source: trunk/MagicSoft/Simulation/Detector/Camera/creadparam.h@ 348

Last change on this file since 348 was 308, checked in by harald, 25 years ago
This the starting point for CVS controlled further developments of the camera program. The program was originally written by Jose Carlos. But here you can find a "rootified" version to the program. This means that there is no hbook stuff in it now. Also the output of the program changed to the MagicRawDataFormat. The "rootification" was done by Dirk Petry and Harald Kornmayer. In the following you can see the README file of that version: ================================================== Fri Oct 22 1999 D.P. The MAGIC Monte Carlo System Camera Simulation Programme --------------------------- 1) Description This version is the result of the fusion of H.K.'s root_camera which is described below (section 2) and another version by D.P. which had a few additional useful features. The version compiles under Linux with ROOT 2.22 installed (variable ROOTSYS has to be set). Compile as before simply using "make" in the root_camera directory. All features of H.K.'s root_camera were retained. Additional features of this version are: a) HBOOK is no longer used and all references are removed. b) Instead of HBOOK, the user is given now the possibility of having Diagnostic data in ROOT format as a complement to the ROOT Raw data. This data is written to the file which is determined by the new input parameter "diag_file" in the camera parameter file. All source code file belonging to this part have filenames starting with "MDiag". The user can read the output file using the following commands in an interactive ROOT session: root [0] .L MDiag.so root [1] new TFile("diag.root"); root [2] new TTreeViewer("T"); This brings up a viewer from which all variables of the TTree can be accessed and histogrammed. This example assumes that you have named the file "diag.root", that you are using ROOT version 2.22 or later and that you have the shared object library "MDiag.so" which is produced by the Makefile along with the executable "camera". ! The contents of the so-called diag file is not yet fixed. ! At the moment it is what J.C.G. used to put into the HBOOK ! ntuple. In future versions the moments calculation can be ! removed and the parameter list be modified correspondingly. c) Now concatenated reflector files can be read. This is useful if you have run the reflector with different parameters but you want to continue the analysis with all reflector data going into ONE ROOT outputfile. The previous camera version contained a bug which made reading of two or more concatenated reflector files impossible. d) The reflector output format was changed. It is now version 0.4 . The change solely consists in a shortening of the flag definition in the file include-MC/MCCphoton.hxx ! IF YOU WANT TO READ REFLECTOR FORMAT 0.3, you can easily ! do so by recompiling camera with the previous version of ! include-MC/MCCphoton.hxx. The change was necessary for saving space and better debugging. From now on, this format can be frozen. ! For producing reflector output in the new format, you ! of course have to recompile your reflector with the ! new include-MC/MCCphoton.hxx . e) A first version of the pixelization with the larger outer pixels is implemented. THIS IS NOT YET FULLY TESTED, but first rough tests show that it works at least to a good approximation. The present version implements the camera outline with 18 "gap-pixels" and 595 pixels in total as shown in http://sarastro.ifae.es/internal/home/hardware/camera/numbering.ps This change involved (i) The file pixels.dat is no longer needed. Instead the coordinates are generated by the program itself (takes maybe 1 second). In the file pixel-coords.txt in the same directory as this README, you find a list of the coordinates generated by this new routine. It has the format number i j x y size-factor where i and j are J.C.G.'s so called biaxis hexagonal coordinates (for internal use) and x and y are the coordinates of the pixel centers in the standard camera coordinate system in units of centimeters. The value of "size-factor" determines the linear size of the pixel relative to the central pixels. (ii) The magic.def file has two additional parameters which give the number of central pixels and the number of gap pixels (iii) In camera.h and camera.cxx several changes were necessary, among them the introduction of several new functions The newly suggested outline with asymmetric Winston cones will be implemented in a later version. f) phe files can no longer be read since this contradicts our philosophy that the analysis should be done with other programs like e.g. EVITA and not with "camera" itself. This possibility was removed. g) ROOT is no longer invoked with an interactive interface. In this way, camera can better be run as a batch program and it uses less memory. h) small changes concerning the variable "t_chan" were necessary in order to avoid segmentation faults: The variable is used as an index and it went sometimes outside the limits