of the starfield input file
673//
674// @return Name of the starfield file
675//
676// @date Tue Feb 15 16:02:18 CET 2000
677//------------------------------------------------------------
678// @function
679
680//!@{
681char *
682get_starfield_filename(void)
683{
684 return (Starfield_filename);
685}
686//!@}
687
688
689//!-----------------------------------------------------------
690// @name get_starfield_center
691//
692// @desc get center of the starfield FOV
693//
694// @return Central co-ordinates in RA and DEC for the centre of FOV
695//
696// @date Tue Feb 15 16:02:18 CET 2000
697//------------------------------------------------------------
698// @function
699
700//!@{
701void get_starfield_center(int *rh,int *rm,int *rs,int *dd,int *dm,int *ds)
702{
703 *rh=Starfield_center[0];
704 *rm=Starfield_center[1];
705 *rs=Starfield_center[2];
706 *dd=Starfield_center[3];
707 *dm=Starfield_center[4];
708 *ds=Starfield_center[5];
709}
710//!-----------------------------------------------------------
711// @name get_starfield_rotate
712//
713// @Starfield_rotate
714//
715// @return
716//
717//------------------------------------------------------------
718// @function
719
720//!@{
721int
722get_starfield_rotate(void)
723{
724 return(Starfield_rotate);
725}
726
727
728//!@}
729//!-----------------------------------------------------------
730// @name get_data_filename
731//
732// @desc get name of the data file
733//
734// @return Name of the Data file
735//
736// @date Mon Sep 14 13:27:56 MET DST 1998
737//------------------------------------------------------------
738// @function
739
740//!@{
741char *
742get_data_filename(void)
743{
744 return (Data_filename);
745}
746//!@}
747
748
749//!-----------------------------------------------------------
750// @name get_root_filename
751//
752// @desc get name of the ROOT file
753//
754// @return Name of the ROOT file
755//
756// @date Mon Sep 14 13:27:56 MET DST 1998
757//------------------------------------------------------------
758// @function
759
760//!@{
761char *
762get_root_filename(void)
763{
764 return (ROOT_filename);
765}
766//!@}
767//!-----------------------------------------------------------
768// @name get_loop_filename
769//
770// @desc get name of the special ROOT file
771//
772// @return Name of the special ROOT file
773//
774// @date Fri Jun 23 17:34:19 CEST 2000
775//------------------------------------------------------------
776// @function
777
778//!@{
779
780char *
781get_loop_filename(void)
782{
783 return (Loop_filename);
784}
785//!@}
786
787//!-----------------------------------------------------------
788// @name get_ct_number
789//
790// @desc get number of CT
791//
792// @return number of CT
793//
794// @date Tue Jul 29 01:48:26 CEST 2003
795//------------------------------------------------------------
796// @function
797
798//!@{
799int
800get_ct_number(void)
801{
802 return (CT_number);
803}
804//!@}
805
806//!-----------------------------------------------------------
807// @name get_ct_geometry
808//
809// @desc get geometry of CT
810//
811// @return geometry of CT
812//
813// @date Mon Sep 14 13:27:56 MET DST 1998
814//------------------------------------------------------------
815// @function
816
817//!@{
818int
819get_ct_geometry(int ict)
820{
821 char dummy[2];
822 strncpy(dummy, &(CT_geom_string[ict]), 1);
823 dummy[1] = '\0';
824
825 return ((int)atoi(dummy));
826}
827//!@}
828
829//!-----------------------------------------------------------
830// @name get_qe_filename
831//
832// @desc get name of QE definition file
833//
834// @return Name of the QE definition file
835//
836// @date Thu Jul 10 14:10:13 CEST 2003
837//------------------------------------------------------------
838// @function
839
840//!@{
841char *
842get_qe_filename(int ict)
843{
844 return (QE_filename[ict]);
845}
846//!@}
847
848//!-----------------------------------------------------------
849// @name get_nsb_directory
850//
851// @desc get name of the directory where the database for NSB is
852//
853// @return Name of the NSB directory
854//
855// @date Tue Jan 30 12:07:56 MET 2001
856//------------------------------------------------------------
857// @function
858
859//!@{
860char *
861get_nsb_directory(void)
862{
863 return (NSB_directory);
864}
865//!@}
866
867
868
869//!-----------------------------------------------------------
870// @name get_nsb_directory_outer
871//
872// @desc get name of the directory where the database for NSB is
873//
874// @return Name of the NSB directory for outer pixels
875//
876// @date Thu Jul 10 14:10:13 CEST 2003
877//------------------------------------------------------------
878// @function
879
880//!@{
881char *
882get_nsb_directory_outer(void)
883{
884 return (NSB_outer_directory);
885}
886//!@}
887
888
889
890//!-----------------------------------------------------------
891// @name add_elec_noise
892//
893// @desc are we going to add the ElecNoise?
