describe("Map", function () { var map, spy; beforeEach(function () { map = L.map(document.createElement('div')); }); describe("#remove", function () { it("fires an unload event if loaded", function () { var container = document.createElement('div'), map = new L.Map(container).setView([0, 0], 0), spy = sinon.spy(); map.on('unload', spy); map.remove(); expect(spy.called).to.be.ok(); }); it("fires no unload event if not loaded", function () { var container = document.createElement('div'), map = new L.Map(container), spy = sinon.spy(); map.on('unload', spy); map.remove(); expect(spy.called).not.to.be.ok(); }); describe("corner case checking", function () { it("throws an exception upon reinitialization", function () { var container = document.createElement('div'), map = new L.Map(container); expect(function () { new L.Map(container); }).to.throwException(function(e) { expect(e.message).to.eql("Map container is already initialized."); }); map.remove(); }); it("throws an exception if a container is not found", function () { expect(function () { new L.Map('nonexistentdivelement'); }).to.throwException(function(e) { expect(e.message).to.eql("Map container not found."); }); map.remove(); }); }); it("undefines container._leaflet", function () { var container = document.createElement('div'), map = new L.Map(container); map.remove(); expect(container._leaflet).to.be(undefined); }); it("unbinds events", function () { var container = document.createElement('div'), map = new L.Map(container).setView([0, 0], 1), spy = sinon.spy(); map.on('click dblclick mousedown mouseup mousemove', spy); map.remove(); happen.click(container); happen.dblclick(container); happen.mousedown(container); happen.mouseup(container); happen.mousemove(container); expect(spy.called).to.not.be.ok(); }); }); describe('#getCenter', function () { it ('throws if not set before', function () { expect(function () { map.getCenter(); }).to.throwError(); }); }); describe("#whenReady", function () { describe("when the map has not yet been loaded", function () { it("calls the callback when the map is loaded", function () { var spy = sinon.spy(); map.whenReady(spy); expect(spy.called).to.not.be.ok(); map.setView([0, 0], 1); expect(spy.called).to.be.ok(); }); }); describe("when the map has already been loaded", function () { it("calls the callback immediately", function () { var spy = sinon.spy(); map.setView([0, 0], 1); map.whenReady(spy); expect(spy.called).to.be.ok(); }); }); }); describe("#setView", function () { it("sets the view of the map", function () { expect(map.setView([51.505, -0.09], 13)).to.be(map); expect(map.getZoom()).to.be(13); expect(map.getCenter().distanceTo([51.505, -0.09])).to.be.lessThan(5); }); }); describe("#getBounds", function () { it("is safe to call from within a moveend callback during initial load (#1027)", function () { map.on("moveend", function () { map.getBounds(); }); map.setView([51.505, -0.09], 13); }); }); describe("#getMinZoom and #getMaxZoom", function () { it("minZoom and maxZoom options overrides any minZoom and maxZoom set on layers", function () { var c = document.createElement('div'), map = L.map(c, { minZoom: 5, maxZoom: 10 }); L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map); L.tileLayer("{z}{x}{y}", { minZoom:5, maxZoom: 15 }).addTo(map); expect(map.getMinZoom()).to.be(5); expect(map.getMaxZoom()).to.be(10); }); }); describe("#addLayer", function () { it("calls layer.onAdd immediately if the map is ready", function () { var layer = { onAdd: sinon.spy() }; map.setView([0, 0], 0); map.addLayer(layer); expect(layer.onAdd.called).to.be.ok(); }); it("calls layer.onAdd when the map becomes ready", function () { var layer = { onAdd: sinon.spy() }; map.addLayer(layer); expect(layer.onAdd.called).not.to.be.ok(); map.setView([0, 0], 0); expect(layer.onAdd.called).to.be.ok(); }); it("does not call layer.onAdd if the layer is removed before the map becomes ready", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }; map.addLayer(layer); map.removeLayer(layer); map.setView([0, 0], 0); expect(layer.onAdd.called).not.to.be.ok(); }); it("fires a layeradd event immediately if the map is ready", function () { var layer = { onAdd: sinon.spy() }, spy = sinon.spy(); map.on('layeradd', spy); map.setView([0, 0], 0); map.addLayer(layer); expect(spy.called).to.be.ok(); }); it("fires a layeradd event when the map becomes ready", function () { var layer = { onAdd: sinon.spy() }, spy = sinon.spy(); map.on('layeradd', spy); map.addLayer(layer); expect(spy.called).not.to.be.ok(); map.setView([0, 0], 0); expect(spy.called).to.be.ok(); }); it("does not fire a layeradd event if the layer is removed before the map becomes ready", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }, spy = sinon.spy(); map.on('layeradd', spy); map.addLayer(layer); map.removeLayer(layer); map.setView([0, 0], 0); expect(spy.called).not.to.be.ok(); }); it("adds the layer before firing layeradd", function (done) { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }; map.on('layeradd', function() { expect(map.hasLayer(layer)).to.be.ok(); done(); }); map.setView([0, 0], 0); map.addLayer(layer); }); describe("When