📄 pj_lsat.cpp
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#include "stdafx.h"
#ifndef lintstatic const char SCCSID[]="@(#)PJ_lsat.c 4.1 94/02/15 GIE REL";#endif/* based upon Snyder and Linck, USGS-NMD */#define PROJ_PARMS__ \ double a2, a4, b, c1, c3; \ double q, t, u, w, p22, sa, ca, xj, rlm, rlm2;#define PJ_LIB__#include "projects.h"
#include <math.h>
PROJ_HEAD(lsat, "Space oblique for LANDSAT") "\n\tCyl, Sph&Ell\n\tlsat= path=";#define TOL 1e-7#define PI_HALFPI 4.71238898038468985766#define TWOPI_HALFPI 7.85398163397448309610 static voidseraz0(double lam, double mult, PJ *P) { double sdsq, h, s, fc, sd, sq, d__1; lam *= DEG_TO_RAD; sd = sin(lam); sdsq = sd * sd; s = P->p22 * P->sa * cos(lam) * sqrt((1. + P->t * sdsq) / (( 1. + P->w * sdsq) * (1. + P->q * sdsq))); d__1 = 1. + P->q * sdsq; h = sqrt((1. + P->q * sdsq) / (1. + P->w * sdsq)) * ((1. + P->w * sdsq) / (d__1 * d__1) - P->p22 * P->ca); sq = sqrt(P->xj * P->xj + s * s); P->b += fc = mult * (h * P->xj - s * s) / sq; P->a2 += fc * cos(lam + lam); P->a4 += fc * cos(lam * 4.); fc = mult * s * (h + P->xj) / sq; P->c1 += fc * cos(lam); P->c3 += fc * cos(lam * 3.);}FORWARD(e_forward); /* ellipsoid */ int l, nn; double lamt, xlam, sdsq, c, d, s, lamdp, phidp, lampp, tanph, lamtp, cl, sd, sp, fac, sav, tanphi; if (lp.phi > HALFPI) lp.phi = HALFPI; else if (lp.phi < -HALFPI) lp.phi = -HALFPI; lampp = lp.phi >= 0. ? HALFPI : PI_HALFPI; tanphi = tan(lp.phi); for (nn = 0;;) { sav = lampp; lamtp = lp.lam + P->p22 * lampp; cl = cos(lamtp); if (fabs(cl) < TOL) lamtp -= TOL; fac = lampp - sin(lampp) * (cl < 0. ? -HALFPI : HALFPI); for (l = 50; l; --l) { lamt = lp.lam + P->p22 * sav; if (fabs(c = cos(lamt)) < TOL) lamt -= TOL; xlam = (P->one_es * tanphi * P->sa + sin(lamt) * P->ca) / c; lamdp = atan(xlam) + fac; if (fabs(fabs(sav) - fabs(lamdp)) < TOL) break; sav = lamdp; } if (!l || ++nn >= 3 || (lamdp > P->rlm && lamdp < P->rlm2)) break; if (lamdp <= P->rlm) lampp = TWOPI_HALFPI; else if (lamdp >= P->rlm2) lampp = HALFPI; } if (l) { sp = sin(lp.phi); phidp = aasin((P->one_es * P->ca * sp - P->sa * cos(lp.phi) * sin(lamt)) / sqrt(1. - P->es * sp * sp)); tanph = log(tan(FORTPI + .5 * phidp)); sd = sin(lamdp); sdsq = sd * sd; s = P->p22 * P->sa * cos(lamdp) * sqrt((1. + P->t * sdsq) / ((1. + P->w * sdsq) * (1. + P->q * sdsq))); d = sqrt(P->xj * P->xj + s * s); xy.x = P->b * lamdp + P->a2 * sin(2. * lamdp) + P->a4 * sin(lamdp * 4.) - tanph * s / d; xy.y = P->c1 * sd + P->c3 * sin(lamdp * 3.) + tanph * P->xj / d; } else xy.x = xy.y = HUGE_VAL; return