EVOLUTION-MANAGER

Edit File: PJ_ortho.c

#define PJ_LIB__ #include <projects.h> PROJ_HEAD(ortho, "Orthographic") "\n\tAzi, Sph."; struct pj_opaque { double sinph0; double cosph0; int mode; }; #define EPS10 1.e-10 #define N_POLE 0 #define S_POLE 1 #define EQUIT 2 #define OBLIQ 3 static XY s_forward (LP lp, PJ *P) { /* Spheroidal, forward */ XY xy = {0.0,0.0}; struct pj_opaque *Q = P->opaque; double coslam, cosphi, sinphi; cosphi = cos(lp.phi); coslam = cos(lp.lam); switch (Q->mode) { case EQUIT: if (cosphi * coslam < - EPS10) F_ERROR; xy.y = sin(lp.phi); break; case OBLIQ: if (Q->sinph0 * (sinphi = sin(lp.phi)) + Q->cosph0 * cosphi * coslam < - EPS10) F_ERROR; xy.y = Q->cosph0 * sinphi - Q->sinph0 * cosphi * coslam; break; case N_POLE: coslam = - coslam; case S_POLE: if (fabs(lp.phi - P->phi0) - EPS10 > M_HALFPI) F_ERROR; xy.y = cosphi * coslam; break; } xy.x = cosphi * sin(lp.lam); return xy; } static LP s_inverse (XY xy, PJ *P) { /* Spheroidal, inverse */ LP lp = {0.0,0.0}; struct pj_opaque *Q = P->opaque; double rh, cosc, sinc; if ((sinc = (rh = hypot(xy.x, xy.y))) > 1.) { if ((sinc - 1.) > EPS10) I_ERROR; sinc = 1.; } cosc = sqrt(1. - sinc * sinc); /* in this range OK */ if (fabs(rh) <= EPS10) { lp.phi = P->phi0; lp.lam = 0.0; } else { switch (Q->mode) { case N_POLE: xy.y = -xy.y; lp.phi = acos(sinc); break; case S_POLE: lp.phi = - acos(sinc); break; case EQUIT: lp.phi = xy.y * sinc / rh; xy.x *= sinc; xy.y = cosc * rh; goto sinchk; case OBLIQ: lp.phi = cosc * Q->sinph0 + xy.y * sinc * Q->cosph0 /rh; xy.y = (cosc - Q->sinph0 * lp.phi) * rh; xy.x *= sinc * Q->cosph0; sinchk: if (fabs(lp.phi) >= 1.) lp.phi = lp.phi < 0. ? -M_HALFPI : M_HALFPI; else lp.phi = asin(lp.phi); break; } lp.lam = (xy.y == 0. && (Q->mode == OBLIQ || Q->mode == EQUIT)) ? (xy.x == 0. ? 0. : xy.x < 0. ? -M_HALFPI : M_HALFPI) : atan2(xy.x, xy.y); } return lp; } static void *freeup_new (PJ *P) { /* Destructor */ if (0==P) return 0; if (0==P->opaque) return pj_dealloc (P); pj_dealloc (P->opaque); return pj_dealloc(P); } static void freeup (PJ *P) { freeup_new (P); return; } PJ *PROJECTION(ortho) { struct pj_opaque *Q = pj_calloc (1, sizeof (struct pj_opaque)); if (0==Q) return freeup_new (P); P->opaque = Q; if (fabs(fabs(P->phi0) - M_HALFPI) <= EPS10) Q->mode = P->phi0 < 0. ? S_POLE : N_POLE; else if (fabs(P->phi0) > EPS10) { Q->mode = OBLIQ; Q->sinph0 = sin(P->phi0); Q->cosph0 = cos(P->phi0); } else Q->mode = EQUIT; P->inv = s_inverse; P->fwd = s_forward; P->es = 0.; return P; } #ifndef PJ_SELFTEST int pj_ortho_selftest (void) {return 0;} #else int pj_ortho_selftest (void) { double tolerance_lp = 1e-10; double tolerance_xy = 1e-7; char s_args[] = {"+proj=ortho +a=6400000 +lat_1=0.5 +lat_2=2"}; LP fwd_in[] = { { 2, 1}, { 2,-1}, {-2, 1}, {-2,-1} }; XY s_fwd_expect[] = { { 223322.76057672748, 111695.401198614476}, { 223322.76057672748, -111695.401198614476}, {-223322.76057672748, 111695.401198614476}, {-223322.76057672748, -111695.401198614476}, }; XY inv_in[] = { { 200, 100}, { 200,-100}, {-200, 100}, {-200,-100} }; LP s_inv_expect[] = { { 0.0017904931102938101, 0.000895246554928338998}, { 0.0017904931102938101, -0.000895246554928338998}, {-0.0017904931102938101, 0.000895246554928338998}, {-0.0017904931102938101, -0.000895246554928338998}, }; return pj_generic_selftest (0, s_args, tolerance_xy, tolerance_lp, 4, 4, fwd_in, 0, s_fwd_expect, inv_in, 0, s_inv_expect); } #endif