the first layer is added to a map", function () { it("fires a zoomlevelschange event", function () { var spy = sinon.spy(); map.on("zoomlevelschange", spy); expect(spy.called).not.to.be.ok(); L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map); expect(spy.called).to.be.ok(); }); }); describe("when a new layer with greater zoomlevel coverage than the current layer is added to a map", function () { it("fires a zoomlevelschange event", function () { var spy = sinon.spy(); L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map); map.on("zoomlevelschange", spy); expect(spy.called).not.to.be.ok(); L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 15 }).addTo(map); expect(spy.called).to.be.ok(); }); }); describe("when a new layer with the same or lower zoomlevel coverage as the current layer is added to a map", function () { it("fires no zoomlevelschange event", function () { var spy = sinon.spy(); L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map); map.on("zoomlevelschange", spy); expect(spy.called).not.to.be.ok(); L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map); expect(spy.called).not.to.be.ok(); L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 5 }).addTo(map); expect(spy.called).not.to.be.ok(); }); }); }); describe("#removeLayer", function () { it("calls layer.onRemove if the map is ready", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }; map.setView([0, 0], 0); map.addLayer(layer); map.removeLayer(layer); expect(layer.onRemove.called).to.be.ok(); }); it("does not call layer.onRemove if the layer was not added", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }; map.setView([0, 0], 0); map.removeLayer(layer); expect(layer.onRemove.called).not.to.be.ok(); }); it("does not call layer.onRemove if the map is not ready", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }; map.addLayer(layer); map.removeLayer(layer); expect(layer.onRemove.called).not.to.be.ok(); }); it("fires a layerremove event if the map is ready", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }, spy = sinon.spy(); map.on('layerremove', spy); map.setView([0, 0], 0); map.addLayer(layer); map.removeLayer(layer); expect(spy.called).to.be.ok(); }); it("does not fire a layerremove if the layer was not added", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }, spy = sinon.spy(); map.on('layerremove', spy); map.setView([0, 0], 0); map.removeLayer(layer); expect(spy.called).not.to.be.ok(); }); it("does not fire a layerremove if the map is not ready", function () { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }, spy = sinon.spy(); map.on('layerremove', spy); map.addLayer(layer); map.removeLayer(layer); expect(spy.called).not.to.be.ok(); }); it("removes the layer before firing layerremove", function (done) { var layer = { onAdd: sinon.spy(), onRemove: sinon.spy() }; map.on('layerremove', function() { expect(map.hasLayer(layer)).not.to.be.ok(); done(); }); map.setView([0, 0], 0); map.addLayer(layer); map.removeLayer(layer); }); describe("when the last tile layer on a map is removed", function () { it("fires a zoomlevelschange event", function () { map.whenReady(function(){ var spy = sinon.spy(); var tl = L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map); map.on("zoomlevelschange", spy); expect(spy.called).not.to.be.ok(); map.removeLayer(tl); expect(spy.called).to.be.ok(); }); }); }); describe("when a tile layer is removed from a map and it had greater zoom level coverage than the remainding layer", function () { it("fires a zoomlevelschange event", function () { map.whenReady(function(){ var spy = sinon.spy(), tl = L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map), t2 = L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 15 }).addTo(map); map.on("zoomlevelschange", spy); expect(spy.called).to.not.be.ok(); map.removeLayer(t2); expect(spy.called).to.be.ok(); }); }); }); describe("when a tile layer is removed from a map it and it had lesser or the sa,e zoom level coverage as the remainding layer(s)", function () { it("fires no zoomlevelschange event", function () { map.whenReady(function(){ var tl = L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map), t2 = L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 10 }).addTo(map), t3 = L.tileLayer("{z}{x}{y}", { minZoom:0, maxZoom: 5 }).addTo(map); map.on("zoomlevelschange", spy); expect(spy).not.toHaveBeenCalled(); map.removeLayer(t2); expect(spy).not.toHaveBeenCalled(); map.removeLayer(t3); expect(spy).not.toHaveBeenCalled(); }); }); }); }); describe("#eachLayer", function () { it("returns self", function () { expect(map.eachLayer(function () {})).to.be(map); }); it("calls the provided function for each layer", function () { var t1 = L.tileLayer("{z}{x}{y}").addTo(map), t2 = L.tileLayer("{z}{x}{y}").addTo(map), spy = sinon.spy(); map.eachLayer(spy); expect(spy.callCount).to.eql(2); expect(spy.firstCall.args).to.eql([t1]); expect(spy.secondCall.args).to.eql([t2]); }); it("calls the provided function with the provided context", function () { var t1 = L.tileLayer("{z}{x}{y}").addTo(map), spy = sinon.spy(); map.eachLayer(spy, map); expect(spy.thisValues[0]).to.eql(map); }); }); });