xy;}INVERSE(e_inverse); /* ellipsoid */ int nn; double lamt, sdsq, s, lamdp, phidp, sppsq, dd, sd, sl, fac, scl, sav, spp; lamdp = xy.x / P->b; nn = 50; do { sav = lamdp; sd = sin(lamdp); sdsq = sd * sd; s = P->p22 * P->sa * cos(lamdp) * sqrt((1. + P->t * sdsq) / ((1. + P->w * sdsq) * (1. + P->q * sdsq))); lamdp = xy.x + xy.y * s / P->xj - P->a2 * sin( 2. * lamdp) - P->a4 * sin(lamdp * 4.) - s / P->xj * ( P->c1 * sin(lamdp) + P->c3 * sin(lamdp * 3.)); lamdp /= P->b; } while (fabs(lamdp - sav) >= TOL && --nn); sl = sin(lamdp); fac = exp(sqrt(1. + s * s / P->xj / P->xj) * (xy.y - P->c1 * sl - P->c3 * sin(lamdp * 3.))); phidp = 2. * (atan(fac) - FORTPI); dd = sl * sl; if (fabs(cos(lamdp)) < TOL) lamdp -= TOL; spp = sin(phidp); sppsq = spp * spp; lamt = atan(((1. - sppsq * P->rone_es) * tan(lamdp) * P->ca - spp * P->sa * sqrt((1. + P->q * dd) * ( 1. - sppsq) - sppsq * P->u) / cos(lamdp)) / (1. - sppsq * (1. + P->u))); sl = lamt >= 0. ? 1. : -1.; scl = cos(lamdp) >= 0. ? 1. : -1; lamt -= HALFPI * (1. - scl) * sl; lp.lam = lamt - P->p22 * lamdp; if (fabs(P->sa) < TOL) lp.phi = aasin(spp / sqrt(P->one_es * P->one_es + P->es * sppsq)); else lp.phi = atan((tan(lamdp) * cos(lamt) - P->ca * sin(lamt)) / (P->one_es * P->sa)); return lp;}FREEUP; if (P) pj_dalloc(P); }ENTRY0(lsat) int land, path; double lam, alf, esc, ess; land = pj_param(P->params, "ilsat").i; if (land <= 0 || land > 5) E_ERROR(-28); path = pj_param(P->params, "ipath").i; if (path <= 0 || path > (land <= 3 ? 251 : 233)) E_ERROR(-29); if (land <= 3) { P->lam0 = DEG_TO_RAD * 128.87 - TWOPI / 251. * path; P->p22 = 103.2669323; alf = DEG_TO_RAD * 99.092; } else { P->lam0 = DEG_TO_RAD * 129.3 - TWOPI / 233. * path; P->p22 = 98.8841202; alf = DEG_TO_RAD * 98.2; } P->p22 /= 1440.; P->sa = sin(alf); P->ca = cos(alf); if (fabs(P->ca) < 1e-9) P->ca = 1e-9; esc = P->es * P->ca * P->ca; ess = P->es * P->sa * P->sa; P->w = (1. - esc) * P->rone_es; P->w = P->w * P->w - 1.; P->q = ess * P->rone_es; P->t = ess * (2. - P->es) * P->rone_es * P->rone_es; P->u = esc * P->rone_es; P->xj = P->one_es * P->one_es * P->one_es; P->rlm = PI * (1. / 248. + .5161290322580645); P->rlm2 = P->rlm + TWOPI; P->a2 = P->a4 = P->b = P->c1 = P->c3 = 0.; seraz0(0., 1., P); for (lam = 9.; lam <= 81.0001; lam += 18.) seraz0(lam, 4., P); for (lam = 18; lam <= 72.0001; lam += 18.) seraz0(lam, 2., P); seraz0(90., 1., P); P->a2 /= 30.; P->a4 /= 60.; P->b /= 30.; P->c1 /= 15.; P->c3 /= 45.; P->inv = e_inverse; P->fwd = e_forward;ENDENTRY(P)⌨️ 快捷键说明
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