# Convert a number into a Roman numeral in JavaScript

How can I convert integers into roman numerals?

``````function romanNumeralGenerator (int) {

}
``````

For example, see the following sample inputs and outputs:

``````1 = "I"
5 = "V"
10 = "X"
20 = "XX"
3999 = "MMMCMXCIX"
``````

Caveat: Only support numbers between 1 and 3999

There is a nice one here on this blog I found using google:

http://blog.stevenlevithan.com/archives/javascript-roman-numeral-converter

``````function romanize (num) {
if (isNaN(num))
return NaN;
var digits = String(+num).split(""),
key = ["","C","CC","CCC","CD","D","DC","DCC","DCCC","CM",
"","X","XX","XXX","XL","L","LX","LXX","LXXX","XC",
"","I","II","III","IV","V","VI","VII","VIII","IX"],
roman = "",
i = 3;
while (i--)
roman = (key[+digits.pop() + (i * 10)] || "") + roman;
return Array(+digits.join("") + 1).join("M") + roman;
}
``````
• Reminder: This should better return `NaN` or throw instead of returning `false` as discussed in that post. Commented Oct 12, 2015 at 14:59
• I have just found out that the largest number that works with this function is `715799999999` (715,799,999,999). Larger numbers either don’t return anything or (for very large numbers) it outputs `RangeError: Invalid array length` error. Otherwise, it works perfectly. Thanks! Commented Jul 20, 2020 at 19:38
• @tukusejssirs luckily roman numerals are intended for years, otherwise there would be numbers larger than 1000. But it's good to know! Commented Sep 2, 2021 at 9:44
``````function romanize(num) {
var lookup = {M:1000,CM:900,D:500,CD:400,C:100,XC:90,L:50,XL:40,X:10,IX:9,V:5,IV:4,I:1},roman = '',i;
for ( i in lookup ) {
while ( num >= lookup[i] ) {
roman += i;
num -= lookup[i];
}
}
return roman;
}
``````

Reposted from a 2008 comment located at: http://blog.stevenlevithan.com/archives/javascript-roman-numeral-converter

# VIEW DEMO

• Objects have no order! You should use an array and avoid `for...in`. Commented Jul 31, 2016 at 22:01
• I'm not talking about performance. I'm saying that the iteration order is not guaranteed, so the result may be completely wrong. Commented Aug 2, 2016 at 0:14
• I can't give an non-working example, because the order is implementation dependent. Instead, please link me which part of the spec ensures it will be iterated with the desired order. Oh, you can't. Commented Aug 3, 2016 at 1:35
• @jaggedsoft Here is an example where the order changes in some browsers: `for (let i in { '2': 2, '1': 1 }) console.log(i);`. Furthermore even if you test it, it does not mean that it always works. There might be cases where a browser changes the order for performance reasons or whatever reasons. You can only be sure, if you know the source code of every version of browser that you support and want to support in the future. Commented Mar 21, 2019 at 13:55
• Update, June 2021: As of ES2020, object iteration order, even in `for...in` loops, is guaranteed to be the same as the object's property order. To be a little pedantic in response to @Oriol, objects do have "order" as of ES2015, but their iteration order was not guaranteed to be the same as the property order when using `for...in` until recently. Commented Jun 18, 2021 at 14:43

I don't understand why everyone's solution is so long and uses multiple for loops.

``````function convertToRoman(num) {
var roman = {
M: 1000,
CM: 900,
D: 500,
CD: 400,
C: 100,
XC: 90,
L: 50,
XL: 40,
X: 10,
IX: 9,
V: 5,
IV: 4,
I: 1
};
var str = '';

for (var i of Object.keys(roman)) {
var q = Math.floor(num / roman[i]);
num -= q * roman[i];
str += i.repeat(q);
}

return str;
}
``````
• I think I finally understand this solution. Would adding 'if (num===0){return str}' make it so you loop even less? You can place it at the end of the loop and remove the 'return str'.
– kite
Commented Aug 8, 2020 at 19:01
• Yes @kite, nicely spotted ! It would make it loop less, however, considering that we are only looping through 13 items, it won't make much of a difference :) Commented Aug 27, 2020 at 14:40

