# Recursive function that calls itself n times without using n as a parameter

Suppose I have myFunction(\$var). It will manipulate \$var, calling itself 3 times before finally returning \$var. Is there a way to do this without storing the number of times it's been called in the parameters?

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why is this tagged both php and language-agnostic ??? – Carlos Muñoz Dec 10 '10 at 4:19
Perhaps if whatever `\$var` is causes the function to recurse exactly 3 times. – BoltClock Dec 10 '10 at 4:20
Carlos -- because there might be a shortcut in php, but this could be helped by those who know any language. BoltClock- nope, \$var has no relation to the # of times, its just an array thats being manipulated with no reference to that – babonk Dec 10 '10 at 4:21
Why can't you pass the number of times it has been called in the parameters? That would be the 'right' way to do it. – Flipster Dec 10 '10 at 4:22

Two competing methods off the top of my head:

1. static global data
2. transform \$var in such a way that you can detect how many times it's been manipulated
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Based on the comments above it looks like these tricks are the only way. Going to accept as an answer if there's no natural way to do this – babonk Dec 10 '10 at 4:25
"natural way"?!! The mind boggles! Do you know of any language which has a "natural way" of doing this? – wallyk Dec 10 '10 at 4:31
wallyk- i'm a beginning programmer, so i don't know recursion patterns very well – babonk Dec 10 '10 at 4:37
There is a natural way, pass n as a parameter :D – krusty.ar Dec 10 '10 at 12:58

One way of doing this is to make the `n` optional and defaults to 3 if not defined. I don't know the PHP syntax for this but since it's tagged language agnostic here's the javascript equivalent:

``````function myFunction (var, n) {
if (n == undefined) {
n = 3;
}

doSomethingWith(var);

n--;

if (n) {
myFunction(var, n);
}
}

// called like this:
myFunction(someVar);
``````
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Shouldn't the recursive portion of that read `if (n > 0) { myFunction( var n ); }` ? – Armstrongest Oct 21 at 19:57
@Armstrongest: I don't expect `n` to be less than 0. But yes, from a defensive programming perspective checking `n>0` is safer than checking if `n` is zero (false) – slebetman Oct 22 at 1:15
Yep, I get it... I just have always found it disconcerting relying on !0 = true. Must be all the time I spent with languages that have strong types like `C#` and `Java`. It just seems to be better to be explicit in the code. – Armstrongest Oct 23 at 6:14

You could use the static statement to set a var and check its value each time you go in (incrementing it each time, of course, as you enter, decrementing as you exit). Here's an article on the basic concept. http://www.bellaonline.com/articles/art29070.asp

The relevant code is

`````` function count_calls( )
{
static \$no_calls = 0;
\$no_calls++;
echo "This function has been called \$no_calls times.";
}
``````
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You don't say what happens after the recursive calls, so…

`setrlimit(RLIMIT_STACK)` to a small value and/or consume enough stack space in other calls that `myFunction()` can only recurse 3 times before aborting due to lack of stack space.

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Some functional languages support this kind of construct.

In Mathematica, for example you may define:

``````     f[i_, n_: 3] := Nest[# + 7 &, i, n];
``````

Where 3 is a default value for n.

So

``````     f[2]
``````

Returns

``````     23  -> (2+7+7+7)
``````

and

``````     f[4,1]
``````

Returns

``````     11 (-> 4+7)
``````

Of course you may also define

``````     f[i_] := Nest[# + 7 &, i, 3];
``````

if you don't need to adjust the number of recursive calls.

Perhaps this is more interesting. You may ask also for all the intermediate results.

So, if you define:

``````g[i_, n_: 3] := NestList[# + 7 &, i, n];
``````

then

``````g[2] Returns {2, 9, 16, 23}
``````
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If you know your function will call itself exacly three times, four with the time you called it, it is better to make a simpler, non-recursive function and make the calling explicit:

`simpleF(simpleF(simpleF(simpleF(\$var))))`

Less elegant, but more maintenable.

Of course, this wouldn't scale for a bigger number.

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