这篇文章给大家介绍深入浅析Android中的AsyncTask,内容非常详细,感兴趣的小伙伴们可以参考借鉴,希望对大家能有所帮助。
1、Asynctask简介
1.1 使用方法简介
Asynctask作为Android的基础之一,怎么使用就不多讲解了,网上到处都是教程,建议查看Android官方API文档:https://developer.android.google.cn/reference/android/os/AsyncTask.html
这里只实现一个小Demo程序,供大家赏玩:
界面:
这个程序其实特别简单,就是两个按钮,点击分别用来测试AysncTask和Handler两种模式的实现,点击后会有相应的Log提示。
功能简介:
Asynctask的实现:
private class IAsyncTask extends AsyncTask<String, Integer, String> {
protected String doInBackground(String... args1) {
Log.i(TAG, "doInBackground in:" + args1[0]);
int times = 10;
for (int i = 0; i < times; i++) {
publishProgress(i);//提交之后,会执行onProcessUpdate方法
}
Log.i(TAG, "doInBackground out");
return "over";
}
/**
* 在调用cancel方法后会执行到这里
*/
protected void onCancelled() {
Log.i(TAG, "onCancelled");
}
/**
* 在doInbackground之后执行
*/
protected void onPostExecute(String args3) {
Log.i(TAG, "onPostExecute:" + args3);
}
/**
* 在doInBackground之前执行
*/
@Override
protected void onPreExecute() {
Log.i(TAG, "onPreExecute");
}
/**
* 特别赞一下这个多次参数的方法,特别方便
* @param args2
*/
@Override
protected void onProgressUpdate(Integer... args2) {
Log.i(TAG, "onProgressUpdate:" + args2[0]);
}
}点击第一个按钮后会执行这里,点击按钮的写法如下:
mBtnSyncTask.setOnClickListener(new View.OnClickListener() {
@Override
public void onClick(View v) {
new IAsyncTask().execute("yanlog test");
}
});执行结果的Log如下:
02-19 21:55:12.179 10824-11010/com.plbear.asynctasktest I/AsyncTaskTest: doInBackground in:yanlog test//doInbackground是在10824进程,11010线程中执行 02-19 21:55:12.179 10824-11010/com.plbear.asynctasktest I/AsyncTaskTest: doInBackground out 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:0//剩下的都是在10824线程中执行,Android特别好的是,主线程的线程号跟进程号是一致的 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:1 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:2 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:3 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:4 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:5 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:6 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:7 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:8 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onProgressUpdate:9 02-19 21:55:12.184 10824-10824/com.plbear.asynctasktest I/AsyncTaskTest: onPostExecute:over
Handler+Message实现:
主要代码如下:
private class IHandler extends Handler{
@Override
public void handleMessage(Message msg){
switch(msg.what){
case 1:
Log.e(TAG,"handler:"+msg.obj);
break;
default:
break;
}
}
}其中,调用地方如下:
mBtnHandlerTest.setOnClickListener(new View.OnClickListener() {
@Override
public void onClick(View v) {
final Handler handler = new IHandler();
new Thread(new Runnable() {
@Override
public void run() {
for (int i = 0; i < 10; i++) {
Message msg = new Message();
msg.what = 1;
msg.obj = new Integer(i);
Log.e(TAG, "post message:" + i);
handler.sendMessage(msg);
}
}
}).start();
}
});可以看到Log打印结果如下:
02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:0 //可以看到提交是在9319号子进程中提交 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:1 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:2 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:3 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:4 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:5 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:6 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:7 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:8 02-19 22:25:17.689 9234-9319/com.plbear.asynctasktest E/AsyncTaskTest: post message:9 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:0 //可以看到提交完是在9234主线程中执行。 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:1 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:2 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:3 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:4 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:5 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:6 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:7 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:8 02-19 22:25:17.692 9234-9234/com.plbear.asynctasktest E/AsyncTaskTest: handler:9
以上,简单梳理了下怎么实现,不赘言。
1.2 Android 内部源码实现
关于Handler+Message+Message Queue+Looper的实现就不介绍了,老生常谈了。所以下面主要看一下AsyncTask的源码实现:
AsyncTask的核心方法应该是
public final AsyncTask<Params, Progress, Result> execute(Params... params)
那我们就看下当调用了execute方法后,都发生了什么,下面是执行的序列图。
我知道我画的不够标准了,凑合着看吧。下面关于这个图的一些说明。
嗯,就这么多吧。关于AsyncTask的源码我上传到github中了,大家对照着源码看会更清楚一点。
https://github.com/YanYoJun/AndroidSource/blob/master/AsyncTask.java
关于AsyncTask的源码分析,还有一篇博客写的很好,请参看:
https://www.jb51.net/article/81939.htm
备注:
源码里面还有三个地方值得深究下,分别是:
