# Javascript Fibonacci

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``````function fibo() {
for(var i=0;i<4000;i++){
if(i === 0){
first = 1;
second = 2;
}
first = second;

}

}

fibo();
``````

not working shows infinity why?

-
Because the 4000th Fibonacci number is far to large for JavaScript to handle? – derobert Nov 30 '11 at 19:13

Simple: because it's too big.

The 300th term is 222232244629420445529739893461909967206666939096499764990979600, so you might imagine how big the 4000th is. You can't hold such value in a JavaScript variable.

If you really want to calculate it, use an arbitrary precision library, and maybe something other than JavaScript if you want to calculate it fast.

Check GNU Multiple Precision Arithmetic Library - GMP. Nice to use with C, and it even has special Fibonacci functions.

Here's a little C program to do the job:

``````#include <gmp.h>

int main()
{
mpz_t num;
mpz_init(num);

mpz_fib_ui(num, 4000);
gmp_printf("%Zd\n", num);

return 0;
}
``````

Compile with:

```cc fib.c -lgmp
```

And run :-)

```time ./a.out
39909473435004422792081248094960912600792570982820257852628876326523051818641373433549136769424132442293969306537520118273879628025443235370362250955435654171592897966790864814458223141914272590897468472180370639695334449662650312874735560926298246249404168309064214351044459077749425236777660809226095151852052781352975449482565838369809183771787439660825140502824343131911711296392457138867486593923544177893735428602238212249156564631452507658603400012003685322984838488962351492632577755354452904049241294565662519417235020049873873878602731379207893212335423484873469083054556329894167262818692599815209582517277965059068235543139459375028276851221435815957374273143824422909416395375178739268544368126894240979135322176080374780998010657710775625856041594078495411724236560242597759185543824798332467919613598667003025993715274875

real    0m0.005s
user    0m0.001s
sys     0m0.002s
```
-
then how can i do that,any othr lang – weblearner Nov 30 '11 at 19:14
php's bcmath could handle an operation like that. Are you computing the value for something like Project Euler? – zzzzBov Nov 30 '11 at 19:16
yes am tryin to do that – weblearner Nov 30 '11 at 19:19
`perl -M'Math::BigInt lib=>GMP' -E 'my \$a = Math::BigInt->new(0); my \$b = Math::BigInt->new(1); for (3..4000) { \$c = \$a + \$b; \$a = \$b; \$b = \$c } say \$c'` :-P – derobert Nov 30 '11 at 19:21
@weblearner check my updated answer. Such a stupid time to calculate it (sorry for the wording). – sidyll Nov 30 '11 at 19:29

Because `Number.MAX_VALUE + Number.MAX_VALUE === Infinity`

The issue is that `sum` exceeds JavaScripts capabilities for storing numeric values.

-

fibonacci(4000) [836 digits]

39909473435004422792081248094960912600792570982820257852628876326523051818641373433549136769424132442293969306537520118273879628025443235370362250955435654171592897966790864814458223141914272590897468472180370639695334449662650312874735560926298246249404168309064214351044459077749425236777660809226095151852052781352975449482565838369809183771787439660825140502824343131911711296392457138867486593923544177893735428602238212249156564631452507658603400012003685322984838488962351492632577755354452904049241294565662519417235020049873873878602731379207893212335423484873469083054556329894167262818692599815209582517277965059068235543139459375028276851221435815957374273143824422909416395375178739268544368126894240979135322176080374780998010657710775625856041594078495411724236560242597759185543824798332467919613598667003025993715274875

``````<!doctype html>
<html lang= "en">
<meta charset= "utf-8">
<title> Javascript Big Integers</title>

<style>
body{margin: 0 1em;width: auto;font-size: 125%}
p{max-width: 800px;margin: 1ex 1em;}
div{margin: 1em;}
input, textarea, label{
font-size: 1em;line-height: 1.2;font-family: arial, sans-serif;
}
textarea{
background-color: white;    color: black;   width: 90%;
border: 2px ridge silver;position: absolute;z-index: 5;overflow-y: scroll;height: 500px;
}
#fibInp{text-align: right;}
#calcfibBtn, #stopFibBtn{color:navy;cursor:pointer}
#calcfibBtn:focus, #stopFibBtn:focus, #calcfibBtn:hover, #stopFibBtn:hover{color:red}