when camera was reading proton data. This is because the reflector files don't contain the photons in a chronological order and also the timespread can be considerably longer that the foreseen digitisation timespan. Please see the source code of camera.cxx round about line 1090. j) several unused variables were removed, a few warning messages occur when you compile camera.cxx but these can be ignored at the moment. In general the program is of course not finished. It still needs debugging, proper trigger simulation, simulation of the asymmetric version of the outer pixels, proper NSB simulation, adaption of the diag "ntuple" contents to our need and others small improvements. In the directory rfl-files there is now a file in reflector format 0.4 containing a single event produced by the starfiled adder. It has a duration of 30 ns and represents the region around the Crab Nebula. Using the enclosed input parameter file, camera should process this file without problems. 2) The README for the previous version of root_camera README for a preliminary version of the root_camera program. root_camera is based on the program "camera"of Jose Carlos Gonzalez. It was changed in the way that only the pixelisation and the distibution of the phe to the FADCs works in a first version. Using the #undef command most possibilities of the orignal program are switched of. The new parts are signed by - ROOT or __ROOT__ nearly all important codelines for ROOT output are enclosed in structures like #ifdef __ROOT__ code #endif __ROOT__ In same case the new lines are signed by a comment with the word ROOT in it. For timing of the pulse some variable names are changed. (t0, t1, t --> t_ini, t_fin, t_1st, t_chan,...) Look also for this changes. For the new root-file is also a change in readparm-files - __DETAIL_TRIGGER__ This is for the implementation of the current work on trigger studies. Because the class MTrigger is not well documented it isn´t a part of this tar file. Only a dummy File exists. With all files in the archive, the root_camera program should run. A reflector file is in the directory rfl-files ================================================== From now on, use CVS for development!!!!
File size: 6.8 KB
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1//=//////////////////////////////////////////////////////////////////////
2//=
3//= creadparam
4//=
5//= @file creadparam.h
6//= @desc Header 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.h,v $
21//= $Revision: 1.1.1.1 $
22//= $Author: harald $
23//= $Date: 1999-11-05 11:59:34 $
24//=
25//=//////////////////////////////////////////////////////////////////////
26
27// @T \newpage
28
29//!@section Source code of |creadparam.h|.
30
31/*!@"
32
33 In this section you can find the source code for the file
34 |creadparam.h|. This file is mainly needed by
35 |creadparam.cxx|. Here is located the definition of the commands you
36 can use in the parameters file. In this file, the first line must be
37 |camera 'version'|, where |'version'| is the appropiate version of
38 the output format (NOT the version of the camera program) which can
39 read the commands written in that parameters file. You cannot mix
40 parameters files and executables with different versions. The
41 current version is |camera 0.2|.
42
43 The commands now available for the parameters file are:
44
45 @itemize
46
47 @- |input_file| filename :
48 Sets the name of the input file (|.rfl|).
49 @- |output_file| filename :
50 Sets the name of the output file (|.phe|).
51 @- |ct_file| filename :
52 Sets the name of the CT definition file (|.def|).
53 @- |data_file| filename :
54 Sets the name of the output data file (|.dat|).
55 @- |nsb_on| :
56 Activates the NSB simulation. This is the default.
57 @- |nsb_off| :
58 De-activates the NSB simulation.
59 @- |nsb_mean| number :
60 Sets the mean value for the NSB.
61 Default value: 6 for CT1, 6 for MAGIC.
62 This implies always |nsb_on|.
63 @- |threshold| number :
64 Sets the Threshold value q0. Default value: 10.
65 @- |tail_cut| number :
66 Sets the Tail-Cut value.
67 Default value: 7.
68 @- |islands_cut| number :
69 Sets the Islands-Cut value i0.
70 Default value: 10.
71 @- |end_file|
72 Last command in the parameters file.
73
74 @enditemize
75
76 @ignoreHTML
77 A parameters file (a small one) looks like this:
78
79 |camera 0.2|
80
81 |input_file gm100-500.rfl|
82
83 |output_file gm100-500.phe|
84
85 |output_file gm100-500.dat|
86
87 |ct_file magic.def|
88
89 |threshold 10.0|
90
91 |tail_cut 7.0|
92
93 |nsb_mean 5.0|
94
95 |end_file|
96 @endignoreHTML
97
98@"*/
99
100//!@{
101
102#ifndef _creadparam_
103#define _creadparam_
104
105#ifndef _this_
106#define _this_ creadparam
107#endif
108
109//!@}
110
111//!@subsection Include files.
112
113//!@{
114
115#include <iostream.h>
116#include <fstream.h>
117#include <stdlib.h>
118#include <stdio.h>
119#include <string.h>
120#include <math.h>
121#include <float.h>
122
123#include "jcmacros.h"
124#include "jcdebug.h"
125
126#include "camera-v.h"
127
128//!@}
129
130//!@subsection Macro-definitions, and constants.
