describe('PolylineGeometry', function () { var c = document.createElement('div'); c.style.width = '400px'; c.style.height = '400px'; var map = new L.Map(c); map.setView(new L.LatLng(55.8, 37.6), 6); describe("#distanceTo", function () { it("calculates distances to points", function () { var p1 = map.latLngToLayerPoint(new L.LatLng(55.8, 37.6)); var p2 = map.latLngToLayerPoint(new L.LatLng(57.123076977278, 44.861962891635)); var latlngs = [[56.485503424111, 35.545556640339], [55.972522915346, 36.116845702918], [55.502459116923, 34.930322265253], [55.31534617509, 38.973291015816]] .map(function (ll) { return new L.LatLng(ll[0], ll[1]); }); var polyline = new L.Polyline([], { 'noClip': true }); map.addLayer(polyline); expect(polyline.closestLayerPoint(p1)).to.be(null); polyline.setLatLngs(latlngs); var point = polyline.closestLayerPoint(p1); expect(point).not.to.be(null); expect(point.distance).to.not.be(Infinity); expect(point.distance).to.not.be(NaN); var point2 = polyline.closestLayerPoint(p2); expect(point.distance).to.be.lessThan(point2.distance); }); }); }); describe('LineUtil', function () { describe('#isFlat', function () { var layer = L.polyline([]); it('should return true for an array of LatLngs', function () { expect(L.LineUtil.isFlat([L.latLng([0, 0])])).to.be(true); }); it('should return true for an array of LatLngs arrays', function () { expect(L.LineUtil.isFlat([[0, 0]])).to.be(true); }); it('should return true for an empty array', function () { expect(L.LineUtil.isFlat([])).to.be(true); }); it('should return false for a nested array of LatLngs', function () { expect(L.LineUtil.isFlat([[L.latLng([0, 0])]])).to.be(false); }); it('should return false for a nested empty array', function () { expect(L.LineUtil.isFlat([[]])).to.be(false); }); it('should be aliased as _flat for retrocompat', function () { expect(L.LineUtil._flat([L.latLng([0, 0])])).to.be(true); }); it('should be aliased as L.Polyline._flat for retrocompat', function () { expect(L.Polyline._flat([L.latLng([0, 0])])).to.be(true); }); }); });