source: trunk/MagicSoft/Simulation/Detector/Starfield/convertcorsika.cxx@ 4747

Last change on this file since 4747 was 797, checked in by magicsol, 24 years ago
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File size: 3.2 KB
Line 
1//////////////////////////////////////////////////////////////////////////////////////
2// Write photon data in binary corsika-like format.
3// Output will be used as an input for the reflector as if it was a shower event.
4//
5//////////////////////////////////////////////////////////////////////////////////////
6
7#include "convertcorsika.h"
8
9COREventHeader cerevth;
10CORParticle cerphot;
11CORStatfile cerstat;
12float outbuf[273];
13
14int convertcorsika(int id, int photnum, photon phot[], float inttime_s, int verbose,char output_name[]){
15
16 int i,filenum;
17 int lastblock;
18 float x_cm, y_cm, u, v, lambda_nm, t_ns;
19 char cor_dir[60];
20 char stat_dir[60];
21 char cor_file[20]="cer";
22 char stat_file[20]="sta";
23
24 filenum=id;
25
26 // Event corsika file
27
28 //File labeling.
29
30 strcpy (cor_dir, "./");
31
32 strcat(cor_file, output_name);
33
34 strcat(cor_dir, cor_file);
35
36
37 // Fill the header of the corsika-like event.
38 //The fields in evt.fill are: event number, primary identifier, total energy (GeV),
39 // first target identifier, first z interaction(cm) , momentum x, momentum y, momentum z,
40 // zenith angle, azimuth angle, coreposition x (cm), coreposition y(cm)
41
42 ofstream cerfile;
43 //FILE cerfilec;
44
45 if(!cerfile) {
46 cerr<<"Cannot create cerenkov file.\n";
47 exit(1);
48 }
49
50 cerfile.open(cor_dir, ios::out);
51 /*if((cerfilec=fopen(cor_dir,"wb"))==NULL){
52 printf("C-style::Cannot create cerenkov file.\n");
53 exit(1);
54 }*/
55
56 //____________________________________________________________________________________
57
58 cout<<"Writing binary Cherenkov file"<<" "<<cor_dir<<" "<<"..."<<endl;
59
60 cerevth.fill (1.0,
61 99.0, // primary id
62 inttime_s * 1e9, // instead of the total energy: integration time (ns)
63 1.0,
64 1.e7,
65 0.0,
66 0.0,
67 0.0,
68 0.0, // theta is always 0. !
69 0.0, // phi is always 0. !
70 0.0,
71 0.0);
72 strcpy(cerevth.EVTH, "RUNH");
73
74 cerevth.write(cerfile);
75
76 strcpy(cerevth.EVTH, "EVTH");
77 cerevth.write(cerfile);
78
79 // Here we fill the information for each photon as a corsika particle.
80 // The fields in cerphot.fill are: wavelentgh (nm), x core position (cm), y core position (cm),
81 // u cosine director, v cosine director, time since first interaction (ns),
82 // height (cm) of first interaction.
83 //photnum=0;
84 for(i=0;i<photnum;i++){
85
86 lambda_nm = phot[i].lambda_nm;
87 x_cm = phot[i].x_m * 100.0;
88 y_cm = phot[i].y_m * 100.0;
89
90 u = phot[i].u;
91 v = phot[i].v;
92 t_ns = phot[i].arrtime_sec * 1e9;
93
94 cerphot.fill(lambda_nm,
95 x_cm,
96 y_cm,
97 u,
98 v,
99 t_ns,
100 1.e7);
101
102
103 cerphot.write(cerfile);
104 }
105 lastblock=39-photnum%39;
106
107 for(i=0;i<lastblock;i++){
108 cerphot.fill(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0);
109 cerphot.write(cerfile);
110 }
111 strcpy(cerevth.EVTH, "EVTE");
112 cerevth.write(cerfile);
113 strcpy(cerevth.EVTH, "RUNE");
114 cerevth.write(cerfile);
115
116 cerfile.close();
117
118 cout<<"Done."<<endl;
119
120 // Statistics corsika file
121
122 strcpy (stat_dir, "./");
123
124 //File labeling.
125
126 strcat(stat_file, output_name);
127
128 strcat(stat_dir, stat_file);
129
130 cerfile.open (stat_dir);
131
132 cout<<"Writing binary statistics file "<<" "<<stat_dir<<" "<<"..."<<endl;
133
134 cerstat.write(cerfile);
135
136 cerfile.close();
137
138 cout<<"Done."<<endl;
139
140 return 0;
141
142}
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