EVOLUTION-MANAGER

Edit File: PJ_gn_sinu.c

#define PJ_LIB__ #include <errno.h> #include <math.h> #include "proj.h" #include "projects.h" PROJ_HEAD(gn_sinu, "General Sinusoidal Series") "\n\tPCyl, Sph.\n\tm= n="; PROJ_HEAD(sinu, "Sinusoidal (Sanson-Flamsteed)") "\n\tPCyl, Sph&Ell"; PROJ_HEAD(eck6, "Eckert VI") "\n\tPCyl, Sph."; PROJ_HEAD(mbtfps, "McBryde-Thomas Flat-Polar Sinusoidal") "\n\tPCyl, Sph."; #define EPS10 1e-10 #define MAX_ITER 8 #define LOOP_TOL 1e-7 struct pj_opaque { double *en; double m, n, C_x, C_y; }; static XY e_forward (LP lp, PJ *P) { /* Ellipsoidal, forward */ XY xy = {0.0,0.0}; double s, c; xy.y = pj_mlfn(lp.phi, s = sin(lp.phi), c = cos(lp.phi), P->opaque->en); xy.x = lp.lam * c / sqrt(1. - P->es * s * s); return xy; } static LP e_inverse (XY xy, PJ *P) { /* Ellipsoidal, inverse */ LP lp = {0.0,0.0}; double s; if ((s = fabs(lp.phi = pj_inv_mlfn(P->ctx, xy.y, P->es, P->opaque->en))) < M_HALFPI) { s = sin(lp.phi); lp.lam = xy.x * sqrt(1. - P->es * s * s) / cos(lp.phi); } else if ((s - EPS10) < M_HALFPI) { lp.lam = 0.; } else { proj_errno_set(P, PJD_ERR_TOLERANCE_CONDITION); } return lp; } static XY s_forward (LP lp, PJ *P) { /* Spheroidal, forward */ XY xy = {0.0,0.0}; struct pj_opaque *Q = P->opaque; if (Q->m == 0.0) lp.phi = Q->n != 1. ? aasin(P->ctx,Q->n * sin(lp.phi)): lp.phi; else { double k, V; int i; k = Q->n * sin(lp.phi); for (i = MAX_ITER; i ; --i) { lp.phi -= V = (Q->m * lp.phi + sin(lp.phi) - k) / (Q->m + cos(lp.phi)); if (fabs(V) < LOOP_TOL) break; } if (!i) { proj_errno_set(P, PJD_ERR_TOLERANCE_CONDITION); return xy; } } xy.x = Q->C_x * lp.lam * (Q->m + cos(lp.phi)); xy.y = Q->C_y * lp.phi; return xy; } static LP s_inverse (XY xy, PJ *P) { /* Spheroidal, inverse */ LP lp = {0.0,0.0}; struct pj_opaque *Q = P->opaque; xy.y /= Q->C_y; lp.phi = (Q->m != 0.0) ? aasin(P->ctx,(Q->m * xy.y + sin(xy.y)) / Q->n) : ( Q->n != 1. ? aasin(P->ctx,sin(xy.y) / Q->n) : xy.y ); lp.lam = xy.x / (Q->C_x * (Q->m + cos(xy.y))); return lp; } static void *destructor (PJ *P, int errlev) { /* Destructor */ if (0==P) return 0; if (0==P->opaque) return pj_default_destructor (P, errlev); pj_dealloc (P->opaque->en); return pj_default_destructor (P, errlev); } /* for spheres, only */ static void setup(PJ *P) { struct pj_opaque *Q = P->opaque; P->es = 0; P->inv = s_inverse; P->fwd = s_forward; Q->C_x = (Q->C_y = sqrt((Q->m + 1.) / Q->n))/(Q->m + 1.); } PJ *PROJECTION(sinu) { struct pj_opaque *Q = pj_calloc (1, sizeof (struct pj_opaque)); if (0==Q) return pj_default_destructor (P, ENOMEM); P->opaque = Q; P->destructor = destructor; if (!(Q->en = pj_enfn(P->es))) return pj_default_destructor (P, ENOMEM); if (P->es != 0.0) { P->inv = e_inverse; P->fwd = e_forward; } else { Q->n = 1.; Q->m = 0.; setup(P); } return P; } PJ *PROJECTION(eck6) { struct pj_opaque *Q = pj_calloc (1, sizeof (struct pj_opaque)); if (0==Q) return pj_default_destructor (P, ENOMEM); P->opaque = Q; P->destructor = destructor; Q->m = 1.; Q->n = 2.570796326794896619231321691; setup(P); return P; } PJ *PROJECTION(mbtfps) { struct pj_opaque *Q = pj_calloc (1, sizeof (struct pj_opaque)); if (0==Q) return pj_default_destructor (P, ENOMEM); P->opaque = Q; P->destructor = destructor; Q->m = 0.5; Q->n = 1.785398163397448309615660845; setup(P); return P; } PJ *PROJECTION(gn_sinu) { struct pj_opaque *Q = pj_calloc (1, sizeof (struct pj_opaque)); if (0==Q) return pj_default_destructor (P, ENOMEM); P->opaque = Q; P->destructor = destructor; if (pj_param(P->ctx, P->params, "tn").i && pj_param(P->ctx, P->params, "tm").i) { Q->n = pj_param(P->ctx, P->params, "dn").f; Q->m = pj_param(P->ctx, P->params, "dm").f; if (Q->n <= 0 || Q->m < 0) return destructor (P, PJD_ERR_INVALID_M_OR_N); } else return destructor (P, PJD_ERR_INVALID_M_OR_N); setup(P); return P; }