Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

For some static methods I realise it is extremely convenient to use a small array to temporarily store values during an operation. Said array is useful because you need indexing, but allocating that small array everytime the method is invoked.

Is this a good way to work around the lack of C-like static locals in C#?

[ThreadStatic]private static int[] staticregister = new int[4];

public static bool CoolStaticMethod(int[] largearray)

My assumption is that a method which can't call itself, either directly (recursive) or indirectly, can only be called singularly in a single thread, thus the fake static local should be declared thread-static and the problem is largerly solved.


I must add that the contents of the register is garbage between method invocations.

share|improve this question
Yes . [Just a filler to be able to comment] –  L.B Nov 5 '11 at 22:44

1 Answer 1

up vote 2 down vote accepted

It is not what I would call a good workaround, no. It will work (assuming you are sure about the re-entrancy risks, i.e. not calling into itself, even via accidental events/callbacks/etc) - but...

In my opinion, it is stateful, make it an instance:

private int[] register = new int[4];
public bool CoolMethod(int[] largearray) {...}

and simply use different instance of WheverTheTypeIs for each context, i.e. the instance acts as the context. Just use a different instance per thread if you want context per-thread. This also allows usage with callbacks, parallelism, workers, etc to continue in the same context. Note that there are many frameworks that do not guarantee a single thread (WCF, ASP.NET, WPF for examples), and this is only going to increase as 5.0 introduces more async/await-oriented code.

If you are deeply tied to static methods, passing the register in as a second parameter would suffice too:

public static bool CoolStaticMethod(int[] largearray, int[] register) {...}

If the issue is the allocation of a 4-byte array:

  1. that will usually be GEN-0, so cheap to collect
  2. if you really want, use stackalloc and unsafe to avoid the allocation

For an example of "2":

public static unsafe bool CoolStaticMethod(int[] largearray)
    // not an array! this is raw data on the stack; DO NOT GO OUT OF BOUNDS!
    int* register = stackalloc int[4]; 

    register[0] = 1;
    register[1] = largearray[3];
    largearray[2] = register[0];
share|improve this answer
Your suggestion of passing the working buffer/register only complicates the design of client code that depends on the services of the static method. –  Cecil Dishwasher Nov 5 '11 at 23:08
@Cecil k; what about the last suggestion, if the problem is the allocation of a tiny array (which I really don't think you need to worry about, btw) –  Marc Gravell Nov 5 '11 at 23:11
@Cecil plus, if you are allocation-minded, you could avoid that with a micro-pool; let me know if you want an example –  Marc Gravell Nov 5 '11 at 23:12
To be honest, my original worry about allocation-lag and GC'ing is not really critical until I would have done some profiling to see that it actually could be a problem. The JIT and GC could, for what I know, see the usage pattern and allocate the array on the stack and pop it off on return. –  Cecil Dishwasher Nov 6 '11 at 19:26
@Cecil it won't do that (unless you stackalloc) - however, it will allocate on GEN-0 and die on GEN-0, which is really cheap to check. It depends on the usage, of course, but I wouldn't obsess about this unless it is called lots. –  Marc Gravell Nov 6 '11 at 19:28

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.