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i'm trying to convert numbers to english words.
Eg : 1234 become: one thousand two hundred thirty four.

My Tactic goes like this:

  • Separate the digits to three and put them on Array - finlOutPut - start from right to left.
  • Convert each group (each cell on the finlOutPut arry) of three digit - to word (this what the triConvert function dose)
    If all the three digits are zero convert them to "dontAddBigSufix"
  • From Right to left - add thousand, million billion.....
    If the finlOutPut cell equal to "dontAddBigSufix"(because it was zeros) don't add the thousand, million billion... and set the cell to " "(Nothing)
  • it's seem to work pretty well...
    but my problem is with numbers like 190000009
    It's convert to: one hundred ninety million
    Somehow it's "forget" the last numbers when there is a few zeros.
    What i did wrong?
    Where is the bug?
    Why it not work perfect?

    Thanks

    <html>
    <head>
    <meta http-equiv="Content-Type" content="text/html;charset=utf-8"/>
    
    <script type="text/javascript">
    function update(){
        var bigNumArry = new Array('', ' thousand', ' million', ' billion', ' trillion', ' quadrillion', ' quintillion');
    
        var output = '';
        var numString =   document.getElementById('number').value;
        var finlOutPut = new Array();
    
        if (numString == '0') {
            document.getElementById('container').innerHTML = 'Zero';
            return;
        }
    
        if (numString == 0) {
            document.getElementById('container').innerHTML = 'messeg tell to enter numbers';
            return;
        }
    
        var i = numString.length;
        i = i - 1;
    
        //cut the number to grups of three digits and add them to the Arry
        while (numString.length > 3) {
            var triDig = new Array(3);
            triDig[2] = numString.charAt(numString.length - 1);
            triDig[1] = numString.charAt(numString.length - 2);
            triDig[0] = numString.charAt(numString.length - 3);
    
            var varToAdd = triDig[0] + triDig[1] + triDig[2];
            finlOutPut.push(varToAdd);
            i--;
            numString = numString.substring(0, numString.length - 3);
        }
        finlOutPut.push(numString);
        finlOutPut.reverse();
    
        //conver each grup of three digits to english word
        //if all digits are zero the triConvert
        //function return the string "dontAddBigSufix"
        for (j = 0; j < finlOutPut.length; j++) {
            finlOutPut[j] = triConvert(parseInt(finlOutPut[j]));
        }
    
        var bigScalCntr = 0; //this int mark the million billion trillion... Arry
    
        for (b = finlOutPut.length - 1; b >= 0; b--) {
            if (finlOutPut[b] != "dontAddBigSufix") {
                finlOutPut[b] = finlOutPut[b] + bigNumArry[bigScalCntr] + ' , ';
                bigScalCntr++;
            }
            else {
                //replace the string at finlOP[b] from "dontAddBigSufix" to empty String.
                finlOutPut[b] = ' ';
                bigScalCntr++; //advance the counter  
            }
        }
    
            //convert The output Arry to , more printable string 
            for(n = 0; n<finlOutPut.length; n++){
                output +=finlOutPut[n];
            }
    
        document.getElementById('container').innerHTML = output;//print the output
    }
    
    //simple function to convert from numbers to words from 1 to 999
    function triConvert(num){
        var ones = new Array('', ' one', ' two', ' three', ' four', ' five', ' six', ' seven', ' eight', ' nine', ' ten', ' eleven', ' twelve', ' thirteen', ' fourteen', ' fifteen', ' sixteen', ' seventeen', ' eighteen', ' nineteen');
        var tens = new Array('', '', ' twenty', ' thirty', ' forty', ' fifty', ' sixty', ' seventy', ' eighty', ' ninety');
        var hundred = ' hundred';
        var output = '';
        var numString = num.toString();
    
        if (num == 0) {
            return 'dontAddBigSufix';
        }
        //the case of 10, 11, 12 ,13, .... 19 
        if (num < 20) {
            output = ones[num];
            return output;
        }
    