894//
895// @date Mon Jan 14 19:27:56 MET DST 2002
896//------------------------------------------------------------
897// @function
898
899//!@{
900int
901add_elec_noise(float *fadcinner, float*fadcouter, float *digi, float *trig)
902{
903 *fadcinner = FADC_Noise_inner;
904 *fadcouter = FADC_Noise_outer;
905
906 *digi = Digital_Noise;
907 *trig = Trig_Noise;
908
909 return ( ElecNoise);
910}
911//!@}
912
913//!-----------------------------------------------------------
914// @name get_nsb
915//
916// @desc are we going to simulate NSB ?
917//
918// @var *n Mean value for the NSB (ph.e./pixel)
919// @return TRUE: we'll simulate NSB; FALSE: we won't
920//
921// @date Mon Sep 14 13:27:56 MET DST 1998
922//------------------------------------------------------------
923// @function
924
925//!@{
926int
927get_nsb(float *n, int *m)
928{
929 *n = meanNSB;
930 *m = nphe2NSB;
931 return ( simulateNSB );
932}
933//!@}
934
935
936//!-----------------------------------------------------------
937// @name get_threshold
938//
939// @desc get threshold value
940//
941// @return Value of the threshold q$_0$
942//
943// @date Mon Sep 14 13:27:56 MET DST 1998
944//------------------------------------------------------------
945// @function
946
947//!@{
948void
949get_threshold(float *t)
950{
951 for(int i=0;i<CAMERA_PIXELS;i++)
952 t[i]=qThreshold[0][i];
953}
954//!@}
955
956//!-----------------------------------------------------------
957// @name get_secure_threhold
958//
959// @desc get values for secure threshold.
960//
961// @return AC (ac)value above which discriminator threshold rised to disc
962//
963// @date Wed Jul 18 16:29:43 CEST 2001
964//------------------------------------------------------------
965// @function
966
967//!@{
968void
969get_secure_threhold(float *ac, float *disc)
970{
971 *ac=RiseDisc;
972 *disc=SecureDisc;
973}
974//!@}
975
976//!-----------------------------------------------------------
977// @name get_indi_thres_pixel
978//
979// @desc get boolean information about global (FALSE) or
980// @desc individual (TRUE) pixel trigger threshold
981//
982// @return Value for the Individual_Thres
983//
984// @date Wed Jul 18 16:29:43 CEST 2001
985//------------------------------------------------------------
986// @function
987
988//!@{
989int get_indi_thres_pixel(void){
990 return Individual_Thres;
991}
992//!@}
993
994
995//!-----------------------------------------------------------
996// @name get_seeds
997//
998// @desc are we going to count the islands ?
