129

I need to show a currency value in the format of 1K of equal to one thousand, or 1.1K, 1.2K, 1.9K etc, if its not an even thousands, otherwise if under a thousand, display normal 500, 100, 250 etc, using javascript to format the number?

23 Answers 23

175

Sounds like this should work for you:

function kFormatter(num) {
    return Math.abs(num) > 999 ? Math.sign(num)*((Math.abs(num)/1000).toFixed(1)) + 'k' : Math.sign(num)*Math.abs(num)
}
    
console.log(kFormatter(1200)); // 1.2k
console.log(kFormatter(-1200)); // -1.2k
console.log(kFormatter(900)); // 900
console.log(kFormatter(-900)); // -900

  • 1
    Love the ternary operator, short clean and concise. – Carl Weis Feb 27 '12 at 8:04
  • 2
    Minor fix suggested... Should be lowercase k for thousands. Upper is for Kilos. Tried to edit, but requires at least 6 characters changed before it will take. – Adam Youngers Dec 19 '14 at 18:47
  • @AdamYoungers changed – Jake Feasel Dec 19 '14 at 18:51
  • How do I inset a php variable inside here and use it? i.e. if my number variable is $mynumber_output where do I insert this to use it? For example, say $mynumber_output = 12846, I would like 12846 converted to 12.8k – user7537274 Feb 8 '17 at 23:13
  • 1
    Doesn't completely answer the user's question. "I will need M yes...Can you help?" - Carl Weis – tfmontague May 4 at 22:54
185

A more generalized version:

function nFormatter(num, digits) {
  var si = [
    { value: 1, symbol: "" },
    { value: 1E3, symbol: "k" },
    { value: 1E6, symbol: "M" },
    { value: 1E9, symbol: "G" },
    { value: 1E12, symbol: "T" },
    { value: 1E15, symbol: "P" },
    { value: 1E18, symbol: "E" }
  ];
  var rx = /\.0+$|(\.[0-9]*[1-9])0+$/;
  var i;
  for (i = si.length - 1; i > 0; i--) {
    if (num >= si[i].value) {
      break;
    }
  }
  return (num / si[i].value).toFixed(digits).replace(rx, "$1") + si[i].symbol;
}

/*
 * Tests
 */
var tests = [
  { num: 1234, digits: 1 },
  { num: 100000000, digits: 1 },
  { num: 299792458, digits: 1 },
  { num: 759878, digits: 1 },
  { num: 759878, digits: 0 },
  { num: 123, digits: 1 },
  { num: 123.456, digits: 1 },
  { num: 123.456, digits: 2 },
  { num: 123.456, digits: 4 }
];
var i;
for (i = 0; i < tests.length; i++) {
  console.log("nFormatter(" + tests[i].num + ", " + tests[i].digits + ") = " + nFormatter(tests[i].num, tests[i].digits));
}

  • 1
    Something is wrong.. nFormatter(759878, 1) //759.9k nFormatter(759878, 0) //76k – Switch Jan 25 '16 at 21:05
  • @switch there was a flaw in my regex, fixed. – Salman A Jan 26 '16 at 10:36
  • 1
    Small fix for numbers less < 1000, add {value: 1E0, symbol: ""} to var si = – Dimmduh Aug 11 '16 at 10:09
  • 1
    @GiovanniAzua just replace if (num >= si[i].value) with if (Math.abs(num) >= si[i].value) – Salman A May 22 '17 at 7:27
  • 1
    @M.Octavio the regex is used to trim trailing zeros e.g. 1.0 becomes 1 and 1.10 becomes 1.1 – Salman A Aug 27 '18 at 20:17
66

Here's a simple solution that avoids all the if statements (with the power of Math).

var SI_SYMBOL = ["", "k", "M", "G", "T", "P", "E"];

function abbreviateNumber(number){

    // what tier? (determines SI symbol)
    var tier = Math.log10(number) / 3 | 0;

    // if zero, we don't need a suffix
    if(tier == 0) return number;

    // get suffix and determine scale
    var suffix = SI_SYMBOL[tier];
    var scale = Math.pow(10, tier * 3);

    // scale the number
    var scaled = number / scale;

    // format number and add suffix
    return scaled.toFixed(1) + suffix;
}

Bonus Meme

What does SI stand for?

