<!DOCTYPE html>
<html>
<head>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1.0, maximum-scale=1.0, user-scalable=0" />
<meta name="apple-mobile-web-app-capable" content="yes" />
<title>动画渲染专题</title>
<link href='./css/bootstrap.min.css' rel='stylesheet' />
<link href='./css/bootstrap-responsive.min.css' rel='stylesheet' />
<link href='./css/sm-extend.css' rel='stylesheet' />
<link href='./css/sm-doc.css' rel='stylesheet' />
</head>
<body data-spy="scroll" data-target=".subnav" data-offset="50">
<!--导航条-->
<div class="navbar navbar-fixed-top" id="navbar">
</div>
<div id='container' class='container'>
<div class='page-header'>
<h1 style="margin-top: 2%">客户端高性能矢量渲染专题</h1>
<hr />
<h2>一、高性能矢量渲染图层Vector类简介</h2>
<p>
SuperMap iClient for JavaScript 提供的 Vector 类支持采用 HTML5 的 Canvas
元素渲染矢量数据,并且提供了对渲染要素的添加、删除和选择操作,
从而为大数据量的矢量数据在无插件的 HTML 文档中,平滑、流畅的呈现,提供了新的解决方案。
</p>
<h2>二、高性能矢量渲染图层 Vector 类的使用说明</h2>
<p> Vector 类用 addFeatures、removeFeatures、removeAllFeatures、
redraw、getFeatureBy、 getFeatureById、getFeatureByFid、 getFeaturesByAttribute
等方法实现对要素的添加、删除、获取,方法的具体介绍和详细的使用说明请参见《API文档》,
下面以具体实例---<strong>车辆监控系统</strong>说明 Vector 的使用方法:
</p>
<p> 长春市某公交公司现有797辆车在28条公交
线路上正常运作运送乘客,为了满足车辆安防和调度的需要, 现对797辆车进行实时监控,
进而达到降低运营成本、提高服务水平、提高企业 收益的目的。此实例通过使用 Vector 类的接口实现了
对大量车辆的实时在线查询和更新功能。
</p>
<h3>2.1、查询功能</h3>
<p>
电子地图上实时显示797辆车,公交公司管理部门可以远程监控所有车辆,具体实现方法如下:
</p>
<p>
(1).初始化两个图层 vectorLayer、vectorLayerCars,一个作为公交车路线图层,一个作为公交车图层。
</p>
<pre>
//初始化公交车路线图层
vectorLayer = new SuperMap.Layer.Vector("Vector Layer", {
renderers: ["Canvas"],
styleMap: new SuperMap.StyleMap({"default": styleLine})
});
//初始化公交车图层
vectorLayerCars = new SuperMap.Layer.Vector("Vector Layer Cars", {
renderers: ["Canvas2"],
styleMap: new SuperMap.StyleMap({"default": stylePoint})
});
//为 vectorLayerCars 添加一个选择控件。
select = new SuperMap.Control.SelectFeature(vectorLayerCars, {
onSelect: onFeatureSelect,
onUnselect: onFeatureUnselect
}
);
map.addControl(select);
//要素被选中时调用此函数
function onFeatureSelect(feature) {
selecedtBus = feature;
popup = new SuperMap.Popup("chicken",
selecedtBus.geometry.getBounds().getCenterLonLat(),
new SuperMap.Size(300,42),
"<div style='font-size:.8em; opacity: 0.8'><p>公交线路:" + selecedtBus.line.num + "路" +
"</p><p>当前位置:" + selecedtBus.geometry.x + "," + selecedtBus.geometry.y + "</p></div>", null, true);
selecedtBus.popup = popup;
map.addPopup(popup);
}
//清除要素时调用此函数
function onFeatureUnselect(feature) {
map.removePopup(feature.popup);
feature.popup.destroy();
feature.popup = null;
selecedtBus = null;
}
</pre>
<p>
(2).定义查询的公交车路线,通过 SQL 查询方法查询公交路线,通过监听对 QueryBySQLService 支持的
两个从服务端返回结果事件 processCompleted 、processFailed,获取查询公交路线结果。
</p>
<pre>
//定义查询公交线路