999//
1000// @var *n Number of the seed
1001// @return N-th random-number Seed
1002//
1003// @date Mon Sep 14 13:27:56 MET DST 1998
1004//------------------------------------------------------------
1005// @function
1006
1007//!@{
1008long int
1009get_seeds(int n)
1010{
1011 return ( Seeds[n] );
1012}
1013//!@}
1014
1015
1016//!-----------------------------------------------------------
1017// @name get_skip_showers
1018//
1019// @desc get list of showers to skip
1020//
1021// @var *s1 Pointer to a vector of number of showers
1022//
1023// @date Mon Sep 14 13:27:56 MET DST 1998
1024//------------------------------------------------------------
1025// @function
1026
1027//!@{
1028void
1029get_skip_showers( int *s )
1030{
1031 int i;
1032 for (i=0; i<nSkip; ++i)
1033 s[i] = Skip[i];
1034}
1035//!@}
1036
1037
1038//!-----------------------------------------------------------
1039// @name get_nskip_showers
1040//
1041// @desc get number of showers to skip
1042//
1043// @return Number of showers to be skipped
1044//
1045// @date Mon Sep 14 13:27:56 MET DST 1998
1046//------------------------------------------------------------
1047// @function
1048
1049//!@{
1050int
1051get_nskip_showers( void )
1052{
1053 return( nSkip );
1054}
1055//!@}
1056
1057
1058//!-----------------------------------------------------------
1059// @name get_data_from_stdin
1060//
1061// @desc get whether we will read the data from the STDIN
1062//
1063// @return TRUE: we'll read data from STDIN; FALSE: we won't
1064//
1065// @date Wed Nov 25 13:21:00 MET 1998
1066//------------------------------------------------------------
1067// @function
1068
1069//!@{
1070int
1071get_data_from_stdin(void)
1072{
1073 return ( Data_From_STDIN );
1074}
1075//!@}
1076
1077
1078//!-----------------------------------------------------------
1079// @name write_all_events
1080//
1081// @desc write all images to .phe, even those without trigger
1082//
1083// @return TRUE: we'll write everything; FALSE: we won't
1084//
1085// @date Wed Nov 25 13:21:00 MET 1998
1086//------------------------------------------------------------
1087// @function
1088
1089//!@{
1090int
1091get_write_all_events(void)
1092{
1093 return ( Write_All_Images );
1094}
1095//!@}
1096
1097//!-----------------------------------------------------------
1098// @name write_McEvt
1099//
1100// @desc write the McEvt class for each event to the .root file
1101//
1102// @return TRUE: we'll write it; FALSE: we won't
1103//
1104//------------------------------------------------------------
1105// @function
1106
1107//!@{
1108int
1109get_write_McEvt(void)
1110{
1111 return ( Write_McEvt );
1112}
1113//!@}
1114
1115//!-----------------------------------------------------------
1116// @name write_McTrig
1117//
1118// @desc write the McTrig class for each event to the .root file
1119//
1120// @return TRUE: we'll write it; FALSE: we won't
1121//
1122//------------------------------------------------------------
1123// @function
1124
1125//!@{
1126int
1127get_write_McTrig(void)
1128{
1129 return ( Write_McTrig );
1130}
1131//!@}
1132
1133//!-----------------------------------------------------------
1134// @name write_McFadc
1135//
1136// @desc write the McFadc class for each event to the .root file
1137//
1138// @return TRUE: we'll write it; FALSE: we won't
1139//
1140//------------------------------------------------------------
1141// @function
1142
1143//!@{
1144int
1145get_write_McFadc(void)
1146{
1147 return ( Write_McFadc );
1148}
1149//!@}
1150
1151//!-----------------------------------------------------------
1152// @name write_RawEvt
1153//
1154// @desc write the RawEvt class for each event to the .root file
1155//
1156// @return TRUE: we'll write it; FALSE: we won't
1157//
1158//------------------------------------------------------------
1159// @function
1160
1161//!@{
1162int
1163get_write_RawEvt(void)
1164{
1165 return ( Write_RawEvt );
1166}
1167//!@}
1168
1169//!-----------------------------------------------------------
