How to avoid scientific notation for large numbers in JavaScript?

JavaScript converts integers with more than 21 digits to scientific notation when used in a string context. I'm printing an integer as part of a URL. How can I prevent the conversion from happening?

• Do you want 1E21 to display as '1000000000000000000000'? Are you concerned with how the number is displayed, or how it is stored? Nov 6, 2009 at 6:19
• i am concerned about how it is displayed: I have a document.write(myvariable) command Nov 6, 2009 at 6:20
• i need the number as part of a URL Nov 6, 2009 at 21:43
• @outis: Human users are not the only ones who want to read numbers. It seems D3 will throw an exception when encountering a `translate` transformation that contains coordinates in scientific notation. Sep 7, 2017 at 9:05
• There is still a use for this when you are dealing with numbers up to a certain size. Scientific notation will be hard to read for users who don't know scientific notation too after all. Sep 15, 2017 at 3:08

There's Number.toFixed, but it uses scientific notation if the number is >= 1e21 and has a maximum precision of 20. Other than that, you can roll your own, but it will be messy.

``````function toFixed(x) {
if (Math.abs(x) < 1.0) {
var e = parseInt(x.toString().split('e-')[1]);
if (e) {
x *= Math.pow(10,e-1);
x = '0.' + (new Array(e)).join('0') + x.toString().substring(2);
}
} else {
var e = parseInt(x.toString().split('+')[1]);
if (e > 20) {
e -= 20;
x /= Math.pow(10,e);
x += (new Array(e+1)).join('0');
}
}
return x;
}
``````

Above uses cheap-'n'-easy string repetition (`(new Array(n+1)).join(str)`). You could define `String.prototype.repeat` using Russian Peasant Multiplication and use that instead.

This answer should only be applied to the context of the question: displaying a large number without using scientific notation. For anything else, you should use a BigInt library, such as BigNumber, Leemon's BigInt, or BigInteger. Going forward, the new native BigInt (note: not Leemon's) should be available; Chromium and browsers based on it (Chrome, the new Edge [v79+], Brave) and Firefox all have support; Safari's support is underway.

Here's how you'd use BigInt for it: `BigInt(n).toString()`

Example:

``````const n = 13523563246234613317632;
console.log("toFixed (wrong): " + n.toFixed());
console.log("BigInt (right):  " + BigInt(n).toString());``````

Beware, though, that any integer you output as a JavaScript number (not a BigInt) that's more than 15-16 digits (specifically, greater than `Number.MAX_SAFE_INTEGER + 1` [9,007,199,254,740,992]) may be be rounded, because JavaScript's number type (IEEE-754 double-precision floating point) can't precisely hold all integers beyond that point. As of `Number.MAX_SAFE_INTEGER + 1` it's working in multiples of 2, so it can't hold odd numbers anymore (and similiarly, at 18,014,398,509,481,984 it starts working in multiples of 4, then 8, then 16, ...).

Consequently, if you can rely on `BigInt` support, output your number as a string you pass to the `BigInt` function:

``````const n = BigInt("YourNumberHere");
``````

Example:

``````const n1 = BigInt(18014398509481985); // WRONG, will round to 18014398509481984
// before `BigInt` sees it
console.log(n1.toString() + " <== WRONG");
const n2 = BigInt("18014398509481985"); // RIGHT, BigInt handles it
console.log(n2.toString() + " <== Right");``````

• Your solution gives me a very different result for 2^1000 than wolframalpha. Any pointers? Aug 10, 2011 at 22:50
• @Shane: This Q&A is about displaying floating point numbers as base-10 integers and doesn't address numbers that can't be represented in a floating point format (which will arise when converting to base 10). You need a JS bigint library, as is mentioned in the final line. Aug 11, 2011 at 1:05
• @PeterOlson: look like I left out a `Math.abs`. Thanks for the heads-up. Mar 23, 2012 at 17:38
• `toFixed(Number.MAX_VALUE) == Number.MAX_VALUE` should return true then, but it doesn't... Jan 17, 2017 at 22:02
• Actually this code as it is does not work for very small negative numbers: toFixed( -1E-20 ) -> "0.0000000000000000000.09999999999999999" Jun 15, 2017 at 0:37

I know this is an older question, but shows recently active. MDN toLocaleString

``````const myNumb = 1000000000000000000000;
console.log( myNumb ); // 1e+21
console.log( myNumb.toLocaleString() ); // "1,000,000,000,000,000,000,000"
console.log( myNumb.toLocaleString('fullwide', {useGrouping:false}) ); // "1000000000000000000000"
``````

you can use options to format the output.

Note:

Number.toLocaleString() rounds after 16 decimal places, so that...

``````const myNumb = 586084736227728377283728272309128120398;
console.log( myNumb.toLocaleString('fullwide', { useGrouping: false }) );
``````

...returns...

