# How does memoizing a recursive factorial function make it more efficient?

``````var lookup = {};
function memoized(n) {
if(n <= 1) { return 1; }

if(lookup[n]) {
return lookup[n];
}

lookup[n] = n * memoized(n - 1);
return lookup[n];
}
``````

vs.

``````function fact(n) {
if(n <= 1) { return 1; }
return n * fact(n-1);
}
``````

If we call fact(3)

With the second method we get --> 3 * (2 * (1))

What is the efficiency gain of storing the result in a hash. Is it only for subsequent calls to the same function? I can't see how you would gain anything if you are only calling the function once.

With the memoized Fibonacci function, even if there is only one function call there is still an efficiency gain. To get the nth fibonacci number, if you do not memoize, you will be repeating the calculation for fib(n-1) and fib(n-2) on each fib(n). I don't see this happening in the factorial function.

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You don't call the function once. The function calls itself many times. –  Blender Jul 28 '13 at 6:54
What I meant was you initially call it once. And even though the function calls itself many times, how does storing the result of each call in a hash save any time. Because for fact(4), fact(3) is only called once, as is fact(2) and fact(1). At that point the values will pop back up the stack and give u the end result of fact(4). I don't see how memoization fits in. –  ordinary Jul 28 '13 at 6:57
@ordinary you should accept one of the answers or write your own answer to the question –  No Idea For Name Sep 2 '13 at 6:34

Because you are storing the result of previously calculated factorials in `lookup`.

so let's say if there is another call for factorial of `n=5` which already calculated it'll just return `lookup[5]` so no further recursive calls will be required for calculating that number's factorial.

And hence it'll more efficient if it is going to serve many requests.

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So it is for subsequent calls then? There is no gain to be had on the first call. In fact probably a slight (negligible) cost because you are storing the values in a hash on each call –  ordinary Jul 28 '13 at 7:00
Exactly no gain on the first call but if this code is going to stay longer for calculating factorials, it'll be lot more effecient than it's other counter part. –  VishalDevgire Jul 28 '13 at 7:01

actually there is no efficiency gained by using it once. you gain efficiency only if this method is used several times

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