1170// @name get_select_energy
1171//
1172// @desc return energy range allowed for showers from .phe file
1173//
1174// @var *le Lower limit in the allowed energy range
1175// @var *ue Lower limit in the allowed energy range
1176// @return TRUE: we make selection on the energy; FALSE: we don't
1177//
1178// @date Wed Nov 25 13:21:00 MET 1998
1179//------------------------------------------------------------
1180// @function
1181
1182//!@{
1183int
1184get_select_energy(float *le, float *ue)
1185{
1186 *le = Select_Energy_le;
1187 *ue = Select_Energy_ue;
1188 return ( Select_Energy );
1189}
1190//!@}
1191
1192//!-----------------------------------------------------------
1193// @name FADC_Scan
1194//
1195// @desc show the FADC signal for each event in the screen
1196//
1197// @return TRUE: we'll show it; FALSE: we won't
1198//
1199//------------------------------------------------------------
1200// @function
1201
1202//!@{
1203int
1204get_FADC_Scan(void)
1205{
1206 return ( FADC_Scan );
1207}
1208//!@}
1209
1210//!-----------------------------------------------------------
1211// @name Trigger_Scan
1212//
1213// @desc show the Trigger signal for each event in the screen
1214//
1215// @return TRUE: we'll show it; FALSE: we won't
1216//
1217//------------------------------------------------------------
1218// @function
1219
1220//!@{
1221int
1222get_Trigger_Scan(void)
1223{
1224 return ( Trigger_Scan );
1225}
1226//!@}
1227
1228//!-----------------------------------------------------------
1229// @name Fadc_Propeties
1230//
1231// @desc fix properties of the FADC response
1232//
1233//------------------------------------------------------------
1234// @function
1235
1236//!@{
1237void
1238get_FADC_properties(int *shape,float *ra, float *rf,
1239 int *shapeo, float *rao, float *rfo,
1240 float *fadc_spns, int *fadc_slices)
1241{
1242 *shape = FADC_shape;
1243 *ra = FADC_response_ampl;
1244 *rf = FADC_response_fwhm;
1245 *shapeo = FADC_shape_out;
1246 *rao = FADC_resp_ampl_out;
1247 *rfo = FADC_resp_fwhm_out;
1248 *fadc_spns = FADC_slices_per_ns;
1249 *fadc_slices = FADC_slices_written;
1250}
1251//!@}
1252
1253//!-----------------------------------------------------------
1254// @name Trigger_Propeties
1255//
1256// @desc fix properties of the diskriminator and amplifier for Trigger
1257//
1258//------------------------------------------------------------
1259// @function
1260
1261//!@{
1262void
1263get_Trigger_properties(float *gl, float *ot, float *ra, float *rf)
1264{
1265 *gl=Trigger_gate_length;
1266 *ot=Trigger_over_time;
1267 *ra=Trigger_response_ampl;
1268 *rf=Trigger_response_fwhm;
1269
1270}
1271//!@}
1272
1273//!-----------------------------------------------------------
1274// @name Trigger_Loop
1275//
1276// @desc make a loop over Trigger conditions
1277//
1278// @return TRUE: we'll make it; FALSE: we won't
1279//
1280//------------------------------------------------------------
1281// @function
1282
1283//!@{
1284int
1285get_Trigger_Loop(float *lt, float *ut, float *st, int *lm, int *um, int *lg, int *ug)
1286{
1287 *lt=Trigger_loop_lthres;
1288 *ut=Trigger_loop_uthres;
1289 *st=Trigger_loop_sthres;
1290 *lm=Trigger_loop_lmult;
1291 *um=Trigger_loop_umult;
1292 *lg=Trigger_loop_ltop;
1293 *ug=Trigger_loop_utop;
1294 return ( Trigger_Loop );
1295}
1296//!@}
1297
1298//!-----------------------------------------------------------
1299// @name Trigger_Single
1300//
1301// @desc fix Trigger conditions
1302//
1303//------------------------------------------------------------
1304// @function
1305
1306//!@{
1307void
1308get_Trigger_Single(float **t, int *m, int *g)
1309{
1310 for(int j=0;j<MAX_NUMBER_OF_CTS;j++){
1311 for(int i=0;i<CAMERA_PIXELS;i++)
1312 t[j][i]=qThreshold[j][i];
1313 m[j]=Trigger_multiplicity[j];
1314 g[j]=Trigger_topology[j];
1315 }
1316}
1317//!@}
1318
1319//!-----------------------------------------------------------
1320// @name get_FADC_pedestal
1321//
1322// @desc get the value for the FADC pedestals
1323//