`586084736227728400000000000000000000000`

This is perhaps undesirable if accuracy is important in the intended result.

• This doesn't work in PhantomJS 2.1.1 - it still ends up in scientific notation. Fine in Chrome. Mar 1, 2019 at 14:43
• This doesn't appear to work for very small decimals: var myNumb = 0.0000000001; console.log( myNumb.toLocaleString('fullwide', { useGrouping: false }) ); Aug 26, 2019 at 14:15
• One can set maximumSignificantDigits option (max 21) to format very small decimals, ie: `js console.log( myNumb.toLocaleString('fullwide', { useGrouping: true, maximumSignificantDigits:6}) ); ` Nov 26, 2019 at 2:56
• The rounding after 16 places is not a `toLocaleString()` limitation; it's a `Number` limitation. `Number.MAX_SAFE_INTEGER = 9007199254740991` Jul 20, 2021 at 4:45
• Using `fullwide` can give unstable results depending on the user's locale. Different locales can use either a period or a comma as a separator. Wouldn't it be better to use version `toLocaleString('en-US', { useGrouping: false, maximumFractionDigits: 20 })`? Sep 22, 2021 at 14:26

For small number, and you know how many decimals you want, you can use toFixed and then use a regexp to remove the trailing zeros.

``````Number(1e-7).toFixed(8).replace(/\.?0+\$/,"") //0.000
``````
• Be careful to avoid 0 as an argument of toFixed call - it will end up in erasing significant trailing zeros: `(1000).toFixed(0).replace(/\.?0+\$/,"") // 1, not 1000` Mar 1, 2019 at 14:33
• A more robust regular expression is `Number(1e-7).toFixed(8).replace(/(?<=\.\d*[1-9])0+\$|\.0*\$/,"")` (which only removes the least significant zero-digits to the right of the decimal point)
– MT0
Feb 11 at 11:04

The question of the post was avoiding e notation numbers and having the number as a plain number.

Therefore, if all is needed is to convert e (scientific) notation numbers to plain numbers (including in the case of fractional numbers) without loss of accuracy, then it is essential to avoid the use of the `Math` object and other javascript number methods so that rounding does not occur when large numbers and large fractions are handled (which always happens due to the internal storage in binary format).

The following function converts e (scientific) notation numbers to plain numbers (including fractions) handling both large numbers and large fractions without loss of accuracy as it does not use the built-in math and number functions to handle or manipulate the number.

The function also handles normal numbers, so that a number that is suspected to become in an 'e' notation can be passed to the function for fixing.

The function should work with different locale decimal points.

94 test cases are provided.

For large e-notation numbers pass the number as a string.

Examples:

``````eToNumber("123456789123456789.111122223333444455556666777788889999e+50");
// output:
"12345678912345678911112222333344445555666677778888999900000000000000"
``````
``````eToNumber("123.456123456789123456895e-80");
// output:
"0.00000000000000000000000000000000000000000000000000000000000000000000000000000123456123456789123456895"
``````
``````eToNumber("123456789123456789.111122223333444455556666777788889999e-50");
// output:
"0.00000000000000000000000000000000123456789123456789111122223333444455556666777788889999"
``````

