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Diffstat (limited to 'src/projections/etmerc.cpp')
| -rw-r--r-- | src/projections/etmerc.cpp | 362 |
1 files changed, 0 insertions, 362 deletions
diff --git a/src/projections/etmerc.cpp b/src/projections/etmerc.cpp deleted file mode 100644 index e75bc168..00000000 --- a/src/projections/etmerc.cpp +++ /dev/null @@ -1,362 +0,0 @@ -/* -** libproj -- library of cartographic projections -** -** Copyright (c) 2008 Gerald I. Evenden -*/ - -/* -** Permission is hereby granted, free of charge, to any person obtaining -** a copy of this software and associated documentation files (the -** "Software"), to deal in the Software without restriction, including -** without limitation the rights to use, copy, modify, merge, publish, -** distribute, sublicense, and/or sell copies of the Software, and to -** permit persons to whom the Software is furnished to do so, subject to -** the following conditions: -** -** The above copyright notice and this permission notice shall be -** included in all copies or substantial portions of the Software. -** -** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, -** EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF -** MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. -** IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY -** CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, -** TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE -** SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. -*/ - -/* The code in this file is largly based upon procedures: - * - * Written by: Knud Poder and Karsten Engsager - * - * Based on math from: R.Koenig and K.H. Weise, "Mathematische - * Grundlagen der hoeheren Geodaesie und Kartographie, - * Springer-Verlag, Berlin/Goettingen" Heidelberg, 1951. - * - * Modified and used here by permission of Reference Networks - * Division, Kort og Matrikelstyrelsen (KMS), Copenhagen, Denmark - * -*/ - -#define PJ_LIB__ - -#include <errno.h> - -#include "proj.h" -#include "proj_internal.h" -#include "proj_math.h" - - -namespace { // anonymous namespace -struct pj_opaque { - double Qn; /* Merid. quad., scaled to the projection */ \ - double Zb; /* Radius vector in polar coord. systems */ \ - double cgb[6]; /* Constants for Gauss -> Geo lat */ \ - double cbg[6]; /* Constants for Geo lat -> Gauss */ \ - double utg[6]; /* Constants for transv. merc. -> geo */ \ - double gtu[6]; /* Constants for geo -> transv. merc. */ -}; -} // anonymous namespace - -PROJ_HEAD(etmerc, "Extended Transverse Mercator") - "\n\tCyl, Sph\n\tlat_ts=(0)\nlat_0=(0)"; -PROJ_HEAD(utm, "Universal Transverse Mercator (UTM)") - "\n\tCyl, Sph\n\tzone= south"; - -#define PROJ_ETMERC_ORDER 6 - -#ifdef _GNU_SOURCE - inline -#endif -static double gatg(double *p1, int len_p1, double B) { - double *p; - double h = 0, h1, h2 = 0, cos_2B; - - cos_2B = 2*cos(2*B); - p = p1 + len_p1; - h1 = *--p; - while (p - p1) { - h = -h2 + cos_2B*h1 + *--p; - h2 = h1; - h1 = h; - } - return (B + h*sin(2*B)); -} - -/* Complex Clenshaw summation */ -#ifdef _GNU_SOURCE - inline -#endif -static double clenS(double *a, int size, double arg_r, double arg_i, double *R, double *I) { - double *p, r, i, hr, hr1, hr2, hi, hi1, hi2; - double sin_arg_r, cos_arg_r, sinh_arg_i, cosh_arg_i; - - /* arguments */ - p = a + size; -#ifdef _GNU_SOURCE - sincos(arg_r, &sin_arg_r, &cos_arg_r); -#else - sin_arg_r = sin(arg_r); - cos_arg_r = cos(arg_r); -#endif - sinh_arg_i = sinh(arg_i); - cosh_arg_i = cosh(arg_i); - r = 2*cos_arg_r*cosh_arg_i; - i = -2*sin_arg_r*sinh_arg_i; - - /* summation loop */ - hi1 = hr1 = hi = 0; - hr = *--p; - for (; a - p;) { - hr2 = hr1; - hi2 = hi1; - hr1 = hr; - hi1 = hi; - hr = -hr2 + r*hr1 - i*hi1 + *--p; - hi = -hi2 + i*hr1 + r*hi1; - } - - r = sin_arg_r*cosh_arg_i; - i = cos_arg_r*sinh_arg_i; - *R = r*hr - i*hi; - *I = r*hi + i*hr; - return *R; -} - - -/* Real Clenshaw summation */ -static double clens(double *a, int size, double arg_r) { - double *p, r, hr, hr1, hr2, cos_arg_r; - - p = a + size; - cos_arg_r = cos(arg_r); - r = 2*cos_arg_r; - - /* summation loop */ - hr1 = 0; - hr = *--p; - for (; a - p;) { - hr2 = hr1; - hr1 = hr; - hr = -hr2 + r*hr1 + *--p; - } - return sin (arg_r)*hr; -} - - - -static PJ_XY e_forward (PJ_LP lp, PJ *P) { /* Ellipsoidal, forward */ - PJ_XY xy = {0.0,0.0}; - struct pj_opaque *Q = static_cast<struct pj_opaque*>(P->opaque); - double sin_Cn, cos_Cn, cos_Ce, sin_Ce, dCn, dCe; - double Cn = lp.phi, Ce = lp.lam; - - /* ell. LAT, LNG -> Gaussian LAT, LNG */ - Cn = gatg (Q->cbg, PROJ_ETMERC_ORDER, Cn); - /* Gaussian LAT, LNG -> compl. sph. LAT */ -#ifdef _GNU_SOURCE - sincos (Cn, &sin_Cn, &cos_Cn); - sincos (Ce, &sin_Ce, &cos_Ce); -#else - sin_Cn = sin (Cn); - cos_Cn = cos (Cn); - sin_Ce = sin (Ce); - cos_Ce = cos (Ce); -#endif - - Cn = atan2 (sin_Cn, cos_Ce*cos_Cn); - Ce = atan2 (sin_Ce*cos_Cn, hypot (sin_Cn, cos_Cn*cos_Ce)); - - /* compl. sph. N, E -> ell. norm. N, E */ - Ce = asinh ( tan (Ce) ); /* Replaces: Ce = log(tan(FORTPI + Ce*0.5)); */ - Cn += clenS (Q->gtu, PROJ_ETMERC_ORDER, 2*Cn, 2*Ce, &dCn, &dCe); - Ce += dCe; - if (fabs (Ce) <= 2.623395162778) { - xy.y = Q->Qn * Cn + Q->Zb; /* Northing */ - xy.x = Q->Qn * Ce; /* Easting */ - } else - xy.x = xy.y = HUGE_VAL; - return xy; -} - - - -static PJ_LP e_inverse (PJ_XY xy, PJ *P) { /* Ellipsoidal, inverse */ - PJ_LP lp = {0.0,0.0}; - struct pj_opaque *Q = static_cast<struct pj_opaque*>(P->opaque); - double sin_Cn, cos_Cn, cos_Ce, sin_Ce, dCn, dCe; - double Cn = xy.y, Ce = xy.x; - - /* normalize N, E */ - Cn = (Cn - Q->Zb)/Q->Qn; - Ce = Ce/Q->Qn; - - if (fabs(Ce) <= 2.623395162778) { /* 150 degrees */ - /* norm. N, E -> compl. sph. LAT, LNG */ - Cn += clenS(Q->utg, PROJ_ETMERC_ORDER, 2*Cn, 2*Ce, &dCn, &dCe); - Ce += dCe; - Ce = atan (sinh (Ce)); /* Replaces: Ce = 2*(atan(exp(Ce)) - FORTPI); */ - /* compl. sph. LAT -> Gaussian LAT, LNG */ -#ifdef _GNU_SOURCE - sincos (Cn, &sin_Cn, &cos_Cn); - sincos (Ce, &sin_Ce, &cos_Ce); -#else - sin_Cn = sin (Cn); - cos_Cn = cos (Cn); - sin_Ce = sin (Ce); - cos_Ce = cos (Ce); -#endif - Ce = atan2 (sin_Ce, cos_Ce*cos_Cn); - Cn = atan2 (sin_Cn*cos_Ce, hypot (sin_Ce, cos_Ce*cos_Cn)); - /* Gaussian LAT, LNG -> ell. LAT, LNG */ - lp.phi = gatg (Q->cgb, PROJ_ETMERC_ORDER, Cn); - lp.lam = Ce; - } - else - lp.phi = lp.lam = HUGE_VAL; - return lp; -} - - -static PJ *setup(PJ *P) { /* general initialization */ - double f, n, np, Z; - struct pj_opaque *Q = static_cast<struct pj_opaque*>(P->opaque); - - if (P->es <= 0) { - return pj_default_destructor(P, PJD_ERR_ELLIPSOID_USE_REQUIRED); - } - - /* flattening */ - f = P->es / (1 + sqrt (1 - P->es)); /* Replaces: f = 1 - sqrt(1-P->es); */ - - /* third flattening */ - np = n = f/(2 - f); - - /* COEF. OF TRIG SERIES GEO <-> GAUSS */ - /* cgb := Gaussian -> Geodetic, KW p190 - 191 (61) - (62) */ - /* cbg := Geodetic -> Gaussian, KW p186 - 187 (51) - (52) */ - /* PROJ_ETMERC_ORDER = 6th degree : Engsager and Poder: ICC2007 */ - - Q->cgb[0] = n*( 2 + n*(-2/3.0 + n*(-2 + n*(116/45.0 + n*(26/45.0 + - n*(-2854/675.0 )))))); - Q->cbg[0] = n*(-2 + n*( 2/3.0 + n*( 4/3.0 + n*(-82/45.0 + n*(32/45.0 + - n*( 4642/4725.0)))))); - np *= n; - Q->cgb[1] = np*(7/3.0 + n*( -8/5.0 + n*(-227/45.0 + n*(2704/315.0 + - n*( 2323/945.0))))); - Q->cbg[1] = np*(5/3.0 + n*(-16/15.0 + n*( -13/9.0 + n*( 904/315.0 + - n*(-1522/945.0))))); - np *= n; - /* n^5 coeff corrected from 1262/105 -> -1262/105 */ - Q->cgb[2] = np*( 56/15.0 + n*(-136/35.0 + n*(-1262/105.0 + - n*( 73814/2835.0)))); - Q->cbg[2] = np*(-26/15.0 + n*( 34/21.0 + n*( 8/5.0 + - n*(-12686/2835.0)))); - np *= n; - /* n^5 coeff corrected from 322/35 -> 332/35 */ - Q->cgb[3] = np*(4279/630.0 + n*(-332/35.0 + n*(-399572/14175.0))); - Q->cbg[3] = np*(1237/630.0 + n*( -12/5.0 + n*( -24832/14175.0))); - np *= n; - Q->cgb[4] = np*(4174/315.0 + n*(-144838/6237.0 )); - Q->cbg[4] = np*(-734/315.0 + n*( 109598/31185.0)); - np *= n; - Q->cgb[5] = np*(601676/22275.0 ); - Q->cbg[5] = np*(444337/155925.0); - - /* Constants of the projections */ - /* Transverse Mercator (UTM, ITM, etc) */ - np = n*n; - /* Norm. mer. quad, K&W p.50 (96), p.19 (38b), p.5 (2) */ - Q->Qn = P->k0/(1 + n) * (1 + np*(1/4.0 + np*(1/64.0 + np/256.0))); - /* coef of trig series */ - /* utg := ell. N, E -> sph. N, E, KW