/**   默认的构造方法，handler是和当前线程的队列关联在一起，如果队列不存在，那么handler就不能接受消息。

     * Default constructor associates this handler with the {@link Looper} for the

     * current thread.

     * 如果线程没有looper，就会抛出异常

     * If this thread does not have a looper, this handler won't be able to receive messages

     * so an exception is thrown.

     */

public Handler() {

        this(null, false);

    }

//传入一个callback接口用于处理handler传递的Message。

 public Handler(Callback callback) {

        this(callback, false);

    }

//给变量赋值

public Handler(Callback callback, boolean async) {

        if (FIND_POTENTIAL_LEAKS) {

            final Class<? extends Handler> klass = getClass();

            if ((klass.isAnonymousClass() || klass.isMemberClass() || klass.isLocalClass()) &&

                    (klass.getModifiers() & Modifier.STATIC) == 0) {

                Log.w(TAG, "The following Handler class should be static or leaks might occur: " +

                    klass.getCanonicalName());

            }

        }

        mLooper = Looper.myLooper();

        if (mLooper == null) {

            throw new RuntimeException(

                "Can't create handler inside thread that has not called Looper.prepare()");

        }

        mQueue = mLooper.mQueue;

        mCallback = callback;

        mAsynchronous = async;

    }

public Handler(Looper looper, Callback callback, boolean async) {

        mLooper = looper;

        mQueue = looper.mQueue;

        mCallback = callback;

        mAsynchronous = async;

    }

/*

     设置这个标记为true来检测不是静态的匿名,本地或成员类继承Handler类。这些类型的类可以带来潜在的泄漏。在Handler的构造方法里面使用到了这个参数，目的就如上所述。

     */

    private static final boolean FIND_POTENTIAL_LEAKS = false;

    final MessageQueue mQueue;

    final Looper mLooper;

    final Callback mCallback;  //回调接口

    final boolean mAsynchronous;

    IMessenger mMessenger;

 /**

     * Callback interface you can use when instantiating(实例化) a Handler to avoid

     * having to implement(实现) your own subclass of Handler.

     * @param msg A {@link android.os.Message Message} object

     * @return True if no further handling is desired

     */

    public interface Callback {

        public boolean handleMessage(Message msg);

    }

/**

     * Subclasses must implement this to receive messages.

     */

    public void handleMessage(Message msg) {

    }

/**

     * Handle system messages here.

     */

    public void dispatchMessage(Message msg) {

        if (msg.callback != null) {

            handleCallback(msg);

        } else {

            if (mCallback != null) {

                if (mCallback.handleMessage(msg)) {

                    return;

                }

            }

            handleMessage(msg);

        }

    }

private static void handleCallback(Message message) {

        message.callback.run();

    }

public final Message obtainMessage()

    {

        return Message.obtain(this);

    }

public final Message obtainMessage(int what)

    {

        return Message.obtain(this, what);

    }

public final Message obtainMessage(int what, int arg1, int arg2, Object obj)

    {

        return Message.obtain(this, what, arg1, arg2, obj);

    }

 /**

     * Causes the Runnable r to be added to the message queue.

     * The runnable will be run on the thread to which this handler is

     * attached.

     *

     * @param r The Runnable that will be executed.

     *

     * @return Returns true if the Runnable was successfully placed in to the

     *         message queue.  Returns false on failure, usually because the

     *         looper processing the message queue is exiting.

     */

 public final boolean post(Runnable r)

    {

       return  sendMessageDelayed(getPostMessage(r), 0);

    }

public final boolean postAtTime(Runnable r, long uptimeMillis)

    {

        return sendMessageAtTime(getPostMessage(r), uptimeMillis);

    }

public final boolean postAtTime(Runnable r, Object token, long uptimeMillis)

    {

        return sendMessageAtTime(getPostMessage(r, token), uptimeMillis);

    }

public final boolean postDelayed(Runnable r, long delayMillis)

    {

        return sendMessageDelayed(getPostMessage(r), delayMillis);

    }

 public final boolean postAtFrontOfQueue(Runnable r)

    {

        return sendMessageAtFrontOfQueue(getPostMessage(r));

    }

//把消息入队

public final boolean sendMessageDelayed(Message msg, long delayMillis)

    {

        if (delayMillis < 0) {

            delayMillis = 0;

        }

        return sendMessageAtTime(msg, SystemClock.uptimeMillis() + delayMillis);

    }

public boolean sendMessageAtTime(Message msg, long uptimeMillis) {

        MessageQueue queue = mQueue;

        if (queue == null) {

            RuntimeException e = new RuntimeException(

                    this + " sendMessageAtTime() called with no mQueue");

            Log.w("Looper", e.getMessage(), e);

            return false;

        }

        return enqueueMessage(queue, msg, uptimeMillis);

    }

 public final boolean sendEmptyMessage(int what)

    {

        return sendEmptyMessageDelayed(what, 0);

 private boolean enqueueMessage(MessageQueue queue, Message msg, long uptimeMillis) {

        msg.target = this;

        if (mAsynchronous) {

            msg.setAsynchronous(true);

        }

        return queue.enqueueMessage(msg, uptimeMillis);

    }

private static Message getPostMessage(Runnable r) {

        Message m = Message.obtain();

        m.callback = r;

        return m;

    }

  /**

     * Remove any pending posts of Runnable r that are in the message queue.

     */

    public final void removeCallbacks(Runnable r)

    {

        mQueue.removeMessages(this, r, null);

    }

    /**

     * Remove any pending posts of Runnable <var>r</var> with Object

     * <var>token</var> that are in the message queue.  If <var>token</var> is null,

     * all callbacks will be removed.

     */

    public final void removeCallbacks(Runnable r, Object token)

    {

        mQueue.removeMessages(this, r, token);

    }