#define PJ_LIB__ #include #include #include "proj.h" #include "proj_internal.h" PROJ_HEAD(gstmerc, "Gauss-Schreiber Transverse Mercator (aka Gauss-Laborde Reunion)") "\n\tCyl, Sph&Ell\n\tlat_0= lon_0= k_0="; namespace { // anonymous namespace struct pj_opaque { double lamc; double phic; double c; double n1; double n2; double XS; double YS; }; } // anonymous namespace static PJ_XY gstmerc_s_forward (PJ_LP lp, PJ *P) { /* Spheroidal, forward */ PJ_XY xy = {0.0,0.0}; struct pj_opaque *Q = static_cast(P->opaque); double L, Ls, sinLs1, Ls1; L = Q->n1*lp.lam; Ls = Q->c + Q->n1 * log(pj_tsfn(-lp.phi, -sin(lp.phi), P->e)); sinLs1 = sin(L) / cosh(Ls); Ls1 = log(pj_tsfn(-asin(sinLs1), -sinLs1, 0.0)); xy.x = (Q->XS + Q->n2*Ls1) * P->ra; xy.y = (Q->YS + Q->n2*atan(sinh(Ls) / cos(L))) * P->ra; return xy; } static PJ_LP gstmerc_s_inverse (PJ_XY xy, PJ *P) { /* Spheroidal, inverse */ PJ_LP lp = {0.0,0.0}; struct pj_opaque *Q = static_cast(P->opaque); double L, LC, sinC; L = atan(sinh((xy.x * P->a - Q->XS) / Q->n2) / cos((xy.y * P->a - Q->YS) / Q->n2)); sinC = sin((xy.y * P->a - Q->YS) / Q->n2) / cosh((xy.x * P->a - Q->XS) / Q->n2); LC = log(pj_tsfn(-asin(sinC), -sinC, 0.0)); lp.lam = L / Q->n1; lp.phi = -pj_phi2(P->ctx, exp((LC - Q->c) / Q->n1), P->e); return lp; } PJ *PROJECTION(gstmerc) { struct pj_opaque *Q = static_cast(calloc (1, sizeof (struct pj_opaque))); if (nullptr==Q) return pj_default_destructor (P, PROJ_ERR_OTHER /*ENOMEM*/); P->opaque = Q; Q->lamc = P->lam0; Q->n1 = sqrt(1 + P->es * pow(cos(P->phi0), 4.0) / (1 - P->es)); Q->phic = asin(sin(P->phi0) / Q->n1); Q->c = log(pj_tsfn(-Q->phic, -sin(P->phi0) / Q->n1, 0.0)) - Q->n1 * log(pj_tsfn(-P->phi0, -sin(P->phi0), P->e)); Q->n2 = P->k0 * P->a * sqrt(1 - P->es) / (1 - P->es * sin(P->phi0) * sin(P->phi0)); Q->XS = 0; Q->YS = -Q->n2 * Q->phic; P->inv = gstmerc_s_inverse; P->fwd = gstmerc_s_forward; return P; }