        //100 and more
        if (numString.length == 3) {
            output = ones[parseInt(numString.charAt(0))] + hundred;
            output += tens[parseInt(numString.charAt(1))];
            output += ones[parseInt(numString.charAt(2))];
            return output;
        }
    
        output += tens[parseInt(numString.charAt(0))];
        output += ones[parseInt(numString.charAt(1))];
    
        return output;
    }   
    </script>
    
    </head>
    <body>
    
    <input type="text"
        id="number"
        size="70"
        onkeyup="update();"
        /*this code prevent non numeric letters*/ 
        onkeydown="return (event.ctrlKey || event.altKey 
                        || (47<event.keyCode && event.keyCode<58 && event.shiftKey==false) 
                        || (95<event.keyCode && event.keyCode<106)
                        || (event.keyCode==8) || (event.keyCode==9) 
                        || (event.keyCode>34 && event.keyCode<40) 
                        || (event.keyCode==46) )"/>
                        <br/>
    <div id="container">Here The Numbers Printed</div>
    </body>
    </html>
    
    share|improve this question
    1  
    Just an interesting link in case you didn't know: http://www.google.com/cal –  Shaz Apr 3 '11 at 13:47
        
    What is the input range? (i.e. what is the smallest and largest numbers you have to handle?) –  MAK Apr 3 '11 at 13:49
    1  
    BTW, here is the same question for Java. You could probably adapt it to JavaScript pretty easily. –  Matt Ball Apr 3 '11 at 13:56
        
    i read the java question even before i start to code my own JavaScript solution - the java solution suggested there is to java way of doing stuff... –  Arnon Apr 3 '11 at 14:28
    add comment

    10 Answers

    up vote 11 down vote accepted

    JavaScript is parsing the group of 3 numbers as an octal number when there's a leading zero digit. When the group of three digits is all zeros, the result is the same whether the base is octal or decimal.

    But when you give JavaScript '009' (or '008'), that's an invalid octal number, so you get zero back.

    If you had gone through the whole set of numbers from 190,000,001 to 190,000,010 you'd hav seen JavaScript skip '...,008' and '...,009' but emit 'eight' for '...,010'. That's the 'Eureka!' moment.

    Change:

    for (j = 0; j < finlOutPut.length; j++) {
        finlOutPut[j] = triConvert(parseInt(finlOutPut[j]));
    }
    

    to

    for (j = 0; j < finlOutPut.length; j++) {
        finlOutPut[j] = triConvert(parseInt(finlOutPut[j],10));
    }
    

    Code also kept on adding commas after every non-zero group, so I played with it and found the right spot to add the comma.

    Old:

    for (b = finlOutPut.length - 1; b >= 0; b--) {
        if (finlOutPut[b] != "dontAddBigSufix") {
            finlOutPut[b] = finlOutPut[b] + bigNumArry[bigScalCntr] + ' , ';
            bigScalCntr++;
        }
        else {
            //replace the string at finlOP[b] from "dontAddBigSufix" to empty String.
            finlOutPut[b] = ' ';
            bigScalCntr++; //advance the counter  
        }
    }
    
        //convert The output Arry to , more printable string 
        for(n = 0; n<finlOutPut.length; n++){
            output +=finlOutPut[n];
        }
    

    New:

    for (b = finlOutPut.length - 1; b >= 0; b--) {
        if (finlOutPut[b] != "dontAddBigSufix") {
            finlOutPut[b] = finlOutPut[b] + bigNumArry[bigScalCntr]; // <<<
            bigScalCntr++;
        }
        else {
            //replace the string at finlOP[b] from "dontAddBigSufix" to empty String.
            finlOutPut[b] = ' ';
            bigScalCntr++; //advance the counter  
        }
    }
    
