describe("L.GeoJSON", function () { describe("addData", function () { var geoJSON = { type: 'Feature', properties: {}, geometry: { type: 'Point', coordinates: [20, 10, 5] } }; it("sets feature property on member layers", function () { var layer = new L.GeoJSON(); layer.addData(geoJSON); expect(layer.getLayers()[0].feature).to.eql(geoJSON); }); it("normalizes a geometry to a Feature", function () { var layer = new L.GeoJSON(); layer.addData(geoJSON.geometry); expect(layer.getLayers()[0].feature).to.eql(geoJSON); }); }); }); describe("L.Marker#toGeoJSON", function () { it("returns a 2D Point object", function () { var marker = new L.Marker([10, 20]); expect(marker.toGeoJSON().geometry).to.eql({ type: 'Point', coordinates: [20, 10] }); }); it("returns a 3D Point object", function () { var marker = new L.Marker([10, 20, 30]); expect(marker.toGeoJSON().geometry).to.eql({ type: 'Point', coordinates: [20, 10, 30] }); }); }); describe("L.Circle#toGeoJSON", function () { it("returns a 2D Point object", function () { var circle = new L.Circle([10, 20], 100); expect(circle.toGeoJSON().geometry).to.eql({ type: 'Point', coordinates: [20, 10] }); }); it("returns a 3D Point object", function () { var circle = new L.Circle([10, 20, 30], 100); expect(circle.toGeoJSON().geometry).to.eql({ type: 'Point', coordinates: [20, 10, 30] }); }); }); describe("L.CircleMarker#toGeoJSON", function () { it("returns a 2D Point object", function () { var marker = new L.CircleMarker([10, 20]); expect(marker.toGeoJSON().geometry).to.eql({ type: 'Point', coordinates: [20, 10] }); }); it("returns a 3D Point object", function () { var marker = new L.CircleMarker([10, 20, 30]); expect(marker.toGeoJSON().geometry).to.eql({ type: 'Point', coordinates: [20, 10, 30] }); }); }); describe("L.Polyline#toGeoJSON", function () { it("returns a 2D LineString object", function () { var polyline = new L.Polyline([[10, 20], [2, 5]]); expect(polyline.toGeoJSON().geometry).to.eql({ type: 'LineString', coordinates: [[20, 10], [5, 2]] }); }); it("returns a 3D LineString object", function () { var polyline = new L.Polyline([[10, 20, 30], [2, 5, 10]]); expect(polyline.toGeoJSON().geometry).to.eql({ type: 'LineString', coordinates: [[20, 10, 30], [5, 2, 10]] }); }); }); describe("L.MultiPolyline#toGeoJSON", function () { it("returns a 2D MultiLineString object", function () { var multiPolyline = new L.MultiPolyline([[[10, 20], [2, 5]], [[1, 2], [3, 4]]]); expect(multiPolyline.toGeoJSON().geometry).to.eql({ type: 'MultiLineString', coordinates: [ [[20, 10], [5, 2]], [[2, 1], [4, 3]] ] }); }); it("returns a 3D MultiLineString object", function () { var multiPolyline = new L.MultiPolyline([[[10, 20, 30], [2, 5, 10]], [[1, 2, 3], [4, 5, 6]]]); expect(multiPolyline.toGeoJSON().geometry).to.eql({ type: 'MultiLineString', coordinates: [ [[20, 10, 30], [5, 2, 10]], [[2, 1, 3], [5, 4, 6]] ] }); }); }); describe("L.Polygon#toGeoJSON", function () { it("returns a 2D Polygon object (no holes)", function () { var polygon = new L.Polygon([[1, 2], [3, 4], [5, 6]]); expect(polygon.toGeoJSON().geometry).to.eql({ type: 'Polygon', coordinates: [[[2, 1], [4, 3], [6, 5], [2, 1]]] }); }); it("returns a 3D Polygon object (no holes)", function () { var polygon = new L.Polygon([[1, 2, 3], [4, 5, 6], [7, 8, 9]]); expect(polygon.toGeoJSON().geometry).to.eql({ type: 'Polygon', coordinates: [[[2, 1, 3], [5, 4, 6], [8, 7, 9], [2, 1, 3]]] }); }); it("returns a 2D Polygon object (with holes)", function () { var polygon = new L.Polygon([[[1, 2], [3, 4], [5, 6]], [[7, 8], [9, 10], [11, 12]]]); expect(polygon.toGeoJSON().geometry).to.eql({ type: 'Polygon', coordinates: [ [[2, 1], [4, 3], [6, 5], [2, 1]], [[8, 7], [10, 9], [12, 11], [8, 7]] ] }); }); it("returns a 3D Polygon object (with holes)", function () { var polygon = new L.Polygon([[[1, 2, 3], [4, 5, 6], [7, 8, 9]], [[10, 11, 12], [13, 14, 15], [16, 17, 18]]]); expect(polygon.toGeoJSON().geometry).to.eql({ type: 'Polygon', coordinates: [ [[2, 1, 3], [5, 4, 6], [8, 7, 9], [2, 1, 3]], [[11, 10, 12], [14, 13, 15], [17, 16, 18], [11, 10, 12]] ] }); }); }); describe("L.MultiPolygon#toGeoJSON", function () { it("returns a 2D MultiPolygon object", function () { var multiPolygon = new L.MultiPolygon([[[1, 2], [3, 4], [5, 6]]]); expect(multiPolygon.toGeoJSON().geometry).to.eql({ type: 'MultiPolygon', coordinates: [ [[[2, 1], [4, 3], [6, 5], [2, 1]]] ] }); }); it("returns a 3D MultiPolygon object", function () { var multiPolygon = new L.MultiPolygon([[[1, 2, 3], [4, 5, 6], [7, 8, 9]]]); expect(multiPolygon.toGeoJSON().geometry).to.eql({ type: 'MultiPolygon', coordinates: [ [[[2, 1, 3], [5, 4, 6], [8, 7, 9], [2, 1, 3]]] ] }); }); }); describe("L.LayerGroup#toGeoJSON", function () { it("returns a 2D FeatureCollection object", function () { var marker = new L.Marker([10, 20]), polyline = new L.Polyline([[10, 20], [2, 5]]), layerGroup = new L.LayerGroup([marker, polyline]); expect(layerGroup.toGeoJSON()).to.eql({ type: 'FeatureCollection', features: [marker.toGeoJSON(), polyline.toGeoJSON()] }); }); it("returns a 3D FeatureCollection object", function () { var marker = new L.Marker([10, 20, 30]), polyline = new L.Polyline([[10, 20, 30], [2, 5, 10]]), layerGroup = new L.LayerGroup([marker, polyline]); expect(layerGroup.toGeoJSON()).to.eql({ type: 'FeatureCollection', features: [marker.toGeoJSON(), polyline.toGeoJSON()] }); }); it("ensures that every member is a Feature", function () { var tileLayer = new L.TileLayer(), layerGroup = new L.LayerGroup([tileLayer]); tileLayer.toGeoJSON = function () { return { type: 'Point', coordinates: [20, 10] }; }; expect(layerGroup.toGeoJSON()).to.eql({ type: 'FeatureCollection', features: [{ type: 'Feature', properties: {}, geometry: { type: 'Point', coordinates: [20, 10] } }] }); }); it('roundtrips GeometryCollection features', function () { var json = { "type": "FeatureCollection", "features": [{ "type": "Feature", "geometry": { "type": "GeometryCollection", "geometries": [{ "type": "LineString", "coordinates": [[-122.4425587930444, 37.80666418607323], [-122.4428379594768, 37.80663578323093]] }, { "type": "LineString", "coordinates": [ [-122.4425509770566, 37.80662588061205], [-122.4428340530617, 37.8065999493009] ] }] }, "properties": { "name": "SF Marina Harbor Master" } }] }; expect(L.geoJson(json).toGeoJSON()).to.eql(json); }); it('roundtrips MiltiPoint features', function () { var json = { "type": "FeatureCollection", "features": [{ "type": "Feature", "geometry": { "type": "MultiPoint", "coordinates": [[-122.4425587930444, 37.80666418607323], [-122.4428379594768, 37.80663578323093]] }, "properties": { "name": "Test MultiPoints" } }] }; expect(L.geoJson(json).toGeoJSON()).to.eql(json); }); it("omits layers which do not implement toGeoJSON", function () { var tileLayer = new L.TileLayer(), layerGroup = new L.LayerGroup([tileLayer]); expect(layerGroup.toGeoJSON()).to.eql({ type: 'FeatureCollection', features: [] }); }); });