1324//------------------------------------------------------------
1325// @function
1326
1327//!@{
1328
1329
1330float get_FADC_pedestal(void){
1331
1332 return FADC_pedestal;
1333
1334}
1335
1336//!@}
1337//!-----------------------------------------------------------
1338// @name get_High_to_Low
1339//
1340// @desc get the conversion factor between high and low gain
1341//
1342//------------------------------------------------------------
1343// @function
1344
1345//!@{
1346
1347
1348float get_High_to_Low(void){
1349
1350 return High_to_Low;
1351
1352}
1353
1354int get_misspointing(float *x, float *y){
1355
1356 *x=misp_x;
1357 *y=misp_y;
1358
1359 if (misp_x == 0.0 && misp_y==0.0)
1360 return 0;
1361 else
1362 return 1;
1363
1364}
1365
1366float get_sigma_xy_cm_spot(float *x, float *y){
1367
1368 *x=sigma_x_spot;
1369 *y=sigma_y_spot;
1370
1371 if (sigma_x_spot > 0.0 || sigma_y_spot >0.0)
1372 return 1.0;
1373 else
1374 return -1.0;
1375
1376}
1377
1378float get_trig_delay(void){
1379
1380 return trig_delay;
1381
1382}
1383
1384float get_telescope_location_cm(int j, int icoor){
1385
1386 return CTcoor[j][icoor];
1387
1388}
1389
1390float get_mirror_fraction(int j){
1391 return m_fraction[j];
1392}
1393
1394int is_calibration_run(){
1395 return CalibrationRun;
1396}
1397
1398void get_calibration_properties(float *a, float *b, float *c, float *d, int *e, int *f)
1399{
1400 *a = lambda;
1401 *b = sigma_lambda;
1402 *c = phot_per_pix;
1403 *d = fwhm_time / 2.35; // Convert from FWHM to sigma of gaussian
1404 *e = nevents;
1405 *f = selected_pixel;
1406}
1407
1408int apply_gain_fluctuations()
1409{
1410 return gain_fluctuations;
1411}
1412
1413
1414//=------------------------------------------------------------
1415//!@subsection Log of this file.
1416
1417//!@{
1418//
1419// $Log: not supported by cvs2svn $
1420// Revision 1.32 2004/10/14 16:53:49 moralejo
1421//
1422// Added option calibration_run
1423//
1424// Revision 1.31 2004/10/13 17:05:05 moralejo
1425// *** empty log message ***
1426//
1427// Revision 1.30 2004/10/12 13:32:02 moralejo
1428// *** empty log message ***
1429//
1430// Revision 1.29 2004/09/17 14:48:21 moralejo
1431//
1432// Changes to adapt headers to c++ style.
1433//
1434// Revision 1.28 2004/09/16 15:27:08 moralejo
1435// Updated in CVS after some time (see changes below)
1436//
1437//
1438// Revision 1.27 2004/05/12 A. Moralejo
1439//
1440// Changed fadc_noise command: now the two first numbers are respectively
1441// the analogic electronic noise for inner (small) and outer (big) pixels
1442// respectively. Last number is still the FADC digital noise which affects
1443// equallly inner and outer pixels (as well as high and low gain).
1444//
1445// Revision 1.26 2004/01/30 09:58:39 blanch
1446// [Changes done mainly by A. Moralejo]
1447//
1448// Two new commands of the input card have been added:
1449//
1450// sigma_xy_cm_spot: to enlarge the point spread function.
1451// trigger_delay: to center the FADC signal
1452//
1453// There is also a check that the Pedestal is an integer, otherwise it
1454// becames complex to get a reasonable rms for events without electronic noise.
1455//
1456// Revision 1.25 2003/10/26 19:45:38 blanch
1457// The write_all_data input card command has been removed.
1458//
1459// Revision 1.24 2003/10/17 19:40:24 blanch
1460// The gain ratio between the high and low FADC gain is controlled from the
1461// input card.
1462//
1463// Revision 1.23 2003/09/23 17:38:48 blanch
1464// ana_pixels command has been removed.
1465//
1466// Revision 1.22 2003/09/23 16:52:07 blanch
1467// We do not read ct_file anymore.
1468//
1469// Revision 1.21 2003/09/15 10:17:09 blanch
1470// Some modifications in the input card has been done for the multitelescope
1471// configuration.
1472//
1473// Revision 1.20 2003/07/17 18:04:53 blanch
1474// Some new parameters to be read have been introduced
1475//
1476// - FADC pedestals
1477// - Response outer FADC
1478// - Qe file
1479//
1480// The obsolete ones have been removed.
