我制作了一个使用绘图管理器的地图应用程序(并实现了可选择的形状)。该程序的工作原理如下:在单击按钮后完成绘制多边形的路径时,将映射到多边形上。
在此过程之后编辑多边形时,我希望再次调用映射函数。但是我不能让这部分工作:
我尝试使用以下代码,但我总是收到错误,因为添加此侦听器时尚未选择任何形状。我该怎么办?
google.maps.event.addListener(selectedShape, 'set_at', function() {
console.log("test");
});
google.maps.event.addListener(selectedShape, 'insert_at', function() {
console.log("test");
});
重要的代码:
function showDrawingManager(){
var managerOptions = {
drawingControl: true,
drawingControlOptions: {
position: google.maps.ControlPosition.TOP_CENTER,
drawingModes: [google.maps.drawing.OverlayType.MARKER, google.maps.drawing.OverlayType.POLYLINE, google.maps.drawing.OverlayType.POLYGON]
},
markerOptions: {
editable: true,
icon: '/largeTDGreenIcons/blank.png'
},
polygonOptions: {
fillColor: "#1E90FF",
strokeColor: "#1E90FF",
},
polylineOptions: {
strokeColor: "#FF273A"
}
}
var drawingManager = new google.maps.drawing.DrawingManager(managerOptions);
drawingManager.setMap(map);
return drawingManager;
}
function clearSelection() {
if (selectedShape) {
console.log("clearSelection");
selectedShape.setEditable(false);
selectedShape = null;
numberOfShapes--;
}
}
function setSelection(shape) {
console.log("setSelection");
clearSelection();
selectedShape = shape;
shape.setEditable(true);
numberOfShapes++;
//getInformation(shape);
}
function initialize(){
//....
var drawingManager = showDrawingManager();
google.maps.event.addListener(drawingManager, 'overlaycomplete', function(e) {
if (e.type != google.maps.drawing.OverlayType.MARKER) {
// Switch back to non-drawing mode after drawing a shape.
drawingManager.setDrawingMode(null);
// Add an event listener that selects the newly-drawn shape when the user
// mouses down on it.
var newShape = e.overlay;
newShape.type = e.type;
google.maps.event.addListener(newShape, 'click', function() {
setSelection(newShape);
});
setSelection(newShape);
}
});
答案 0 :(得分:27)
我通过调用.getPath()并将侦听器放在每次单击一个形状时调用的侦听器中来解决它。我认为Google API文档在如何使用set_at方面不是很清楚,所以它也可能对其他人有用。
// Add an event listener that selects the newly-drawn shape when the user
// mouses down on it.
var newShape = e.overlay;
newShape.type = e.type;
google.maps.event.addListener(newShape, 'click', function() {
google.maps.event.addListener(newShape.getPath(), 'set_at', function() {
console.log("test");
});
google.maps.event.addListener(newShape.getPath(), 'insert_at', function() {
console.log("test");
});
setSelection(newShape);
});
答案 1 :(得分:18)
google.maps.event.addListener(yourPolygon.getPath(), 'insert_at', function(index, obj) {
//polygon object: yourPolygon
});
google.maps.event.addListener(yourPolygon.getPath(), 'set_at', function(index, obj) {
//polygon object: yourPolygon
});
以上代码对我有用。当我们从突出显示的点(边缘)修改多边形区域时触发set_at
,当我们拖动突出显示边缘之间的点时会触发insert_at
。
我在polygoncomplete
事件中以及从数据库加载多边形后使用它们。它对他们来说很好。
答案 2 :(得分:10)
为了避免set_at和拖动中提到的问题,我添加了以下内容,它在拖动绘图时禁用set_at的事件广播。我创建了一个扩展多边形类的类,并添加了这个方法:
ExtDrawingPolygon.prototype.enableCoordinatesChangedEvent = function(){
var me = this,
superClass = me.superClass,
isBeingDragged = false,
triggerCoordinatesChanged = function(){
//broadcast normalized event
google.maps.event.trigger(superClass, 'coordinates_changed');
};
// If the overlay is being dragged, set_at gets called repeatedly,
// so either we can debounce that or ignore while dragging,
// ignoring is more efficient.
