Android的Message Pool是什么——源码角度分析

时间:2024-04-09 19:04:39

原文地址:

http://blog.csdn.net/xplee0576/article/details/46875555

Android中,我们在线程之间通信传递通常采用Android的消息机制,而这机制传递的正是Message。

通常,我们使用Message.obtain()Handler.obtainMessage()从Message Pool中获取Message,避免直接构造Message。

  • 那么Android会否因为Message Pool缓存的Message对象而造成OOM呢?对于这个问题,我可以明确的说APP不会因Message Pool而OOM。至于为什么,可以一步步往下看,心急的可以直接看最后一节——Message Pool如何存放Message。

Message Obtain分析:

Message.obtain()源码:

    /**
* Return a new Message instance from the global pool. Allows us to
* avoid allocating new objects in many cases.
*/
public static Message obtain() {
synchronized (sPoolSync) {
if (sPool != null) {
Message m = sPool;
sPool = m.next;
m.next = null;
m.flags = 0; // clear in-use flag
sPoolSize--;
return m;
}
}
return new Message();
}

从代码片中,可以看到Message是直接由sPool赋值的。

Handler.obtainMessage()源码

    /**
* Returns a new {@link android.os.Message Message} from the global message pool. More efficient than
* creating and allocating new instances. The retrieved message has its handler set to this instance (Message.target == this).
* If you don't want that facility, just call Message.obtain() instead.
*/
public final Message obtainMessage()
{
return Message.obtain(this);
}

Handler.obtain()最终还是调用Message.obtain()来获取的。

Message Pool相关源码分析

Message Pool数据结构

    // sometimes we store linked lists of these things
/*package*/ Message next; private static final Object sPoolSync = new Object();
private static Message sPool;
private static int sPoolSize = 0; private static final int MAX_POOL_SIZE = 50; private static boolean gCheckRecycle = true;

从代码中可以很明确的看到,Message Pool的数据结构实际就是一个链表。sPool就是一个全局的消息池,sPoolSize记录链表长度,MAX_POOL_SIZE表示链表的最大长度为50。

Message Pool如何存放Message

    /** @hide */
public static void updateCheckRecycle(int targetSdkVersion) {
if (targetSdkVersion < Build.VERSION_CODES.LOLLIPOP) {
gCheckRecycle = false;
}
} /**
* Return a Message instance to the global pool.
* <p>
* You MUST NOT touch the Message after calling this function because it has
* effectively been freed. It is an error to recycle a message that is currently
* enqueued or that is in the process of being delivered to a Handler.
* </p>
*/
public void recycle() {
if (isInUse()) {
if (gCheckRecycle) {
throw new IllegalStateException("This message cannot be recycled because it "
+ "is still in use.");
}
return;
}
recycleUnchecked();
} /**
* Recycles a Message that may be in-use.
* Used internally by the MessageQueue and Looper when disposing of queued Messages.
*/
void recycleUnchecked() {
// Mark the message as in use while it remains in the recycled object pool.
// Clear out all other details.
flags = FLAG_IN_USE;
what = 0;
arg1 = 0;
arg2 = 0;
obj = null;
replyTo = null;
sendingUid = -1;
when = 0;
target = null;
callback = null;
data = null; synchronized (sPoolSync) {
if (sPoolSize < MAX_POOL_SIZE) {
next = sPool;
sPool = this;
sPoolSize++;
}
}
}

从代码分析上看,消息池存放的核心方法就是上面的recycleUnchecked()方法:

1、将待回收的Message对象字段置空(避免因Message过大,使静态的消息池内存泄漏)。因此无论原先的Message对象有多大,最终被缓存进Message Pool前都被置空,那么这些缓存的Message对象所占内存大小对于一个app内存来说基本可以忽略。所以说,Message Pool并不会造成App的OOM。

2、以内置锁的方式(线程安全),判断当前线程池的大小是否小于50。若小于50,直接将Mesaage插入到消息池链表尾部;若大于等于50,则直接丢弃掉,那么这些被丢弃的Message将交由GC处理。