PJ_ocea.c
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#ifndef lint
static const char SCCSID[]="@(#)PJ_ocea.c 4.1 94/02/15 GIE REL";
#endif
#define PROJ_PARMS__ \
double rok; \
double rtk; \
double sinphi; \
double cosphi; \
double singam; \
double cosgam;
#define PJ_LIB__
#include "projects.h"
PROJ_HEAD(ocea, "Oblique Cylindrical Equal Area") "\n\tCyl, Sph"
"lonc= alpha= or\n\tlat_1= lat_2= lon_1= lon_2=";
FORWARD(s_forward); /* spheroid */
double t;
xy.y = sin(lp.lam);
/*
xy.x = atan2((tan(lp.phi) * P->cosphi + P->sinphi * xy.y) , cos(lp.lam));
*/
t = cos(lp.lam);
xy.x = atan((tan(lp.phi) * P->cosphi + P->sinphi * xy.y) / t);
if (t < 0.)
xy.x += PI;
xy.x *= P->rtk;
xy.y = P->rok * (P->sinphi * sin(lp.phi) - P->cosphi * cos(lp.phi) * xy.y);
return (xy);
}
INVERSE(s_inverse); /* spheroid */
double t, s;
xy.y /= P->rok;
xy.x /= P->rtk;
t = sqrt(1. - xy.y * xy.y);
lp.phi = asin(xy.y * P->sinphi + t * P->cosphi * (s = sin(xy.x)));
lp.lam = atan2(t * P->sinphi * s - xy.y * P->cosphi,
t * cos(xy.x));
return (lp);
}
FREEUP; if (P) pj_dalloc(P); }
ENTRY0(ocea)
double phi_0=0.0, phi_1, phi_2, lam_1, lam_2, lonz, alpha;
P->rok = P->a / P->k0;
P->rtk = P->a * P->k0;
if ( pj_param(P->params, "talpha").i) {
alpha = pj_param(P->params, "ralpha").f;
lonz = pj_param(P->params, "rlonc").f;
P->singam = atan(-cos(alpha)/(-sin(phi_0) * sin(alpha))) + lonz;
P->sinphi = asin(cos(phi_0) * sin(alpha));
} else {
phi_1 = pj_param(P->params, "rlat_1").f;
phi_2 = pj_param(P->params, "rlat_2").f;
lam_1 = pj_param(P->params, "rlon_1").f;
lam_2 = pj_param(P->params, "rlon_2").f;
P->singam = atan2(cos(phi_1) * sin(phi_2) * cos(lam_1) -
sin(phi_1) * cos(phi_2) * cos(lam_2),
sin(phi_1) * cos(phi_2) * sin(lam_2) -
cos(phi_1) * sin(phi_2) * sin(lam_1) );
P->sinphi = atan(-cos(P->singam - lam_1) / tan(phi_1));
}
P->lam0 = P->singam + HALFPI;
P->cosphi = cos(P->sinphi);
P->sinphi = sin(P->sinphi);
P->cosgam = cos(P->singam);
P->singam = sin(P->singam);
P->inv = s_inverse;
P->fwd = s_forward;
P->es = 0.;
ENDENTRY(P)