I've got a deeply recursive function that should in theory work well even with large inputs. The problem is at the time of writing I forgot that C# doesn't do tail-call optimization very well, if at all, so I get `StackOverflowException`

s for any complex-enough input. The basic structure of the method is in two large methods, each calling the other.

```
public object Simplify(object param) {
if (IsSimple(param))
return param;
else
return Expand(param);
}
private object Expand(object param) {
return Simplify(ProcessExpansion(param));
}
```

Both `IsSimple`

and `ProcessExpansion`

have a relatively fixed stack depth - the only problem is the recursion between Simplify and Expand. How would you go about reducing the stack depth here?

I was thinking of returning delegates that would calculate the result, but that seems like overkill - there must be a simpler way. This is my thought of a solution (it isn't very polished because I keep thinking I must be doing something horribly wrong here):

```
public object Simplify(object param) {
object result = () => SimplifyInternal(param);
while (result is Func<object>)
result = ((Func<object>)result)();
return result;
}
private object SimplifyInternal(object param) {
if (IsSimple(param))
return param;
else
return Expand(param);
}
private object Expand(object param) {
return () => SimplifyInternal(ProcessExpansion(param));
}
```

So my two questions are:

- What is it that feels horribly wrong with this solution?
- Can you think of a better one?