openlayers/tests/Layer/SphericalMercator.html

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    <script src="../../lib/OpenLayers.js"></script>
    <script type="text/javascript">
    function test_SphericalMercator_forwardMercator(t) {
        t.plan(12);
        var arctic = OpenLayers.Layer.SphericalMercator.forwardMercator(0, 85);
        var antarctic = OpenLayers.Layer.SphericalMercator.forwardMercator(0, -85);
        var hawaii = OpenLayers.Layer.SphericalMercator.forwardMercator(-180, 0);
        var phillipines = OpenLayers.Layer.SphericalMercator.forwardMercator(180, 0);
        var ne = OpenLayers.Layer.SphericalMercator.forwardMercator(180, 90);
        var sw = OpenLayers.Layer.SphericalMercator.forwardMercator(-180, -90);
        
        t.eq(arctic.lon, 0, "Arctic longitude is correct");
        t.eq(Math.round(arctic.lat), 19971869, "Arctic latitude is correct");
        
        t.eq(antarctic.lon, 0, "Antarctic longitude is correct");
        t.eq(Math.round(antarctic.lat), -19971869, "Antarctic latitude is correct");
        
        t.eq(Math.round(hawaii.lat), 0, "Hawaiian lat is correct");
        t.eq(hawaii.lon, -20037508.34, "Hawaiian lon is correct");
        
        t.eq(Math.round(phillipines.lat), 0, "Phillipines lat is correct");
        t.eq(phillipines.lon, 20037508.340, "Phillipines lon is correct");
       
        // Rounding errors make this not infinity 
        t.ok(ne.lat > 50000000, "NE lat is correct");
        t.eq(ne.lon, 20037508.34, "NE lon is correct");
        
        t.eq(sw.lat, -Infinity, "SW lat is correct");
        t.eq(sw.lon, -20037508.34, "SW lon is correct");
    } 
    
    function test_sphericalMercator_inverseMercator(t) {
        t.plan(4);
        var sw =  OpenLayers.Layer.SphericalMercator.inverseMercator(-20037508.34,  -20037508.34);
        var ne =  OpenLayers.Layer.SphericalMercator.inverseMercator(20037508.34,  20037508.34);
        t.eq(sw.lon, -180, "Southwest lon correct");
        t.eq(ne.lon, 180, "Northeast lon correct");
        
        t.eq(sw.lat, -85.05112877980659, "Southwest lat correct");
        t.eq(ne.lat, 85.05112877980660, "Northeast lat correct");
    }

    function strToFixed(str, dig) { 
        if(dig == undefined) { 
            dig = 5; 
        } 
        return str.replace(/(\d+\.\d+)/g, function(match) { 
            return parseFloat(match).toFixed(dig); 
        }); 
    } 
 
    function test_SphericalMercator_projectForward(t) { 
        t.plan(1);
        var point = new OpenLayers.Geometry.Point(10, 20); 
        OpenLayers.Layer.SphericalMercator.projectForward(point); 

        t.eq(strToFixed(point.toString()), 
             strToFixed("POINT(1113194.9077777779 2273030.9266712805)"), 
             "point transforms from EPSG:4326 to Spherical Mercator"); 
    } 
         
    function test_SphericalMercator_to4326(t) { 
        t.plan(1);
        var point = new OpenLayers.Geometry.Point(1113195, 2273031); 

        OpenLayers.Layer.SphericalMercator.projectInverse(point); 
         
        t.eq(strToFixed(point.toString()), 
             strToFixed("POINT(10.000000828446318 20.000000618997227)"), 
             "point transforms from EPSG:4326 to Spherical Mercator"); 
    }
    
    function test_SphericalMercator_addTransform(t) {
        // this class should add two methods to the
        // OpenLayers.Projection.transforms object
        t.plan(4);
        var wgs84 = OpenLayers.Projection.transforms["EPSG:4326"];
        t.ok(wgs84 instanceof Object, "EPSG:4326 exists in table");
        
        var smerc = OpenLayers.Projection.transforms["EPSG:900913"];
        t.ok(smerc instanceof Object, "EPSG:900913 exists in table");
        
        t.ok(wgs84["EPSG:900913"] === OpenLayers.Layer.SphericalMercator.projectForward,
             "from EPSG:4326 to EPSG:900913 correctly defined");
        t.ok(smerc["EPSG:4326"] === OpenLayers.Layer.SphericalMercator.projectInverse,
             "from EPSG:900913 to EPSG:4326 correctly defined");
    }
    
  </script> 
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