For the purposes of estimating the maximum call depth a recursive method may achieve with a given amount of memory, what is the (approximate) formula for calculating the memory used before a stack overflow error is likely to occur?

### Edit:

Many have responded with "it depends", which is reasonable, so let's remove some of the variables by using a trivial but concrete example:

```
public static int sumOneToN(int n) {
return n < 2 ? 1 : n + sumOneToN(n - 1);
}
```

It is easy to show that running this in my Eclipse IDE explodes for `n`

just under 1000 (surprisingly low to me).
Could this call depth limit have been estimated without executing it?

Edit: I can't help thinking that Eclipse has a fixed max call depth of 1000, because I got to `998`

, but there's one for the main, and one for the initial call to the method, making `1000`

in all. This is "too round" a number IMHO to be a coincidence. I'll investigate further. I have just Dux overhead the -Xss vm parameter; it's the maximum stack size, so Eclipse runner must have `-Xss1000`

set somewhere

guessit's just the local variables + frame pointer + return address. – Jan Dvorak Dec 21 '12 at 19:17