Valid e-notation numbers in Javascript include the following:

``````123e1   ==> 1230
123E1   ==> 1230
123e+1  ==> 1230
123.e+1 ==> 1230
123e-1  ==> 12.3
0.1e-1  ==> 0.01
.1e-1   ==> 0.01
-123e1  ==> -1230
``````

``````/******************************************************************
* Converts e-Notation Numbers to Plain Numbers
******************************************************************
* @function eToNumber(number)
* @version  1.00
* @param   {e nottation Number} valid Number in exponent format.
*          pass number as a string for very large 'e' numbers or with large fractions
*          (none 'e' number returned as is).
* @return  {string}  a decimal number string.
* @author  Mohsen Alyafei
* @date    17 Jan 2020
* Note: No check is made for NaN or undefined input numbers.
*
*****************************************************************/
function eToNumber(num) {
let sign = "";
(num += "").charAt(0) == "-" && (num = num.substring(1), sign = "-");
let arr = num.split(/[e]/ig);
if (arr.length < 2) return sign + num;
let dot = (.1).toLocaleString().substr(1, 1), n = arr[0], exp = +arr[1],
w = (n = n.replace(/^0+/, '')).replace(dot, ''),
pos = n.split(dot)[1] ? n.indexOf(dot) + exp : w.length + exp,
L   = pos - w.length, s = "" + BigInt(w);
w   = exp >= 0 ? (L >= 0 ? s + "0".repeat(L) : r()) : (pos <= 0 ? "0" + dot + "0".repeat(Math.abs(pos)) + s : r());
L= w.split(dot); if (L[0]==0 && L[1]==0 || (+w==0 && +s==0) ) w = 0; //** added 9/10/2021
return sign + w;
function r() {return w.replace(new RegExp(`^(.{\${pos}})(.)`), `\$1\${dot}\$2`)}
}
//*****************************************************************

//================================================
//             Test Cases
//================================================
let r = 0; // test tracker
r |= test(1, "123456789123456789.111122223333444455556666777788889999e+50", "12345678912345678911112222333344445555666677778888999900000000000000");
r |= test(2, "123456789123456789.111122223333444455556666777788889999e-50", "0.00000000000000000000000000000000123456789123456789111122223333444455556666777788889999");
r |= test(3, "123456789e3", "123456789000");
r |= test(4, "123456789e1", "1234567890");
r |= test(5, "1.123e3", "1123");
r |= test(6, "12.123e3", "12123");
r |= test(7, "1.1234e1", "11.234");
r |= test(8, "1.1234e4", "11234");
r |= test(9, "1.1234e5", "112340");
r |= test(10, "123e+0", "123");
r |= test(11, "123E0", "123");
// //============================
r |= test(12, "123e-1", "12.3");
r |= test(13, "123e-2", "1.23");
r |= test(14, "123e-3", "0.123");
r |= test(15, "123e-4", "0.0123");
r |= test(16, "123e-2", "1.23");
r |= test(17, "12345.678e-1", "1234.5678");
r |= test(18, "12345.678e-5", "0.12345678");
r |= test(19, "12345.678e-6", "0.012345678");
r |= test(20, "123.4e-2", "1.234");
r |= test(21, "123.4e-3", "0.1234");
r |= test(22, "123.4e-4", "0.01234");
r |= test(23, "-123e+0", "-123");
r |= test(24, "123e1", "1230");
r |= test(25, "123e3", "123000");
r |= test(26, -1e33, "-1000000000000000000000000000000000");
r |= test(27, "123e+3", "123000");
r |= test(28, "123E+7", "1230000000");
r |= test(29, "-123.456e+1", "-1234.56");
r |= test(30, "-1.0e+1", "-10");
r |= test(31, "-1.e+1", "-10");
r |= test(32, "-1e+1", "-10");
r |= test(34, "-0", "-0");
r |= test(37, "0e0", "0");
r |= test(38, "123.456e+4", "1234560");
r |= test(39, "123E-0", "123");
r |= test(40, "123.456e+50", "12345600000000000000000000000000000000000000000000000");

r |= test(41, "123e-0", "123");
r |= test(42, "123e-1", "12.3");
r |= test(43, "123e-3", "0.123");
r |= test(44, "123.456E-1", "12.3456");
r |= test(45, "123.456123456789123456895e-80", "0.00000000000000000000000000000000000000000000000000000000000000000000000000000123456123456789123456895");
r |= test(46, "-123.456e-50", "-0.00000000000000000000000000000000000000000000000123456");

r |= test(47, "-0e+1", "-0");
r |= test(48, "0e+1", "0");
r |= test(49, "0.1e+1", "1");
r |= test(50, "-0.01e+1", "-0.1");
r |= test(51, "0.01e+1", "0.1");
r |= test(52, "-123e-7", "-0.0000123");
r |= test(53, "123.456e-4", "0.0123456");

r |= test(54, "1.e-5", "0.00001"); // handle missing base fractional part
r |= test(55, ".123e3", "123"); // handle missing base whole part

// The Electron's Mass:
r |= test(56, "9.10938356e-31", "0.000000000000000000000000000000910938356");
// The Earth's Mass:
r |= test(57, "5.9724e+24", "5972400000000000000000000");
// Planck constant:
r |= test(58, "6.62607015e-34", "0.000000000000000000000000000000000662607015");

r |= test(59, "0.000e3", "0");
r |= test(60, "0.000000000000000e3", "0");
r |= test(61, "-0.0001e+9", "-100000");
r |= test(62, "-0.0e1", "-0");
r |= test(63, "-0.0000e1", "-0");

r |= test(64, "1.2000e0", "1.2000");
r |= test(65, "1.2000e-0", "1.2000");
r |= test(66, "1.2000e+0", "1.2000");
r |= test(67, "1.2000e+10", "12000000000");
r |= test(68, "1.12356789445566771234e2", "112.356789445566771234");

// ------------- testing for Non e-Notation Numbers -------------
r |= test(69, "12345.7898", "12345.7898") // no exponent
r |= test(70, 12345.7898, "12345.7898") // no exponent
r |= test(71, 0.00000000000001, "0.00000000000001") // from 1e-14
r |= test(72, 0.0000000000001, "0.0000000000001") // from 1e-13
r |= test(73, 0.000000000001, "0.000000000001") // from 1e-12
r |= test(74, 0.00000000001, "0.00000000001") // from 1e-11
r |= test(75, 0.0000000001, "0.0000000001") // from 1e-10
r |= test(76, 0.000000001, "0.000000001") // from 1e-9
r |= test(77, 0.00000001, "0.00000001") // from 1e-8
r |= test(78, 0.0000001, "0.0000001") // from 1e-7
r |= test(79, 1e-7, "0.0000001") // from 1e-7
r |= test(80, -0.0000001, "-0.0000001") // from 1e-7
r |= test(81, 0.0000005, "0.0000005") // from 1e-7
r |= test(82, 0.1000005, "0.1000005") // from 1e-7
r |= test(83, 1e-6, "0.000001") // from 1e-6

r |= test(84, 0.000001, "0.000001"); // from 1e-6
r |= test(85, 0.00001, "0.00001"); // from 1e-5
r |= test(86, 0.0001, "0.0001"); // from 1e-4
r |= test(87, 0.001, "0.001"); // from 1e-3
r |= test(88, 0.01, "0.01"); // from 1e-2
r |= test(89, 0.1, "0.1") // from 1e-1
r |= test(90, -0.0000000000000345, "-0.0000000000000345"); // from -3.45e-14
r |= test(91, -0, "0");
r |= test(92, "-0", "-0");
r |= test(93,2e64,"20000000000000000000000000000000000000000000000000000000000000000");
r |= test(94,"2830869077153280552556547081187254342445169156730","2830869077153280552556547081187254342445169156730");

if (r == 0) console.log("All 94 tests passed.");

//================================================
//             Test function
//================================================
function test(testNumber, n1, should) {
let result = eToNumber(n1);
if (result !== should) {
console.log(`Test \${testNumber} Failed. Output: \${result}\n             Should be: \${should}`);
return 1;
}
}``````

• @FlorianB I have tested it again extensively with different Locales using DevTools and works fine when the decimal separator is a dot "." or a comma ",". Found a very odd case when the number is 0,00 meaning 0.00 and fixed it. Oct 8, 2021 at 23:14
• You've done a great job on this code. Question: Have you also written a tool that converts in the opposite direction? If so, I'd like to see that too. Oct 19, 2021 at 6:43
• @LonnieBest I think I need to improve it and optimise it and do the opposite when time permits. Thanks Oct 26, 2021 at 5:20
• I don't know if I'm missing anything, but throwing in `console.log(eToNumber(9999999999999999999999999999999999999999999))` did round up to "10000000000000000000000000000000000000000000" for me Jul 27 at 7:43
• @RoboKy This is because you are passing a very large number to the function. In your case, Javascript converts such number to `1e+43`. Try printing the number with `console.log(9999999999999999999999999999999999999999999);` and see the result. To avoid this pass the large number to the function as a string `console.log(eToNumber("9999999999999999999999999999999999999999999"))` this will give the correct output. Nov 9 at 20:14

Busting out the regular expressions. This has no precision issues and is not a lot of code.