google.maps.event.addListener(superClass, 'dragstart', function(){
isBeingDragged = true;
});
// If the overlay is dragged
google.maps.event.addListener(superClass, 'dragend', function(){
triggerCoordinatesChanged();
isBeingDragged = false;
});
// Or vertices are added to any of the possible paths, or deleted
var paths = superClass.getPaths();
paths.forEach(function(path, i){
google.maps.event.addListener(path, "insert_at", function(){
triggerCoordinatesChanged();
});
google.maps.event.addListener(path, "set_at", function(){
if(!isBeingDragged){
triggerCoordinatesChanged();
}
});
google.maps.event.addListener(path, "remove_at", function(){
triggerCoordinatesChanged();
});
});
};
它为多边形本身添加了一个“coordinates_changed”事件,因此其他代码可以只监听一个漂亮的单一简化事件。
答案 3 :(得分:3)
从chrismarx's answer开始,下面是在TypeScript中使用新事件的示例。我对删除超类和更改对#34; me"的引用做了一些小改动,因为未定义的引用存在问题。
在文件或全局配置文件等的顶部,使用:
declare global {
module google.maps {
interface Polygon {
enableCoordinatesChangedEvent();
}
}
}
然后定义扩展名:
google.maps.Polygon.prototype.enableCoordinatesChangedEvent = function () {
var me = this,
isBeingDragged = false,
triggerCoordinatesChanged = function () {
// Broadcast normalized event
google.maps.event.trigger(me, 'coordinates_changed');
};
// If the overlay is being dragged, set_at gets called repeatedly,
// so either we can debounce that or igore while dragging,
// ignoring is more efficient
google.maps.event.addListener(me, 'dragstart', function () {
isBeingDragged = true;
});
// If the overlay is dragged
google.maps.event.addListener(me, 'dragend', function () {
triggerCoordinatesChanged();
isBeingDragged = false;
});
// Or vertices are added to any of the possible paths, or deleted
var paths = me.getPaths();
paths.forEach(function (path, i) {
google.maps.event.addListener(path, "insert_at", function () {
triggerCoordinatesChanged();
});
google.maps.event.addListener(path, "set_at", function () {
if (!isBeingDragged) {
triggerCoordinatesChanged();
}
});
google.maps.event.addListener(path, "remove_at", function () {
triggerCoordinatesChanged();
});
});
};
最后调用扩展并添加监听器:
google.maps.event.addListener(drawingManager, 'overlaycomplete', function (event) {
event.overlay.enableCoordinatesChangedEvent();
google.maps.event.addListener(event.overlay, 'coordinates_changed', function (index, obj) {
// Polygon object: yourPolygon
console.log('coordinates_changed');
});
});
答案 4 :(得分:0)
从Thomas的answer开始,这是一个实现,可以对使用DrawingManager
创建的叠加层以及从GeoJSON添加的Feature
进行编辑。
对我来说,主要的难题是使用google.maps
创建的DrawingManager
前缀的覆盖类型以及google.maps.Data
创建的类似命名的Feature
addFromGeoJson()
类型。最终,我忽略了内置的Data
对象,而是将所有内容存储为重新创建的叠加层,设置了编辑事件侦听器,然后在绘制它们时分别对其调用setMap()
。原始绘制的叠加层和已加载的要素将被丢弃。
该过程看起来像这样:
addfeature
事件侦听器以检测何时添加功能。在addGeoJson()
中,每个Feature
都会触发此操作,获取其对应的叠加层类型和几何图形,并将它们传递给实用函数addFeature()
以创建叠加层。DrawingManager
。{overlay}complete
,polygon
和polyline
)添加marker
事件监听器。触发后,这些事件会首先确定叠加层是否有效(例如,多边形具有> = 3个顶点),然后调用addFeature()
,传入叠加层类型和几何形状。在调用时,addFeature()
重新创建覆盖并设置所有适用的事件侦听器。最后,叠加层存储在数组中并显示在地图上。
// GeoJSON containing previously stored data (optional)
var imported = {
type: "FeatureCollection",
features: [{
"type": "Feature",
"geometry": {
"type": "Point",
"coordinates": [
-73.985603, 40.748429
],
},
properties: {
activity: "Entry",
}
}, ]
};
// this will fill with map data as you import it from geojson or draw
var features = {
polygons: [],
lines: [],
markers: []
};
// set default drawing styles
var styles = {
polygon: {
fillColor: '#00ff80',
fillOpacity: 0.3,
strokeColor: '#008840',
strokeWeight: 1,
clickable: true,
editable: true,
zIndex: 1
},
polyline: {
strokeColor: '#ffff00',
strokeWeight: 3,
clickable: true,
editable: true,
zIndex: 2
},
marker: {
clickable: true,
draggable: true,
zIndex: 3
}
}
var map;
function initMap() {
map = new google.maps.Map(document.getElementById('map'), {
center: {
lat: 40.748429,
lng: -73.985603
},
zoom: 18,
noClear: true,
mapTypeId: 'satellite',
navigationControl: true,
mapTypeControl: false,
streetViewControl: false,
tilt: 0
});
// add this listener BEFORE loading from GeoJSON
map.data.addListener('addfeature', featureAdded);
// load map features from geojson
map.data.addGeoJson(imported);
// initialize drawing tools
var drawingManager = new google.maps.drawing.DrawingManager({
// uncomment below line to set default drawing mode
// drawingMode: 'marker',
drawingControl: true,
drawingControlOptions: {
position: google.maps.ControlPosition.TOP_CENTER,
drawingModes: ['polygon', 'polyline', 'marker']
},
polygonOptions: styles.polygon,
polylineOptions: styles.polyline,
markerOptions: styles.marker
});
drawingManager.setMap(map);
// for each drawing mode, set a listener for end of drawing
drawingManager.addListener('polygoncomplete', function(polygon) {
