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Java Handler synchronization barrier example code analysis

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Release: 2023-05-03 18:52:07
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1. In the loading and drawing process of View, there is a choreographer class, mChoreographer.

mTraversalBarrier = mHandler.getLooper().postSyncBarrier();Insert a synchronization barrier message into the MessageQueue, msg.target==null message, the return value mTraversalBarrier is an int token value.

  void scheduleTraversals() {
    if (!mTraversalScheduled) {
      mTraversalScheduled = true;
       //向消息队列插入一个同步屏障的消息。msg.target==null的消息
             mTraversalBarrier = mHandler.getLooper().postSyncBarrier();
             mChoreographer.postCallback(
                  Choreographer.CALLBACK_TRAVERSAL, mTraversalRunnable, null);
    }
  }
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The mChoreographer.postCallback() method will execute the code in mTraversalRunnable.

mHandler.getLooper().removeSyncBarrier(mTraversalBarrier);This will remove the synchronization barrier message in the MessageQueue based on the token value generated above.

 final TraversalRunnable mTraversalRunnable = new TraversalRunnable();
 final class TraversalRunnable implements Runnable {
            @Override
            public void run() {
                doTraversal();
            }
  }
   void doTraversal() {
      if (mTraversalScheduled) {
          mTraversalScheduled = false;
          //移除同步屏障消息
          mHandler.getLooper().removeSyncBarrier(mTraversalBarrier);
          //在这个方法中会调用 measure layout draw,view的绘制绘制流程的方法
          performTraversals();
      }
    }
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Let’s look at this line of code mHandler.getLooper().postSyncBarrier() to see how the system handles it.

Obtained a Message without a handler set.

int enqueueSyncBarrier(long when) {
        // Enqueue a new sync barrier token.
        // We don't need to wake the queue because the purpose of a barrier is to stall it.
        synchronized (this) {
            final int token = mNextBarrierToken++;
            // 这个msg.target没有被赋值
            final Message msg = Message.obtain();
            msg.markInUse();
            msg.when = when;
            msg.arg1 = token;
            Message prev = null;
            Message p = mMessages;
            if (when != 0) {
                while (p != null && p.when <= when) {
                    prev = p;
                    p = p.next;
                }
            }
            if (prev != null) { // invariant: p == prev.next
                msg.next = p;
                prev.next = msg;
            } else {
                msg.next = p;
                mMessages = msg;
            }
            return token;
        }
    }
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Normally we send messages through the handler, and the handler is not allowed to be empty.

 boolean enqueueMessage(Message msg, long when) {
        if (msg.target == null) {
            throw new IllegalArgumentException("Message must have a target.");
        }
   ...........
}
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Why does the system send a message with an empty handler?

Let’s first look at what mChoreographer did after sending the synchronization barrier message?

Another asynchronous message was sent: msg.setAsynchronous(true). The handler of this message is not null.

private void postCallbackDelayedInternal(int callbackType,
            Object action, Object token, long delayMillis) {
      synchronized (mLock) {
            final long now = SystemClock.uptimeMillis();
            final long dueTime = now + delayMillis;
            mCallbackQueues[callbackType].addCallbackLocked(dueTime, action, token);
            if (dueTime <= now) {
                scheduleFrameLocked(now);
            } else {
                Message msg = mHandler.obtainMessage(MSG_DO_SCHEDULE_CALLBACK, action);
                msg.arg1 = callbackType;
                //将消息设置为异步消息
                msg.setAsynchronous(true);
                mHandler.sendMessageAtTime(msg, dueTime);
            }
        }
}
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Next, let’s take a look at how MessageQueue removes messages and how to process this synchronization barrier message.

 Message next() {
            synchronized (this) {
                // Try to retrieve the next message.  Return if found.
                final long now = SystemClock.uptimeMillis();
                Message prevMsg = null;
                Message msg = mMessages;
                //如果msg.target==null说明我们已经向消息队里中插入了一条屏障消息。
                //此时会进入到这个循环中,找到msg.isAsynchronous==true的异步消息。
                //通常我们发送的都是同步消息isAsynchronous = false的,并且msg.target不能为null的。
                if (msg != null && msg.target == null) {
                    // Stalled by a barrier.  Find the next asynchronous message in the queue.
                    do {
                        prevMsg = msg;
                        msg = msg.next;
                    } while (msg != null && !msg.isAsynchronous());//msg.isAsynchronous==true时结束循环,说明找到了这个异步消息。
                }
                if (msg != null) {//找到了同步屏障的异步消息后,直接返回
                    if (now < msg.when) {
                        // Next message is not ready.  Set a timeout to wake up when it is ready.
                        nextPollTimeoutMillis = (int) Math.min(msg.when - now, Integer.MAX_VALUE);
                    } else {
                        // Got a message.
                        mBlocked = false;
                        if (prevMsg != null) {
                            prevMsg.next = msg.next;
                        } else {
                            mMessages = msg.next;
                        }
                        msg.next = null;
                        if (false) Log.v("MessageQueue", "Returning message: " + msg);
                        return msg;
                    }
                } else {//没有找到的话则进入休眠直到下一次被唤醒
                    // No more messages.
                    nextPollTimeoutMillis = -1;
                }
        }
    }
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When canceling, first determine whether msg.target is null, and then go through the while loop to find the message that msg.isAsynchronous() == true. That is the asynchronous message sent above. Usually the messages we send are synchronous messages, and msg.setAsynchronous(true); will not be set.

The purpose of the system is to process this asynchronous message first. All synchronization messages will be placed at the back, just like a barrier, so such an operation is called a synchronization barrier, and the processing of synchronization barrier messages has a higher priority.

Because the choreographer class mChoreographer is responsible for screen rendering, it needs to process signals from the bottom layer in a timely manner to ensure the frequency of interface refresh.

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