EVOLUTION-MANAGER

Edit File: mbtfpq.cpp

#define PJ_LIB__

#include <math.h>

#include "proj.h"
#include "proj_internal.h"

PROJ_HEAD(mbtfpq, "McBryde-Thomas Flat-Polar Quartic") "\n\tCyl, Sph";

#define NITER   20
#define EPS 1e-7
#define ONETOL 1.000001
#define C   1.70710678118654752440
#define RC  0.58578643762690495119
#define FYC 1.87475828462269495505
#define RYC 0.53340209679417701685
#define FXC 0.31245971410378249250
#define RXC 3.20041258076506210122

static PJ_XY mbtfpq_s_forward (PJ_LP lp, PJ *P) {           /* Spheroidal, forward */
    PJ_XY xy = {0.0,0.0};
    double th1, c;
    int i;
    (void) P;

c = C * sin(lp.phi);
    for (i = NITER; i; --i) {
        lp.phi -= th1 = (sin(.5*lp.phi) + sin(lp.phi) - c) /
            (.5*cos(.5*lp.phi)  + cos(lp.phi));
        if (fabs(th1) < EPS) break;
    }
    xy.x = FXC * lp.lam * (1.0 + 2. * cos(lp.phi)/cos(0.5 * lp.phi));
    xy.y = FYC * sin(0.5 * lp.phi);
    return xy;
}

static PJ_LP mbtfpq_s_inverse (PJ_XY xy, PJ *P) {           /* Spheroidal, inverse */
    PJ_LP lp = {0.0,0.0};
    double t;

lp.phi = RYC * xy.y;
    if (fabs(lp.phi) > 1.) {
        if (fabs(lp.phi) > ONETOL) {
            proj_errno_set(P, PJD_ERR_TOLERANCE_CONDITION);
            return lp;
        }
        else if (lp.phi < 0.) { t = -1.; lp.phi = -M_PI; }
        else { t = 1.; lp.phi = M_PI; }
    } else
        lp.phi = 2. * asin(t = lp.phi);
    lp.lam = RXC * xy.x / (1. + 2. * cos(lp.phi)/cos(0.5 * lp.phi));
    lp.phi = RC * (t + sin(lp.phi));
    if (fabs(lp.phi) > 1.)
        if (fabs(lp.phi) > ONETOL) {
            proj_errno_set(P, PJD_ERR_TOLERANCE_CONDITION);
            return lp;
        }
        else            lp.phi = lp.phi < 0. ? -M_HALFPI : M_HALFPI;
    else
        lp.phi = asin(lp.phi);
    return lp;
}

PJ *PROJECTION(mbtfpq) {

P->es = 0.;
    P->inv = mbtfpq_s_inverse;
    P->fwd = mbtfpq_s_forward;

return P;
}