I've developed the recursive solution below. The function returns one letter and then calls itself to return the next letter. It does it until the number passed to the function is `0` which means that all letters have been found and we can exit the recursion.

``````var romanMatrix = [
[1000, 'M'],
[900, 'CM'],
[500, 'D'],
[400, 'CD'],
[100, 'C'],
[90, 'XC'],
[50, 'L'],
[40, 'XL'],
[10, 'X'],
[9, 'IX'],
[5, 'V'],
[4, 'IV'],
[1, 'I']
];

function convertToRoman(num) {
if (num === 0) {
return '';
}
for (var i = 0; i < romanMatrix.length; i++) {
if (num >= romanMatrix[i][0]) {
return romanMatrix[i][1] + convertToRoman(num - romanMatrix[i][0]);
}
}
}
``````

I personally think the neatest way (not by any means the fastest) is with recursion.

``````function convert(num) {
if(num < 1){ return "";}
if(num >= 40){ return "XL" + convert(num - 40);}
if(num >= 10){ return "X" + convert(num - 10);}
if(num >= 9){ return "IX" + convert(num - 9);}
if(num >= 5){ return "V" + convert(num - 5);}
if(num >= 4){ return "IV" + convert(num - 4);}
if(num >= 1){ return "I" + convert(num - 1);}
}
console.log(convert(39));
//Output: XXXIX
``````

This will only support numbers 1-40, but it can easily be extended by following the pattern.

These functions convert any positive whole number to its equivalent Roman Numeral string; and any Roman Numeral to its number.

Number to Roman Numeral:

``````Number.prototype.toRoman= function () {
var num = Math.floor(this),
val, s= '', i= 0,
v = [1000, 900, 500, 400, 100, 90, 50, 40, 10, 9, 5, 4, 1],
r = ['M', 'CM', 'D', 'CD', 'C', 'XC', 'L', 'XL', 'X', 'IX', 'V', 'IV', 'I'];

function toBigRoman(n) {
var ret = '', n1 = '', rem = n;
while (rem > 1000) {
var prefix = '', suffix = '', n = rem, s = '' + rem, magnitude = 1;
while (n > 1000) {
n /= 1000;
magnitude *= 1000;
prefix += '(';
suffix += ')';
}
n1 = Math.floor(n);
rem = s - (n1 * magnitude);
ret += prefix + n1.toRoman() + suffix;
}
return ret + rem.toRoman();
}

if (this - num || num < 1) num = 0;

while (num) {
val = v[i];
while (num >= val) {
num -= val;
s += r[i];
}
++i;
}
return s;
};
``````

Roman Numeral string to Number:

``````Number.fromRoman = function (roman, accept) {
var s = roman.toUpperCase().replace(/ +/g, ''),
L = s.length, sum = 0, i = 0, next, val,
R = { M: 1000, D: 500, C: 100, L: 50, X: 10, V: 5, I: 1 };

function fromBigRoman(rn) {
var n = 0, x, n1, S, rx =/(\(*)([MDCLXVI]+)/g;

while ((S = rx.exec(rn)) != null) {
x = S[1].length;
n1 = Number.fromRoman(S[2])
if (isNaN(n1)) return NaN;
if (x) n1 *= Math.pow(1000, x);
n += n1;
}
return n;
}

if (/^[MDCLXVI)(]+\$/.test(s)) {
if (s.indexOf('(') == 0) return fromBigRoman(s);

while (i < L) {
val = R[s.charAt(i++)];
next = R[s.charAt(i)] || 0;
if (next - val > 0) val *= -1;
sum += val;
}
if (accept || sum.toRoman() === s) return sum;
}
return NaN;
};
``````

This version does not require any hard coded logic for edge cases such as `4(IV),9(IX),40(XL),900(CM), etc.` as the others do.

I have tested this code against a data set from 1-3999 and it works.

TLDR;

This also means this solution can handle numbers greater than the maximum roman scale could (3999).