1481//
1482// Revision 1.19 2003/02/12 13:47:32 blanch
1483// *** empty log message ***
1484//
1485// Revision 1.18 2003/01/14 13:37:47 blanch
1486// Option to set a dc value to rise the discriminator threshold has been added.
1487//
1488// Revision 1.17 2002/07/16 16:20:41 blanch
1489// Modifications done for the camera.cxx version, where a first implementation
1490// of the Star Field Rotation has been introduced.
1491//
1492// Revision 1.16 2002/03/15 15:17:18 blanch
1493// Several modification needed to simulate the actual trigger zone.
1494//
1495// Revision 1.15 2002/03/04 17:15:51 blanch
1496// An item, which allows to switch off the storage of the RawEvt, has been
1497// introduced. It is called nowrite_RawEvt. To avoid confusion the item
1498// write_all_images has been moved to write_all_events.
1499//
1500// Revision 1.14 2002/02/28 15:07:23 blanch
1501// Small changes have been done to introduce thes step variable for the
1502// discriminator threshold in the trigger loop mode.
1503//
1504// Revision 1.13 2002/01/18 17:43:08 blanch
1505// Three new commands have been added: fadc_noise, trig_noise and
1506// elec_noise_off.
1507// A small bug in the SIGNATURE check has been solved.
1508//
1509// Revision 1.12 2001/11/13 17:05:14 blanch
1510// New input items int the input card parameter list have been included to fill
1511// the MMcRunHeader.
1512// There has been also some change to remove warnings in the compilation.
1513//
1514// Revision 1.11 2001/07/25 11:38:00 magicsol
1515// Minnor changes
1516//
1517// Revision 1.10 2001/07/19 09:28:30 blanch
1518// A new command, which allows to set individual trigger threshod for each pixel,
1519// has been added.
1520//
1521// Revision 1.9 2001/03/05 10:43:18 blanch
1522// New input commands have been added:
1523//
1524// - write_McFadc: to write the FADC simulation information.
1525// - fadc_prop: gives the shape of the single phe response of the FADC
1526//
1527// And new value has been added in the mean_NSB command that tells how many phes
1528// have to come from the shower to do the NSB simulation in that shower (it speeds
1529// up the simulation).
1530//
1531// Revision 1.8 2001/02/23 10:55:43 magicsol
1532// An input commmand that talls the path for the NSB database has been added.
1533//
1534// Revision 1.7 2001/01/15 12:37:48 magicsol
1535// It has been introduced the option to read from the input card the overlaping
1536// time.
1537//
1538// Revision 1.6 2000/09/21 11:47:33 harald
1539// Oscar found some smaller errors in the calculation of the pixel shape and
1540// corrected it.
1541//
1542// Revision 1.5 2000/07/04 14:13:02 MagicSol
1543// It reads from the general input card the parameters for the
1544// trigger analysi.
1545//
1546// Revision 1.4 2000/05/11 14:22:33 blanch
1547// New input card option has been introduced:
1548// trigger_loop lt ut lm um lg ug
1549// It forces the camera program to study several condition trigger implementations. Integers after key word fix limits of loop over thershold, multiplicity and topology.
1550//
1551// Revision 1.3 2000/03/24 18:14:05 blanch
1552// Parameters that tell as if we are going to see the diskriminator and/or FADC signal have been included.
1553//
1554// Revision 1.2 2000/02/18 17:45:43 petry
1555// This version belongs to camera.cxx 1.5.
1556// It has been put in the repository in order to be
1557// able to share the further development with others.
1558//
1559// If you need something working, wait or take an earlier one.
1560// See file README
1561//
1562// Revision 1.1.1.1 1999/11/05 11:59:34 harald
1563// This the starting point for CVS controlled further developments of the
1564// camera program. The program was originally written by Jose Carlos.
1565// But here you can find a "rootified" version to the program. This means
1566// that there is no hbook stuff in it now. Also the output of the
1567// program changed to the MagicRawDataFormat.
1568//
1569// The "rootification" was done by Dirk Petry and Harald Kornmayer.
