allocated is always equal to
count (so could be removed), and IMO it's potentially confusing to use
'1' as the values in the
allocated_timers array. Usually it would be
Neither of them affects the robustness of the code as it is, but the easier the code is to understand, the more robust it is against future modification.
When you have two "parallel" arrays, like you do here where each timer has an entry in
timers and a corresponding entry in
allocated_timers, it is worth considering whether it would be better to have a single array of a
struct with two members (in this case perhaps named
allocated). Sometimes it isn't better, but often it aids understanding of the code because readers don't have to discover and remember that these two arrays are closely related.
deallocate_one_timer could be made slightly more robust against erroneous use by callers, if it checked that
position is within the range
ARRAY_SIZE before using it as an array index. I'm not saying that functions have a responsibility to do those checks, but they sometimes help diagnose bugs elsewhere. You can use
assert for non-essential checks like this.
assert has two benefits. First it self-documents that the check isn't this function's responsibility to handle, merely that you're checking someone else did what they should have. Second, you can easily disable all asserts in non-debug builds of your program if you need to make it smaller or faster.
Similarly it might be helpful to exit with an error message if a timer is deallocated that is not currently allocated, because that's likely to indicate a potential problem. Whoever deallocates it twice might do so either side of somebody else allocating it, which means that somebody else suddenly finds they no longer have exclusive use of their timer.
Finally, you set
timers[index] to 0 both on allocate and on deallocate. Nothing particularly wrong with that except that it confuses the issue of which function is actually responsible for ensuring that a newly-allocated timer has the correct initial value. The deallocate function could do nothing, or it could set the timer to a value that's impossible for an allocated timer to hold (maybe -1, assuming timers go up from 0), so that when debugging you can know immediately that if you're using a timer whose value is -1, something has gone wrong.
Finally finally, this code (obviously) isn't thread-safe, which I suppose is a kind of non-robustness. There's no shame in writing code that can't be used in multi-threaded programs, especially with embedded systems that may not even have the capacity to create threads. Just so long as it's a deliberate decision, and is documented.