function queryBySQL() {
//清除当前图层所有feature要素
vectorLayer.removeAllFeatures();
var queryParam, queryBySQLParams, queryBySQLService;
//声明查询参数
queryParam = new SuperMap.REST.FilterParameter({
name: "BusLine@Changchun#1",
attributeFilter: "SmID > 0"}
),
//声明 SQL 查询参数,将 queryParam 赋给 queryBySQLParams
queryBySQLParams = new SuperMap.REST.QueryBySQLParameters({
queryParams: [queryParam]
}),
//声明 SQL 服务对象
queryBySQLService = new SuperMap.REST.QueryBySQLService(url, {
eventListeners: {
"processCompleted": processCompleted,
"processFailed": processFailed
}
});
//向服务端发送请求执行查询
queryBySQLService.processAsync(queryBySQLParams);
}
</pre>
<p>
(3). 定义 QueryBySQLService 的监听对象,用于显示公交路线图层和公家车图层,实现过程中
需要先分别定义一个公交路线的数组和公交车的数组,然后通过公交路线节点模拟公交车,
实例化公交车的运行方向和位置,最后添加公交车路线图层和公交车图层。
</p>
<pre>
function processCompleted(queryEventArgs) {
var i, j, feature,
result = queryEventArgs.result;
features = [];
cars = [];
orientation = 1;
if (result && result.recordsets) {
for (i=0; i<result.recordsets.length; i++) {
if (result.recordsets[i].features) {
for (j=0; j<result.recordsets[i].features.length; j++) {
feature = result.recordsets[i].features[j];
feature.style = null;
feature.num = j;
features.push(feature);
for(var k = 0, len = feature.geometry.components.length; k < len; k++) {
//创建公交车对象
var car = new SuperMap.Feature.Vector(feature.geometry.components[k].clone());
//定义公交车的 style
car.style = {pointRadius: 10, stroke: false};
var cargeometry = car.geometry;
//定义公交车基本信息,包括公交车的路线、速度和速度向量、当前节
//点位置和下一结点位置、通过速度向量计算的旋转角度、移动步数
car.line = feature;
car.orientation = orientation;
car.currentIndex = k;
if(feature.geometry.components[car.currentIndex + car.orientation]) {
car.nextPoint = feature.geometry.components[k + car.orientation];
var dx = car.nextPoint.x - cargeometry.x;
var dy = car.nextPoint.y - cargeometry.y;
var distance = Math.sqrt(dx * dx + dy * dy);
car.speed = parseInt(Math.random() * 5 + 2) * car.orientation;
if(car.speed == 0) {car.speed == 10};
car.moves = distance / car.speed;
car.vx = dx / car.moves;
car.vy = dy / car.moves;
var angle = Math.atan2(dx, dy);
car.style.rotate = angle;
//分配不同的公交车图片
if (Math.abs(car.speed < 4)){
car.style.externalGraphicSource = car1;
}
if (Math.abs(car.speed) >= 4 && Math.abs(car.speed < 5)){
car.style.externalGraphicSource = car2;
}
if (Math.abs(car.speed >= 5)){
car.style.externalGraphicSource = car3;
}
car.stop = false;
}else{
car.stop = true;
car.style.externalGraphicSource = car3;
}
orientation *= -1;
cars.push(car);
}
}
}
}
}
//将公交路线绘制到公交路线图层上
vectorLayer.addFeatures(features);
//将公交车绘制公交车图层上
vectorLayerCars.addFeatures(cars);
}
</pre>
<p>显示效果图如下所示:</P>
<div class="pageImage"><img src="./images/bus.png" /></div>