1570//
1571// In the following you can see the README file of that version:
1572//
1573// ==================================================
1574//
1575// Fri Oct 22 1999 D.P.
1576//
1577// The MAGIC Monte Carlo System
1578//
1579// Camera Simulation Programme
1580// ---------------------------
1581//
1582// 1) Description
1583//
1584// This version is the result of the fusion of H.K.'s
1585// root_camera which is described below (section 2)
1586// and another version by D.P. which had a few additional
1587// useful features.
1588//
1589// The version compiles under Linux with ROOT 2.22 installed
1590// (variable ROOTSYS has to be set).
1591//
1592// Compile as before simply using "make" in the root_camera
1593// directory.
1594//
1595// All features of H.K.'s root_camera were retained.
1596//
1597// Additional features of this version are:
1598//
1599// a) HBOOK is no longer used and all references are removed.
1600//
1601// b) Instead of HBOOK, the user is given now the possibility of
1602// having Diagnostic data in ROOT format as a complement
1603// to the ROOT Raw data.
1604//
1605// This data is written to the file which is determined by
1606// the new input parameter "diag_file" in the camera parameter
1607// file.
1608//
1609// All source code file belonging to this part have filenames
1610// starting with "MDiag".
1611//
1612// The user can read the output file using the following commands
1613// in an interactive ROOT session:
1614//
1615// root [0] .L MDiag.so
1616// root [1] new TFile("diag.root");
1617// root [2] new TTreeViewer("T");
1618//
1619// This brings up a viewer from which all variables of the
1620// TTree can be accessed and histogrammed. This example
1621// assumes that you have named the file "diag.root", that
1622// you are using ROOT version 2.22 or later and that you have
1623// the shared object library "MDiag.so" which is produced
1624// by the Makefile along with the executable "camera".
1625//
1626// ! The contents of the so-called diag file is not yet fixed.
1627// ! At the moment it is what J.C.G. used to put into the HBOOK
1628// ! ntuple. In future versions the moments calculation can be
1629// ! removed and the parameter list be modified correspondingly.
1630//
1631// c) Now concatenated reflector files can be read. This is useful
1632// if you have run the reflector with different parameters but
1633// you want to continue the analysis with all reflector data
1634// going into ONE ROOT outputfile.
1635//
1636// The previous camera version contained a bug which made reading
1637// of two or more concatenated reflector files impossible.
1638//
1639// d) The reflector output format was changed. It is now version
1640// 0.4 .
1641// The change solely consists in a shortening of the flag
1642// definition in the file
1643//
1644// include-MC/MCCphoton.hxx
1645//
1646// ! IF YOU WANT TO READ REFLECTOR FORMAT 0.3, you can easily
1647// ! do so by recompiling camera with the previous version of
1648// ! include-MC/MCCphoton.hxx.
1649//
1650// The change was necessary for saving space and better
1651// debugging. From now on, this format can be frozen.
1652//
1653// ! For producing reflector output in the new format, you
1654// ! of course have to recompile your reflector with the
1655// ! new include-MC/MCCphoton.hxx .
1656//
1657// e) A first version of the pixelization with the larger
1658// outer pixels is implemented. THIS IS NOT YET FULLY
1659// TESTED, but first rough tests show that it works
1660// at least to a good approximation.
1661//
1662// The present version implements the camera outline
1663// with 18 "gap-pixels" and 595 pixels in total as
1664// shown in
1665//
1666// http://sarastro.ifae.es/internal/home/hardware/camera/numbering.ps
1667//
1668// This change involved
1669//
1670// (i) The file pixels.dat is no longer needed. Instead
1671// the coordinates are generated by the program itself
1672// (takes maybe 1 second). In the file
1673//
1674// pixel-coords.txt
1675//
1676// in the same directory as this README, you find a list
1677// of the coordinates generated by this new routine. It
1678// has the format
1679//
1680// number i j x y size-factor
1681//
1682// where i and j are J.C.G.'s so called biaxis hexagonal
1683// coordinates (for internal use) and x and y are the
1684// coordinates of the pixel centers in the standard camera
1685// coordinate system in units of centimeters. The value
1686// of "size-factor" determines the linear size of the pixel
1687// relative to the central pixels.