  • 1
    This is a more elegant approach and I need to start utilizing math more in programming for sure. – Jason Sebring Feb 1 '17 at 16:31
  • I really like your solution. To be able to shorten negative values as well, I multiply the number by -1 before and after determining the tier, since Math.log10(negativeValue) would return NaN. – xhadon Jun 14 '17 at 10:26
  • @trincot finally fixed that – Waylon Flinn Jun 29 '18 at 18:41
63

Further improving Salman's Answer because it returns nFormatter(33000) as 33.0K

function nFormatter(num) {
     if (num >= 1000000000) {
        return (num / 1000000000).toFixed(1).replace(/\.0$/, '') + 'G';
     }
     if (num >= 1000000) {
        return (num / 1000000).toFixed(1).replace(/\.0$/, '') + 'M';
     }
     if (num >= 1000) {
        return (num / 1000).toFixed(1).replace(/\.0$/, '') + 'K';
     }
     return num;
}

now nFormatter(33000) = 33K

  • 2
    Anyway to do this without rounding the number? 1,590,000 will return 1.6M. – Brett Hardin Sep 30 '14 at 17:48
  • 3
    Sometimes its hard to know when to post a new answer of edit an existing one, something I use to decide is if I steal the code from another users answer, I usually edit their answer so that they can get the recognition instead of me stealing their code. – M H Feb 19 '16 at 17:09
  • @Yash you're the code I'm trying to implement in the counter script but not getting this is my codepen link codepen.io/Merajkhan/pen/MMoxGE?editors=1010 Can you help me out how to implement this logic I want K, L, M units have to come. – Mehraj Khan Jun 25 at 7:34
21
/**
 * Shorten number to thousands, millions, billions, etc.
 * http://en.wikipedia.org/wiki/Metric_prefix
 *
 * @param {number} num Number to shorten.
 * @param {number} [digits=0] The number of digits to appear after the decimal point.
 * @returns {string|number}
 *
 * @example
 * // returns '12.5k'
 * shortenLargeNumber(12543, 1)
 *
 * @example
 * // returns '-13k'
 * shortenLargeNumber(-12567)
 *
 * @example
 * // returns '51M'
 * shortenLargeNumber(51000000)
 *
 * @example
 * // returns 651
 * shortenLargeNumber(651)
 *
 * @example
 * // returns 0.12345
 * shortenLargeNumber(0.12345)
 */
function shortenLargeNumber(num, digits) {
    var units = ['k', 'M', 'G', 'T', 'P', 'E', 'Z', 'Y'],
        decimal;

    for(var i=units.length-1; i>=0; i--) {
        decimal = Math.pow(1000, i+1);

        if(num <= -decimal || num >= decimal) {
            return +(num / decimal).toFixed(digits) + units[i];
        }
    }

    return num;
}

Thx @Cos for comment, I removed Math.round10 dependency.

  • 2
    I find your solution to be the most elegant, however that round10 ruins it for me. – Cos Mar 18 '15 at 16:35
  • 1
    You can change the if to Math.abs(num) >= decimal. – Conor Pender Jul 19 '17 at 16:33
13

Give Credit to Waylon Flinn if you like this

This was improved from his more elegant approach to handle negative numbers and ".0" case.