``````function toPlainString(num) {
return (''+ +num).replace(/(-?)(\d*)\.?(\d*)e([+-]\d+)/,
function(a,b,c,d,e) {
return e < 0
? b + '0.' + Array(1-e-c.length).join(0) + c + d
: b + c + d + Array(e-d.length+1).join(0);
});
}

console.log(toPlainString(12345e+12));
console.log(toPlainString(12345e+24));
console.log(toPlainString(-12345e+24));
console.log(toPlainString(12345e-12));
console.log(toPlainString(123e-12));
console.log(toPlainString(-123e-12));
console.log(toPlainString(-123.45e-56));
console.log(toPlainString('1e-8'));
console.log(toPlainString('1.0e-8'));``````

• this worked for quoted plain number, unquoted plain number, quoted scientific notation, and unquoted scientific notation.
– a_a
Sep 17, 2020 at 18:02
• There is a bug in this. console.log(toPlainString("1e-8")); console.log(toPlainString("1.0e-8")); Do not give same result Nov 17, 2020 at 18:54
• Still an issue. Try: console.log(toPlainString("1e-5")); console.log(toPlainString("1e-6")); console.log(toPlainString("1e-7")); The 1e-7 suddenly jumps to 8 decimal places, although 1,2,3,4,5,6 all work ok. Nov 19, 2020 at 17:44
• @MohsenAlyafei `(-0).toString()` returns `"0"`, and I'm not trying to go farther than expanding scientific notation here. That would require testing explicitly for `-0` or using toLocaleString/Intl.NumberFormat. Feb 4, 2021 at 19:58
• @MohsenAlyafei 0 === -0 Feb 21, 2021 at 17:18