        //convert The output Arry to , more printable string 
        var nonzero = false; // <<<
        for(n = 0; n<finlOutPut.length; n++){
            if (finlOutPut[n] != ' ') { // <<<
                if (nonzero) output += ' , '; // <<<
                nonzero = true; // <<<
            } // <<<
            output +=finlOutPut[n];
        }
    
    share|improve this answer
        
    Thanks a lot!!!!! You Are my javaScript hero!!! –  Arnon Apr 3 '11 at 14:22
        
    @Reid Now it's OK? –  Arnon Apr 3 '11 at 14:34
    add comment

    Your problem is already solved but I am posting another way of doing it just for reference.

    The code was written to be tested on node.js, but the functions should work fine when called within the browser. Also, this only handles the range [0,1000000], but can be easily adapted for bigger ranges.

    #! /usr/bin/env node
    
    var sys=require('sys');
    
    // actual  conversion code starts here
    
    var ones=['','one','two','three','four','five','six','seven','eight','nine'];
    var tens=['','','twenty','thirty','forty','fifty','sixty','seventy','eighty','ninety'];
    var teens=['ten','eleven','twelve','thirteen','fourteen','fifteen','sixteen','seventeen','eighteen','nineteen'];
    
    
    function convert_millions(num){
        if (num>=1000000){
            return convert_millions(Math.floor(num/1000000))+" million "+convert_thousands(num%1000000);
        }
        else {
            return convert_thousands(num);
        }
    }
    
    function convert_thousands(num){
        if (num>=1000){
            return convert_hundreds(Math.floor(num/1000))+" thousand "+convert_hundreds(num%1000);
        }
        else{
            return convert_hundreds(num);
        }
    }
    
    function convert_hundreds(num){
        if (num>99){
            return ones[Math.floor(num/100)]+" hundred "+convert_tens(num%100);
        }
        else{
            return convert_tens(num);
        }
    }
    
    function convert_tens(num){
        if (num<10) return ones[num];
        else if (num>=10 && num<20) return teens[num-10];
        else{
            return tens[Math.floor(num/10)]+" "+ones[num%10];
        }
    }
    
    function convert(num){
        if (num==0) return "zero";
        else return convert_millions(num);
    }
    
    //end of conversion code
    
    //testing code begins here
    
    function main(){
        var cases=[0,1,2,7,10,11,12,13,15,19,20,21,25,29,30,35,50,55,69,70,99,100,101,119,510,900,1000,5001,5019,5555,10000,11000,100000,199001,1000000,1111111,190000009];
        for (var i=0;i<cases.length;i++ ){
            sys.puts(cases[i]+": "+convert(cases[i]));
        }
    }
    
    main();
    
    share|improve this answer
        
    Nice, thanks!!! –  Arnon Apr 3 '11 at 14:47
    1  
    I think this is the more readable answer, so here's a pluginized version: gist.github.com/2127650 –  Peter Ehrlich Mar 19 '12 at 22:21
        
    @PeterEhrlich Your link is dead! –  yckart Aug 1 '13 at 14:39
        
    It shouldn't be. I just loaded it fine in an incognito window. –  Peter Ehrlich Aug 1 '13 at 16:33
    add comment

    Here, I wrote an alternative solution:

    1) The object containing the string constants:

    var NUMBER2TEXT = {
        ones: ['', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight', 'nine', 'ten', 'eleven', 'twelve', 'thirteen', 'fourteen', 'fifteen', 'sixteen', 'seventeen', 'eighteen', 'nineteen'],
        tens: ['', '', 'twenty', 'thirty', 'fourty', 'fifty', 'sixty', 'seventy', 'eighty', 'ninety'],
        sep: ['', ' thousand ', ' million ', ' billion ', ' trillion ', ' quadrillion ', ' quintillion ', ' sextillion ']
    };
    

    2) The actual code:

