describe("CRS.EPSG3857", function () { var crs = L.CRS.EPSG3857; describe("#latLngToPoint", function () { it("projects a center point", function () { expect(crs.latLngToPoint(L.latLng(0, 0), 0)).near(new L.Point(128, 128), 0.01); }); it("projects the northeast corner of the world", function () { expect(crs.latLngToPoint(L.latLng(85.0511287798, 180), 0)).near(new L.Point(256, 0)); }); }); describe("#pointToLatLng", function () { it("reprojects a center point", function () { expect(crs.pointToLatLng(new L.Point(128, 128), 0)).nearLatLng(L.latLng(0, 0), 0.01); }); it("reprojects the northeast corner of the world", function () { expect(crs.pointToLatLng(new L.Point(256, 0), 0)).nearLatLng(L.latLng(85.0511287798, 180)); }); }); describe("project", function () { it('projects geo coords into meter coords correctly', function () { expect(crs.project(new L.LatLng(50, 30))).near(new L.Point(3339584.7238, 6446275.84102)); expect(crs.project(new L.LatLng(85.0511287798, 180))).near(new L.Point(20037508.34279, 20037508.34278)); expect(crs.project(new L.LatLng(-85.0511287798, -180))).near(new L.Point(-20037508.34279, -20037508.34278)); }); }); describe("unproject", function () { it('unprojects meter coords into geo coords correctly', function () { expect(crs.unproject(new L.Point(3339584.7238, 6446275.84102))).nearLatLng(new L.LatLng(50, 30)); expect(crs.unproject(new L.Point(20037508.34279, 20037508.34278))).nearLatLng(new L.LatLng(85.051129, 180)); expect(crs.unproject(new L.Point(-20037508.34279, -20037508.34278))).nearLatLng(new L.LatLng(-85.051129, -180)); }); }); describe("#getProjectedBounds", function () { it("gives correct size", function () { var i, worldSize = 256, crsSize; for (i = 0; i <= 22; i++) { crsSize = crs.getProjectedBounds(i).getSize(); expect(crsSize.x).equal(worldSize); expect(crsSize.y).equal(worldSize); worldSize *= 2; } }); }); describe('#wrapLatLng', function () { it("wraps longitude to lie between -180 and 180 by default", function () { expect(crs.wrapLatLng(new L.LatLng(0, 190)).lng).to.eql(-170); expect(crs.wrapLatLng(new L.LatLng(0, 360)).lng).to.eql(0); expect(crs.wrapLatLng(new L.LatLng(0, 380)).lng).to.eql(20); expect(crs.wrapLatLng(new L.LatLng(0, -190)).lng).to.eql(170); expect(crs.wrapLatLng(new L.LatLng(0, -360)).lng).to.eql(0); expect(crs.wrapLatLng(new L.LatLng(0, -380)).lng).to.eql(-20); expect(crs.wrapLatLng(new L.LatLng(0, 90)).lng).to.eql(90); expect(crs.wrapLatLng(new L.LatLng(0, 180)).lng).to.eql(180); }); it("does not drop altitude", function () { expect(crs.wrapLatLng(new L.LatLng(0, 190, 1234)).lng).to.eql(-170); expect(crs.wrapLatLng(new L.LatLng(0, 190, 1234)).alt).to.eql(1234); expect(crs.wrapLatLng(new L.LatLng(0, 380, 1234)).lng).to.eql(20); expect(crs.wrapLatLng(new L.LatLng(0, 380, 1234)).alt).to.eql(1234); }); }); }); describe("CRS.EPSG4326", function () { var crs = L.CRS.EPSG4326; describe("#getSize", function () { it("gives correct size", function () { var i, worldSize = 256, crsSize; for (i = 0; i <= 22; i++) { crsSize = crs.getProjectedBounds(i).getSize(); expect(crsSize.x).equal(worldSize * 2); // Lat bounds are half as high (-90/+90 compared to -180/+180) expect(crsSize.y).equal(worldSize); worldSize *= 2; } }); }); }); describe("CRS.EPSG3395", function () { var crs = L.CRS.EPSG3395; describe("#latLngToPoint", function () { it("projects a