It appears there is an alternating rule for deciding the next major roman numeral character. Starting with I multiply by 5 to get the next numeral V and then by 2 to get X, then by 5 to get L, and then by 2 to get C, etc to get the next major numeral character in the scale. In this case lets assume "T" gets added to the scale to allow for larger numbers than 3999 which the original roman scale allows. In order to maintain the same algorithm "T" would represent 5000.

``````I = 1
V = I * 5
X = V * 2
L = X * 5
C = L * 2
D = C * 5
M = D * 2
T = M * 5
``````

This could then allow us to represent numbers from 4000 to 5000; MT = 4000 for example.

Code:

``````function convertToRoman(num) {
//create key:value pairs
var romanLookup = {M:1000, D:500, C:100, L:50, X:10, V:5, I:1};
var roman = [];
var romanKeys = Object.keys(romanLookup);
var curValue;
var index;
var count = 1;

for(var numeral in romanLookup){
curValue = romanLookup[numeral];
index = romanKeys.indexOf(numeral);

while(num >= curValue){

if(count < 4){
//push up to 3 of the same numeral
roman.push(numeral);
} else {
//else we had to push four, so we need to convert the numerals
//to the next highest denomination "coloring-up in poker speak"

//Note: We need to check previous index because it might be part of the current number.
//Example:(9) would attempt (VIIII) so we would need to remove the V as well as the I's
//otherwise removing just the last three III would be incorrect, because the swap
if(roman.indexOf(romanKeys[index - 1]) > -1){
//remove the previous numeral we worked with
//and everything after it since we will replace them
roman.splice(roman.indexOf(romanKeys[index - 1]));
//push the current numeral and the one that appeared two iterations ago;
//think (IX) where we skip (V)
roman.push(romanKeys[index], romanKeys[index - 2]);
} else {
//else Example:(4) would attemt (IIII) so remove three I's and replace with a V
//to get the correct answer of (IV)

//remove the last 3 numerals which are all the same
roman.splice(-3);
//push the current numeral and the one that appeared right before it; think (IV)
roman.push(romanKeys[index], romanKeys[index - 1]);
}
}
//reduce our number by the value we already converted to a numeral
num -= curValue;
count++;
}
count = 1;
}
return roman.join("");
}

convertToRoman(36);
``````

I know this is an old question but I'm pretty proud of this solution :) It only handles numbers less than 1000 but could easily be expanded to include however large you'd need by adding on to the 'numeralCodes' 2D array.

``````var numeralCodes = [["","I","II","III","IV","V","VI","VII","VIII","IX"],         // Ones
["","X","XX","XXX", "XL", "L", "LX", "LXX", "LXXX", "XC"],   // Tens
["","C","CC","CCC","CD","D","DC","DCC","DCCC","CM"]];        // Hundreds

function convert(num) {
var numeral = "";
var digits = num.toString().split('').reverse();
for (var i=0; i < digits.length; i++){
numeral = numeralCodes[i][parseInt(digits[i])] + numeral;
}
return numeral;
}``````
``````<input id="text-input" type="text">
<button id="convert-button" onClick="var n = parseInt(document.getElementById('text-input').value);document.getElementById('text-output').value = convert(n);">Convert!</button>
<input id="text-output" style="display:block" type="text">``````

Loops may be more elegant but I find them hard to read. Came up with a more or less hard coded version that's easy on the eyes. As long as you understand the very first line, the rest is a no-brainer.

``````function romanNumeralGenerator (int) {
let roman = '';

roman +=  'M'.repeat(int / 1000);  int %= 1000;
roman += 'CM'.repeat(int / 900);   int %= 900;
roman +=  'D'.repeat(int / 500);   int %= 500;
roman += 'CD'.repeat(int / 400);   int %= 400;
roman +=  'C'.repeat(int / 100);   int %= 100;
roman += 'XC'.repeat(int / 90);    int %= 90;
roman +=  'L'.repeat(int / 50);    int %= 50;
roman += 'XL'.repeat(int / 40);    int %= 40;
roman +=  'X'.repeat(int / 10);    int %= 10;
roman += 'IX'.repeat(int / 9);     int %= 9;
roman +=  'V'.repeat(int / 5);     int %= 5;
roman += 'IV'.repeat(int / 4);     int %= 4;
roman +=  'I'.repeat(int);

return roman;
}
``````

I created two convert functions.