131
132//!@{
133
134// now we define the list ITEM_LIST of possible items in
135// the parameters file. note that they are functions of
136// T(x). we will change T(x) to be the real item or the
137// string of this item when needed
138
139#define ITEM_LIST /* LIST OF ITEMS IN THE PARAMETERS FILE */ \
140T(input_file), /* input file */ \
141T(output_file), /* output file */ \
142T(data_file), /* data file */ \
143T(diag_file), /* diagnostic output file (ROOT format) */ \
144T(root_file), /* ROOT file */ \
145T(ct_file), /* file with the characteristics of the CT */ \
146T(ana_pixels), /* size of the camera for parameters calculation */ \
147T(nsb_on), /* activates NSB simulation */ \
148T(nsb_off), /* de-activates NSB simulation */ \
149T(nsb_mean), /* mean value of NSB contribution per pixel */ \
150T(threshold), /* value of q0 for trigger */ \
151T(tail_cut), /* value of tail cut (t0) */ \
152T(islands_on), /* DO count islands */ \
153T(islands_off), /* do NOT count islands */ \
154T(islands_cut), /* value of islands cut (i0) */ \
155T(seeds), /* seeds for random number generation */ \
156T(data_from_stdin), /* to read data from STDIN */ \
157T(skip), /* skip pathological showers */ \
158T(read_phe_all), /* id., but was processed with write_all_images */ \
159T(read_phe), /* read an already camera processed file */ \
160T(write_all_images),/* write to file .phe ALL images (even w.o. trigger)*/ \
161T(write_all_data), /* write to file .dat ALL image data */ \
162T(select_energy), /* energy range to read: only for .phe files */ \
163T(trigger_radius), /* trigger radius for the camera */ \
164T(correction), /* factor for correction in the pixel values */ \
165T(end_file) /* end of the parameters file */
166
167#define T(x) x // define T() as the name as it is
168
169enum ITEM_TYPE {
170 ITEM_LIST
171};
172
173#undef T
174
175#define T(x) #x // define T() as the string of x
176
177const char *const ITEM_NAMES[] = {
178 ITEM_LIST
179};
180
181#undef T
182
183#define LINE_MAX_LENGTH 400
184#define ITEM_MAX_LENGTH 40
185#define PATH_MAX_LENGTH 120
186
187// mean values of NSB contribution per pixel
188
189static const float Mean_NSB_MAGIC = 5.0; //@< for MAGIC
190static const float Mean_NSB_CT1 = 5.0; //@< for CT1
191
192//!@}
193
194//!@subsection Prototypes of functions.
195
196//!@{
197
198//++
199// prototypes
200//--
201
202void readparam(char * filename);
203char *get_input_filename(void);
204char *get_output_filename(void);
205char *get_data_filename(void);
206char *get_diag_filename(void);
207char *get_root_filename(void);
208char *get_ct_filename(void);
209int get_nsb(float *n);
210float get_threshold(void);
211float get_tail_cut(void);
212int get_islands_cut(int *n);
213long int get_seeds(int n);
214int get_ana_pixels(void);
215void get_skip_showers( int *s );
216int get_nskip_showers( void );
217int get_data_from_stdin(void);
218int get_read_phe(void);
219int get_read_phe_all(void);
220int get_write_all_images(void);
221int get_write_all_data(void);
222int get_select_energy(float *le, float *ue);
223int get_trigger_radius(float *radius);
224int get_correction(float *corr);
225//!@}
226
227//!@{
228
229#endif // ! _creadparam_
230
231//!@}
232
233//=------------------------------------------------------------
234//!@subsection Log of this file.
235
236//!@{
237
238/*
239 * $Log: not supported by cvs2svn $
240 * Revision 1.2 1999/10/22 15:01:29 petry
241 * version sent to H.K. and N.M. on Fri Oct 22 1999
242 *
243 * Revision 1.1.1.1 1999/10/21 16:35:11 petry
244 * first synthesised version
245 *
246 * Revision 1.7 1999/03/15 14:59:09 gonzalez
247 * camera-1_1
248 *
249 * Revision 1.6 1999/03/02 09:56:13 gonzalez
250 * *** empty log message ***
251 *
252 * Revision 1.5 1999/01/14 17:32:43 gonzalez
253 * Added to camera the STDIN input option (data_from_input)
254 *
255 */
256
257//!@}
258//=EOF
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