    (function( ones, tens, sep ) {
    
        var input = document.getElementById( 'input' ),
            output = document.getElementById( 'output' );
    
        input.onkeyup = function() {
            var val = this.value,
                arr = [],
                str = '',
                i = 0;
    
            if ( val.length === 0 ) {
                output.textContent = 'Please type a number into the text-box.';
                return;  
            }
    
            val = parseInt( val, 10 );
            if ( isNaN( val ) ) {
                output.textContent = 'Invalid input.';
                return;   
            }
    
            while ( val ) {
                arr.push( val % 1000 );
                val = parseInt( val / 1000, 10 );   
            }
    
            while ( arr.length ) {
                str = (function( a ) {
                    var x = Math.floor( a / 100 ),
                        y = Math.floor( a / 10 ) % 10,
                        z = a % 10;
    
                    return ( x > 0 ? ones[x] + ' hundred ' : '' ) +
                           ( y >= 2 ? tens[y] + ' ' + ones[z] : ones[10*y + z] );
                })( arr.shift() ) + sep[i++] + str;
            }
    
            output.textContent = str;
        };
    
    })( NUMBER2TEXT.ones, NUMBER2TEXT.tens, NUMBER2TEXT.sep );
    

    Live demo: http://jsfiddle.net/j5kdG/

    share|improve this answer
    1  
    1000000 === one million thousand except one million –  yckart Jul 31 '13 at 12:00
    add comment
    <html>
    <head>
    <meta http-equiv="Content-Type" content="text/html;charset=utf-8"/>
    <script type="text/javascript">
    var th = ['', ' thousand', ' million', ' billion', ' trillion', ' quadrillion', ' quintillion'];
    var dg = ['zero', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight', 'nine'];
    var tn = ['ten', 'eleven', 'twelve', 'thirteen', 'fourteen', 'fifteen', 'sixteen', 'seventeen', 'eighteen', 'nineteen'];
    var tw = ['twenty', 'thirty', 'forty', 'fifty', 'sixty', 'seventy', 'eighty', 'ninety'];
    
    function update(){
        var numString =   document.getElementById('number').value;
        if (numString == '0') {
            document.getElementById('container').innerHTML = 'Zero';
            return;
        }
        if (numString == 0) {
            document.getElementById('container').innerHTML = 'messeg tell to enter numbers';
            return;
        }
    
        var output = toWords(numString);
        //print the output
        document.getElementById('container').innerHTML = output;
    }
    
    function toWords(s) {
        s = s.toString();
        s = s.replace(/[\, ]/g, '');
        if (s != parseFloat(s)) return 'not a number';
        var x = s.indexOf('.');
        if (x == -1) x = s.length;
        if (x > 15) return 'too big';
        var n = s.split('');
        var str = '';
        var sk = 0;
        for (var i = 0; i < x; i++) {
            if ((x - i) % 3 == 2) {
                if (n[i] == '1') {
                    str += tn[Number(n[i + 1])] + ' ';
                    i++;
                    sk = 1;
                } else if (n[i] != 0) {
                    str += tw[n[i] - 2] + ' ';
                    sk = 1;
                }
            } else if (n[i] != 0) {
                str += dg[n[i]] + ' ';
                if ((x - i) % 3 == 0) str += 'hundred ';
                sk = 1;
            }
            if ((x - i) % 3 == 1) {
                if (sk) str += th[(x - i - 1) / 3] + ' ';
                sk = 0;
            }
        }
        if (x != s.length) {
            var y = s.length;
            str += 'point ';
            for (var i = x + 1; i < y; i++) str += dg[n[i]] + ' ';
        }
        return str.replace(/\s+/g, ' ');
    }
    </script>
    