</style>

<script>
//utilities
//ie version (if any) determines initial loop size
/*@cc_on
@if(@_jscript_version> 5.5){
navigator.IEmod= document.documentMode? document.documentMode:
window.XMLHttpRequest? 7: 6;
}
@end
@*/

function mr(hoo){
if(hoo){
if(typeof hoo== 'string') return document.getElementById(hoo);
if(hoo.nodeType=== 1) return hoo;
}
return null;
}
if(!Array.prototype.map){
Array.prototype.map= function(fun, scope){
var L= this.length, A= Array(this.length), i= 0, val;
if(typeof fun== 'function'){
while(i< L){
if(i in this){
A[i]= fun.call(scope, this[i], i, this);
}
++i;
}
return A;
}
}
}
//Big Integer Object
function BigInt(n, sign){
if(this.constructor!= BigInt){
if(n.constructor== BigInt) return n;
n= n.toString();
if(/^\d+\$/.test(n)){
var digits= n.split('').map(Number);
return new BigInt(digits.reverse(), sign);
}
else{
throw Error('base 10 integer input only');
}
}
while(n.length && !n[n.length - 1]){
--n.length;
}
this.digits= n;
this.length= n.length;
if(sign== -1) this.sign= sign;
}
BigInt.prototype.toString= function(){
var s= this.digits.slice().reverse().join('');
if(this.sign== -1) s= '-'+s;
return s;
}
BigInt.prototype.plus= function(n){
n= BigInt(n);
var n1= this.digits, n2= n.digits,
len1= n1.length, len2= n2.length,
hoo= Array(Math.max(len1, len2)+ 1),
size= Math.min(len1, len2), temp= 0, dig;
for(var i= 0; i < size; i++){
dig= n1[i]+ n2[i]+ temp;
hoo[i]= dig%10;
temp= (dig/10)|0;
}
if(len2> len1){
n1= n2;
len1= len2;
}
for(var i= size; temp && i < len1; i++){
dig= n1[i]+ temp;
hoo[i]= dig%10;
temp= (dig/10)|0;
}
if(temp) hoo[i]= temp;
while(i < len1){
hoo[i]= n1[i];
++i;
}
return new BigInt(hoo);
}
// Math.fibonacci methods
Math.fibonacci= function(n){
var n1= 0, n2= 1, t= 1, fib= [], i= 0;
var limit= 9007199254740992;
while(n1< limit){
fib[i++]= n1;
if(i== n) return fib;
n2= t;
t= n1+n2;
n1= n2;
}
if(n){
t= fib.pop(), n1= fib.pop(), i= fib.length;
while(i<n){
fib[i++]= n1;
n2= BigInt(t);
t= n2.plus(n1);
n1= n2.toString();
}
}
return fib;
}
Math.nthFibonacci= function(n, ret){
var fibs= [0, 1], i= 78;
while(n && --i){
fibs[2]= fibs[0]+ fibs[1];
fibs.shift();
n--;
}
if(n){
fibs= [BigInt(fibs[0]), BigInt(fibs[1])];
while(n--){
fibs[2]= fibs[0].plus(fibs[1]);
fibs.shift();
}
}
return ret? fibs: fibs[0];
}
// demonstration code
Fib={
clear: function(){
mr('yw_fib_tex').value= '';
Fib.wait= false;
mr('fibInp').value= '';
},
counter: 1,
demo: function(){
mr('calcfibBtn').onclick= Fib.getFib;
mr('stopFibBtn').onclick= Fib.quitFib;
mr('fibInp').onkeypress= Fib.keycheck;
mr('fibInp').focus();
},
discomma: !!window.opera,
getFib: function(){
mr('yw_fib_tex').value= '';
var d, c, n= mr('fibInp').value;
n= parseInt(mr('fibInp').value);
if(!n || n<2){
mr('fibInp').value= '';
mr('fibInp').focus();
return true;
}
if(n<= 1100){
d= Math.nthFibonacci(n).toString();
var fibs= ['', n, d.length, d];
Fib.report(fibs);
return true;
}
if(n> 10000){
d= Fib;
c= d.counter;
if(c> 2000){
Fib.reach(d.low, d.high, n, c, Fib.report);
return true;
}
}
d= Math.nthFibonacci(1000, 1);
Fib.reach(d[0], d[1], n, 1000, Fib.report);
return true;
},
high: 1,
keycheck: function(e){
e= e || window.event;
var k= e.charCode || e.keyCode;
if(k== 13) Fib.getFib();
return true;
},
low: 0,
quitFib: function(){
Fib.wait= true;
mr('yw_fib_tex').focus();
},
reach: function(n1, n2, n, i, cb){
var d, q, who, mf= Fib, F= Fib.reach;
if(F.time=== undefined){
F.top= n;
F.count= i+1;
F.time= new Date().getTime();
F.cb= cb;
F.tik= false;
}
q= n2.toString().length;
who= mr('yw_fib_tex');
if(who){
if(q<2100) who.value= n2;
else who.value= q+ ' digits...thinking...';
}
if(q> 20000) q= q> 100000? 10: 20;
else if(q> 5000) q= q> 10000? 50: 100;
else q= q> 1000? 200: 1000;
if(navigator.IEmod) q/= 4;
q= Math.min(q, F.top-F.count);
while(q> 0){
d= BigInt(n1).plus(n2);
F.count++;
n1= n2;
n2= d;
--q;
}
if(F.count>= F.top || Fib.wait){
var t= (new Date()-F.time)/1000;
d= d.toString();
var fibs= [t, F.count, d.length, d, n1];
F.time= undefined;
if(typeof F.cb== 'function') return F.cb(fibs);
}
else{
setTimeout(function(){
F(n1, d)
},
0);
}
},
report: function(fb){
var mf= Fib, s, fibz, f1= fb[1], t= fb[0] || '', fN= fb[3];
if(t){
t+= mf.time;
if(mf.wait) Fib.time+= t;
else Fib.time= 0;
t= t.toFixed(3)+' seconds to calculate ';
}
fibz= t+'fibonacci('+f1+') ['+fb[2]+' digits]';
if(fb[4] && fN> mf.counter){
mf.counter= f1;
mf.low= fb[4];
mf.high= fN;
}
fN= fN.toString();
if(window.opera){
fN= fN.replace(/(\d{10})/g, '\$1 ');
}
fibz= fibz+'\n\n'+fN;
mr('yw_fib_tex').value= fibz;
Fib.wait= false;
mr('yw_fib_tex').focus();
return true;
},
time: 0,
wait: false
}
Fib.demo();
}
</script>