one more possible solution:

``````function toFix(i){
var str='';
do{
let a = i%10;
i=Math.trunc(i/10);
str = a+str;
}while(i>0)
return str;
}
``````
• This doesn't preserve the original value...for instance 31415926535897932384626433832795 becomes 31415926535897938480804068462624 Feb 2, 2018 at 3:39
• Not positive but likely to do with how JavaScript handles large numbers. Jan 13, 2019 at 1:33
• @domsson Basically because IEEE floating point numbers arithmetic apply. numbers in Javascript are actually represented as floating point number as well as "decimal numbers", there is no native "integer exact type". You can read more here : medium.com/dailyjs/javascripts-number-type-8d59199db1b6
– Pac0
Jan 28, 2019 at 13:58
• @zero_cool Any number greater than `Number.MAX_SAFE_INTEGER` is likely to suffer this problem.
– Pac0
Jan 28, 2019 at 14:01

Here is my short variant of `Number.prototype.toFixed` method that works with any number:

``````Number.prototype.toFixedSpecial = function(n) {
var str = this.toFixed(n);
if (str.indexOf('e+') === -1)
return str;

// if number is in scientific notation, pick (b)ase and (p)ower
str = str.replace('.', '').split('e+').reduce(function(b, p) {
return b + Array(p - b.length + 2).join(0);
});

if (n > 0)
str += '.' + Array(n + 1).join(0);

return str;
};

console.log( 1e21.toFixedSpecial(2) );       // "1000000000000000000000.00"
console.log( 2.1e24.toFixedSpecial(0) );     // "2100000000000000000000000"
console.log( 1234567..toFixedSpecial(1) );   // "1234567.0"
console.log( 1234567.89.toFixedSpecial(3) ); // "1234567.890"``````

• @manonthemat Of course they are not equal, because the first one is a formatted string and the second one is a `Number`. If you cast the first one to a `Number`, you will see that they are absolutely equal: jsfiddle.net/qd6hpnyx/1. You can take your downvote back `:P` Jan 18, 2017 at 22:50
• fair enough.... I just noticed I can't, unless you're editing your answer. Jan 18, 2017 at 23:03
• Better to also replace any trailing `.0` with empty string. Sep 11, 2018 at 7:14
• I get a somewhat strange value when I try `console.log(2.2e307.toFixedSpecial(10))`. I mean... I get several trailing zeros. Upvoting anyway because this seems closest to what I need. Oct 8, 2019 at 20:42
• @peter.petrov Yes, you have `.0000000000` because you specified `10` as a parameter. If you want to get rid of them, use `0`. Oct 9, 2019 at 9:40

The following solution bypasses the automatic exponentional formatting for very big and very small numbers. This is outis's solution with a bugfix: It was not working for very small negative numbers.

``````function numberToString(num)
{
let numStr = String(num);

if (Math.abs(num) < 1.0)
{
let e = parseInt(num.toString().split('e-')[1]);
if (e)
{
let negative = num < 0;
if (negative) num *= -1
num *= Math.pow(10, e - 1);
numStr = '0.' + (new Array(e)).join('0') + num.toString().substring(2);
if (negative) numStr = "-" + numStr;
}
}
else
{
let e = parseInt(num.toString().split('+')[1]);
if (e > 20)
{
e -= 20;
num /= Math.pow(10, e);
numStr = num.toString() + (new Array(e + 1)).join('0');
}
}

return numStr;
}

// testing ...
console.log(numberToString(+0.0000000000000000001));
console.log(numberToString(-0.0000000000000000001));
console.log(numberToString(+314564649798762418795));
console.log(numberToString(-314564649798762418795));``````

• numberToString(0.0000002) "0.00000019999999999999998" Jun 4, 2018 at 5:36
• @raphadko That's the notorious Javascript floating point precision problem, which is another completely different pain when using numbers in JS... See for example stackoverflow.com/questions/1458633/… Jul 5, 2018 at 10:14

You can use from-exponential module. It is lightweight and fully tested.

``````import fromExponential from 'from-exponential';

fromExponential(1.123e-10); // => '0.0000000001123'
``````