    </head>
    <body>
    
    <input type="text"
        id="number"
        size="70"
        onkeyup="update();"
        /*this code prevent non numeric letters*/ 
        onkeydown="return (event.ctrlKey || event.altKey 
                        || (47<event.keyCode && event.keyCode<58 && event.shiftKey==false) 
                        || (95<event.keyCode && event.keyCode<106)
                        || (event.keyCode==8) || (event.keyCode==9) 
                        || (event.keyCode>34 && event.keyCode<40) 
                        || (event.keyCode==46) )"/>
                        <br/>
    <div id="container">Here The Numbers Printed</div>
    </body>
    </html>
    
    share|improve this answer
    add comment

    Here's a solution that will handle any integer value that fit's in a string. I've defined number scales up to "decillion", so this solution should be accurate up to 999 decillion. After which you get things like "one thousand decillion" and so on.

    JavaScript numbers start to fail around "999999999999999" so the convert function works with strings of numbers only.

    Examples:

    convert("365");
    //=> "three hundred sixty-five"
    
    convert("10000000000000000000000000000230001010109");
    //=> "ten thousand decillion two hundred thirty billion one million ten thousand one hundred nine"
    

    Code:

    var lt20 = ["", "one", "two", "three", "four", "five", "six", "seven","eight", "nine", "ten", "eleven", "twelve", "thirteen", "fourteen", "fifteen", "sixteen", "seventeen", "eighteen", "nineteen" ],
        tens = ["", "ten", "twenty", "thirty", "fourty", "fifty", "sixty", "seventy", "eightty", "ninety" ],
        scales = ["", "thousand", "million", "billion", "trillion", "quadrillion", "quintillion", "sextillion", "septillion", "octillion", "nonillion", "decillion" ],
        max = scales.length * 3;
    
    function convert(val) {
        var len;
    
        // special cases
        if (val[0] === "-") { return "negative " + convert(val.slice(1)); }
        if (val === "0") { return "zero"; }
    
        val = trim_zeros(val);
        len = val.length;
    
        // general cases
        if (len < max) { return convert_lt_max(val); }
        if (len >= max) { return convert_max(val); }
    }
    
    function convert_max(val) {
        return split_rl(val, max)
            .map(function (val, i, arr) {
                if (i < arr.length - 1) {
                    return convert_lt_max(val) + " " + scales.slice(-1);
                }
                return convert_lt_max(val);
            })
            .join(" ");
    }       
    
    function convert_lt_max(val) {
        var l = val.length;
        if (l < 4) {
            return convert_lt1000(val).trim();
        } else {
            return split_rl(val, 3)
                .map(convert_lt1000)
                .reverse()
                .map(with_scale)
                .reverse()
                .join(" ")
                .trim();
        }
    }
    
    function convert_lt1000(val) {
        var rem, l;
    
        val = trim_zeros(val);
        l = val.length;
    
        if (l === 0) { return ""; }
        if (l < 3) { return convert_lt100(val); }
        if (l === 3) { //less than 1000
            rem = val.slice(1);
            if (rem) {
                return lt20[val[0]] + " hundred " + convert_lt1000(rem);
            } else {
                return lt20[val[0]] + " hundred";
            }
        }
    }
    
    function convert_lt100(val) {
        if (is_lt20(val)) { // less than 20
            return lt20[val];
        } else if (val[1] === "0") {
            return tens[val[0]];
        } else {
            return tens[val[0]] + "-" +  lt20[val[1]];
        }
    }
    
    
    function split_rl(str, n) {
        // takes a string 'str' and an integer 'n'. Splits 'str' into
        // groups of 'n' chars and returns the result as an array. Works
        // from right to left.
        if (str) {
            return Array.prototype.concat
                .apply(split_rl(str.slice(0, (-n)), n), [str.slice(-n)]);
        } else {
            return [];
        }
    }
    
    function with_scale(str, i) {
        var scale;
        if (str && i > (-1)) {
            scale = scales[i];
            if (scale !== undefined) {
                return str.trim() + " " + scale;
            } else {
                return convert(str.trim());
            }
        } else {
            return "";
        }
    }
    
    function trim_zeros(val) {
        return val.replace(/^0*/, "");
    }
    
    function is_lt20(val) {
        return parseInt(val, 10) < 20;
    }
    
    share|improve this answer
    add comment

    I've modified the posting from Šime Vidas - http://jsfiddle.net/j5kdG/ To include dollars, cents, commas and "and" in the appropriate places. There's an optional ending if it requires "zero cents" or no mention of cents if 0.