2、优点
简单,快捷
这个说法就是近乎于扯淡吧,主要还是看使用习惯,我就挺喜欢用Handler的。
但是Android定义了这个东西,可以看到各种消息封装的还是很不错的,很规范。大家可以按照这个“优美的框架”来写,代码不会太出格。
3、缺点
3.1 AsyncTask实际上后台线程之后一个!!!
今天仔细研究了下源码,发现网上写的大部分是错的,AsyncTask的真正的后台线程只有一个!!不信,看下面的代码:
我们首先定义一个IAsyncTAsk,其中的doInBackground方法这么写:
private class IAsyncTask extends AsyncTask<String, Integer, String> {
protected String doInBackground(String... args1) {
/* Log.i(TAG, "doInBackground in:" + args1[0]);
int times = 10;
for (int i = 0; i < times; i++) {
publishProgress(i);//提交之后,会执行onProcessUpdate方法
}
Log.i(TAG, "doInBackground out");*/
Log.i(TAG, "doInBackground in thread:" + args1[0]);
try {
int times = 4;
for (int i = 0; i < times; i++) {
Log.i(TAG, "thread alive:" + i + " for times"+args1[0]); //这个doInBackground就打印一个Log,然后sleep 20 毫秒
Thread.sleep(20);
}
} catch (Exception e) {
}
return "over";
}调用的地方这么写:
int N = 5;
for (int i = 0; i < N; i++) {
Log.d(TAG,"asyncTask post Task:"+i);
new IAsyncTask().execute("asyncTask times:"+i); //点击Button后,在onClick方法中建立5个后台子线程。
}我们来看打印结果:
02-20 21:48:08.206 14812-14812/com.plbear.asynctasktest D/AsyncTaskTest: asyncTask post Task:0 //在主线程中进行提交操作 02-20 21:48:08.211 14812-14812/com.plbear.asynctasktest D/AsyncTaskTest: asyncTask post Task:1 02-20 21:48:08.211 14812-14812/com.plbear.asynctasktest D/AsyncTaskTest: asyncTask post Task:2 02-20 21:48:08.211 14812-14812/com.plbear.asynctasktest D/AsyncTaskTest: asyncTask post Task:3 02-20 21:48:08.211 14812-14812/com.plbear.asynctasktest D/AsyncTaskTest: asyncTask post Task:4 02-20 21:48:08.212 14812-18067/com.plbear.asynctasktest I/AsyncTaskTest: doInBackground in thread:asyncTask times:0 //可以看到,虽然系统开起了18067、18068、 02-20 21:48:08.212 14812-18067/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:0 for timesasyncTask times:0//18069,18070这几个子线程,但是这几个子线程 02-20 21:48:08.232 14812-18067/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:1 for timesasyncTask times:0 //是串行执行的!!!震惊了有没有!!! 02-20 21:48:08.253 14812-18067/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:2 for timesasyncTask times:0 //这不是巧合,试了好几次都是这样!! 02-20 21:48:08.273 14812-18067/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:3 for timesasyncTask times:0 02-20 21:48:08.294 14812-18068/com.plbear.asynctasktest I/AsyncTaskTest: doInBackground in thread:asyncTask times:1 02-20 21:48:08.294 14812-18068/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:0 for timesasyncTask times:1 02-20 21:48:08.315 14812-18068/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:1 for timesasyncTask times:1 02-20 21:48:08.335 14812-18068/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:2 for timesasyncTask times:1 02-20 21:48:08.356 14812-18068/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:3 for timesasyncTask times:1 02-20 21:48:08.377 14812-18069/com.plbear.asynctasktest I/AsyncTaskTest: doInBackground in thread:asyncTask times:2 02-20 21:48:08.377 14812-18069/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:0 for timesasyncTask times:2 02-20 21:48:08.397 14812-18069/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:1 for timesasyncTask times:2 02-20 21:48:08.417 14812-18069/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:2 for timesasyncTask times:2 