source: branches/start/MagicSoft/Simulation/Corsika/Checkmc/checkmc.h@ 10113

Last change on this file since 10113 was 328, checked in by magiccvs, 25 years ago
This is the starting point for further development of the checkmc program. This program is based on the work of JC Gonzales, D Petry & P Morawitz. I hope it is running under linux and osf/alphas. You have to set the right values in the config.mk.* file and the Makefile. Now this program is also under CVS control.
File size: 4.5 KB
Line 
1/////////////////////////////////////////////////////////////////
2//
3// checkmc.h
4//
5// Created: Thu May 7 16:24:22 1998
6// Authors: Jose Carlos Gonzalez et al.
7// Purpose: include file for checkmc.cxx
8// Notes: version 2-10-98
9//
10/////////////////////////////////////////////////////////////////
11
12// @T \newpage
13
14// @section Source code of {\tt checkmc.h}
15
16/* @text
17This section shows the include file {\tt checkmc.h}
18@endtext */
19
20// @subsection Include files
21
22// @code
23#include <iostream.h>
24#include <fstream.h>
25#include <stdlib.h>
26#include <stdio.h>
27#include <string.h>
28#include <stdarg.h>
29#include <math.h>
30#include <float.h>
31#include <sys/types.h>
32#include <dirent.h>
33
34#include "jcmacros.h"
35#include "jcdebug.h"
36
37#include "COREventHeader.hxx"
38#include "CORParticle.hxx"
39#include "CORStatfile.hxx"
40
41// @endcode
42
43// @subsection Macro-definitions, and constants
44
45// @code
46
47
48
49#ifndef VERSION
50
51#define PROGRAM checkmc
52#define VERSION 1.0
53
54#define GLUE_prep(x,y) #x" "#y
55#define GLUE_postp(x,y) GLUE_prep(x,y)
56
57const char SIGNATURE[] = GLUE_postp( PROGRAM, VERSION );
58
59#endif // ! VERSION
60
61
62
63#define NORM(x) (sqrt(SQR(x[0])+SQR(x[1])+SQR(x[2]))) /* Norm(vector) */
64#define RAD(x) ((x)*0.0174532925199433)
65#define DEG(x) ((x)*57.2957795130823)
66
67
68
69// now we define the list PAR_ITEM_LIST of possible items in
70// the CT definition file.
71
72#define PAR_ITEM_LIST /* LIST OF ITEMS IN THE CT DEFINITION FILE */ \
73T(data_paths), /* begin of the list of source data paths */ \
74T(output_file), /* output file */ \
75T(verbose_level), /* defines verbose level of the output */ \
76T(max_events), /* maximum number of event to read */ \
77T(reference_histo), /* reference histogram */ \
78T(end_file) /* end of the parameters file */
79
80#define T(x) x // define T() as the name as it is
81
82enum PAR_ITEM_TYPE {
83 PAR_ITEM_LIST
84};
85
86#undef T
87
88#define T(x) #x // define T() as the string of x
89
90const char *const PAR_ITEM_NAMES[] = {
91 PAR_ITEM_LIST
92};
93
94#undef T
95
96
97#define LINE_MAX_LENGTH 120
98#define ITEM_MAX_LENGTH 40
99#define PATH_MAX_LENGTH 120
100
101#define NTHSTEP 79 // assumes thstep = 10 g/cm2 (790/10 = 79)
102
103// maximum number of bins for the 1D histograms
104#define NMAXBINS 100
105
106
107// Verbose Levels
108enum VerboseLevel {
109 VERBOSE_QUIET,
110 VERBOSE_MINIMAL,
111 VERBOSE_NORMAL,
112 VERBOSE_MAXIMAL
113};
114
115#define VERBOSE_DEFAULT VERBOSE_MINIMAL
116
117// @endcode
118
119/* @text
120Definition of the dimensions of the diagnostics messages array in
121 monitor_event()
122@endtext */
123// @code
124#define DIAGX 256
125#define DIAGY 20
126// @endcode
127
128
129/* @text
130Data for the atmosphere: useful for conversion between height and thickness.
131@endtext */
132
133// @code
134
135float AATM[5] = {
136 -186.5562e0,
137 -94.919e0,
138 0.61289e0,
139 0.e0,
140 .01128292e0 };
141float BATM[5] = {
142 1222.6562e0,
143 1144.9069e0,
144 1305.5948e0,
145 540.1778e0,
146 0.e0 };
147float CATM[5] = {
148 994186.38e0,
149 878153.55e0,
150 636143.04e0,
151 772170.16e0,
152 1.e-9};
153float DATM[5] = {
154 1.00584761581626e-06,
155 1.13875301193054e-06,
156 1.57197349828743e-06,
157 1.29505133946124e-06,
158 1.00000000000000e+09}; // = 1 / CATM
159
160// @endcode
161
162
163// @subsection Prototypes of functions
164
165//++
166// prototypes
167//--
168
169//@code
170
171void present(void);
172void log(const char *funct, char *fmt, ...);
173void error(const char *funct, char *fmt, ...);
174void readparam(void);
175int get_num_of_paths(void);
176char *get_path_name(int i);
177char *get_output_filename(void);
178int get_max_events(void);
179float thick( float height, float theta );
180float height( float thk, float theta );
181void monitor_event(char diag[DIAGX][DIAGY], int *ndiag, const char* primary,
182 const float a, const float b, const char* message);
183
184// @endcode
185
186// @text
187// CFortran routines will be used.
188// @endtext
189
190// @code
191#include <stdlib.h>
192#include <cfortran.h>
193// #include <packlib.h>
194#include "hbook.h"
195//#include "minuit.h"
196//#include "kuip.h"
197//#include "zebra.h"
198
199#define PAWC_SIZE 1000000
200
201float pawc_[PAWC_SIZE];
202
203// extern "C"
204//{
205// extern void hlimit_(int*);
206// extern void hropen_(int*, char*, char*, char*, int*, int*, int, int, int);
207// extern void hbookn_(int*, char*, int*, char*, int*, char*, int, int, int);
208// extern void hrout_(int*, int*, char*, int);
209// extern void hrend_(char*, int);
210// extern void hfn_(int*, float*);
211// }
212// @endcode
213
214
215 char* strconcat(const char* s1, const char* s2, char* s3)
216 {
217 for (int i=0;s3[i]=s1[i]; ++i);
218 for (int i=strlen(s1);s3[i]=s2[i-strlen(s1)]; ++i);
219 return s3;
220 }
221
222
223
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