EVOLUTION-MANAGER
Edit File: PJ_patterson.c
/* * Copyright (c) 2014 Bojan Savric * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * The Patterson Cylindrical projection was designed by Tom Patterson, US National * Park Service, in 2014, using Flex Projector. The polynomial equations for the * projection were developed by Bojan Savric, Oregon State University, in * collaboration with Tom Patterson and Bernhard Jenny, Oregon State University. * * Java reference algorithm implemented by Bojan Savric in Java Map Projection * Library (a Java port of PROJ.4) in the file PattersonProjection.java. * * References: * Java Map Projection Library * https://github.com/OSUCartography/JMapProjLib * * Patterson Cylindrical Projection * http://shadedrelief.com/patterson/ * * Patterson, T., Savric, B., and Jenny, B. (2015). Cartographic Perspectives * (No.78). Describes the projection design and characteristics, and * developing the equations. doi:10.14714/CP78.1270 * http://dx.doi.org/10.14714/CP78.1270 * * Port to PROJ.4 by Micah Cochran, 26 March 2016 */ #define PJ_LIB__ #include <projects.h> PROJ_HEAD(patterson, "Patterson Cylindrical") "\n\tCyl."; #define K1 1.0148 #define K2 0.23185 #define K3 -0.14499 #define K4 0.02406 #define C1 K1 #define C2 (5.0 * K2) #define C3 (7.0 * K3) #define C4 (9.0 * K4) #define EPS11 1.0e-11 #define MAX_Y 1.790857183 static XY s_forward (LP lp, PJ *P) { /* Spheroidal, forward */ XY xy = {0.0,0.0}; double phi2; (void) P; phi2 = lp.phi * lp.phi; xy.x = lp.lam; xy.y = lp.phi * (K1 + phi2 * phi2 * (K2 + phi2 * (K3 + K4 * phi2))); return xy; } static LP s_inverse (XY xy, PJ *P) { /* Spheroidal, inverse */ LP lp = {0.0,0.0}; double yc, tol, y2, f, fder; (void) P; yc = xy.y; /* make sure y is inside valid range */ if (xy.y > MAX_Y) { xy.y = MAX_Y; } else if (xy.y < -MAX_Y) { xy.y = -MAX_Y; } for (;;) { /* Newton-Raphson */ y2 = yc * yc; f = (yc * (K1 + y2 * y2 * (K2 + y2 * (K3 + K4 * y2)))) - xy.y; fder = C1 + y2 * y2 * (C2 + y2 * (C3 + C4 * y2)); yc -= tol = f / fder; if (fabs(tol) < EPS11) { break; } } lp.phi = yc; /* longitude */ lp.lam = xy.x; return lp; } static void *freeup_new (PJ *P) { /* Destructor */ if (0==P) return 0; return pj_dealloc(P); } static void freeup (PJ *P) { freeup_new (P); return; } PJ *PROJECTION(patterson) { P->es = 0.; P->inv = s_inverse; P->fwd = s_forward; return P; } #ifndef PJ_SELFTEST int pj_patterson_selftest (void) {return 0;} #else int pj_patterson_selftest (void) { double tolerance_lp = 1e-10; double tolerance_xy = 1e-7; char s_args[] = {"+proj=patterson +a=6400000 +lat_1=0.5 +lat_2=2"}; LP fwd_in[] = { { 2, 1}, { 2,-1}, {-2, 1}, {-2,-1} }; XY s_fwd_expect[] = { {223402.144255274179, 113354.250397779804}, {223402.144255274179, -113354.250397779804}, {-223402.144255274179, 113354.250397779804}, {-223402.144255274179, -113354.250397779804}, }; XY inv_in[] = { { 200, 100}, { 200,-100}, {-200, 100}, {-200,-100} }; LP s_inv_expect[] = { {0.00179049310978382265, 0.000882190140807953657}, {0.00179049310978382265, -0.000882190140807953657}, {-0.00179049310978382265, 0.000882190140807953657}, {-0.00179049310978382265, -0.000882190140807953657}, }; return pj_generic_selftest (0, s_args, tolerance_xy, tolerance_lp, 4, 4, fwd_in, 0, s_fwd_expect, inv_in, 0, s_inv_expect); } #endif