The answers of others do not give you the exact number!
This function calculates the desired number accurately and returns it in the string to prevent it from being changed by javascript!
If you need a numerical result, just multiply the result of the function in number one!

``````function toNonExponential(value) {
// if value is not a number try to convert it to number
if (typeof value !== "number") {
value = parseFloat(value);

// after convert, if value is not a number return empty string
if (isNaN(value)) {
return "";
}
}

var sign;
var e;

// if value is negative, save "-" in sign variable and calculate the absolute value
if (value < 0) {
sign = "-";
value = Math.abs(value);
}
else {
sign = "";
}

// if value is between 0 and 1
if (value < 1.0) {
// get e value
e = parseInt(value.toString().split('e-')[1]);

// if value is exponential convert it to non exponential
if (e) {
value *= Math.pow(10, e - 1);
value = '0.' + (new Array(e)).join('0') + value.toString().substring(2);
}
}
else {
// get e value
e = parseInt(value.toString().split('e+')[1]);

// if value is exponential convert it to non exponential
if (e) {
value /= Math.pow(10, e);
value += (new Array(e + 1)).join('0');
}
}

// if value has negative sign, add to it
return sign + value;
}
``````
– user1297556
Apr 5, 2019 at 6:36

This didn't help me:

``````console.log( myNumb.toLocaleString('fullwide', {useGrouping:false}) );
``````

but this:

``````value.toLocaleString("fullwide", {
useGrouping: false,
maximumSignificantDigits: 20,
})
``````

Use `.toPrecision`, `.toFixed`, etc. You can count the number of digits in your number by converting it to a string with `.toString` then looking at its `.length`.

• for some reason, toPrecision doesn't work. if you try: window.examplenum = 1352356324623461346, and then say alert(window.examplenum.toPrecision(20)), it doesn't pop up an alert Nov 6, 2009 at 6:05
• actually it pops up sometimes showing scientific notation, and other times it doesn't pop up at all. what am i doing wrong? Nov 6, 2009 at 6:06
• Neither of the suggestion methods work for large (or small) numbers. `(2e64).toString()` will return `"2e+64"`, so `.length` is useless. Nov 5, 2014 at 23:05

You can loop over the number and achieve the rounding

// functionality to replace char at given index

``````String.prototype.replaceAt=function(index, character) {
return this.substr(0, index) + character + this.substr(index+character.length);
}
``````

// looping over the number starts

``````var str = "123456789123456799.55";
var arr = str.split('.');
str = arr[0];
i = (str.length-1);
if(arr[1].length && Math.round(arr[1]/100)){
while(i>0){
var intVal = parseInt(str.charAt(i));

if(intVal == 9){
str = str.replaceAt(i,'0');
console.log(1,str)
}else{
str = str.replaceAt(i,(intVal+1).toString());
console.log(2,i,(intVal+1).toString(),str)
break;
}
i--;
}
}
``````

This is what I ended up using to take the value from an input, expanding numbers less than 17digits and converting Exponential numbers to x10y

``````// e.g.
//  niceNumber("1.24e+4")   becomes
// 1.24x10 to the power of 4 [displayed in Superscript]

function niceNumber(num) {
try{
var sOut = num.toString();
if ( sOut.length >=17 || sOut.indexOf("e") > 0){
sOut=parseFloat(num).toPrecision(5)+"";
sOut = sOut.replace("e","x10<sup>")+"</sup>";
}
return sOut;

}
catch ( e) {
return num;
}
}
``````

``````number :0x68656c6c6f206f72656f
display:4.9299704811152646e+23
``````

You can use this: https://github.com/MikeMcl/bignumber.js

A JavaScript library for arbitrary-precision decimal and non-decimal arithmetic.

like this:

``````let ten =new BigNumber('0x68656c6c6f206f72656f',16);
console.log(ten.toString(10));
display:492997048111526447310191
``````
• well, beware that bignumber.js cant go beyond 15 significant digits ... Mar 29, 2017 at 2:23

I’ve just run a benchmark with my Chrome 113 to compare

• `BigInt(integer).toString()`
• and `integer.toLocaleString("fullwide", {useGrouping: false})`.

``````a = BigInt(Math.floor(Math.random() * 1e20)).toString();
``````
``````a = Math.floor(Math.random() * 1e20).toLocaleString("fullwide", {useGrouping: false});
``````

Creating a `bigint` out of the `number` and stringifying it, turned out to be more than a hundred times faster than the `toLocaleString`.

Also, do note that `BigInt(-0)` drops the sign, unlike `toLocaleString` that retains it.

• does that yields the same result?
– Fed
Nov 2 at 13:17
• @Fed Yep, except for `-0`. Nov 2 at 13:19

I think there may be several similar answers, but here's a thing I came up with

``````// If you're gonna tell me not to use 'with' I understand, just,
// it has no other purpose, ;( andthe code actually looks neater
// 'with' it but I will edit the answer if anyone insists
var commas = false;

function digit(number1, index1, base1) {
with (Math) {
return floor(number1/pow(base1, index1))%base1;
}
}

function digits(number1, base1) {
with (Math) {
o = "";
l = floor(log10(number1)/log10(base1));
for (var index1 = 0; index1 < l+1; index1++) {
o = digit(number1, index1, base1) + o;
if (commas && i%3==2 && i<l) {
o = "," + o;
}
}
return o;
}
}

// Test - this is the limit of accurate digits I think
console.log(1234567890123450);
``````

Note: this is only as accurate as the javascript math functions and has problems when using log instead of log10 on the line before the for loop; it will write 1000 in base-10 as 000 so I changed it to log10 because people will mostly be using base-10 anyways.

