#include "astro.h"
char* startab = "/lib/sky/estartab";
void
stars(void)
{
double lomoon, himoon, sd;
int wrap, f, i;
char *saop;
static char saoa[100];
sd = 1000*radsec;
lomoon = omoon.point[0].ra - sd;
if(lomoon < 0)
lomoon += pipi;
himoon = omoon.point[NPTS+1].ra + sd;
if(himoon > pipi)
himoon -= pipi;
lomoon *= 12/pi;
himoon *= 12/pi;
wrap = 0;
if(lomoon > himoon)
wrap++;
f = open(startab, OREAD);
if(f < 0) {
fprint(2, "%s?\n", startab);
return;
}
epoch = 1950.0;
epoch = (epoch-1900.0) * 365.24220 + 0.313;
saop = saoa;
/*
* read mean places of stars at epoch of star table
*/
loop:
if(rline(f)) {
close(f);
return;
}
rah = atof(line+17);
ram = atof(line+20);
ras = atof(line+23);
alpha = rah + ram/60 + ras/3600;
if(wrap == 0) {
if(alpha < lomoon || alpha > himoon)
goto loop;
} else
if(alpha < lomoon && alpha > himoon)
goto loop;
sao = atof(line+0);
sprint(saop, "%ld", sao);
da = atof(line+30);
dday = atof(line+37);
dmin = atof(line+41);
dsec = atof(line+44);
dd = atof(line+50);
px = atof(line+57);
mag = atof(line+61);
/*
* convert rt ascension and declination to internal format
*/
delta = fabs(dday) + dmin/60 + dsec/3600;
if(dday < 0)
delta = -delta;
star();
/*
* if(fabs(beta) > 6.55*radian)
* goto loop;
*/
sd = .0896833e0*cos(beta)*sin(lambda-1.3820+.00092422117*eday)
+ 0.99597*sin(beta);
if(fabs(sd) > .0183)
goto loop;
for(i=0; i<=NPTS+1; i++)
setobj(&ostar.point[i]);
occult(&omoon, &ostar, 0);
if(occ.t1 >= 0 || occ.t5 >= 0) {
i = PTIME;
if(mag > 2)
i |= DARK;
if(mag < 5)
i |= SIGNIF;
if(occ.t1 >= 0 && occ.e1 >= 0)
event("Occultation of SAO %s begins at ",
saop, "", occ.t1, i);
if(occ.t5 >= 0 && occ.e5 >= 0)
event("Occultation of SAO %s ends at ",
saop, "", occ.t5, i);
while(*saop++)
;
}
goto loop;
}
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