1688//
1689// (ii) The magic.def file has two additional parameters
1690// which give the number of central pixels and the
1691// number of gap pixels
1692//
1693// (iii) In camera.h and camera.cxx several changes were
1694// necessary, among them the introduction of several
1695// new functions
1696//
1697// The newly suggested outline with asymmetric Winston cones
1698// will be implemented in a later version.
1699//
1700// f) phe files can no longer be read since this contradicts
1701// our philosophy that the analysis should be done with other
1702// programs like e.g. EVITA and not with "camera" itself.
1703// This possibility was removed.
1704//
1705// g) ROOT is no longer invoked with an interactive interface.
1706// In this way, camera can better be run as a batch program and
1707// it uses less memory.
1708//
1709// h) small changes concerning the variable "t_chan" were necessary in
1710// order to avoid segmentation faults: The variable is used as an
1711// index and it went sometimes outside the limits when camera
1712// was reading proton data. This is because the reflector files
1713// don't contain the photons in a chronological order and also
1714// the timespread can be considerably longer that the foreseen
1715// digitisation timespan. Please see the source code of camera.cxx
1716// round about line 1090.
1717//
1718// j) several unused variables were removed, a few warning messages
1719// occur when you compile camera.cxx but these can be ignored at
1720// the moment.
1721//
1722// In general the program is of course not finished. It still needs
1723// debugging, proper trigger simulation, simulation of the asymmetric
1724// version of the outer pixels, proper NSB simulation, adaption of
1725// the diag "ntuple" contents to our need and others small improvements.
1726//
1727// In the directory rfl-files there is now a file in reflector format 0.4
1728// containing a single event produced by the starfiled adder. It has
1729// a duration of 30 ns and represents the region around the Crab Nebula.
1730// Using the enclosed input parameter file, camera should process this
1731// file without problems.
1732//
1733// 2) The README for the previous version of root_camera
1734//
1735// README for a preliminary version of the
1736// root_camera program.
1737//
1738// root_camera is based on the program "camera"of Jose Carlos
1739// Gonzalez. It was changed in the way that only the pixelisation
1740// and the distibution of the phe to the FADCs works in a
1741// first version.
1742//
1743// Using the #undef command most possibilities of the orignal
1744// program are switched of.
1745//
1746// The new parts are signed by
1747//
1748// - ROOT or __ROOT__
1749// nearly all important codelines for ROOT output are enclosed
1750// in structures like
1751// #ifdef __ROOT__
1752//
1753// code
1754//
1755// #endif __ROOT__
1756//
1757// In same case the new lines are signed by a comment with the word
1758// ROOT in it.
1759//
1760// For timing of the pulse some variable names are changed.
1761// (t0, t1, t --> t_ini, t_fin, t_1st, t_chan,...)
1762// Look also for this changes.
1763//
1764// For the new root-file is also a change in readparm-files
1765//
1766//
1767// - __DETAIL_TRIGGER__
1768//
1769// This is for the implementation of the current work on trigger
1770// studies. Because the class MTrigger is not well documented it
1771// isn´t a part of this tar file. Only a dummy File exists.
1772//
1773//
1774//
1775// With all files in the archive, the root_camera program should run.
1776//
1777// A reflector file is in the directory rfl-files
1778//
1779// ==================================================
1780//
1781// From now on, use CVS for development!!!!
1782//
1783//
1784//
1785// Revision 1.2 1999/10/22 15:01:28 petry
1786// version sent to H.K. and N.M. on Fri Oct 22 1999
1787//
1788// Revision 1.1.1.1 1999/10/21 16:35:11 petry
1789// first synthesised version
1790//
1791// Revision 1.6 1999/03/15 14:59:08 gonzalez
1792// camera-1_1
1793//
1794// Revision 1.5 1999/03/02 09:56:12 gonzalez
1795// *** empty log message ***
1796//
1797// Revision 1.4 1999/01/14 17:32:41 gonzalez
1798// Added to camera the STDIN input option (data_from_input)
1799//
1800//!@}
1801
1802//=EOF
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