The fewer loops and "if" cases you have, the better IMO.

function abbreviateNumber(number) {
    var SI_POSTFIXES = ["", "k", "M", "G", "T", "P", "E"];
    var tier = Math.log10(Math.abs(number)) / 3 | 0;
    if(tier == 0) return number;
    var postfix = SI_POSTFIXES[tier];
    var scale = Math.pow(10, tier * 3);
    var scaled = number / scale;
    var formatted = scaled.toFixed(1) + '';
    if (/\.0$/.test(formatted))
      formatted = formatted.substr(0, formatted.length - 2);
    return formatted + postfix;
}

jsFiddle with test cases -> https://jsfiddle.net/xyug4nvz/7/

  • Thanks for fixing all my bugs. :D – Waylon Flinn Jun 16 '17 at 15:29
  • 1
    There's still an annoying bug: abbreviateNumber(999999) == '1000k' instead of '1M'. This is because toFixed() also rounds the numbers. Not sure how to fix it, though :/ – Vitor Baptista Sep 7 '17 at 11:24
  • @VitorBaptista If toFixed() rounds the number anyway, you might as well round the number before sending it to abbreviateNumber(), so it returns 1M instead of 1000k. Not a solution, but a workaround. – forsureitsme Mar 22 '18 at 19:47
  • 1
    If you don't want rounding you can do this after the scale step: const floored = Math.floor(scaled * 10) / 10; – tybro0103 Apr 13 at 2:24
11

A lot of answers on this thread get rather complicated, using Math objects, map objects, for-loops, regex, etc. But these approaches don't really improve the readability of the code, or the performance. A straight forward approach seems to offer the best design.

Formatting Cash value with K

const formatCash = n => {
  if (n < 1e3) return n;
  if (n >= 1e3) return +(n / 1e3).toFixed(1) + "K";
};

console.log(formatCash(2500));

Formatting Cash value with K M B T

const formatCash = n => {
  if (n < 1e3) return n;
  if (n >= 1e3 && n < 1e6) return +(n / 1e3).toFixed(1) + "K";
  if (n >= 1e6 && n < 1e9) return +(n / 1e6).toFixed(1) + "M";
  if (n >= 1e9 && n < 1e12) return +(n / 1e9).toFixed(1) + "B";
  if (n >= 1e12) return +(n / 1e12).toFixed(1) + "T";
};

console.log(formatCash(1235000));

  • So say we all. Indeed. I also appreciate you coming up with a great helper function name. – PeanutPower Sep 28 at 10:05
8

this is is quite elegant.

function formatToUnits(number, precision) {
  const abbrev = ['', 'k', 'm', 'b', 't'];
  const unrangifiedOrder = Math.floor(Math.log10(Math.abs(number)) / 3)
  const order = Math.max(0, Math.min(unrangifiedOrder, abbrev.length -1 ))
  const suffix = abbrev[order];

  return (number / Math.pow(10, order * 3)).toFixed(precision) + suffix;
}

formatToUnits(12345, 2)
==> "12.35k"
formatToUnits(0, 3)
==> "0.000"
  • fail when number = 0 – Wayou May 30 '18 at 9:13
  • 1
    @Wayou fixed, hopefully – Novellizator May 30 '18 at 20:21
4

Further improving @Yash's answer with negative number support:

function nFormatter(num) {
    isNegative = false
    if (num < 0) {
        isNegative = true
    }
    num = Math.abs(num)
    if (num >= 1000000000) {
        formattedNumber = (num / 1000000000).toFixed(1).replace(/\.0$/, '') + 'G';
    } else if (num >= 1000000) {
        formattedNumber =  (num / 1000000).toFixed(1).replace(/\.0$/, '') + 'M';
    } else  if (num >= 1000) {
        formattedNumber =  (num / 1000).toFixed(1).replace(/\.0$/, '') + 'K';
    } else {
        formattedNumber = num;
    }   
    if(isNegative) { formattedNumber = '-' + formattedNumber }
    return formattedNumber;
}

nFormatter(-120000)
"-120K"
nFormatter(120000)
"120K"
  • 1
    Sometimes its hard to know when to post a new answer of edit an existing one, something I use to decide is if I steal the code from another users answer, I usually edit their answer so that they can get the recognition instead of me stealing their code. – M H Feb 19 '16 at 17:09
4

