Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

When I put code in blocks, like so:


Does it GUARANTEE that those two functions will be called after one another by the CPU regardless of what other processes are running?

The reason I ask is because f1, in my case, does something with the OS, then f2 relies on the the OS being in the same state in order to work properly.

If not, (which I really don't think it does), is there any C++ construct that will help me do something like this?

Also, I'll give some background information about what's being done in my real code:

f1() is actually a function that spawns a top-level window on a win32 system. f2() is a function that searches for the top-most level window (that is not the taskbar). So, my concern is that I could run into an issue wherein other top-level windows may be created in the time between when f1 finishes and f2 has not yet been executed, in which case f2 will find the wrong window.

share|improve this question
When you say that "f2 relies on the the OS being in the same state," what do you mean by "same state"? The state that the OS was in before the call to "f1", or the state that it was in after "f1"? –  Nicol Bolas Jul 12 '11 at 10:59
It'll be much clearer if you provide an example of what is being "done with the OS". –  sharptooth Jul 12 '11 at 11:00
I think I was a little too ambiguous in asking this.. Say I have a bazillion other processes running. Is it possible for one of those other bazillion processes to execute code between when the call for f1 finishes and the call for f2 begins? –  kwikness Jul 12 '11 at 11:01
You mean "Does It guarantee" (uppercase I to reflect the sainthood of The Standard) –  phresnel Jul 12 '11 at 11:01
The OS could interrupt your thread anywhere in f1, f2, or between them. The brackets won't change that behaviour, as you assumed. There is no general way of ensuring others don't modify an external resource, maybe if you give more information about "doing something with the OS" we can tell you if there is a way for your specific case –  Tim Meyer Jul 12 '11 at 11:06

6 Answers 6

up vote 5 down vote accepted

Does it GUARANTEE that those two functions will be called after one another by the CPU regardless of what other processes are running?

Yes. If those functions spawn threads or whatever, they may run in different orders. But the actual code for those functions will be executed in order.

If you're talking about access to anything outside of your process, that's a different matter. C and C++, as languages, have no concept of concurrency and such (outside of a few language features like volatile). Everything within a program is sequential, but the world outside of your program is unknown and unknowable (without a library that provides such hooks).

If the library in question does not provide a way to prevent another process from touching some global state that your code touched, then you have no way to be sure that the state will remain set as you set it.

share|improve this answer

f2 could run not directly after f1, and f2 should therefore not rely on the system being in the state that f1 left it in. In fact, neither should be playing with state on a multi-threaded system unless you have the proper locks in place.

However, it is guaranteed that f1 will have returned before f2 is called.

share|improve this answer

It'll always run in that order, but if you have threads which modify your underlying variables which are useding f1 and f2, you'd have to protect them using mutex locks

share|improve this answer

Given the code block as it is and no external issue occurring, you are guaranteed that f2() will be called only after f1() terminates.

share|improve this answer

f2 will be called after f1. But something may happen between them (it can also change OS state)

share|improve this answer

It is guaruanteed that the thread executing this will first finish with f1, and directly after that call f2. However, when you rely on state that is outside of the currently executing thread (some shared OS resource), than it is not guaranteed that other threads/processes/hardware will modify this resources, even while executing either of those methods. Then you need some sort of lock to protect that resource being accessed by others. When such a lock spans over that block, it is also guaranteed that it won't change between the subsequent calls.

Depending on your OS and resource, such a lock might be available. But there is too little information for this

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.