I'm working on an application in C++ that uses a tight loop to iterate through states in our FSM. Right now, because of the tight loop, it uses 100% CPU, and our customers don't like that. I wanted to try putting a sleep(1) in the tight loop to loosen it up, but we're worried that that will make it sleep too long between states for our large customers (whose states change very quickly!). I was thinking of trying something like this:


And smallcustomer would be defined somewhere else when the program started up. Does that 'if' statement just slow things down as much as sleep would, and defeating its own purpose?

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    This does sound like a top-level design problem rather than a tight-loop problem. I mean, it takes a lot to max out a CPU these days, they're so often waiting for something - memory, HDD, IO, etc. Some more information about the problem perhaps... – Skizz Nov 30 '10 at 21:32
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    It would be helpful to know the larger context in which this loop lives & what it does. – John Dibling Nov 30 '10 at 21:33
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    If your application design requires a tight loop, you're doing it wrong. Applications should wait and not poll continuously. – Greg Hewgill Nov 30 '10 at 23:33
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    @Greg Hewgill: There's no indication the application is polling. Many types of applications, such as simulations run at 100% because they're CPU bound. – MSalters Dec 1 '10 at 14:21

Your implication is that the FSM shouldn't actually need 100% of the CPU, which leads me to assume you are spending a lot of time doing nothing except checking to see if you need to move to the next state or not. You say you are worried about sleeping "too long" for larger customers, which means you are concerned that some event will be missed: a queue filling, a mouse click, a packet being received, completion of disk I/O, a key being pressed, whatever. You should refactor to trigger asynchronously on that event (or events) instead of hogging the CPU doing nothing in a loop.


Short answer: I suspect that the simple if() statement won't hurt much. However, the golden rule of optimization is Test Test Test.

Longer answer: A somewhat cleaner (though more difficult) approach would be to move the time-consuming FSM processing to a separate / background thread, perhaps with lower scheduling priority. This might give you the best of both worlds: Fast processing when CPU is free, and less hogging of the system, due to lower priority.

Just my 2 cents...


A simple if statement like that should compile to a compare and branch instruction(s) (on some platforms, you'll get one; on others, you'll get two), which will execute very quickly.

Rather than forcing your app to sleep, see if your platform supports cooperative multitasking (so your process can yield execution) or a way of lowering the scheduling priority for your process.

If the platform supports it, usleep will give you finer grain control than sleep.


Assuming your FSM is working as designed, it ought to be possible to explain to the affected customers that idle CPUs are not indicative of a well-designed program. Any code that never hits a wait state is going to use 100% CPU during its time slice. That would be a selling point, in many cases.

What you are doing is going to decrease the performance of your app. Are you sure that's what you want?

If the FSM is looping excessively, or consistently starving other programs of CPU, that's a different discussion. Profiling the app to enable a target code review and modifications could help out in this case.

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    If your application hits 100% normally, how will you be able to tell when it's becoming overloaded? – Greg Hewgill Nov 30 '10 at 21:50
  • @Greg - I take your point, but there's just not enough info here to advise OP to put sleeps in his code. Is it at 100% all the time, for example? is it starving other apps on the machine? I posted this as a counterbalance to the other answers. – Steve Townsend Nov 30 '10 at 21:52
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    @Greg Hewgill: When it doesn't deliver the answers in time. My wheather prediction for tomorrow is overloaded when I get the result in 2 days time. – MSalters Dec 1 '10 at 14:25

You should use a more specific synchronization tool than just sleep()- for example, waitable timers in Win32, although I don't have an equivalent for Linux/Mac. Sleep() style functions are quite notorious for being quite unreliable. What would be best is if you could allow the customer to alter the timer period.


Modern CPU's use a rather complex chain of conditions to guess what instruction will follow a conditional branch. Because the CPU decodes and process each instruction in parallel with many other instructions, the cost of getting guessing wrong can be disastrous. Just reordering the tests in the branch, or even the code that comes immediately before or after, can cause the prediction to change. Unfortunately, there's no easy way to predict what will work better.

For this reason, the only way to make informed decisions about optimizing CPU bound code (as you are describing) is to measure what the code is actually doing, making small changes, and measuring again to see if there was any improvement.

If you're really running a soft real-time application and it is using 100% cpu that probably doesn't mean that you should try to scale the usage back, but provide more cpu for it to use, because the input is outrunning the application's ability to keep up. In fact, scaling up or out is probably cheaper than improving the code's performance, server hardware is cheap compared to developer time.


If you are really worried about conditionals, try this suggestion for branch prediction in GCC:

#define likely(x)       __builtin_expect((x),1)
#define unlikely(x)     __builtin_expect((x),0)


Your design is almost surely wrong. Busy waits are justified only in real-time embedded applications. Even then, if your controller does more than one thing in parallel, you're going to implement it with interrupts, if possible.

Whatever your reason, you can move the if out of the loop. You can use templates to prevent copy pasted code:

template<bool flag> void mysleep(){}
template<> void mysleep<true>() { sleep(1); }

template<bool flag> void myf() {
    for(;;) {
        // your loop goes here


void f() {
    smallcustomer ? myf<true>() : myf<false>();

Now call f();.

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