You can use the d3-format package modeled after Python Advanced String Formatting PEP3101 :

var f = require('d3-format')
console.log(f.format('.2s')(2500)) // displays "2.5k"
  • Very cool. That seems a lot cleaner than my original solution. Thank you. – Carl Weis Nov 17 '15 at 19:21
1

This post is quite old but I somehow reached to this post searching for something. SO to add my input Numeral js is the one stop solution now a days. It gives a large number of methods to help formatting the numbers

http://numeraljs.com/

  • 1
    numeraljs is not maintained anymore. The most active fork seems to be numbro. But neither of them support the SI/metric notation – Vincent de Lagabbe Nov 3 '15 at 10:36
1

Adding on the top answer, this will give 1k for 1000 instead of 1.0k

function kFormatter(num) {
    return num > 999 ? num % 1000 === 0 ? (num/1000).toFixed(0) + 'k' : (num/1000).toFixed(1) + 'k' : num
}
1
  • Support negative number
  • Checking for !Number.isFinite
  • Change ' K M G T P E Z Y' to ' K M' if you want the max unit is M

Below code is 1K = 1024, if you want 1K = 1000, change all the 1024 to 1000.


Number.prototype.prefix = function (precision = 2) {

    var units = ' K M G T P E Z Y'.split(' ');

    if (this < 0) {
        return '-' + Math.abs(this).prefix(precision);
    }

    if (this < 1) {
        return this + units[0];
    }

    var power = Math.min(
        Math.floor(Math.log(this) / Math.log(1024)),
        units.length - 1
    );

    return (this / Math.pow(1024, power)).toFixed(precision) + units[power];
}

console.log('10240 = ' + (10240).prefix()) // 10.00K
console.log('1234000 = ' + (1234000).prefix(1)) // 1.2M
console.log('10000 = ' + (-10000).prefix()) // -9.77K

  • (11000).prefix() equals to 10.74K not very accurate should say 11.00K – bmaggi Jun 18 at 20:11
  • 1
    @bmaggi Just change the 1024 to 1000 – Steely Wing Jun 21 at 7:36
1

Improving @tfmontague's answer further to format decimal places. 33.0k to 33k

largeNumberFormatter(value: number): any {
   let result: any = value;

   if (value >= 1e3 && value < 1e6) { result = (value / 1e3).toFixed(1).replace(/\.0$/, '') + 'K'; }
   if (value >= 1e6 && value < 1e9) { result = (value / 1e6).toFixed(1).replace(/\.0$/, '') + 'M'; }
   if (value >= 1e9) { result = (value / 1e9).toFixed(1).replace(/\.0$/, '') + 'T'; }

   return result;
}
0
/*including negative values*/    
function nFormatter(num) {
      let neg = false;
       if(num < 0){
         num = num * -1;
         neg = true;
       }
       if (num >= 1000000000) {
         if(neg){
           return -1 * (num / 1000000000).toFixed(1).replace(/\.0$/, '') + 'G';  
         }
         return (num / 1000000000).toFixed(1).replace(/\.0$/, '') + 'G';
       }
       if (num >= 1000000) {
         if(neg){
           return -1 * (num / 1000000).toFixed(1).replace(/\.0$/, '') + 'M';  
         }
         return (num / 1000000).toFixed(1).replace(/\.0$/, '') + 'M';
       }
       if (num >= 1000) {
         if(neg){
           return -1 * (num / 1000).toFixed(1).replace(/\.0$/, '') + 'K';  
         }
         return (num / 1000).toFixed(1).replace(/\.0$/, '') + 'K';
       }
       return num;
    }
0