02-20 21:48:08.438 14812-18069/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:3 for timesasyncTask times:2 02-20 21:48:08.462 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: doInBackground in thread:asyncTask times:3 02-20 21:48:08.462 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:0 for timesasyncTask times:3 02-20 21:48:08.483 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:1 for timesasyncTask times:3 02-20 21:48:08.504 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:2 for timesasyncTask times:3 02-20 21:48:08.524 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:3 for timesasyncTask times:3 02-20 21:48:08.545 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: doInBackground in thread:asyncTask times:4 02-20 21:48:08.545 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:0 for timesasyncTask times:4 02-20 21:48:08.565 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:1 for timesasyncTask times:4 02-20 21:48:08.585 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:2 for timesasyncTask times:4 02-20 21:48:08.606 14812-18070/com.plbear.asynctasktest I/AsyncTaskTest: thread alive:3 for timesasyncTask times:4
你本来希望系统应该这么执行
但是实际上系统是这么执行的:
那么从源码看下为啥会这样吧。
AsyncTask中默认的Exector是这个private static volatile Executor sDefaultExecutor = SERIAL_EXECUTOR;看下SERIAL_EXECUTOR是这么定义的
public static final Executor SERIAL_EXECUTOR = new SerialExecutor(); //这是一个串行处理的Executor
.........................
private static class SerialExecutor implements Executor {
final ArrayDeque<Runnable> mTasks = new ArrayDeque<Runnable>();
Runnable mActive;
public synchronized void execute(final Runnable r) {
mTasks.offer(new Runnable() { //先把要执行的子线程统一丢到mTasks队列中,这其中封装一遍Runnable
public void run() {
try {
r.run();
} finally {
scheduleNext(); //当前面一个子线程处理完,开始处理下一个
}
}
});
if (mActive == null) {
scheduleNext();
}
}
protected synchronized void scheduleNext() { //依次从队列中取下一个元素,串行执行
if ((mActive = mTasks.poll()) != null) {
THREAD_POOL_EXECUTOR.execute(mActive);
}
}
}呵呵,这下子明白了吧。
Google为什么要怎么实现我不得而知,估计有什么我没有明白的好处在里面吧。那么有没有办法规避呢?
可以看到上面有一个THREAD_POOL_EXECUTOR,这个也是一个executor是这么定义的
static {
ThreadPoolExecutor threadPoolExecutor = new ThreadPoolExecutor(
CORE_POOL_SIZE, MAXIMUM_POOL_SIZE, KEEP_ALIVE_SECONDS, TimeUnit.SECONDS,
sPoolWorkQueue, sThreadFactory);
threadPoolExecutor.allowCoreThreadTimeOut(true);
THREAD_POOL_EXECUTOR = threadPoolExecutor;
}可以看到这个是允许一定数量的子线程并行处理的。
其中参数是这么定义的
private static final int CPU_COUNT = Runtime.getRuntime().availableProcessors(); // We want at least 2 threads and at most 4 threads in the core pool, // preferring to have 1 less than the CPU count to avoid saturating // the CPU with background work private static final int CORE_POOL_SIZE = Math.max(2, Math.min(CPU_COUNT - 1, 4)); private static final int MAXIMUM_POOL_SIZE = CPU_COUNT * 2 + 1; private static final int KEEP_ALIVE_SECONDS = 30;
按照一般理解,允许同时运行的CORE进程是4个,MAXIMUM_POOL_SIZE是17个。(注:这个数字是我用荣耀8手机跑出来的,其他手机可能会有不同)
而Android中的AsyncTask提供了一个方法:
public static void setDefaultExecutor(Executor exec) {
sDefaultExecutor = exec;
}所以规避方法是:通过这个方法可以设置默认的Exector,但是这个方法是hide的,也就是Google的隐藏方法,估计需要用一下反射来处理。我偷个懒,不去实现了。
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