// delete drawing if doesn't have enough points
if (polygon.getPath().getLength() < 3) {
alert('Polygons must have 3 or more points.');
polygon.getPath().clear();
}
// otherwise create new feature and delete drawing
else {
addFeature('Polygon', polygon.getPath());
polygon.setMap(null);
}
});
drawingManager.addListener('polylinecomplete', function(line) {
// delete drawing if doesn't have enough points
if (line.getPath().getLength() < 2) {
alert('Lines must have 2 or more points.');
line.getPath().clear();
}
// otherwise create new feature and delete drawing
else {
addFeature('Polyline', line.getPath());
line.setMap(null);
}
});
drawingManager.addListener('markercomplete', function(marker) {
// point geometries have only one point by definition,
// so create new feature and delete drawing
addFeature('Point', marker.getPosition());
marker.setMap(null);
updateGeoJSON();
});
}
// this function gets called when GeoJSON gets loaded
function featureAdded(e) {
switch (e.feature.getGeometry().getType()) {
case 'Polygon':
addFeature('Polygon', e.feature.getGeometry().getAt(0).getArray());
break;
case 'LineString':
addFeature('Polyline', e.feature.getGeometry().getArray());
break;
case 'Point':
addFeature('Point', e.feature.getGeometry().get());
}
map.data.remove(e.feature);
}
function addFeature(type, path) {
switch (type) {
case 'Polygon':
var polygon = new google.maps.Polygon(styles.polygon);
polygon.setPath(path);
// listeners for detecting geometry changes
polygon.getPath().addListener('insert_at', someFunction)
polygon.getPath().addListener('set_at', someFunction);
polygon.getPath().addListener('remove_at', someFunction);
polygon.getPath().addListener('dragend', someFunction);
// delete vertex using right click
polygon.addListener('rightclick', function(e) {
if (e.vertex == undefined) return;
if (polygon.getPath().getLength() == 3) {
polygon.setMap(null);
features.polygons = features.polygons.filter(isValid);
} else {
polygon.getPath().removeAt(e.vertex);
outputAsGeoJSON();
}
});
// add it to our list of features
features.polygons.push(polygon);
// and display it on the map
polygon.setMap(map);
break;
case 'Polyline':
var line = new google.maps.Polyline(styles.polyline);
line.setPath(path);
line.getPath().addListener('insert_at', someOtherFunction);
line.getPath().addListener('set_at', someOtherFunction);
line.getPath().addListener('remove_at', someOtherFunction);
line.getPath().addListener('dragend', someOtherFunction);
// allow right-click vertex deletion
line.addListener('rightclick', function(e) {
if (e.vertex == undefined) return;
if (line.getPath().getLength() == 2) {
line.setMap(null);
features.lines = features.lines.filter(isValid);
} else {
line.getPath().removeAt(e.vertex);
outputAsGeoJSON();
}
});
// add it to our list of features
features.lines.push(line);
// and display it on the map
line.setMap(map);
break;
case 'Point':
var marker = new google.maps.Marker(styles.marker);
marker.setPosition(path);
// make a splashy entrance
marker.setAnimation(google.maps.Animation.DROP);
// detect modifications
marker.addListener('drag', function(e) {
// unnecessary bouncing just to throw you off
marker.setAnimation(google.maps.Animation.BOUNCE);
});
marker.addListener('dragend', function(e) {
// make the bouncing stop
marker.setAnimation(null);
})
// allow right-click deletion
marker.addListener('rightclick', function(e) {
marker.setMap(null);
features.markers = features.markers.filter(isValid);
outputAsGeoJSON();
});
// add it to our list of features
features.markers.push(marker);
// and display it on the map
marker.setMap(map);
break;
}
outputAsGeoJSON();
}
function someFunction() {
// do stuff
}
function someOtherFunction() {
// do other stuff
}
// utility function for reuse any time someone right clicks
function isValid(f) {
return f.getMap() != null;
}
function outputAsGeoJSON() {
// we're only using the Data type here because it can export as GeoJSON
var data = new google.maps.Data;
// add all the polygons in our list of features
features.polygons.forEach(function(polygon, i) {
data.add({
geometry: new google.maps.Data.Polygon([polygon.getPath().getArray()]),
properties: {
description: 'I am a polygon'
}
});
});
// and add all the lines
features.lines.forEach(function(line, i) {
data.add({
geometry: new google.maps.Data.LineString(line.getPath().getArray()),
properties: {
description: 'I am a line'
}
});
});
// and finally any markers
features.markers.forEach(function(marker, i) {
data.add({
geometry: new google.maps.Data.Point(marker.getPosition()),
properties: {
description: 'I am a marker'
}
});
});
// GeoJSONify it
data.toGeoJson(function(json) {
document.getElementById('geojson').value = JSON.stringify(json);
});
}