A modified version of Waylon Flinn's answer with support for negative exponents:

function metric(number) {

  const SI_SYMBOL = [
    ["", "k", "M", "G", "T", "P", "E"], // +
    ["", "m", "μ", "n", "p", "f", "a"] // -
  ];

  const tier = Math.floor(Math.log10(Math.abs(number)) / 3) | 0;

  const n = tier < 0 ? 1 : 0;

  const t = Math.abs(tier);

  const scale = Math.pow(10, tier * 3);

  return {
    number: number,
    symbol: SI_SYMBOL[n][t],
    scale: scale,
    scaled: number / scale
  }
}

function metric_suffix(number, precision) {
  const m = metric(number);
  return (typeof precision === 'number' ? m.scaled.toFixed(precision) : m.scaled) + m.symbol;
}

for (var i = 1e-6, s = 1; i < 1e7; i *= 10, s *= -1) {
  // toggles sign in each iteration
  console.log(metric_suffix(s * (i + i / 5), 1));
}

console.log(metric(0));

Expected output:

   1.2μ
 -12.0μ
 120.0μ
  -1.2m
  12.0m
-120.0m
   1.2
 -12.0
 120.0
  -1.2k
  12.0k
-120.0k
   1.2M
{ number: 0, symbol: '', scale: 1, scaled: 0 }
0

This function could transform huge numbers (both positive & negative) into a reader friendly format without losing its precision:

function abbrNum(n) {
    if (!n || (n && typeof n !== 'number')) {
      return '';
    }

    const ranges = [
      { divider: 1e12 , suffix: 't' },
      { divider: 1e9 , suffix: 'b' },
      { divider: 1e6 , suffix: 'm' },
      { divider: 1e3 , suffix: 'k' }
    ];
    const range = ranges.find(r => Math.abs(n) >= r.divider);
    if (range) {
      return (n / range.divider).toString() + range.suffix;
    }
    return n.toString();
}

/* test cases */
let testAry = [99, 1200, -150000, 9000000];
let resultAry = testAry.map(abbrNum);
console.log("result array: " + resultAry);

0

I am using this function. It works for both php and javascript.

    /**
     * @param $n
     * @return string
     * Use to convert large positive numbers in to short form like 1K+, 100K+, 199K+, 1M+, 10M+, 1B+ etc
     */
 function num_format($n) {
        $n_format = null;
        $suffix = null;
        if ($n > 0 && $n < 1000) {
           $n_format = Math.floor($n);   
            $suffix = '';
        }
        else if ($n == 1000) {
            $n_format = Math.floor($n / 1000);   //For PHP only use floor function insted of Math.floor()
            $suffix = 'K';
        }
        else if ($n > 1000 && $n < 1000000) {
            $n_format = Math.floor($n / 1000);
            $suffix = 'K+';
        } else if ($n == 1000000) {
            $n_format = Math.floor($n / 1000000);
            $suffix = 'M';
        } else if ($n > 1000000 && $n < 1000000000) {
            $n_format = Math.floor($n / 1000000);
            $suffix = 'M+';
        } else if ($n == 1000000000) {
            $n_format = Math.floor($n / 1000000000);
            $suffix = 'B';
        } else if ($n > 1000000000 && $n < 1000000000000) {
            $n_format = Math.floor($n / 1000000000);
            $suffix = 'B+';
        } else if ($n == 1000000000000) {
            $n_format = Math.floor($n / 1000000000000);
            $suffix = 'T';
        } else if ($n >= 1000000000000) {
            $n_format = Math.floor($n / 1000000000000);
            $suffix = 'T+';
        }


       /***** For PHP  ******/
       //  return !empty($n_format . $suffix) ? $n_format . $suffix : 0;

       /***** For Javascript ******/
        return ($n_format + $suffix).length > 0 ? $n_format + $suffix : 0;
    }
0

I decided to expand a lot on @Novellizator's answer here to meet my needs. I wanted a flexible function to handle most of my formatting needs without external libraries.

