Instead, the timer remained in a suspended state while the UI thread was sleeping.
然而,当UI线程在睡眠时定时器却保持挂起状态。
Because the UI thread was sleeping, however, the sample application displays the five timer events (4 through 8) all at once when the UI thread wakes up again and is able to process the handlers.
因为UI线程在睡眠,所以当UI线程一旦被唤醒例子程序就会列出5个定时器事件(4到8)并能够处理处理函数。
This is because during the five seconds that the first timer event was sleeping, the timer kept on generating Elapsed events on different worker threads.
这是因为在这5秒期间第一个定时器事件正在睡眠,而定时器却在不同的工作者线程上继续产生时间消失事件。
In Power-save mode, the asynchronous timer continues to run, allowing the user to maintain a timer base while the rest of the device is sleeping.
在省 电模式下,异步定时器继续运行,允许用户保持一个时间基准,而其余功能模块处于休眠 状态;
In Power-save mode, the asynchronous timer continues to run, allowing the user to maintain a timer base while the rest of the device is sleeping.
在省 电模式下,异步定时器继续运行,允许用户保持一个时间基准,而其余功能模块处于休眠 状态;
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