# Javascript lazy evaluation fibonacci function

I asked a question before about using lazy evaluation in Scala. I was trying to write the following Haskell function in Scala:

``````fib a b = c : (fib b c)
where c = a+b
``````

The answer to that question was that I couldn't use Lists, but should rather use Streams. Now I'm trying to do the same thing in Javascript. I translated the function, and tried it on this site:

``````function fib(a,b) {
c = a+b;
return [c] + fib(b,c);
}

var res = fib(0,1).slice(0,10);

console.log(res);
``````

But I get the following error:

``````RangeError: Maximum call stack size exceeded
``````

Does Javascript have a way to do this?

-
where is the end condition? – Elazar Jun 26 '13 at 19:46
You don't have an exit condition for your recursion. – Robert Harvey Jun 26 '13 at 19:47
The idea is that after 10 numbers in this example, the list will no longer be evaluated. – Hassan Jun 26 '13 at 19:47
I'm starting to understand now that `slice()` isn't going to do that. – Hassan Jun 26 '13 at 19:48
@RobertHarvey Indeed. Your link is very helpful to the OP. I was just explaining why in a question entitled "lazy evaluation" the OP deliberately didn't include an exit condition for the recursion. You had seemed to overlook the lazy evaluation aspect when making your comment. Perhaps an explicit "javascript doesn't have lazy evaluation" before stating the need for an exit condition would have been clearer. – AndrewC Jun 26 '13 at 20:14

You could reify the thunk (read: "not yet evaluated function which continues the computation") that the lazy computation is using.

``````var fib = function (a, b) {
var c = a + b
return { "this": c, "next": function () { return fib(b, c) } }
}
``````

Such that

``````> var x = fib(1,1)
> x.this
2
> x = x.next()
> x.this
3
``````

In some sense this is an exact translation*, where my return object represents a single Haskell `(:)` "cons" cell. From here it'd be relatively easy to write a "take" function to convert this javascript "lazy list" into a javascript strict array.

Here's one version.

``````var take = function(n, cons) {

var res = []
var mem = cons

for (var i = 0; i < n; i++) {
res.push(mem.this)
mem = mem.next()
}

return res
}
``````

Such that

``````> take(10, fib(1,1))
[2, 3, 5, 8, 13, 21, 34, 55, 89, 144]
``````

(*) Technically even the `"this"` value ought to be wrapped in a thunk, but I took the head-strict notion of lists which is usually pretty close to everyone's intuition.

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+1, thunks are the correct way of doing this. Too bad JS doesn't have macros or you could write stream-cons and stream-cdr – Wes Jun 26 '13 at 21:36
I say likewise that it's too bad that javascript doesn't have types, else we could define `LazyList a = {"this": a, "next": function () (returns: LazyList a)}` :) – J. Abrahamson Jun 26 '13 at 21:41

Not exactly Haskell lazy evaluation, but you can do something similar with currying.

``````function fib(a,b) {
var first = true;

return function(n) {
if (!isFinite(n) || n < 0)
throw "Invalid argument";

var result = first ? [a,b] : [];
first = false;

for (var i = result.length; i < n; i++)
result.push(b = a+(a=b));

return result;
};
}
``````

The returned function can be invoked multiple times to get a continuation of results:

``````var f = fib(0,1); // Initialize the sequence with starting values

// Invoke the resulting function with the number of results you want
console.log(f(10)); // [0, 1, 1, 2, 3, 5, 8, 13, 21, 34]

console.log(f(4));  // [55, 89, 144, 233]

console.log(f(4));  // [377, 610, 987, 1597]
``````
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