Features

  • Option to use order suffixes (k, M, etc.)
    • Option to specify a custom list of order suffixes to use
    • Option to constrain the min and max order
  • Control over the number of decimal places
  • Automatic order-separating commas
  • Optional percent or dollar formatting
  • Control over what to return in the case of non-numeric input
  • Works on negative and infinite numbers

Examples

let x = 1234567.8;
formatNumber(x);  // '1,234,568'
formatNumber(x, {useOrderSuffix: true});  // '1M'
formatNumber(x, {useOrderSuffix: true, decimals: 3, maxOrder: 1});  // '1,234.568k'
formatNumber(x, {decimals: 2, style: '$'});  // '$1,234,567.80'

x = 10.615;
formatNumber(x, {style: '%'});  // '1,062%'
formatNumber(x, {useOrderSuffix: true, decimals: 1, style: '%'});  // '1.1k%'
formatNumber(x, {useOrderSuffix: true, decimals: 5, style: '%', minOrder: 2});  // '0.00106M%'

formatNumber(-Infinity);  // '-∞'
formatNumber(NaN);  // ''
formatNumber(NaN, {valueIfNaN: NaN});  // NaN

Function

/*
 * Return the given number as a formatted string.  The default format is a plain
 * integer with thousands-separator commas.  The optional parameters facilitate
 * other formats:
 *   - decimals = the number of decimals places to round to and show
 *   - valueIfNaN = the value to show for non-numeric input
 *   - style
 *     - '%': multiplies by 100 and appends a percent symbol
 *     - '$': prepends a dollar sign
 *   - useOrderSuffix = whether to use suffixes like k for 1,000, etc.
 *   - orderSuffixes = the list of suffixes to use
 *   - minOrder and maxOrder allow the order to be constrained.  Examples:
 *     - minOrder = 1 means the k suffix should be used for numbers < 1,000
 *     - maxOrder = 1 means the k suffix should be used for numbers >= 1,000,000
 */
function formatNumber(number, {
    decimals = 0,
    valueIfNaN = '',
    style = '',
    useOrderSuffix = false,
    orderSuffixes = ['', 'k', 'M', 'B', 'T'],
    minOrder = 0,
    maxOrder = Infinity
  } = {}) {

  let x = parseFloat(number);

  if (isNaN(x))
    return valueIfNaN;

  if (style === '%')
    x *= 100.0;

  let order;
  if (!isFinite(x) || !useOrderSuffix)
    order = 0;
  else if (minOrder === maxOrder)
    order = minOrder;
  else {
    const unboundedOrder = Math.floor(Math.log10(Math.abs(x)) / 3);
    order = Math.max(
      0,
      minOrder,
      Math.min(unboundedOrder, maxOrder, orderSuffixes.length - 1)
    );
  }

  const orderSuffix = orderSuffixes[order];
  if (order !== 0)
    x /= Math.pow(10, order * 3);

  return (style === '$' ? '$' : '') +
    x.toLocaleString(
      'en-US',
      {
        style: 'decimal',
        minimumFractionDigits: decimals,
        maximumFractionDigits: decimals
      }
    ) +
    orderSuffix +
    (style === '%' ? '%' : '');
}
0

Wow there are so many answers on here. I thought I would give you how I solved it as it seemed to be the easiest to read, handles negative numbers, and goes out far in the kilo number range for JavaScript. It also would be easy to change to what you want or extended even farther.

const symbols = [
  { value: 1, symbol: '' },
  { value: 1e3, symbol: 'k' },
  { value: 1e6, symbol: 'M' },
  { value: 1e9, symbol: 'G' },
  { value: 1e12, symbol: 'T' },
  { value: 1e15, symbol: 'P' },
  { value: 1e18, symbol: 'E' }
];

function numberFormatter(num, digits) {
  const numToCheck = Math.abs(num);
  for (let i = symbols.length - 1; i >= 0; i--) {
    if (numToCheck >= symbols[i].value) {
      const newNumber = (num / symbols[i].value).toFixed(digits);
      return `${newNumber}${symbols[i].symbol}`;
    }
  }
  return '0';
}

