137

I often see it mentioned that Thread.Sleep(); should not be used, but I can't understand why this is so. If Thread.Sleep(); can cause trouble, are there any alternative solutions with the same result that would be safe?

eg.

while(true)
{
    doSomework();
    i++;
    Thread.Sleep(5000);
}

another one is:

while (true)
{
    string[] images = Directory.GetFiles(@"C:\Dir", "*.png");

    foreach (string image in images)
    {
        this.Invoke(() => this.Enabled = true);
        pictureBox1.Image = new Bitmap(image);
        Thread.Sleep(1000);
    }
}
  • 3
    A summary of the blog might be 'don't misuse Thread.sleep()'. – Martin James Jan 11 '12 at 8:01
  • 5
    I wouldn't say it's harmful. I would rather say that it's like goto: i.e. there is probably a better solution to your problems than Sleep. – Default Jan 11 '12 at 8:04
  • 9
    It's not exactly the same as goto, which is more like a code smell than a design smell. There's nothing wrong with a compiler inserting gotos into your code: the computer doesn't get confused. But Thread.Sleep isn't exactly the same; compilers don't insert that call and it has other negative consequences. But yes, the general sentiment that using it is wrong because there's almost always a better solution is certainly correct. – Cody Gray Jan 11 '12 at 8:10
  • 1
    @KevinKostlan use a timer or scheduling framework (like quartz.net) then... – Andreas Niedermair Sep 2 '15 at 7:32
  • 34
    Everyone is providing opinions on why the above examples are bad, but noone has provided a rewritten version that does not use Thread.Sleep() that still accomplishes the goal of the given examples. – StingyJack Jan 6 '16 at 12:47
166

The problems with calling Thread.Sleep are explained quite succinctly here:

Thread.Sleep has its use: simulating lengthy operations while testing/debugging on an MTA thread. In .NET there's no other reason to use it.

Thread.Sleep(n) means block the current thread for at least the number of timeslices (or thread quantums) that can occur within n milliseconds. The length of a timeslice is different on different versions/types of Windows and different processors and generally ranges from 15 to 30 milliseconds. This means the thread is almost guaranteed to block for more than n milliseconds. The likelihood that your thread will re-awaken exactly after n milliseconds is about as impossible as impossible can be. So, Thread.Sleep is pointless for timing.

Threads are a limited resource, they take approximately 200,000 cycles to create and about 100,000 cycles to destroy. By default they reserve 1 megabyte of virtual memory for its stack and use 2,000-8,000 cycles for each context switch. This makes any waiting thread a huge waste.

The preferred solution: WaitHandles

The most-made-mistake is using Thread.Sleep with a while-construct (demo and answer, nice blog-entry)

EDIT:
I would like to enhance my answer:

We have 2 different use-cases:

  1. We are waiting because we know a specific timespan when we should continue (use Thread.Sleep, System.Threading.Timer or alikes)

  2. We are waiting because some condition changes some time ... keyword(s) is/are some time! if the condition-check is in our code-domain, we should use WaitHandles - otherwise the external component should provide some kind of hooks ... if it doesn't its design is bad!

