ref: d0ae2e369e0221e796f4b58255b21ce3592d80dc
dir: /sys/src/cmd/astro/dist.c/
#include "astro.h" double dist(Obj1 *p, Obj1 *q) { double a; a = sin(p->decl2)*sin(q->decl2) + cos(p->decl2)*cos(q->decl2)*cos(p->ra-q->ra); a = fabs(atan2(pyth(a), a)) / radsec; return a; } int rline(int f) { char *p; int c; static char buf[1024]; static int bc, bn, bf; if(bf != f) { bf = f; bn = 0; } p = line; do { if(bn <= 0) { bn = read(bf, buf, sizeof(buf)); if(bn <= 0) return 1; bc = 0; } c = buf[bc]; bn--; bc++; *p++ = c; } while(c != '\n'); return 0; } double sunel(double t) { int i; i = floor(t); if(i < 0 || i > NPTS+1) return -90; t = osun.point[i].el + (t-i)*(osun.point[i+1].el - osun.point[i].el); return t; } double rise(Obj2 *op, double el) { Obj2 *p; int i; double e1, e2; e2 = 0; p = op; for(i=0; i<=NPTS; i++) { e1 = e2; e2 = p->point[i].el; if(i >= 1 && e1 <= el && e2 > el) goto found; } return -1; found: return i - 1 + (el-e1)/(e2-e1); } double set(Obj2 *op, double el) { Obj2 *p; int i; double e1, e2; e2 = 0; p = op; for(i=0; i<=NPTS; i++) { e1 = e2; e2 = p->point[i].el; if(i >= 1 && e1 > el && e2 <= el) goto found; } return -1; found: return i - 1 + (el-e1)/(e2-e1); } double solstice(int n) { int i; double d1, d2, d3; d3 = (n*pi)/2 - pi; if(n == 0) d3 += pi; d2 = 0.; for(i=0; i<=NPTS; i++) { d1 = d2; d2 = osun.point[i].ra; if(n == 0) { d2 -= pi; if(d2 < -pi) d2 += pipi; } if(i >= 1 && d3 >= d1 && d3 < d2) goto found; } return -1; found: return i - (d3-d2)/(d1-d2); } double betcross(double b) { int i; double d1, d2; d2 = 0; for(i=0; i<=NPTS; i++) { d1 = d2; d2 = osun.point[i].mag; if(i >= 1 && b >= d1 && b < d2) goto found; } return -1; found: return i - (b-d2)/(d1-d2); } double melong(Obj2 *op) { Obj2 *p; int i; double d1, d2, d3; d2 = 0; d3 = 0; p = op; for(i=0; i<=NPTS; i++) { d1 = d2; d2 = d3; d3 = dist(&p->point[i], &osun.point[i]); if(i >= 2 && d2 >= d1 && d2 >= d3) goto found; } return -1; found: return i - 2; } #define NEVENT 100 Event events[NEVENT]; Event* eventp = 0; void event(char *format, char *arg1, char *arg2, double tim, int flag) { Event *p; if(flag & DARK) if(sunel(tim) > -12) return; if(flag & LIGHT) if(sunel(tim) < 0) return; if(eventp == 0) eventp = events; p = eventp; if(p >= events+NEVENT) { fprint(2, "too many events\n"); return; } eventp++; p->format = format; p->arg1 = arg1; p->arg2 = arg2; p->tim = tim; p->flag = flag; } void evflush(void) { Event *p; if(eventp == 0) return; qsort(events, eventp-events, sizeof *p, evcomp); for(p = events; p<eventp; p++) { if((p->flag&SIGNIF) && flags['s']) print("ding ding ding "); print(p->format, p->arg1, p->arg2); if(p->flag & PTIME) ptime(day + p->tim*deld); print("\n"); } eventp = 0; } int evcomp(void *a1, void *a2) { double t1, t2; Event *p1, *p2; p1 = a1; p2 = a2; t1 = p1->tim; t2 = p2->tim; if(p1->flag & SIGNIF) t1 -= 1000.; if(p2->flag & SIGNIF) t2 -= 1000.; if(t1 > t2) return 1; if(t2 > t1) return -1; return 0; } double pyth(double x) { x *= x; if(x > 1) x = 1; return sqrt(1-x); } char* skip(int n) { int i; char *cp; cp = line; for(i=0; i<n; i++) { while(*cp == ' ' || *cp == '\t') cp++; while(*cp != '\n' && *cp != ' ' && *cp != '\t') cp++; } while(*cp == ' ' || *cp == '\t') cp++; return cp; }