p194 (65) */ - /* gtu := sph. N, E -> ell. N, E, KW p196 (69) */ - Q->utg[0] = n*(-0.5 + n*( 2/3.0 + n*(-37/96.0 + n*( 1/360.0 + - n*( 81/512.0 + n*(-96199/604800.0)))))); - Q->gtu[0] = n*( 0.5 + n*(-2/3.0 + n*( 5/16.0 + n*(41/180.0 + - n*(-127/288.0 + n*( 7891/37800.0 )))))); - Q->utg[1] = np*(-1/48.0 + n*(-1/15.0 + n*(437/1440.0 + n*(-46/105.0 + - n*( 1118711/3870720.0))))); - Q->gtu[1] = np*(13/48.0 + n*(-3/5.0 + n*(557/1440.0 + n*(281/630.0 + - n*(-1983433/1935360.0))))); - np *= n; - Q->utg[2] = np*(-17/480.0 + n*( 37/840.0 + n*( 209/4480.0 + - n*( -5569/90720.0 )))); - Q->gtu[2] = np*( 61/240.0 + n*(-103/140.0 + n*(15061/26880.0 + - n*(167603/181440.0)))); - np *= n; - Q->utg[3] = np*(-4397/161280.0 + n*( 11/504.0 + n*( 830251/7257600.0))); - Q->gtu[3] = np*(49561/161280.0 + n*(-179/168.0 + n*(6601661/7257600.0))); - np *= n; - Q->utg[4] = np*(-4583/161280.0 + n*( 108847/3991680.0)); - Q->gtu[4] = np*(34729/80640.0 + n*(-3418889/1995840.0)); - np *= n; - Q->utg[5] = np*(-20648693/638668800.0); - Q->gtu[5] = np*(212378941/319334400.0); - - /* Gaussian latitude value of the origin latitude */ - Z = gatg (Q->cbg, PROJ_ETMERC_ORDER, P->phi0); - - /* Origin northing minus true northing at the origin latitude */ - /* i.e. true northing = N - P->Zb */ - Q->Zb = - Q->Qn*(Z + clens(Q->gtu, PROJ_ETMERC_ORDER, 2*Z)); - P->inv = e_inverse; - P->fwd = e_forward; - return P; -} - - - -PJ *PROJECTION(etmerc) { - struct pj_opaque *Q = static_cast<struct pj_opaque*>(pj_calloc (1, sizeof (struct pj_opaque))); - if (nullptr==Q) - return pj_default_destructor (P, ENOMEM); - P->opaque = Q; - return setup (P); -} - - - -/* utm uses etmerc for the underlying projection */ - - -PJ *PROJECTION(utm) { - long zone; - struct pj_opaque *Q = static_cast<struct pj_opaque*>(pj_calloc (1, sizeof (struct pj_opaque))); - if (nullptr==Q) - return pj_default_destructor (P, ENOMEM); - P->opaque = Q; - - if (P->es == 0.0) { - proj_errno_set(P, PJD_ERR_ELLIPSOID_USE_REQUIRED); - return pj_default_destructor(P, ENOMEM); - } - if (P->lam0 < -1000.0 || P->lam0 > 1000.0) { - return pj_default_destructor(P, PJD_ERR_INVALID_UTM_ZONE); - } - - P->y0 = pj_param (P->ctx, P->params, "bsouth").i ? 10000000. : 0.; - P->x0 = 500000.; - if (pj_param (P->ctx, P->params, "tzone").i) /* zone input ? */ - { - zone = pj_param(P->ctx, P->params, "izone").i; - if (zone > 0 && zone <= 60) - --zone; - else { - return pj_default_destructor(P, PJD_ERR_INVALID_UTM_ZONE); - } - } - else /* nearest central meridian input */ - { - zone = lround((floor ((adjlon (P->lam0) + M_PI) * 30. / M_PI))); - if (zone < 0) - zone = 0; - else if (zone >= 60) - zone = 59; - } - P->lam0 = (zone + .5) * M_PI / 30. - M_PI; - P->k0 = 0.9996; - P->phi0 = 0.; - - return setup (P); -} |