<h3>2.2大量车辆实时在线更新功能 </h3>
<p>
公交公司管理部门监控某一时间段内797辆车的运行状态 , 电子地图上显示每辆车每30秒的位置变化情况,实现代码如下:
</p>
<p>
(1)开始实施监控,通过公交车的基本信息(如速度,定位信息)改变其位置,实施方法为先全部
清除(removeAllFeatures)显示公交车的图层,再定义公交车的属性信息(方向、速度等),
最后将改变后的公交车数组通过 addFeatures 方法加入至公交车图层。
</p>
<pre>
//开始监控
function monitor() {
document.getElementById("monitor").onclick = "";
if(selecedtBus) {
map.removePopup(selecedtBus.popup);
}
vectorLayerCars.removeAllFeatures();
redraw = false;
for(var i =0, len = cars.length; i < len; i++) {
var car = cars[i];
var cargeometry = car.geometry;
if(!car.stop) {
if(car.moves < 1) {
cargeometry.x = car.nextPoint.x;
cargeometry.y = car.nextPoint.y;
//更新公交车的信息
var feature = car.line;
car.currentIndex += car.orientation;
if(feature.geometry.components[car.currentIndex + car.orientation]) {
car.nextPoint = feature.geometry.components[car.currentIndex + car.orientation];
var dx = car.nextPoint.x - cargeometry.x;
var dy = car.nextPoint.y - cargeometry.y;
var distance = Math.sqrt(dx * dx + dy * dy);
car.moves = Math.abs(distance / car.speed);
car.vx = dx / car.moves;
car.vy = dy / car.moves;
var angle = Math.atan2(dx, dy);
car.style.rotate = angle;
}else{
car.stop = true;
car.style.fillColor = "rgb(150,150,150)";
}
}else{
cargeometry.x += car.vx;
cargeometry.y += car.vy;
car.moves--;
}
}
//只要有车移动就需要重绘。
if(!car.stop) {
redraw = true;
}
}
//将公交车绘制到公交车图层上
vectorLayerCars.addFeatures(cars);
if(selecedtBus) {
//将选中的公交车的信息添加到地图上
vectorLayerCars.selectedFeatures.push(selecedtBus);
popup = new SuperMap.Popup("chicken",
selecedtBus.geometry.getBounds().getCenterLonLat(),
new SuperMap.Size(300,42), "<div style='font-size:.8em; opacity: 0.8'><p>公交线路:" +
selecedtBus.line.num + "路" +
"</p><p>当前位置:" + selecedtBus.geometry.x + "," + selecedtBus.geometry.y + "</p></div>",
null, true);
selecedtBus.popup = popup;
map.addPopup(popup);
}
}
</pre>
<p>(2)通过监听公交车图层的 feature 添加完成事件(addFeaturesCompelte),
以实时调用 clearFeatures 方法实现公交车的动态监控。
</p>
<pre>
function addFeaturesCompelte(args) {
if(redraw) {
timerid = setTimeout(monitor, 50);
}
}
</pre>
<p>(3) 通过 onclick 事件停止监控。
</p>
<pre>
//停止监控
function stopMonitor() {
window.clearTimeout(timerid);
document.getElementById("monitor").onclick = monitor;
redraw = false;
}
</pre>
<h2>三、专题小结</h2>
<p>以上车辆监控实例通过高性能矢量渲染 Vector 类实现了对大量车辆的在线查询和
实时更新功能,满足了用户需求的同时,也带给用户平滑、流畅的视觉效果。
</p>
<p>通过实例也验证了高性能矢量绘制图层 Vector 类在大量数据显示、
实时更新等功能上的优异性能和流畅稳定的呈现,
为用户提供了客户端大量动态数据展示的解决方案。
</p>
</div>
<div class='footer'>
<p>版权所有 © 2000-2016 北京超图软件股份有限公司</p>
</div>
</div>
<script src='./js/jquery.js'></script>
<script src='./js/bootstrap.js'></script>
<script src="./js/navbar.js"></script>
<script src="./js/GoTop.js" id="js_gotop"></script>
</body>
</html>