The first function can convert numbers to roman using reduce. And the second function is very similar to the first function, the function uses the same way to convert the value.

Everything that you need to change is the `_roman` property. Because you have to extend this const with scale what you want, I place there max number `1000` but you can put more.

Larger scale with roman numbers you can find here https://www.tuomas.salste.net/doc/roman/numeri-romani.html

``````const _roman = { M: 1000, CM: 900, D: 500, CD: 400, C: 100, XC: 90, L: 50, XL: 40, X: 10, IX: 9, V: 5, IV: 4, I: 1 };

// 1903 => MCMIII
function toRoman(number = 0) {
return Object.keys(_roman).reduce((acc, key) => {
while (number >= _roman[key]) {
acc += key;
number -= _roman[key];
}
return acc;
}, '');
}

// MCMIII => 1903
function fromRoman(roman = '') {
return Object.keys(_roman).reduce((acc, key) => {
while (roman.indexOf(key) === 0) {
acc += _roman[key];
roman = roman.substr(key.length);
}
return acc;
}, 0);
}

console.log(toRoman(1903));  // should return 'MCMIII
console.log(fromRoman('MCMIII')); // should return 1903``````

Here is the solution with recursion, that looks simple:

``````const toRoman = (num, result = '') => {
const map = {
M: 1000,
CM: 900, D: 500, CD: 400, C: 100,
XC: 90,  L: 50,  XL: 40,  X: 10,
IX: 9,   V: 5,   IV: 4,   I: 1,
};
for (const key in map) {
if (num >= map[key]) {
if (num !== 0) {
}
}
}
return result;
};
console.log(toRoman(402)); // CDII
console.log(toRoman(3000)); // MMM
console.log(toRoman(93)); // XCIII
console.log(toRoman(4)); // IV``````

JavaScript

``````function romanize (num) {
if (!+num)
return false;
var digits = String(+num).split(""),
key = ["","C","CC","CCC","CD","D","DC","DCC","DCCC","CM",
"","X","XX","XXX","XL","L","LX","LXX","LXXX","XC",
"","I","II","III","IV","V","VI","VII","VIII","IX"],
roman = "",
i = 3;
while (i--)
roman = (key[+digits.pop() + (i * 10)] || "") + roman;
return Array(+digits.join("") + 1).join("M") + roman;
}
``````

many other suggestions can be found at http://blog.stevenlevithan.com/archives/javascript-roman-numeral-converter

I created two twin arrays one with arabic numbers the other with the roman characters.

``````function convert(num) {

var result = '';
var rom = ['M', 'CM', 'D', 'CD', 'C', 'XC', 'L', 'XL', 'X', 'IX', 'V', 'IV', 'I'];
var ara = [1000, 900, 500, 400, 100, 90, 50, 40, 10, 9, 5, 4, 1];``````

Then I added a cycle which scan the roman elements, adding the biggest still comprised in NUM to RESULT, then we decrease NUM of the same amount.

It is like we map a part of NUM in roman numbers and then we decrease it of the same amount.

``````  for (var x = 0; x < rom.length; x++) {
while (num >= ara[x]) {
result += rom[x];
num -= ara[x];
}
}
return result;
}``````

This function will convert any number smaller than 3,999,999 to roman. Notice that numbers bigger than 3999 will be inside a label with `text-decoration` set to `overline`, this will add the `overline` that is the correct representation for x1000 when the number is bigger than 3999.