This may not be a very accurate solution but I'm proud to say it can successfully translate numbers across bases and comes with an option for commas!

Try this:

``````Number.standardizenumber = function (number,n) {

var mantissa = number.toLocaleString(
'en-US', {
useGrouping: false,
signDisplay: "never",
notation: "scientific",
minimumFractionDigits: 16,
maximumFractionDigits: 16
}
).toLowerCase().split('e')[0].replace(/\./g,'');
var exponentNegative = "0".repeat(Math.max(+Math.abs(number).toExponential().toLowerCase().split('e-')[1]-1,0)) + mantissa;
var exponentPositive = Math.abs(number)<1E17?mantissa.slice(0,+Math.abs(number).toExponential().toLowerCase().split('e+')[1]+1):mantissa+(Math.abs(number).toExponential().toLowerCase().split('e+')[1]-16);
var decimalExpPositive = Math.abs(number)<1E17?mantissa.slice(0,Math.abs(number).toExponential().toLowerCase().split('e+')[0]-16):undefined;
var fullDec = number===0?(1/number<0?'-0':'0'):(1/Math.sign(number)<0?'-':'')+(Math.abs(number)>=1?[exponentPositive,(number%1===0?(decimalExpPositive.slice(+Math.abs(number).toExponential().toLowerCase().split('e+')[1]+1)): undefined)].join('.'):`.\${exponentNegative}`);
return isNaN(number)===false&&Math.abs(number)<1E17?((number%1===0?number.toLocaleString('en-US', {useGrouping: false}):fullDec).includes('.')===false?fullDec.split('.')[0].replace(/\B(?=(\d{3})+(?!\d))/g, ","):fullDec.replace(/(\.[0-9]*[1-9])0+\$|\.0*\$/,'\$1').replace(/\B(?<!\.\d*)(?=(\d{3})+(?!\d))/g, ",")):number.toLocaleString('en-US');

}

Number.standardizenumber(.0000001) // .0000001
Number.standardizenumber(1E21) // 1,000,000,000,000,000,000,000
Number.standardizenumber(1_234_567_890.123456) // 1,234,567,890.123456
``````

I know it's many years later, but I had been working on a similar issue recently and I wanted to post my solution. The currently accepted answer pads out the exponent part with 0's, and mine attempts to find the exact answer, although in general it isn't perfectly accurate for very large numbers because of JS's limit in floating point precision.

This does work for `Math.pow(2, 100)`, returning the correct value of 1267650600228229401496703205376.

``````function toFixed(x) {
var result = '';
var xStr = x.toString(10);
var digitCount = xStr.indexOf('e') === -1 ? xStr.length : (parseInt(xStr.substr(xStr.indexOf('e') + 1)) + 1);

for (var i = 1; i <= digitCount; i++) {
var mod = (x % Math.pow(10, i)).toString(10);
var exponent = (mod.indexOf('e') === -1) ? 0 : parseInt(mod.substr(mod.indexOf('e')+1));
if ((exponent === 0 && mod.length !== i) || (exponent > 0 && exponent !== i-1)) {
result = '0' + result;
}
else {
result = mod.charAt(0) + result;
}
}
return result;
}

console.log(toFixed(Math.pow(2,100))); // 1267650600228229401496703205376``````

• @Oriol - yeah, you're right; I guess whatever I tried it with previously just worked out that way due to other factors. I'll remove that little note in my answer.
– andi
Jan 13, 2017 at 6:18
• doesn't work: `toFixed(Number.MAX_VALUE) == Number.MAX_VALUE` Jan 17, 2017 at 22:05
• this just accidentally works for powers of 2 because that's how floating point numbers are kept in memory. In fact if you subtract some number from Math.pow(2, 100) it will still give the same answer. It just loses precision if the number is higher than `Number.MAX_SAFE_INTEGER` = `9007199254740991`. Any number higher than this is not stored precisely so it's not possible to read it back Sep 24, 2020 at 17:06

I tried working with the string form rather than the number and this seemed to work. I have only tested this on Chrome but it should be universal:

