#define PROJ_PARMS__ \ double sinph0; \ double cosph0; \ int mode; #define PJ_LIB__ #include PROJ_HEAD(gnom, "Gnomonic") "\n\tAzi, Sph."; #define EPS10 1.e-10 #define N_POLE 0 #define S_POLE 1 #define EQUIT 2 #define OBLIQ 3 FORWARD(s_forward); /* spheroid */ double coslam, cosphi, sinphi; sinphi = sin(lp.phi); cosphi = cos(lp.phi); coslam = cos(lp.lam); switch (P->mode) { case EQUIT: xy.y = cosphi * coslam; break; case OBLIQ: xy.y = P->sinph0 * sinphi + P->cosph0 * cosphi * coslam; break; case S_POLE: xy.y = - sinphi; break; case N_POLE: xy.y = sinphi; break; } if (xy.y <= EPS10) F_ERROR; xy.x = (xy.y = 1. / xy.y) * cosphi * sin(lp.lam); switch (P->mode) { case EQUIT: xy.y *= sinphi; break; case OBLIQ: xy.y *= P->cosph0 * sinphi - P->sinph0 * cosphi * coslam; break; case N_POLE: coslam = - coslam; case S_POLE: xy.y *= cosphi * coslam; break; } return (xy); } INVERSE(s_inverse); /* spheroid */ double rh, cosz, sinz; rh = hypot(xy.x, xy.y); sinz = sin(lp.phi = atan(rh)); cosz = sqrt(1. - sinz * sinz); if (fabs(rh) <= EPS10) { lp.phi = P->phi0; lp.lam = 0.; } else { switch (P->mode) { case OBLIQ: lp.phi = cosz * P->sinph0 + xy.y * sinz * P->cosph0 / rh; if (fabs(lp.phi) >= 1.) lp.phi = lp.phi > 0. ? HALFPI : - HALFPI; else lp.phi = asin(lp.phi); xy.y = (cosz - P->sinph0 * sin(lp.phi)) * rh; xy.x *= sinz * P->cosph0; break; case EQUIT: lp.phi = xy.y * sinz / rh; if (fabs(lp.phi) >= 1.) lp.phi = lp.phi > 0. ? HALFPI : - HALFPI; else lp.phi = asin(lp.phi); xy.y = cosz * rh; xy.x *= sinz; break; case S_POLE: lp.phi -= HALFPI; break; case N_POLE: lp.phi = HALFPI - lp.phi; xy.y = -xy.y; break; } lp.lam = atan2(xy.x, xy.y); } return (lp); } FREEUP; if (P) pj_dalloc(P); } ENTRY0(gnom) if (fabs(fabs(P->phi0) - HALFPI) < EPS10) P->mode = P->phi0 < 0. ? S_POLE : N_POLE; else if (fabs(P->phi0) < EPS10) P->mode = EQUIT; else { P->mode = OBLIQ; P->sinph0 = sin(P->phi0); P->cosph0 = cos(P->phi0); } P->inv = s_inverse; P->fwd = s_forward; P->es = 0.; ENDENTRY(P)