Four million (4,000,000) would be IV with two `overline`s so, you would need to use some trick to represent that, maybe a `DIV` with `border-top`, or some background image with those two `overline`s... Each `overline` represents x1000.

``````function convert(num){
num = parseInt(num);

if (num > 3999999) { alert('Number is too big!'); return false; }
if (num < 1) { alert('Number is too small!'); return false; }

var result = '',
ref = ['M','CM','D','CD','C','XC','L','XL','X','IX','V','IV','I'],
xis = [1000,900,500,400,100,90,50,40,10,9,5,4,1];

if (num <= 3999999 && num >= 4000) {
num += ''; // need to convert to string for .substring()
result = '<label style="text-decoration: overline;">'+convert(num.substring(0,num.length-3))+'</label>';
num = num.substring(num.length-3);
}

for (x = 0; x < ref.length; x++){
while(num >= xis[x]){
result += ref[x];
num -= xis[x];
}
}
return result;
}
``````
• I've edited this code to allow for numbers greater than 3,999,999. It may produce incorrect results, though, so use with caution. jsfiddle.net/DJDavid98/d2VEy Commented Jul 3, 2014 at 17:18

If you want to convert a big number with more symbols, maybe this algo could help.

The only premise for symbols is that must be odd and follow the same rule (1, 5, 10, 50,100 ...., 10^(N)/2, 10^(N)).

``````var rnumbers = ["I","V","X","L","C","D","M"];
rnumbers = rnumbers.concat(["V","X","L","C","D","M"].map(function(n) {return '<span style="border-top:1px solid black; padding:1px;">'+n+'</span> '}));
rnumbers = rnumbers.concat(["V","X","L","C","D","M"].map(function(n) {return '<span style="border:1px solid black; border-bottom:1px none black; padding:1px;">'+n+'</span> '}));
rnumbers = rnumbers.concat(["V","X","L","C","D","M"].map(function(n) {return '<span style="border-top:3px double black; padding:1px;">'+n+'</span> '}));

String.prototype.repeat = function( num ) {
return new Array( num + 1 ).join( this );
};

function toRoman(n) {

if(!n) return "";

var strn = new String(n);
var strnlength = strn.length;
var ret = "";
for(var i = 0 ; i < strnlength; i++) {
var index = strnlength*2 -2 - i*2;
var str;
var m = +strn[i];
if(index > rnumbers.length -1) {
str = rnumbers[rnumbers.length-1].repeat(m*Math.pow(10,Math.ceil((index-rnumbers.length)/2)));
}else {
str = rnumbers[index].repeat(m);
if (rnumbers.length >= index + 2) {
var rnregexp = rnumbers[index]
.split("(").join('\\(')
.split(")").join('\\)');

str = str.replace(new RegExp('(' + rnregexp + '){9}'), rnumbers[index] + rnumbers[index + 2])
.replace(new RegExp('(' + rnregexp + '){5}'), rnumbers[index + 1])
.replace(new RegExp('(' + rnregexp + '){4}'), rnumbers[index] + rnumbers[index + 1])
}
}
ret +=str;
}

return ret;
}``````
``````
<input type="text" value="" onkeyup="document.getElementById('result').innerHTML = toRoman(this.value)"/>