center point", function () { expect(crs.latLngToPoint(L.latLng(0, 0), 0)).near(new L.Point(128, 128), 0.01); }); it("projects the northeast corner of the world", function () { expect(crs.latLngToPoint(L.latLng(85.0840591556, 180), 0)).near(new L.Point(256, 0)); }); }); describe("#pointToLatLng", function () { it("reprojects a center point", function () { expect(crs.pointToLatLng(new L.Point(128, 128), 0)).nearLatLng(L.latLng(0, 0), 0.01); }); it("reprojects the northeast corner of the world", function () { expect(crs.pointToLatLng(new L.Point(256, 0), 0)).nearLatLng(L.latLng(85.0840591556, 180)); }); }); }); describe("CRS.Simple", function () { var crs = L.CRS.Simple; describe("#latLngToPoint", function () { it("converts LatLng coords to pixels", function () { expect(crs.latLngToPoint(L.latLng(0, 0), 0)).near(new L.Point(0, 0)); expect(crs.latLngToPoint(L.latLng(700, 300), 0)).near(new L.Point(300, -700)); expect(crs.latLngToPoint(L.latLng(-200, 1000), 1)).near(new L.Point(2000, 400)); }); }); describe("#pointToLatLng", function () { it("converts pixels to LatLng coords", function () { expect(crs.pointToLatLng(L.point(0, 0), 0)).nearLatLng(new L.LatLng(0, 0)); expect(crs.pointToLatLng(L.point(300, -700), 0)).nearLatLng(new L.LatLng(700, 300)); expect(crs.pointToLatLng(L.point(2000, 400), 1)).nearLatLng(new L.LatLng(-200, 1000)); }); }); describe("getProjectedBounds", function () { it("returns nothing", function () { expect(crs.getProjectedBounds(5)).to.be(null); }); }); describe("wrapLatLng", function () { it("returns coords as is", function () { expect(crs.wrapLatLng(new L.LatLng(270, 400)).equals(new L.LatLng(270, 400))).to.be(true); }); it("wraps coords if configured", function () { var crs = L.extend({}, L.CRS.Simple, { wrapLng: [-200, 200], wrapLat: [-200, 200] }); expect(crs.wrapLatLng(new L.LatLng(300, -250))).nearLatLng(new L.LatLng(-100, 150)); }); }); }); describe("CRS", function () { var crs = L.CRS; describe("#zoom && #scale", function () { it("convert zoom to scale and viceversa and return the same values", function () { var zoom = 2.5; var scale = crs.scale(zoom); expect(crs.zoom(scale)).to.eql(zoom); }); }); }); describe("CRS.ZoomNotPowerOfTwo", function () { var crs = L.extend({}, L.CRS, { scale: function (zoom) { return 256 * Math.pow(1.5, zoom); }, zoom: function (scale) { return Math.log(scale / 256) / Math.log(1.5); } }); describe("#scale", function () { it("of zoom levels are related by a power of 1.5", function () { var zoom = 5; var scale = crs.scale(zoom); expect(crs.scale(zoom + 1)).to.eql(1.5 * scale); expect(crs.zoom(1.5 * scale)).to.eql(zoom + 1); }); }); describe("#zoom && #scale", function () { it("convert zoom to scale and viceversa and return the same values", function () { var zoom = 2; var scale = crs.scale(zoom); expect(crs.zoom(scale)).to.eql(zoom); }); }); }); describe("CRS.Earth", function () { describe("#distance", function () { // Test values from http://rosettacode.org/wiki/Haversine_formula, // we assume using mean earth radius (https://en.wikipedia.org/wiki/Earth_radius#Mean_radius) // is correct, since that's what International Union of Geodesy and Geophysics recommends, // and that sounds serious. var p1 = L.latLng(36.12, -86.67); var p2 = L.latLng(33.94, -118.40); expect(L.CRS.Earth.distance(p1, p2)).to.be.within(2886444.43, 2886444.45); }); });