gitphp 0.2.9.1 :: bus.git/blob

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93	/* Copyright (c) 2006-2008 MetaCarta, Inc., published under the Clear BSD * license. See http://svn.openlayers.org/trunk/openlayers/license.txt for the * full text of the license. / /* * @requires OpenLayers/Geometry/MultiPoint.js / /* * Class: OpenLayers.Geometry.Curve * A Curve is a MultiPoint, whose points are assumed to be connected. To * this end, we provide a "getLength()" function, which iterates through * the points, summing the distances between them. * * Inherits: * - <OpenLayers.Geometry.MultiPoint> / OpenLayers.Geometry.Curve = OpenLayers.Class(OpenLayers.Geometry.MultiPoint, { /* * Property: componentTypes * {Array(String)} An array of class names representing the types of * components that the collection can include. A null * value means the component types are not restricted. / componentTypes: ["OpenLayers.Geometry.Point"], /* * Constructor: OpenLayers.Geometry.Curve * * Parameters: * point - {Array(<OpenLayers.Geometry.Point>)} / initialize: function(points) { OpenLayers.Geometry.MultiPoint.prototype.initialize.apply(this, arguments); }, /* * APIMethod: getLength * * Returns: * {Float} The length of the curve / getLength: function() { var length = 0.0; if ( this.components && (this.components.length > 1)) { for(var i=1, len=this.components.length; i<len; i++) { length += this.components[i-1].distanceTo(this.components[i]); } } return length; }, /* * APIMethod: getGeodesicLength * Calculate the approximate length of the geometry were it projected onto * the earth. * * projection - {<OpenLayers.Projection>} The spatial reference system * for the geometry coordinates. If not provided, Geographic/WGS84 is * assumed. * * Returns: * {Float} The appoximate geodesic length of the geometry in meters. / getGeodesicLength: function(projection) { var geom = this; // so we can work with a clone if needed if(projection) { var gg = new OpenLayers.Projection("EPSG:4326"); if(!gg.equals(projection)) { geom = this.clone().transform(projection, gg); } } var length = 0.0; if(geom.components && (geom.components.length > 1)) { var p1, p2; for(var i=1, len=geom.components.length; i<len; i++) { p1 = geom.components[i-1]; p2 = geom.components[i]; // this returns km and requires lon/lat properties length += OpenLayers.Util.distVincenty( {lon: p1.x, lat: p1.y}, {lon: p2.x, lat: p2.y} ); } } // convert to m return length 1000; }, CLASS_NAME: "OpenLayers.Geometry.Curve" });

/* Copyright (c) 2006-2008 MetaCarta, Inc., published under the Clear BSD
 * license.  See http://svn.openlayers.org/trunk/openlayers/license.txt for the
 * full text of the license. */
 
/**
 * @requires OpenLayers/Geometry/MultiPoint.js
 */
 
/**
 * Class: OpenLayers.Geometry.Curve
 * A Curve is a MultiPoint, whose points are assumed to be connected. To 
 * this end, we provide a "getLength()" function, which iterates through 
 * the points, summing the distances between them. 
 * 
 * Inherits: 
 *  - <OpenLayers.Geometry.MultiPoint>
 */
OpenLayers.Geometry.Curve = OpenLayers.Class(OpenLayers.Geometry.MultiPoint, {
 
    /**
     * Property: componentTypes
     * {Array(String)} An array of class names representing the types of 
     *                 components that the collection can include.  A null 
     *                 value means the component types are not restricted.
     */
    componentTypes: ["OpenLayers.Geometry.Point"],
 
    /**
     * Constructor: OpenLayers.Geometry.Curve
     * 
     * Parameters:
     * point - {Array(<OpenLayers.Geometry.Point>)}
     */
    initialize: function(points) {
        OpenLayers.Geometry.MultiPoint.prototype.initialize.apply(this, 
                                                                  arguments);
    },
    
    /**
     * APIMethod: getLength
     * 
     * Returns:
     * {Float} The length of the curve
     */
    getLength: function() {
        var length = 0.0;
        if ( this.components && (this.components.length > 1)) {
            for(var i=1, len=this.components.length; i<len; i++) {
                length += this.components[i-1].distanceTo(this.components[i]);
            }
        }
        return length;
    },
 
    /**
     * APIMethod: getGeodesicLength
     * Calculate the approximate length of the geometry were it projected onto
     *     the earth.
     *
     * projection - {<OpenLayers.Projection>} The spatial reference system
     *     for the geometry coordinates.  If not provided, Geographic/WGS84 is
     *     assumed.
     * 
     * Returns:
     * {Float} The appoximate geodesic length of the geometry in meters.
     */
    getGeodesicLength: function(projection) {
        var geom = this;  // so we can work with a clone if needed
        if(projection) {
            var gg = new OpenLayers.Projection("EPSG:4326");
            if(!gg.equals(projection)) {
                geom = this.clone().transform(projection, gg);
            }
        }
        var length = 0.0;
        if(geom.components && (geom.components.length > 1)) {
            var p1, p2;
            for(var i=1, len=geom.components.length; i<len; i++) {
                p1 = geom.components[i-1];
                p2 = geom.components[i];
                // this returns km and requires lon/lat properties
                length += OpenLayers.Util.distVincenty(
                    {lon: p1.x, lat: p1.y}, {lon: p2.x, lat: p2.y}
                );
            }
        }
        // convert to m
        return length * 1000;
    },
 
    CLASS_NAME: "OpenLayers.Geometry.Curve"
});