<br/><br/>

<div id="result"></div>``````

After testing some of the implementations in this post, I have created a new optimized one in order to execute faster. The time execution is really low comparing with the others, but obviously the code is uglier :). It could be even faster with an indexed array with all the posibilities. Just in case it helps someone.

``````function concatNumLetters(letter, num) {
var text = "";
for(var i=0; i<num; i++){
text += letter;
}
return text;
}

function arabicToRomanNumber(arabic) {
arabic = parseInt(arabic);
var roman = "";
if (arabic >= 1000) {
var thousands = ~~(arabic / 1000);
roman = concatNumLetters("M", thousands);
arabic -= thousands * 1000;
}

if (arabic >= 900) {
roman += "CM";
arabic -= 900;
}

if (arabic >= 500) {
roman += "D";
arabic -= 500;
}

if (arabic >= 400) {
roman += "CD";
arabic -= 400;
}

if (arabic >= 100) {
var hundreds = ~~(arabic / 100);
roman += concatNumLetters("C", hundreds);
arabic -= hundreds * 100;
}

if (arabic >= 90) {
roman += "XC";
arabic -= 90;
}

if (arabic >= 50) {
roman += "L";
arabic -= 50;
}

if (arabic >= 40) {
roman += "XL";
arabic -= 40;
}

if (arabic >= 10) {
var dozens = ~~(arabic / 10);
roman += concatNumLetters("X", dozens);
arabic -= dozens * 10;
}

if (arabic >= 9) {
roman += "IX";
arabic -= 9;
}

if (arabic >= 5) {
roman += "V";
arabic -= 5;
}

if (arabic >= 4) {
roman += "IV";
arabic -= 4;
}

if (arabic >= 1) {
roman += concatNumLetters("I", arabic);
}

return roman;
}
``````
``````function convertToRoman(num) {
var roman = {
M: 1000,
CM: 900,
D: 500,
CD: 400,
C: 100,
XC: 90,
L: 50,
XL: 40,
X: 10,
IX: 9,
V: 5,
IV: 4,
I: 1
}
var result = '';
for (var key in roman) {
if (num == roman[key]) {
return result +=key;
}
var check = num > roman[key];
if(check) {
result = result + key.repeat(parseInt(num/roman[key]));
num = num%roman[key];
}
}
return result;
}

console.log(convertToRoman(36));
``````
• lets take 1012 so it is not equal to any key and also bigger than 1000 which is my first key so it will enter in 2nd if condition after that it will find the quotient which will be 1 so it will take result and add M*1 to it so now the result variable will have M in it and the num will be 12. So now 12>10 again it will enter and do the same thing so now result will become MX and num = 2 and again 2>1 so it will add MXI and now the num = 1. So now it will enter the first if condition andmake result = MXII. Commented Nov 21, 2018 at 6:35

I didn't see this posted already so here's an interesting solution using only string manipulation:

``````var numbers = [1, 4, 5, 7, 9, 14, 15, 19, 20, 44, 50, 94, 100, 444, 500, 659, 999, 1000, 1024];
var romanNumeralGenerator = function (number) {
return 'I'
.repeat(number)
.replace(/I{5}/g, 'V')
.replace(/V{2}/g, 'X')
.replace(/X{5}/g, 'L')
.replace(/L{2}/g, 'C')
.replace(/C{5}/g, 'D')
.replace(/D{2}/g, 'M')
.replace(/DC{4}/g, 'CM')
.replace(/C{4}/g, 'CD')
.replace(/LX{4}/g, 'XC')
.replace(/X{4}/g, 'XL')
.replace(/VI{4}/g, 'IX')
.replace(/I{4}/g, 'IV')
};

console.log(numbers.map(romanNumeralGenerator))``````

This function works on the the different character sets in each digit. To add another digit add the roman numeral string the 1 place, 5 place and next 1 place. This is nice because you update it with only knowing the next set of characters used.

``````function toRoman(n){
var d=0,o="",v,k="IVXLCDM".split("");

while(n!=0){
v=n%10,x=k[d],y=k[d+1],z=k[d+2];
o=["",x,x+x,x+x+x,x+y,y,y+x,y+x+x,y+x+x+x,x+z][v]+o;
n=(n-v)/10,d+=2;
}

return o
}

var out = "";

for (var i = 0; i < 100; i++) {
out += toRoman(i) + "\n";
}

document.getElementById("output").innerHTML = out;``````
``<pre id="output"></pre>``

``````function convertToRoman(num) {

var romans = {
1000: 'M',
900: 'CM',
500: 'D',
400: 'CD',
100: 'C',
90: 'XC',
50: 'L',
40: 'XL',
10: 'X',
9: 'IX',
5: 'V',
4: 'IV',
1: 'I'
};
var popped, rem, roman = '',
keys = Object.keys(romans);
while (num > 0) {
popped = keys.pop();
m = Math.floor(num / popped);
num = num % popped;
console.log('popped:', popped, ' m:', m, ' num:', num, ' roman:', roman);
while (m-- > 0) {
roman += romans[popped];
}
while (num / popped === 0) {
popped = keys.pop();
delete romans[popped];
}
}
return roman;
}
var result = convertToRoman(3999);
console.log(result);
document.getElementById('roman').innerHTML = 'Roman: ' + result;``````
``````p {
color: darkblue;
}``````
``````<p>Decimal: 3999</p>
<p id="roman">Roman:</p>``````

I just made this at freecodecamp. It can easily be expanded.

