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On Linux, using C, assume I have an dynamically determined n naming the number of elements I have to store in an array (int my_array[n]) just for a short period of time, say, one function call, whereby the called function only uses little memory (some hundred bytes).

Mostly n is little, some tenths. But sometimes n may be big, as much as 1000 or 1'000'000.

How do I calculate, whether my stack can hold n*o + p bytes without overflowing?

Basically: How much bytes are there left on my stack?

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possible duplicate of Checking available stack size in C –  Brendan Long Dec 3 '11 at 4:30
    
@BrendanLong, I saw that question, but as it states “I'm using MinGW with GCC 3.4.5 (mingw-special vista r3)”, the answers are somewhat Windows centered. My question is Linux/*nix centered. ;-) –  Kay Dec 3 '11 at 4:35
    
why can't you use getrusage() and getrlimit()? –  sverre Dec 3 '11 at 4:50
    
@sverre, I'd be happy if you explain getrusage and getrlimit to me. The man page of getrusage says " ru_isrss (unmaintained) This field is currently unused on Linux". –  Kay Dec 3 '11 at 4:57
    
@kay - Look at the 4th response on that page. –  Brendan Long Dec 3 '11 at 5:05

2 Answers 2

up vote 3 down vote accepted

Indeed, the checking available stack question gives good answer.

But a more pragmatic answer is: don't allocate big data on the call stack.

In your case, you could handle differently the case when n<100 (and then allocating on the stack, perhaps thru alloca, makes sense) and the case when n>=100 (then, allocate on the heap with malloc (or calloc) and don't forget to free it). Make the threshold 100 a #define-d constant.

A typical call frame on the call stack should be, on current laptops or desktops, a few kilobytes at most (and preferably less if you have recursion or threads). The total stack space is ordinarily at most a few megabytes (and sometimes much less: inside the kernel, stacks are typically 4Kbytes each!).

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Mixing calloc and alloca is bad news, because one initializes the data, and the other doesn't. This could potentially introduce weird bugs. –  Dave Dec 4 '11 at 7:33
    
Ok, it could be malloc & alloca. –  Basile Starynkevitch Dec 4 '11 at 7:37

If you are not using threads, or if you know that your code executes on the main stack, then

  1. Record current stack pointer when entering main
  2. In your routine, get current stack limit (see man getrlimit)
  3. Compare difference between current stack pointer and the one recorded in step 1 with the limit from step 2.

If you are using threads and could be executing on a thread other than main, see man pthread_getattr_np

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