X-Git-Url: https://git.gag.com/?p=fw%2Faltos;a=blobdiff_plain;f=altoslib%2FAltosMapTransform.java;fp=altoslib%2FAltosMapTransform.java;h=7615c83b3f530b79f3189c8ac34552e584aa8e38;hp=0000000000000000000000000000000000000000;hb=643c2fb03833d658320f476ef731bbb06fe3cc31;hpb=e41786fb384892961a6547e17812a24314ce9623 diff --git a/altoslib/AltosMapTransform.java b/altoslib/AltosMapTransform.java new file mode 100644 index 00000000..7615c83b --- /dev/null +++ b/altoslib/AltosMapTransform.java @@ -0,0 +1,128 @@ +/* + * Copyright © 2014 Keith Packard + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; version 2 of the License. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * General Public License for more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. + */ + +package org.altusmetrum.altoslib_7; + +import java.io.*; +import java.lang.Math; +import java.util.*; +import java.util.concurrent.*; + +public class AltosMapTransform { + + double scale_x, scale_y; + + double offset_x, offset_y; + + public AltosLatLon lat_lon (AltosPointDouble point) { + double lat, lon; + double rads; + + lon = point.x/scale_x; + rads = 2 * Math.atan(Math.exp(-point.y/scale_y)); + lat = Math.toDegrees(rads - Math.PI/2); + + return new AltosLatLon(lat,lon); + } + + public AltosLatLon lat_lon (AltosPointInt point) { + return lat_lon(new AltosPointDouble(point.x, point.y)); + } + + public AltosPointDouble screen_point(AltosPointInt screen) { + return new AltosPointDouble(screen.x + offset_x, screen.y + offset_y); + } + + public AltosPointDouble screen_point(AltosPointDouble screen) { + return new AltosPointDouble(screen.x + offset_x, screen.y + offset_y); + } + + public double hypot(AltosLatLon a, AltosLatLon b) { + AltosPointDouble a_pt = point(a); + AltosPointDouble b_pt = point(b); + + return Math.hypot(a_pt.x - b_pt.x, a_pt.y - b_pt.y); + } + + public AltosLatLon screen_lat_lon(AltosPointInt screen) { + return lat_lon(screen_point(screen)); + } + + public AltosLatLon screen_lat_lon(AltosPointDouble screen) { + return lat_lon(screen_point(screen)); + } + + public AltosPointDouble point(AltosLatLon lat_lon) { + double x, y; + double e; + + x = lat_lon.lon * scale_x; + + e = Math.sin(Math.toRadians(lat_lon.lat)); + e = Math.max(e,-(1-1.0E-15)); + e = Math.min(e, 1-1.0E-15 ); + + y = 0.5*Math.log((1+e)/(1-e))*-scale_y; + + return new AltosPointDouble(x, y); + } + + public AltosPointDouble screen(AltosPointDouble point) { + return new AltosPointDouble(point.x - offset_x, point.y - offset_y); + } + + public AltosPointInt screen(AltosPointInt point) { + return new AltosPointInt((int) (point.x - offset_x + 0.5), + (int) (point.y - offset_y + 0.5)); + } + + public AltosRectangle screen(AltosMapRectangle map_rect) { + AltosPointDouble ul = screen(map_rect.ul); + AltosPointDouble lr = screen(map_rect.lr); + + return new AltosRectangle((int) ul.x, (int) ul.y, (int) (lr.x - ul.x), (int) (lr.y - ul.y)); + } + + public AltosPointDouble screen(AltosLatLon lat_lon) { + return screen(point(lat_lon)); + } + + private boolean has_location; + + public boolean has_location() { + return has_location; + } + + public AltosMapTransform(int width, int height, int zoom, AltosLatLon centre_lat_lon) { + scale_x = 256/360.0 * Math.pow(2, zoom); + scale_y = 256/(2.0*Math.PI) * Math.pow(2, zoom); + + AltosPointDouble centre_pt = point(centre_lat_lon); + + has_location = (centre_lat_lon.lat != 0 || centre_lat_lon.lon != 0); + offset_x = centre_pt.x - width / 2.0; + offset_y = centre_pt.y - height / 2.0; + } + + public static double lon_from_distance(double lat, double distance) { + double c = AltosGreatCircle.earth_radius * Math.cos(lat * Math.PI / 180) * 2 * Math.PI; + + if (c < 10) + return 0; + return distance/c * 360.0; + } +}