const tests = [
  { num: 1234, digits: 1 },
  { num: 100000000, digits: 1 },
  { num: 299792458, digits: 1 },
  { num: 759878, digits: 1 },
  { num: -759878, digits: 0 },
  { num: 123, digits: 1 },
  { num: 123.456, digits: 1 },
  { num: -123.456, digits: 2 },
  { num: 123.456, digits: 4 }
];
for (let i = 0; i < tests.length; i++) {
  console.log(`numberFormatter(${tests[i].num}, ${tests[i].digits})=${numberFormatter(tests[i].num, tests[i].digits)}`);
}

0

Not satisfied any of the posted solutions, so here's my version:

  1. Supports positive and negative numbers
  2. Supports negative exponents
  3. Rounds up to next exponent if possible
  4. Performs bounds checking (doesn't error out for very large/small numbers)
  5. Strips off trailing zeros/spaces
  6. Supports a precision parameter

    function abbreviateNumber(number,digits=2) {
      var expK = Math.floor(Math.log10(Math.abs(number)) / 3);
      var scaled = number / Math.pow(1000, expK);
    
      if(Math.abs(scaled.toFixed(digits))>=1000) { // Check for rounding to next exponent
        scaled /= 1000;
        expK += 1;
      }
    
      var SI_SYMBOLS = "apμm kMGTPE";
      var BASE0_OFFSET = SI_SYMBOLS.indexOf(' ');
    
      if (expK + BASE0_OFFSET>=SI_SYMBOLS.length) { // Bound check
        expK = SI_SYMBOLS.length-1 - BASE0_OFFSET;
        scaled = number / Math.pow(1000, expK);
      }
      else if (expK + BASE0_OFFSET < 0) return 0;  // Too small
    
      return scaled.toFixed(digits).replace(/(\.|(\..*?))0+$/,'$2') + SI_SYMBOLS[expK+BASE0_OFFSET].trim();
    }
    
    //////////////////
    
    const tests = [
      [0.0000000000001,2],
      [0.00000000001,2],
      [0.000000001,2],
      [0.000001,2],
      [0.001,2],
      [0.0016,2],
      [-0.0016,2],
      [0.01,2],
      [1,2],
      [999.99,2],
      [999.99,1],
      [-999.99,1],
      [999999,2],
      [999999999999,2],
      [999999999999999999,2],
      [99999999999999999999,2],
    ];
    
    for (var i = 0; i < tests.length; i++) {
      console.log(abbreviateNumber(tests[i][0], tests[i][1]) );
    }

0

I came up with a very code golfed one, and it is very short!

var beautify=n=>((Math.log10(n)/3|0)==0)?n:Number((n/Math.pow(10,(Math.log10(n)/3|0)*3)).toFixed(1))+["","K","M","B","T",][Math.log10(n)/3|0];

console.log(beautify(1000))
console.log(beautify(10000000))

0

Further improving Salman's Answer because of the cases like nFormatter(999999,1) that returns 1000K.

function formatNumberWithMetricPrefix(num, digits = 1) {
  const si = [
    {value: 1e18, symbol: 'E'},
    {value: 1e15, symbol: 'P'},
    {value: 1e12, symbol: 'T'},
    {value: 1e9, symbol: 'G'},
    {value: 1e6, symbol: 'M'},
    {value: 1e3, symbol: 'k'},
    {value: 0, symbol: ''},
  ];
  const rx = /\.0+$|(\.[0-9]*[1-9])0+$/;
  function divideNum(divider) {
    return (num / (divider || 1)).toFixed(digits);
  }

  let i = si.findIndex(({value}) => num >= value);
  if (+divideNum(si[i].value) >= 1e3 && si[i - 1]) {
    i -= 1;
  }
  const {value, symbol} = si[i];
  return divideNum(value).replace(rx, '$1') + symbol;
}

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