``````function removeExponent(s) {
var ie = s.indexOf('e');
if (ie != -1) {
if (s.charAt(ie + 1) == '-') {
// negative exponent, prepend with .0s
var n = s.substr(ie + 2).match(/[0-9]+/);
s = s.substr(2, ie - 2); // remove the leading '0.' and exponent chars
for (var i = 0; i < n; i++) {
s = '0' + s;
}
s = '.' + s;
} else {
// positive exponent, postpend with 0s
var n = s.substr(ie + 1).match(/[0-9]+/);
s = s.substr(0, ie); // strip off exponent chars
for (var i = 0; i < n; i++) {
s += '0';
}
}
}
return s;
}
``````
• The function failed on some numbers. Please see the test cases in my post above. Thanks. Feb 5, 2021 at 23:36

Currently there is no native function to dissolve scientific notation. However, for this purpose you must write your own functionality.

Here is my:

``````function dissolveExponentialNotation(number)
{
if(!Number.isFinite(number)) { return undefined; }

let text = number.toString();
let items = text.split('e');

if(items.length == 1) { return text; }

let significandText = items[0];
let exponent = parseInt(items[1]);

let characters = Array.from(significandText);
let minus = characters[0] == '-';
if(minus) { characters.splice(0, 1); }
let indexDot = characters.reduce((accumulator, character, index) =>
{
if(!accumulator.found) { if(character == '.') { accumulator.found = true; } else { accumulator.index++; } }
return accumulator;
}, { index: 0, found: false }).index;

characters.splice(indexDot, 1);

indexDot += exponent;

if(indexDot >= 0 && indexDot < characters.length - 1)
{
characters.splice(indexDot, 0, '.');
}
else if(indexDot < 0)
{
characters.unshift("0.", "0".repeat(-indexDot));
}
else
{
characters.push("0".repeat(indexDot - characters.length));
}

return (minus ? "-" : "") + characters.join("");
}
``````
• This fails for really big numbers. I tried 2830869077153280552556547081187254342445169156730 and got 2830869077153280500000000000000000000000000000000 Oct 17, 2019 at 9:12

If you don't mind using Lodash, it has toSafeInteger()

``````_.toSafeInteger(3.2);
// => 3

_.toSafeInteger(Number.MIN_VALUE);
// => 0

_.toSafeInteger(Infinity);
// => 9007199254740991

_.toSafeInteger('3.2');
// => 3
``````

If you are just doing it for display, you can build an array from the digits before they're rounded.

``````var num = Math.pow(2, 100);
var reconstruct = [];
while(num > 0) {
reconstruct.unshift(num % 10);
num = Math.floor(num / 10);
}
console.log(reconstruct.join(''));
``````
• This will return the right answer, but will take so much time and might end up for the execution to time out.
– Hani
Sep 6, 2018 at 2:58

You can also use YourJS.fullNumber. For instance `YourJS.fullNumber(Number.MAX_VALUE)` results in the following: `179769313486231570000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000`

It also works for really small numbers. `YourJS.fullNumber(Number.MIN_VALUE)` returns this: `0.000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000005`

It is important to note that this function will always return finite numbers as strings but will return non-finite numbers (eg. `NaN` or `Infinity`) as `undefined`.

You can test it out in the YourJS Console here.

``````function printInt(n) { return n.toPrecision(100).replace(/\..*/,""); }
``````

with some issues:

• 0.9 is displayed as "0"
• -0.9 is displayed as "-0"
• 1e100 is displayed as "1"
• works only for numbers up to ~1e99 => use other constant for greater numbers; or smaller for optimization.
• Yeah those are some issues. May 4, 2020 at 13:15

You can use `number.toString(10.1)`:

``````console.log(Number.MAX_VALUE.toString(10.1));
``````

Note: This currently works in Chrome, but not in Firefox. The specification says the radix has to be an integer, so this results in unreliable behavior.

• what the heck does this do? A radix of 10.1? Nov 3, 2016 at 13:47
• This doesn't work. Since ES5, implementations are required to use ToInteger on the argument. So using `10.1` or `10` or nothing are equivalent. Jan 12, 2017 at 22:42
• Yes, this has indeed stopped working somewhat recently. Kinda sad, but this answer is now irrelevant. Jan 13, 2017 at 23:36

If you want to convert scientific notation to integer :

`parseInt("5.645656456454545e+23", 10)`

result: `5`

• Just taking the everything in front of the dot has nothing to do with converting a scientific notation into it's value as a natural number. Oct 21, 2022 at 12:28

I had the same issue with oracle returning scientic notation, but I needed the actual number for a url. I just used a PHP trick by subtracting zero, and I get the correct number.

for example 5.4987E7 is the val.

``````newval = val - 0;
``````

newval now equals 54987000

• This has no effect. 5.4987E7 has an exponent less than 21, so it shows up as the full number regardless when converted to string. (5.4987E21 - 0).toString() => "5.4987e+21" Oct 10, 2013 at 23:19