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package ext.plantuml.com.ctreber.acearth;

import java.io.IOException;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import java.util.StringTokenizer;

import ext.plantuml.com.ctreber.acearth.util.Point3D;
import ext.plantuml.com.ctreber.acearth.util.Polygon;

/**
 * The map data file is a big array of short (16-bit) ints, as follows: - it is
 * a sequence of closed curves - the first value in a curve is the number of
 * points in the curve - the second value in a curve indicates land/water (1 or
 * -1, respectively) - this is followed by an [x,y,z] triple that indicates a
 * point on the unit sphere (each of x, y, and z has been scaled by 30000),
 * where the x axis points "to the right" (towards 0 N 90 E), the y axis points
 * "up" (towards the north pole), and the z axis points "out of the screen"
 * (towards 0 N 0 E). this is the starting point of the curve. - this is
 * followed by (one less than the number of points in the curve) triples
 * [dx,dy,dz]; the [x,y,z] triple for each successive point in the curve is
 * obtained by adding [dx,dy,dz] onto the previous [x,y,z] values. - the curves
 * are [must be!] non-self-intersecting and traced in a counter-clockwise
 * direction
 *
 * the curves are sampled at a (roughly) a 20 mile resolution.
 *
 * 

* © 2002 Christian Treber, [email protected] * * @author Christian Treber, [email protected] * */ public class MapDataReader { /** Point value scale (devide value by this number). */ private static final double MAP_DATA_SCALE = 30000.0; private static List fData; private static List fPolygons; private static int fIndex; /** *

* Read map data. * * @return Array of map polygons. * @throws IOException */ public static Polygon[] readMapData() throws IOException { final List lines = new MapData().getLines(); fData = new ArrayList(); for (Iterator it = lines.iterator(); it.hasNext(); ) { String lLine = (String) it.next(); if (lLine.contains("/*")) { // Filter out comments. continue; } StringTokenizer lST = new StringTokenizer(lLine, ", "); while (lST.hasMoreTokens()) { String lToken = lST.nextToken(); final Integer lValue = Integer.valueOf(lToken); fData.add(lValue); } } fPolygons = new ArrayList(); fIndex = 0; while (getValue(fIndex) != 0) { processCurve(); } return (Polygon[]) fPolygons.toArray(new Polygon[0]); } private static void processCurve() { final int lNPoint = getValue(fIndex++); final int lType = getValue(fIndex++); final Point3D[] lPoints = new Point3D[lNPoint]; final Point3D lPoint3D = new Point3D(getValue(fIndex++) / MAP_DATA_SCALE, getValue(fIndex++) / MAP_DATA_SCALE, getValue(fIndex++) / MAP_DATA_SCALE); lPoints[0] = lPoint3D; for (int i = 1; i < lNPoint; i++) { lPoints[i] = new Point3D(lPoints[i - 1].getX() + getValue(fIndex++) / MAP_DATA_SCALE, lPoints[i - 1].getY() + getValue(fIndex++) / MAP_DATA_SCALE, lPoints[i - 1].getZ() + getValue(fIndex++) / MAP_DATA_SCALE); } final Polygon lPolygon = new Polygon(lType, lPoints); fPolygons.add(lPolygon); } /** *

* Get value of raw data at specified point. * * @param pIndex * Index of value. * @return Value of raw data at specified point. */ private static int getValue(int pIndex) { return ((Integer) fData.get(pIndex)).intValue(); } }





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