``````function convertToRoman(num) {

var roman ="";

var values = [1000,900,500,400,100,90,50,40,10,9,5,4,1];
var literals = ["M","CM","D","CD","C","XC","L","XL","X","IX","V","IV","I"];

for(i=0;i<values.length;i++){
if(num>=values[i]){
if(5<=num && num<=8) num -= 5;
else if(1<=num && num<=3) num -= 1;
else num -= values[i];
roman += literals[i];
i--;
}
}

return roman;
}
``````

Here's a regular expression solution:

``````function deromanize(roman) {
var r = 0;
// regular expressions to check if valid Roman Number.
if (!/^M*(?:D?C{0,3}|C[MD])(?:L?X{0,3}|X[CL])(?:V?I{0,3}|I[XV])\$/.test(roman))
throw new Error('Invalid Roman Numeral.');

roman.replace(/[MDLV]|C[MD]?|X[CL]?|I[XV]?/g, function(i) {
r += {M:1000, CM:900, D:500, CD:400, C:100, XC:90, L:50, XL:40, X:10, IX:9, V:5, IV:4, I:1}[i];
});

return r;
}
``````
• That's the opposite from what is asked here. Commented Sep 26, 2021 at 12:05

I really liked the solution by jaggedsoft but I couldn't reply because my rep is TOO LOW :( :(

I broke it down to explain it a little bit for those that don't understand it. Hopefully it helps someone.

``````function convertToRoman(num) {

var lookup =
{M:1000,CM:900,D:500,CD:400,C:100,XC:90,L:50,XL:40,X:10,IX:9,V:5,IV:4,I:1},roman = '',i;

for ( i in lookup ) {
while ( num >= lookup[i] ) { //while input is BIGGGER than lookup #..1000, 900, 500, etc.
roman += i; //roman is set to whatever i is (M, CM, D, CD...)
num -= lookup[i]; //takes away the first num it hits that is less than the input
//in this case, it found X:10, added X to roman, then took away 10 from input
//input lowered to 26, X added to roman, repeats and chips away at input number
//repeats until num gets down to 0. This triggers 'while' loop to stop.
}
}
return roman;
}

console.log(convertToRoman(36));
``````

IF this number in HTMLElement (such as span), we recommend to Add HTML attribute `data-format` :

``````Number.prototype.toRoman = function() {
var e = Math.floor(this),
t, n = "",
i = 3999,
s = 0;
v = [1e3, 900, 500, 400, 100, 90, 50, 40, 10, 9, 5, 4, 1], r = ["M", "CM", "D", "CD", "C", "XC", "L", "XL", "X", "IX", "V", "IV", "I"];
if (e < 1 || e > i) return "";
while (s < 13) {
t = v[s];
while (e >= t) {
e -= t;
n += r[s]
}
if (e == 0) return n;
++s
}
return ""
};
var fnrom = function(e) {
if (parseInt(e.innerHTML)) {
e.innerHTML = parseInt(e.innerHTML).toRoman()
}
};
setTimeout(function() {
[].forEach.call(document.querySelectorAll("[data-format=roman]"), fnrom)
}, 10)``````
``Phase <span data-format="roman">4</span> Sales``

``````function convertToRoman(num) {
let roman = ["M", "CM", "D", "CD", "C", "XC", "L", "XL", "X", "IX", "V", "IV", "I"];
let arabic = [1000, 900, 500, 400, 100,  90,   50,  40,   10,   9,   5,   4,    1];
let index = 0;
let result = "";
while (num > 0) {
if (num >= arabic[index]) {
result += roman[index];
num -= arabic[index];
} else index++;
}

return result;
}``````

