什么是IntentService?简单来说IntentService就是一个含有自身消息循环的Service,首先它是一个service,所以service相关具有的特性他都有,同时他还有一些自身的属性,其内部封装了一个消息队列和一个HandlerThread,在其具体的抽象方法:onHandleIntent方法是运行在其消息队列线程中,废话不多说,我们来看其简单的使用方法:
public class MIntentService extends IntentService{
public MIntentService() {
super("");
}
@Override
protected void onHandleIntent(Intent intent) {
Log.i("tag", intent.getStringExtra("params") + " " + Thread.currentThread().getId());
}
}
<service android:name=".MIntentService" />
title.setOnClickListener(new View.OnClickListener() {
@Override
public void onClick(View v) {
Intent intent = new Intent(MainActivity.this, MIntentService.class);
intent.putExtra("params", "ceshi");
startService(intent);
}
});
可以发现当点击title组件的时候,service接收到了消息并打印出了传递过去的intent参数,同时显示onHandlerIntent方法执行的线程ID并非主线程,这是为什么呢?
下面我们来看一下service的源码:
public abstract class IntentService extends Service {
private volatile Looper mServiceLooper;
private volatile ServiceHandler mServiceHandler;
private String mName;
private boolean mRedelivery;
private final class ServiceHandler extends Handler {
public ServiceHandler(Looper looper) {
super(looper);
}
@Override
public void handleMessage(Message msg) {
onHandleIntent((Intent)msg.obj);
stopSelf(msg.arg1);
}
}
/** * Creates an IntentService. Invoked by your subclass's constructor. * * @param name Used to name the worker thread, important only for debugging. */
public IntentService(String name) {
super();
mName = name;
}
/** * Sets intent redelivery preferences. Usually called from the constructor * with your preferred semantics. * * <p>If enabled is true, * {@link #onStartCommand(Intent, int, int)} will return * {@link Service#START_REDELIVER_INTENT}, so if this process dies before * {@link #onHandleIntent(Intent)} returns, the process will be restarted * and the intent redelivered. If multiple Intents have been sent, only * the most recent one is guaranteed to be redelivered. * * <p>If enabled is false (the default), * {@link #onStartCommand(Intent, int, int)} will return * {@link Service#START_NOT_STICKY}, and if the process dies, the Intent * dies along with it. */
public void setIntentRedelivery(boolean enabled) {
mRedelivery = enabled;
}
@Override
public void onCreate() {
// TODO: It would be nice to have an option to hold a partial wakelock
// during processing, and to have a static startService(Context, Intent)
// method that would launch the service & hand off a wakelock.
super.onCreate();
HandlerThread thread = new HandlerThread("IntentService[" + mName + "]");
thread.start();
mServiceLooper = thread.getLooper();
mServiceHandler = new ServiceHandler(mServiceLooper);
}
@Override
public void onStart(Intent intent, int startId) {
Message msg = mServiceHandler.obtainMessage();
msg.arg1 = startId;
msg.obj = intent;
mServiceHandler.sendMessage(msg);
}
/** * You should not override this method for your IntentService. Instead, * override {@link #onHandleIntent}, which the system calls when the IntentService * receives a start request. * @see android.app.Service#onStartCommand */
@Override
public int onStartCommand(Intent intent, int flags, int startId) {
onStart(intent, startId);
return mRedelivery ? START_REDELIVER_INTENT : START_NOT_STICKY;
}
@Override
public void onDestroy() {
mServiceLooper.quit();
}
/** * Unless you provide binding for your service, you don't need to implement this * method, because the default implementation returns null. * @see android.app.Service#onBind */
@Override
public IBinder onBind(Intent intent) {
return null;
}
/** * This method is invoked on the worker thread with a request to process. * Only one Intent is processed at a time, but the processing happens on a * worker thread that runs independently from other application logic. * So, if this code takes a long time, it will hold up other requests to * the same IntentService, but it will not hold up anything else. * When all requests have been handled, the IntentService stops itself, * so you should not call {@link #stopSelf}. * * @param intent The value passed to {@link * android.content.Context#startService(Intent)}. */
@WorkerThread
protected abstract void onHandleIntent(Intent intent);
}
怎么样,代码还是相当的简洁的,首先通过定义我们可以知道IntentService是一个Service,并且是一个抽象类,所以我们在继承IntentService的时候需要实现其抽象方法:onHandlerIntent。
下面看一下其onCreate方法:
@Override
public void onCreate() {
// TODO: It would be nice to have an option to hold a partial wakelock
// during processing, and to have a static startService(Context, Intent)
// method that would launch the service & hand off a wakelock.
super.onCreate();
HandlerThread thread = new HandlerThread("IntentService[" + mName + "]");
thread.start();
mServiceLooper = thread.getLooper();
mServiceHandler = new ServiceHandler(mServiceLooper);
}
我们可以发现其内部定义一个HandlerIThread(本质上是一个含有消息队列的线程)具体可参考:http://blog.csdn.net/qq_23547831/article/details/50936584
然后用成员变量维护其Looper和Handler,由于其Handler关联着这个HandlerThread的Looper对象,所以Handler的handMessage方法在HandlerThread线程中执行。
然后我们发现其onStartCommand方法就是调用的其onStart方法,具体看一下其onStart方法:
@Override
public void onStart(Intent intent, int startId) {
Message msg = mServiceHandler.obtainMessage();
msg.arg1 = startId;
msg.obj = intent;
mServiceHandler.sendMessage(msg);
}
很简单就是就是讲startId和启动时接受到的intent对象传递到消息队列中处理,那么我们具体看一下其消息队列的处理逻辑:
private final class ServiceHandler extends Handler {
public ServiceHandler(Looper looper) {
super(looper);
}
@Override
public void handleMessage(Message msg) {
onHandleIntent((Intent)msg.obj);
stopSelf(msg.arg1);
}
}
可以看到起handleMessage方法内部执行了两个逻辑一个是调用了其onHandlerIntent抽象方法,通过分析其onCreate方法handler对象的创建过程我们知道其handler对象是依附于HandlerThread线程的,所以其handeMessage方法也是在HandlerThread线程中执行的,从而证实了我们刚刚例子中的一个结论,onHandlerIntent在子线程中执行。
然后调用了stopSelf方法,这里需要注意的是stopSelf方法传递了msg.arg1参数,从刚刚的onStart方法我们可以知道我们传递了startId,参考其他文章我们知道,由于service可以启动N次,可以传递N次消息,当IntentService的消息队列中含有消息时调用stopSelf(startId)并不会立即stop自己,只有当消息队列中最后一个消息被执行完成时才会真正的stop自身。
通过上面的例子与相关说明,我们可以知道:
IntentService是一个service,也是一个抽象类;
继承IntentService需要实现其onHandlerIntent抽象方法;
onHandlerIntent在子线程中执行;
IntentService内部保存着一个HandlerThread、Looper与Handler等成员变量,维护这自身的消息队列;
每次IntentService后台任务执行完成之后都会尝试关闭自身,但是当且仅当IntentService消息队列中最后一个消息被执行完成之后才会真正的stop自身;