    This function structure did my head in a bit but I learned heaps. Thanks Sime.

    Someone might find a better way of processing this.

    Code:

    var str='';
    var str2='';
    var str3 =[];
    
    function convertNum(inp,end){
        str2='';
        str3 = [];
        var NUMBER2TEXT = {
        ones: ['', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight', 'nine', 'ten', 'eleven', 'twelve', 'thirteen', 'fourteen', 'fifteen', 'sixteen', 'seventeen', 'eighteen', 'nineteen'],
        tens: ['', '', 'twenty', 'thirty', 'forty', 'fifty', 'sixty', 'seventy', 'eighty', 'ninety'],
        sep: ['', ' thousand', ' million', ' billion', ' trillion', ' quadrillion', ' quintillion', ' sextillion']
    };
    (function( ones, tens, sep ) {
       var vals = inp.split("."),val,pos,postsep=' ';
       for (p in vals){
          val = vals[p], arr = [], str = '', i = 0;
          if ( val.length === 0 ) {return 'No value';}
          val = parseInt( (p==1 && val.length===1 )?val*10:val, 10 );
          if ( isNaN( val ) || p>=2) {return 'Invalid value'; }
          while ( val ) {
            arr.push( val % 1000 );
            val = parseInt( val / 1000, 10 );   
          }
          pos = arr.length;
          function trimx (strx) {
                    return strx.replace(/^\s\s*/, '').replace(/\s\s*$/, '');
                }
            function seps(sepi,i){
                    var s = str3.length
                    if (str3[s-1][0]){
                        if (str3[s-2][1] === str3[s-1][0]){
                            str = str.replace(str3[s-2][1],'')
                        }
                    }
                    var temp = str.split(sep[i-2]);
                    if (temp.length > 1){
                        if (trimx(temp[0]) ==='' && temp[1].length > 1 ){
                            str = temp[1];
                            } 
                        }
                    return sepi + str ;
            }
          while ( arr.length  ) {
            str = (function( a ) {
                var x = Math.floor( a / 100 ),
                    y = Math.floor( a / 10 ) % 10,
                    z = a % 10;
                    postsep = (arr.length != 0)?', ' : ' ' ;
                    if ((x+y+z) === 0){
                        postsep = ' '
                    }else{ 
                        if (arr.length == pos-1 && x===0 && pos > 1 ){
                            postsep = ' and ' 
                        } 
                    }
                   str3.push([trimx(str)+"",trimx(sep[i])+""]);
                    return  (postsep)+( x > 0 ? ones[x] + ' hundred ' + (( x == 0 && y >= 0 || z >0 )?' and ':' ') : ' ' ) +                  
                       ( y >= 2 ? tens[y] + ((z===0)?' ':'-') + ones[z] : ones[10*y + z] ); 
            })( arr.shift() ) +seps( sep[i++] ,i ) ;             
          }
          if (p==0){ str2 += str + ' dollars'}
          if (p==1 && !end){str2 += (str!='')?' and '+ str + ' cents':'' } 
          if (p==1 && end ){str2 += ' and ' + ((str==='')?'zero':str) + ' cents '} 
       }
    })( NUMBER2TEXT.ones , NUMBER2TEXT.tens , NUMBER2TEXT.sep );
    
    share|improve this answer
    add comment

    I would like to point out that the original logic fails for values between x11-x19, where x >= 1. For example, 118 returns "one hundred eight". This is because these numbers are processed by the following code in triConvert():

    //100 and more
    if (numString.length == 3) {
        output = ones[parseInt(numString.charAt(0))] + hundred;
        output += tens[parseInt(numString.charAt(1))];
        output += ones[parseInt(numString.charAt(2))];
        return output;
    }
    

    here, the character representing the tens digit is used to index the tens[] array, which has an empty string at index [1], so 118 become 108 in effect.