``````/*my beginner-nooby solution for numbers 1-999 :)*/
function convert(num) {
var RomNumDig = [['','I','II', 'III', 'IV', 'V', 'VI', 'VII', 'VIII', 'IX'],['X','XX', 'XXX', 'XL', 'L', 'LX', 'LXX', 'LXXX', 'XC'], ['C','CC','CCC','CD','D','DC','DCC','DCCC','CM']];
var lastDig = num%10;
var ourNumb1 = RomNumDig[0][lastDig]||'';
if(num>=10) {
var decNum = (num - lastDig)/10;
if(decNum>9)decNum%=10;
var ourNumb2 = RomNumDig[1][decNum-1]||'';}
if(num>=100) {
var hundNum = ((num-num%100)/100);
var ourNumb3 = RomNumDig[2][hundNum-1]||'';}
return ourNumb3+ourNumb2+ourNumb1;
}
console.log(convert(950));//CML

/*2nd my beginner-nooby solution for numbers 1-10, but it can be easy transformed for larger numbers :)*/
function convert(num) {
var ourNumb = '';
var romNumDig = ['I','IV','V','IX','X'];
var decNum = [1,4,5,9,10];
for (var i=decNum.length-1; i>0; i--) {
while(num>=decNum[i]) {
ourNumb += romNumDig[i];
num -= decNum[i];
}
}
return ourNumb;
}
console.log(convert(9));//IX
``````
``````function toRoman(n) {
var decimals = [1000, 900, 500, 400, 100, 90, 50, 40, 10, 9, 5, 4, 1];
var roman = ['M', 'CM', 'D', 'CD', 'C', 'XC', 'L', 'XL', 'X', 'IX', 'V', 'IV', 'I'];

for (var i = 0; i < decimals.length; i++) {
if(n < 1)
return "";

if(n >= decimals[i]) {
return roman[i] + toRoman(n - decimals[i]);
}
}
}
``````

This works for all numbers only in need of roman numerals M and below.

``````function convert(num) {
var code = [
[1000, "M"], [900, "CM"], [800, "DCCC"], [700, "DCC"], [600, "DC"],
[500, "D"], [400, "CD"], [300, "CCC"], [200, "CC"],
[100, "C"], [90, "XC"], [80, "LXXX"], [70, "LXX"], [60, "LX"],
[50, "L"], [40, "XL"], [30, "XXX"], [20, "XX"],
[10, "X"], [9, "IX"], [8, "VIII"], [7, "VII"], [6, "VI"],
[5, "V"], [4, "IV"], [3, "III"], [2, "II"], [1, "I"],
];

var rom = "";
for(var i=0; i<code.length; i++) {
while(num >= code[i][0]) {
rom += code[i][1];
num -= code[i][0];
}
}
return rom;
}
``````

This is the first time I really got stuck on freecodecamp. I perused through some solutions here and was amazed at how different they all were. Here is what ended up working for me.

``````function convertToRoman(num) {
var roman = "";

var lookupObj = {
1000:"M",
900:"CM",
500:"D",
400:"CD",
100:"C",
90:"XC",
50:"L",
40:"XL",
10:"X",
9:"IX",
4:"IV",
5:"V",
1:"I",
};

var arrayLen = Object.keys(lookupObj).length;

while(num>0){

for (i=arrayLen-1 ; i>=0 ; i--){

if(num >= Object.keys(lookupObj)[i]){

roman = roman + lookupObj[Object.keys(lookupObj)[i]];
num = num - Object.keys(lookupObj)[i];
break;

}
}
}

return roman;

}

convertToRoman(1231);
``````
``````function convertToRoman(num) {
var romNumerals = [["M", 1000], ["CM", 900], ["D", 500], ["CD", 400], ["C", 100], ["XC", 90], ["L", 50], ["XL", 40], ["X", 10], ["IX", 9], ["V", 5], ["IV", 4], ["I", 1]];
var runningTotal = 0;
var roman = "";
for (var i = 0; i < romNumerals.length; i++) {
while (runningTotal + romNumerals[i][1] <= num) {
runningTotal += romNumerals[i][1];
roman += romNumerals[i][0];
}
}

return roman;
}
``````