diff options
Diffstat (limited to 'src/3rdparty/proj/PJ_gstmerc.c')
-rw-r--r-- | src/3rdparty/proj/PJ_gstmerc.c | 48 |
1 files changed, 0 insertions, 48 deletions
diff --git a/src/3rdparty/proj/PJ_gstmerc.c b/src/3rdparty/proj/PJ_gstmerc.c deleted file mode 100644 index 23b86ee8..00000000 --- a/src/3rdparty/proj/PJ_gstmerc.c +++ /dev/null @@ -1,48 +0,0 @@ -#define PROJ_PARMS__ \ - double lamc;\ - double phic;\ - double c;\ - double n1;\ - double n2;\ - double XS;\ - double YS; - -#define PJ_LIB__ -# include <projects.h> -PROJ_HEAD(gstmerc, "Gauss-Schreiber Transverse Mercator (aka Gauss-Laborde Reunion)") - "\n\tCyl, Sph&Ell\n\tlat_0= lon_0= k_0="; -FORWARD(s_forward); /* spheroid */ - double L, Ls, sinLs1, Ls1; - L= P->n1*lp.lam; - Ls= P->c+P->n1*log(pj_tsfn(-1.0*lp.phi,-1.0*sin(lp.phi),P->e)); - sinLs1= sin(L)/cosh(Ls); - Ls1= log(pj_tsfn(-1.0*asin(sinLs1),0.0,0.0)); - xy.x= (P->XS + P->n2*Ls1)*P->ra; - xy.y= (P->YS + P->n2*atan(sinh(Ls)/cos(L)))*P->ra; - /*fprintf(stderr,"fwd:\nL =%16.13f\nLs =%16.13f\nLs1 =%16.13f\nLP(%16.13f,%16.13f)=XY(%16.4f,%16.4f)\n",L,Ls,Ls1,lp.lam+P->lam0,lp.phi,(xy.x*P->a + P->x0)*P->to_meter,(xy.y*P->a + P->y0)*P->to_meter);*/ - return (xy); -} -INVERSE(s_inverse); /* spheroid */ - double L, LC, sinC; - L= atan(sinh((xy.x*P->a - P->XS)/P->n2)/cos((xy.y*P->a - P->YS)/P->n2)); - sinC= sin((xy.y*P->a - P->YS)/P->n2)/cosh((xy.x*P->a - P->XS)/P->n2); - LC= log(pj_tsfn(-1.0*asin(sinC),0.0,0.0)); - lp.lam= L/P->n1; - lp.phi= -1.0*pj_phi2(exp((LC-P->c)/P->n1),P->e); - /*fprintf(stderr,"inv:\nL =%16.13f\nsinC =%16.13f\nLC =%16.13f\nXY(%16.4f,%16.4f)=LP(%16.13f,%16.13f)\n",L,sinC,LC,((xy.x/P->ra)+P->x0)/P->to_meter,((xy.y/P->ra)+P->y0)/P->to_meter,lp.lam+P->lam0,lp.phi);*/ - return (lp); -} -FREEUP; if (P) pj_dalloc(P); } -ENTRY0(gstmerc) - P->lamc= P->lam0; - P->n1= sqrt(1.0+P->es*pow(cos(P->phi0),4.0)/(1.0-P->es)); - P->phic= asin(sin(P->phi0)/P->n1); - P->c= log(pj_tsfn(-1.0*P->phic,0.0,0.0)) - -P->n1*log(pj_tsfn(-1.0*P->phi0,-1.0*sin(P->phi0),P->e)); - P->n2= P->k0*P->a*sqrt(1.0-P->es)/(1.0-P->es*sin(P->phi0)*sin(P->phi0)); - P->XS= 0;/* -P->x0 */ - P->YS= -1.0*P->n2*P->phic;/* -P->y0 */ - P->inv= s_inverse; - P->fwd= s_forward; - /*fprintf(stderr,"a (m) =%16.4f\ne =%16.13f\nl0(rad)=%16.13f\np0(rad)=%16.13f\nk0 =%16.4f\nX0 (m)=%16.4f\nY0 (m)=%16.4f\n\nlC(rad)=%16.13f\npC(rad)=%16.13f\nc =%16.13f\nn1 =%16.13f\nn2 (m) =%16.4f\nXS (m) =%16.4f\nYS (m) =%16.4f\n", P->a, P->e, P->lam0, P->phi0, P->k0, P->x0, P->y0, P->lamc, P->phic, P->c, P->n1, P->n2, P->XS +P->x0, P->YS + P->y0);*/ -ENDENTRY(P) |