    It might be better to deal with the hundreds (if any first), then run the ones and tens through the same logic. Instead of:

    //the case of 10, 11, 12 ,13, .... 19 
    if (num < 20) {
        output = ones[num];
        return output;
    }
    
    //100 and more
    if (numString.length == 3) {
        output = ones[parseInt(numString.charAt(0))] + hundred;
        output += tens[parseInt(numString.charAt(1))];
        output += ones[parseInt(numString.charAt(2))];
        return output;
    }
    
    output += tens[parseInt(numString.charAt(0))];
    output += ones[parseInt(numString.charAt(1))];
    
    return output;
    

    I would suggest:

    // 100 and more
    if ( numString.length == 3 ) 
     {
       output  = hundreds[ parseInt( numString.charAt(0) ) ] + hundred ;
       num = num % 100 ;
       numString = num.toString() ;
     }
    
    if ( num < 20 )  
     {
       output += ones[num] ;
     }
    else 
     { // 20-99 
       output += tens[ parseInt( numString.charAt(0) ) ] ;
       output += '-' + ones[ parseInt( numString.charAt(1) ) ] ;  
     }
    
     return output;
    

    It seems to me that the suggested code is both shorter and clearer, but I might be biased ;-)

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    Try this,convert number to words

    function convert(number) {
    
        if (number < 0) {
    
            console.log("Number Must be greater than zero = " + number);
            return "";
        }
        if (number > 100000000000000000000) {
            console.log("Number is out of range = " + number);
            return "";
        }
        if (!is_numeric(number)) {
            console.log("Not a number = " + number);
            return "";
        }
    
        var quintillion = Math.floor(number / 1000000000000000000); /* quintillion */
        number -= quintillion * 1000000000000000000;
        var quar = Math.floor(number / 1000000000000000); /* quadrillion */
        number -= quar * 1000000000000000;
        var trin = Math.floor(number / 1000000000000); /* trillion */
        number -= trin * 1000000000000;
        var Gn = Math.floor(number / 1000000000); /* billion */
        number -= Gn * 1000000000;
        var million = Math.floor(number / 1000000); /* million */
        number -= million * 1000000;
        var Hn = Math.floor(number / 1000); /* thousand */
        number -= Hn * 1000;
        var Dn = Math.floor(number / 100); /* Tens (deca) */
        number = number % 100; /* Ones */
        var tn = Math.floor(number / 10);
        var one = Math.floor(number % 10);
        var res = "";
    
        if (quintillion > 0) {
            res += (convert_number(quintillion) + " quintillion");
        }
        if (quar > 0) {
            res += (convert_number(quar) + " quadrillion");
        }
        if (trin > 0) {
            res += (convert_number(trin) + " trillion");
        }
        if (Gn > 0) {
            res += (convert_number(Gn) + " billion");
        }
        if (million > 0) {
            res += (((res == "") ? "" : " ") + convert_number(million) + " million");
        }
        if (Hn > 0) {
            res += (((res == "") ? "" : " ") + convert_number(Hn) + " Thousand");
        }
    
        if (Dn) {
            res += (((res == "") ? "" : " ") + convert_number(Dn) + " hundred");
        }
    
    
        var ones = Array("", "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine", "Ten", "Eleven", "Twelve", "Thirteen", "Fourteen", "Fifteen", "Sixteen", "Seventeen", "Eightteen", "Nineteen");
        var tens = Array("", "", "Twenty", "Thirty", "Fourty", "Fifty", "Sixty", "Seventy", "Eigthy", "Ninety");
    
