# Javascript Fibonacci using Closures

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I am to write up some code using Javascript. Here is what we are to do:

"Implement a javascript Fibonacci numbers using closures. Specifically, write an function that stores two consecuitive Fibonacci numbers, initially 0 and 1. The function also defines and returns a nested function getNext(). The getNext() function updates the two stored Fibonacci numbers to the next two Fibonacci numbers and returns the current one. E.g. on the first call to getNext() the return value is 0, on the next call it is 1, then 1 again, then 2, etc."

I kind of understand this but not really. Could someone maybe help clarify? Thanks!

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I retagged it homework because that is what it sounds like to me. What have you tried? Can you write a function that returns a function? Can you have that function return a value that is stored in a closure? If you get that far, how do you update your values? – btilly Feb 7 '11 at 20:49
Seems reasonably clear to me. CS 101 or 201? -- Note the hints in the question: "write a function", "stores two ... numbers", "defines and returns a nested function" ... – Larry K Feb 7 '11 at 20:50
I explained how closures work here, if that's what confuses you: sleeplessgeek.blogspot.com/2009/12/… – Nathan Long Feb 7 '11 at 21:01

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 The link implements caching/memoizing. The question is something else. – missingno Feb 7 '11 at 20:59 The idea got explain pretty well even though it's written in Go. – ryenus Apr 5 at 13:30

The basic idea behind closures is that, since closers bind all local data by value, you can use them to initialize and then modify variables that are only local to that "instance" of the generated function.

Since this seems like homework, I'm going to answer a different question using closures: Use closures to get perfect squares (1, 4, 9, etc.), one at a time.

``````function makeSquareIteratorFunction() {
var squareRoot = 1;

var getNext = function() {
// Calculate the number you need to return
var square = squareRoot * squareRoot;

// Apply side effects. In this case just incrementing the counter, but with
// Fibonacci you will need to be a little more creative :-)
// You might also prefer to do this first. Depends on your approach.
squareRoot = squareRoot + 1;

// Return the value
return square;
};

// Return the function object, which can then be called later
return getNext;
}

// Usage
var getNextSquare = makeSquareIteratorFunction();
``````

Now, it's worth pointing out that the local variables defined in the outer function (`makeSquareIteratorFunction`) are localized and bound to the closure. So if you call `makeSquareIteratorFunction()` multiple times, the later ones will be independent of the first one:

``````var getNextSquare1 = makeSquareIteratorFunction();
var getNextSquare2 = makeSquareIteratorFunction();
alert(getNextSquare2()); // 1 (!) because it's a new closure, initialized the same way
alert(getNextSquare1()); // 9 (!) because it was "on" 4 last time
``````

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 Yes that is great! I understand now, thank you :) – user487743 Feb 7 '11 at 23:32 Great example. Thanks – Ryan Oct 9 '12 at 4:53
``````    var fibonacci = (function () {
var arr = [0, 1];
return function () {
var num = arr[arr.length - 1],
len = arr.length;
arr.push(arr[len - 1] + arr[len - 2]);
return num;
};
}());

//test
var i;
for (i = 0; i < 10; i++) {
console.log(fibonacci());
}
//1,1,2,3,5,8,13,21,34,55
``````