My answer mainly covers use-case 2

  • 30
    I wouldn't call 1 MB of memory a huge waste considering todays hardware – Default Jan 11 '12 at 8:07
  • 15
    @Default hey, discuss that with the original author :) and, it always depends on your code - or better: the factor ... and the main-issue is "Threads are a limited resource" - todays kids don't know much about effeciency and cost of certain implementations, because "hardware is cheap" ... but sometimes you need to code very optd – Andreas Niedermair Jan 11 '12 at 8:08
  • 12
    'This makes any waiting thread a huge waste' eh? If some protocol spec demands a one-second pause before continuing, what is going to wait for 1 second? Some thread, somewhere, is going to have to wait! The overhead for thread create/destroy is often irrelevant because a thread has to be raised anyway for other reasons and it runs for the lifetime of the process. I would be interested to see any way of avoiding context-switches when a spec says 'after turning on the pump, wait at least ten seconds for the pressure to stabilize before opening the feed valve'. – Martin James Jan 11 '12 at 9:07
  • 10
    @CodyGray - I read the post again. I see no fish of any colour in my comments. Andreas pulled out of the web: 'Thread.Sleep has it's use: simulating lengthy operations while testing/debugging on an MTA thread. In .NET there's no other reason to use it'. I argue that there are many apps where a sleep() call is, well, just what is required. If leigons of developers, (for there are many), insist on using sleep() loops as condition monitors that should be replaced with events/condvars/semas/whatever, that's no justification for an assertion that 'there's no other reason to use it'. – Martin James Jan 11 '12 at 9:34
  • 8
    In 30 years of multiThreaded app development, (mostly C++/Delphi/Windows), I have never seen any need for sleep(0) or sleep(1) loops in any deliverable code. Occasionally, I have shoved in such code for debugging purposes, but it's never made its way to the customer. 'if you're writing something that doesn't completely control every thread' - micro-management of threads is as big a mistake as micro-management of development staff. Thread management is what the OS is there for - the tools it provides should be used. – Martin James Jan 12 '12 at 1:01
36

SCENARIO 1 - wait for async task completion: I agree that WaitHandle/Auto|ManualResetEvent should be used in scenario where a thread is waiting for task on another thread to complete.

SCENARIO 2 - timing while loop: However, as a crude timing mechanism (while+Thread.Sleep) is perfectly fine for 99% of applications which does NOT require knowing exactly when the blocked Thread should "wake up*. The argument that it takes 200k cycles to create the thread is also invalid - the timing loop thread needs be created anyway and 200k cycles is just another big number (tell me how many cycles to open a file/socket/db calls?).

So if while+Thread.Sleep works, why complicate things? Only syntax lawyers would, be practical!

  • Thankfully we now have TaskCompletionSource for efficiently awaiting a result. – Austin Salgat Mar 27 '18 at 16:04
15

I would like to answer this question from a coding-politics perspective, which may or may not be helpful to anyone. But particularly when you're dealing with tools that are intended for 9-5 corporate programmers, people who write documentation tend to use words like "should not" and "never" to mean "don't do this unless you really know what you're doing and why".

A couple of my other favorites in the C# world are that they tell you to "never call lock(this)" or "never call GC.Collect()". These two are forcefully declared in many blogs and official documentation, and IMO are complete misinformation. On some level this misinformation serves its purpose, in that it keeps the beginners away from doing things they don't understand before fully researching the alternatives, but at the same time, it makes it difficult to find REAL information via search-engines that all seem to point to articles telling you not to do something while offering no answer to the question "why not?"

Politically, it boils down to what people consider "good design" or "bad design". Official documentation should not be dictating the design of my application. If there's truly a technical reason that you shouldn't call sleep(), then IMO the documentation should state that it is totally okay to call it under specific scenarios, but maybe offer some alternative solutions that are scenario independent or more appropriate for the other scenarios.

Clearly calling "sleep()" is useful in many situations when deadlines are clearly defined in real-world-time terms, however, there are more sophisticated systems for waiting on and signalling threads that should be considered and understood before you start throwing sleep() into your code, and throwing unnecessary sleep() statements in your code is generally considered a beginners' tactic.

5

It is the 1).spinning and 2).polling loop of your examples that people caution against, not the Thread.Sleep() part. I think Thread.Sleep() is usually added to easily improve code that is spinning or in a polling loop, so it is just associated with "bad" code.

In addition people do stuff like:

while(inWait)Thread.Sleep(5000); 

where the variable inWait is not accessed in a thread-safe manner, which also causes problems.

What programmers want to see is the threads controlled by Events and Signaling and Locking constructs, and when you do that you won't have need for Thread.Sleep(), and the concerns about thread-safe variable access are also eliminated. As an example, could you create an event handler associated with the FileSystemWatcher class and use an event to trigger your 2nd example instead of looping?

As Andreas N. mentioned, read Threading in C#, by Joe Albahari, it is really really good.