<body>
<h2 id= "yw_fib_head"> Fibonacci numbers in javascript</h2>
<p>
This is a demonstration of Big Integer Math in Javascript, handling numbers of arbitrary precision.
The time it takes to calculate a large Fibonacci number depends on your computer and browser.</p>
<div>
<label> fibonacci#<input size= "5" id= "fibInp" type= "text" value= "1000"> </label>
<input type= "button" id= "calcfibBtn" value= "Calculate">
<input type= "button" id= "stopFibBtn" value= "Stop">
<br>
</textarea>
</div>
</body>
</html>
``````
-

Although already accepted, I think I can offer a simpler solution. Just store numbers in arrays, one digit per element, and perform addition like you did in elementary school - "in columns". It goes like this:

``````function add(a, b) {
while (a.length < b.length) a.unshift(0);
while (a.length > b.length) b.unshift(0);
var carry = 0, sum = []
for (var i = a.length - 1; i >= 0; i--) {
var s = a[i] + b[i] + carry;
if (s >= 10) {
s = s - 10;
carry = 1;
} else {
carry = 0;
}
sum.unshift(s);
}
if (carry)
sum.unshift(carry);
return sum;
}
``````

And the fibonacci function is like this:

``````function fib(n) {
var f1 = [0];
var f2 = [1];

while (n--) {
f1 = f2;
f2 = f3;
}
return f1.join("");
}
``````

Seems totally ineffective, but only takes fractions of second to get `fib(4000)` on a 2.3GHz macbook.

-

Ok, this is extremely late to the party, but just for the sake of completeness, here is a pure javascript solution. It uses a couple of libraries.

You will need biginteger (http://silentmatt.com/biginteger/) and sloth (https://github.com/rfw/sloth.js). The solution also requires Javascript 1.7 Generators (see https://developer.mozilla.org/en-US/docs/JavaScript/Guide/Iterators_and_Generators).

``````var window = {};
var sloth = window.sloth;

function fibonacci(){
var fn1 = new BigInteger(1);
var fn2 = new BigInteger(1);

while (1){
var current = fn2;
fn2 = fn1;
yield current;
}
}

var iter = sloth.iter(fibonacci());
var some = sloth.ify(iter).take(4000).force();
print(some[299]);
print(some[3999]);
``````

The code is a little eccentric (the use of load() and window) because I wanted to test it in rhino, without adding npm support. If that confuses you, just pretend you're seeing a require() call :)

-

For better results you can use the jsperf.com: http://jsperf.com/fib-vs-fib-loga/

Just a lite change in the function to get the max position possible to calculate by javascript.

Yes, the result will be diferent on each browser and arch bean used.

``````function fibo() {
for(var i=0;i<4000;i++){
if(i === 0){
first = 1;
second = 2;
}
if(first+second > Number.MAX_VALUE){
console.debug(i, first, second);
return;
}
The result is: `1473` `8.077637632156222e+307` `1.3069892237633987e+308` Where 1473 is the maximum fibonacci position possible to calculate with javascript.