EVOLUTION-MANAGER

Edit File: nad_cvt.c

#define PJ_LIB__ #include <stdio.h> #include <stdlib.h> #include "projects.h" #include "proj_math.h" #define MAX_ITERATIONS 10 #define TOL 1e-12 LP nad_cvt(LP in, int inverse, struct CTABLE *ct) { LP t, tb,del, dif; int i = MAX_ITERATIONS; const double toltol = TOL*TOL; if (in.lam == HUGE_VAL) return in; /* normalize input to ll origin */ tb = in; tb.lam -= ct->ll.lam; tb.phi -= ct->ll.phi; tb.lam = adjlon (tb.lam - M_PI) + M_PI; t = nad_intr (tb, ct); if (t.lam == HUGE_VAL) return t; if (!inverse) { in.lam -= t.lam; in.phi += t.phi; return in; } t.lam = tb.lam + t.lam; t.phi = tb.phi - t.phi; do { del = nad_intr(t, ct); /* This case used to return failure, but I have changed it to return the first order approximation of the inverse shift. This avoids cases where the grid shift *into* this grid came from another grid. While we aren't returning optimally correct results I feel a close result in this case is better than no result. NFW To demonstrate use -112.5839956 49.4914451 against the NTv2 grid shift file from Canada. */ if (del.lam == HUGE_VAL) break; dif.lam = t.lam - del.lam - tb.lam; dif.phi = t.phi + del.phi - tb.phi; t.lam -= dif.lam; t.phi -= dif.phi; } while (--i && (dif.lam*dif.lam + dif.phi*dif.phi > toltol)); /* prob. slightly faster than hypot() */ if (i==0) { /* If we had access to a context, this should go through pj_log, and we should set ctx->errno */ if (getenv ("PROJ_DEBUG")) fprintf( stderr, "Inverse grid shift iterator failed to converge.\n" ); t.lam = t.phi = HUGE_VAL; return t; } /* and again: pj_log and ctx->errno */ if (del.lam==HUGE_VAL && getenv ("PROJ_DEBUG")) fprintf (stderr, "Inverse grid shift iteration failed, presumably at grid edge.\nUsing first approximation.\n"); in.lam = adjlon (t.lam + ct->ll.lam); in.phi = t.phi + ct->ll.phi; return in; }