  • So what is the alternative to doing what's in your code example? – shinzou Apr 15 '16 at 20:16
  • kuhaku - Yes, good question. Obviously Thread.Sleep() is a shortcut, and sometimes a big shortcut. For the example above, the rest of the code in the function below the polling loop "while(inWait)Thread.Sleep(5000); " is a new function. That new function is a delegate (callback function) and you pass it to whatever is setting the "inWait" flag, and instead of changing the "inWait" flag, the callback is invoked. This was the shortest example I could find: myelin.co.nz/notes/callbacks/cs-delegates.html – mike Apr 16 '16 at 1:36
  • Just to make sure I got it, you mean to wrap Thread.Sleep() with another function, and call that in the while loop? – shinzou Apr 16 '16 at 8:26
5

Sleep is used in cases where independent program(s) that you have no control over may sometimes use a commonly used resource (say, a file), that your program needs to access when it runs, and when the resource is in use by these other programs your program is blocked from using it. In this case, where you access the resource in your code, you put your access of the resource in a try-catch (to catch the exception when you can't access the resource), and you put this in a while loop. If the resource is free, the sleep never gets called. But if the resource is blocked, then you sleep for an appropriate amount of time, and attempt to access the resource again (this why you're looping). However, bear in mind that you must put some kind of limiter on the loop, so it's not a potentially infinite loop. You can set your limiting condition to be N number of attempts (this is what I usually use), or check the system clock, add a fixed amount of time to get a time limit, and quit attempting access if you hit the time limit.

3

I have a use case that I don't quite see covered here, and will argue that this is a valid reason to use Thread.Sleep():

In a console application running cleanup jobs, I need to make a large amount of fairly expensive database calls, to a DB shared by thousands of concurrent users. In order to not hammer the DB and exclude others for hours, I'll need a pause between calls, in the order of 100 ms. This is not related to timing, just to yielding access to the DB for other threads.

Spending 2000-8000 cycles on context switching between calls that may take 500 ms to execute is benign, as does having 1 MB of stack for the thread, which runs as a single instance on a server.

  • Yeap, using Thread.Sleep in a single-thread, single-purpose Console application like the one you describe is perfectly OK. – Theodor Zoulias May 12 '20 at 12:36
-7

I agree with many here, but I also think it depends.

Recently I did this code:

private void animate(FlowLayoutPanel element, int start, int end)
{
    bool asc = end > start;
    element.Show();
    while (start != end) {
        start += asc ? 1 : -1;
        element.Height = start;
        Thread.Sleep(1);
    }
    if (!asc)
    {
        element.Hide();
    }
    element.Focus();
}

It was a simple animate-function, and I used Thread.Sleep on it.

My conclusion, if it does the job, use it.

-8

For those of you who hasn't seen one valid argument against use of Thread.Sleep in SCENARIO 2, there really is one - application exit be held up by the while loop (SCENARIO 1/3 is just plain stupid so not worthy of more mentioning)

Many who pretend to be in-the-know, screaming Thread.Sleep is evil failed to mentioned a single valid reason for those of us who demanded a practical reason not to use it - but here it is, thanks to Pete - Thread.Sleep is Evil (can be easily avoided with a timer/handler)

    static void Main(string[] args)
    {
        Thread t = new Thread(new ThreadStart(ThreadFunc));
        t.Start();

        Console.WriteLine("Hit any key to exit.");
        Console.ReadLine();

        Console.WriteLine("App exiting");
        return;
    }

    static void ThreadFunc()
    {
        int i=0;
        try
        {
            while (true)
            {
                Console.WriteLine(Thread.CurrentThread.ThreadState.ToString() + " " + i);

                Thread.Sleep(1000 * 10);
                i++;
            }
        }
        finally
        {
            Console.WriteLine("Exiting while loop");
        }
        return;
    }
  • 9
    -, nope, Thread.Sleep is not the reason for this (the new thread an the continous while-loop is)! you may just remove the Thread.Sleep-line - et voila: the program won't exit as well... – Andreas Niedermair Feb 20 '13 at 9:54

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