# Writing a recurrence relation for a method

I have a bit of code and need to write a recurrence relation for it. The code simply calculates 2 raised to the nth power. Any help is appreciated.

``````public static int two(int n) {

if (n==0) {
return 1;
} else if (n%2 == 0) {
int x = two(n/2);
return x*x;
} else {
return 2 * two(n-1)
}
``````
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When you say "recurrence relation" you mean something like this: en.wikipedia.org/wiki/Recurrence_relation ????? – Luxspes Sep 20 '10 at 1:15
This looks like homework ... – Stephen C Sep 20 '10 at 1:28
RE: homework: indeed. So, tjm, what is this for? – outis Sep 20 '10 at 1:29
Yea, it's part of a homework. The homework is about big 0 notation, recurrence, etc - that's why the code is so horribly inefficient – tjm8081 Sep 20 '10 at 1:39

The formulation of the function almost is a recurrence relation. Basically, all you need to do is perform a change of variables so the argument to `two` in the recursion is `n`. For example, take the following Fibonacci function:

``````public static int fib(n) {
if (n==0) {
return 1;
} else if (n==1) {
return 1;
} else {
return fib(n-1) + fib(n-2);
}
}
``````

You wouldn't want to use that implementation, since it's horribly inefficient, but it makes writing the recurrence relation easy:

```fib0=1
fib1=1
fibn+2 = fibn+1 + fibn
```

With the fibonacci example, you don't actually need to perform the change of variables. However, with your `two` function, it will make it simpler to write the relation.

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The lines that don't have recursive calls are done in a constant time that we will call c.

``````T(n)=T(n-1)+c if n is odd.
T(n)=T(n/2)+c if n is even.
``````

After each recursive call with n odd, the next recursive call we be with n-1 even. So in the worst case we start with n odd -> n-1 is even -> (n-1)/2 is odd -> (n-1)/2-1 is even and so on...

If for example we start with n=19 then 19 is odd -> 18 is even -> 9 is odd -> 8 is even -> 4 is even -> 2 is even -> 0.

The depth of the recursive tree is about lgn, and since on each level there are c operations then the running time is clgn=O(lgn).

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