http://stackoverflow.com/questions/1355398/monitor-vs-waithandle-based-thread-sync
A problem with Monitor.Pulse/Wait is that the signal may get lost.
For example:
var signal = new ManualResetEvent(false);
// Thread 1
signal.WaitOne();
// Thread 2
signal.Set();
This will always work no matter in which the two statements in the different threads are executed. It's also a very clean abstraction and expresses very clearly your intent.
Now have a look at the same example using a monitor:
var signal = new object();
// Thread 1
lock (signal)
{
Monitor.Wait(signal);
}
// Thread 2
lock (signal)
{
Monitor.Pulse(signal);
}
Here the signal (Pulse) will get lost if Pulse is executed before Wait.
To fix this problem, you need something like this:
var signal = new object();
var signalSet = false;
// Thread 1
lock (signal)
{
while (!signalSet)
{
Monitor.Wait(signal);
}
}
// Thread 2
lock (signal)
{
signalSet = true;
Monitor.Pulse(signal);
}
This works and is probably even more performant and lightweight, but is less readable. And it's where the headache called concurrency starts.
- Does this code really work?
- In every corner case?
- With more than two threads? (Hint: it doesn't)
- How do you unit-test it?
A solid, reliable, readable abstraction is often better than raw performance.
Additionally, WaitHandles provide some nice stuff like waiting for a set of handles to be set, etc. Implementing this with monitors makes the headache even worse...
Rule of thumb:
- Use Monitors (
lock) to ensure exclusive access to a shared resource - Use WaitHandles (Manual/AutoResetEvent/Semaphore) to send signals between threads
扩展
http://stackoverflow.com/questions/1717194/autoresetevent-manualresetevent-vs-monitor
http://stackoverflow.com/questions/11381771/thread-sleep-vs-monitor-wait-vs-registeredwaithandle