        if (tn > 0 || one > 0) {
            if (!(res == "")) {
                res += " and ";
            }
            if (tn < 2) {
                res += ones[tn * 10 + one];
            } else {
    
                res += tens[tn];
                if (one > 0) {
                    res += ("-" + ones[one]);
                }
            }
        }
    
        if (res == "") {
            console.log("Empty = " + number);
            res = "";
        }
        return res;
    }
    function is_numeric(mixed_var) {
        return (typeof mixed_var === 'number' || typeof mixed_var === 'string') && mixed_var !== '' && !isNaN(mixed_var);
    }
    
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    I know this problem had solved 3 years ago. I am posting this SPECIALLY FOR INDIAN DEVELOPERS

    After spending some time in googling and playing with others code i made a quick fix and reusable function works well for numbers upto 99,99,99,999. use : number2text(1234.56); will return ONE THOUSAND TWO HUNDRED AND THIRTY-FOUR RUPEE AND FIFTY-SIX PAISE ONLY . enjoy !

    function number2text(value) {
        var fraction = Math.round(frac(value)*100);
        var f_text  = "";
    
        if(fraction > 0) {
            f_text = "AND "+convert_number(fraction)+" PAISE";
        }
    
        return convert_number(value)+" RUPEE "+f_text+" ONLY";
    }
    
    function frac(f) {
        return f % 1;
    }
    
    function convert_number(number)
    {
        if ((number < 0) || (number > 999999999)) 
        { 
            return "NUMBER OUT OF RANGE!";
        }
        var Gn = Math.floor(number / 10000000);  /* Crore */ 
        number -= Gn * 10000000; 
        var kn = Math.floor(number / 100000);     /* lakhs */ 
        number -= kn * 100000; 
        var Hn = Math.floor(number / 1000);      /* thousand */ 
        number -= Hn * 1000; 
        var Dn = Math.floor(number / 100);       /* Tens (deca) */ 
        number = number % 100;               /* Ones */ 
        var tn= Math.floor(number / 10); 
        var one=Math.floor(number % 10); 
        var res = ""; 
    
        if (Gn>0) 
        { 
            res += (convert_number(Gn) + " CRORE"); 
        } 
        if (kn>0) 
        { 
                res += (((res=="") ? "" : " ") + 
                convert_number(kn) + " LAKH"); 
        } 
        if (Hn>0) 
        { 
            res += (((res=="") ? "" : " ") +
                convert_number(Hn) + " THOUSAND"); 
        } 
    
        if (Dn) 
        { 
            res += (((res=="") ? "" : " ") + 
                convert_number(Dn) + " HUNDRED"); 
        } 
    
    
        var ones = Array("", "ONE", "TWO", "THREE", "FOUR", "FIVE", "SIX","SEVEN", "EIGHT", "NINE", "TEN", "ELEVEN", "TWELVE", "THIRTEEN","FOURTEEN", "FIFTEEN", "SIXTEEN", "SEVENTEEN", "EIGHTEEN","NINETEEN"); 
    var tens = Array("", "", "TWENTY", "THIRTY", "FOURTY", "FIFTY", "SIXTY","SEVENTY", "EIGHTY", "NINETY"); 
    
        if (tn>0 || one>0) 
        { 
            if (!(res=="")) 
            { 
                res += " AND "; 
            } 
            if (tn < 2) 
            { 
                res += ones[tn * 10 + one]; 
            } 
            else 
            { 
    
                res += tens[tn];
                if (one>0) 
                { 
                    res += ("-" + ones[one]); 
                } 
            } 
        }
    
        if (res=="")
        { 
            res = "zero"; 
        } 
        return res;
    }
    
    share|improve this answer
        
    -1 Person ! Explain reason ! –  Hardik Thaker Apr 21 at 14:56
    add comment

    There are JS library for en_US and cs_CZ.
    You can use it standalone or as Node module.

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