While many of these answers work fine with positive integers, many of their argument inputs are cast as Numbers, which implies that they can handle negative values or contain decimals, and here all of the solutions fail. Though the currently selected answer does not assume a Number I was curious to find a solution that could and was also more performant than RegExp (which AS3 does not do well).

I put together many of the answers here in a testing class (and included a solution from this blog and an answer of my own called **commaify**) and formatted them in a consistent way for easy comparison:

```
package
{
public class CommaNumberSolutions
{
public static function commaify( input:Number ):String
{
var split:Array = input.toString().split( '.' ),
front:String = split[0],
back:String = ( split.length > 1 ) ? "." + split[1] : null,
n:int = input < 0 ? 2 : 1,
commas:int = Math.floor( (front.length - n) / 3 ),
i:int = 1;
for ( ; i <= commas; i++ )
{
n = front.length - (3 * i + i - 1);
front = front.slice( 0, n ) + "," + front.slice( n );
}
if ( back )
return front + back;
else
return front;
}
public static function getCommaString( input:Number ):String
{
var s:String = input.toString();
if ( s.length <= 3 )
return s;
var i:int = s.length % 3;
if ( i == 0 )
i = 3;
for ( ; i < s.length; i += 4 )
{
var part1:String = s.substr(0, i);
var part2:String = s.substr(i, s.length);
s = part1.concat(",", part2);
}
return s;
}
public static function formatNumber( input:Number ):String
{
var s:String = input.toString()
var result:String = ''
while ( s.length > 3 )
{
var chunk:String = s.substr(-3)
s = s.substr(0, s.length - 3)
result = ',' + chunk + result
}
if ( s.length > 0 )
result = s + result
return result
}
public static function commaCoder( input:Number ):String
{
var s:String = "";
var len:Number = input.toString().length;
for ( var i:int = 0; i < len; i++ )
{
if ( (len-i) % 3 == 0 && i != 0)
s += ",";
s += input.toString().charAt(i);
}
return s;
}
public static function regex1( input:Number ):String
{
return input.toString().replace( /-{0,1}(\d)(?=(\d\d\d)+$)/g, "$1," );
}
public static function regex2( input:Number ):String
{
return input.toString().replace( /-{0,1}\d{1,3}(?=(\d{3})+(?!\d))/g , "$&,")
}
public static function addCommas( input:Number ):String
{
var negative:String = "";
if ( input < 0 )
{
negative = "-";
input = Math.abs(input);
}
var s:String = input.toString();
var results:Array = s.split(/\./);
s = results[0];
if ( s.length > 3 )
{
var mod:Number = s.length % 3;
var output:String = s.substr(0, mod);
for ( var i:Number = mod; i < s.length; i += 3 )
{
output += ((mod == 0 && i == 0) ? "" : ",") + s.substr(i, 3);
}
if ( results.length > 1 )
{
if ( results[1].length == 1 )
return negative + output + "." + results[1] + "0";
else
return negative + output + "." + results[1];
}
else
return negative + output;
}
if ( results.length > 1 )
{
if ( results[1].length == 1 )
return negative + s + "." + results[1] + "0";
else
return negative + s + "." + results[1];
}
else
return negative + s;
}
}
}
```

Then I tested each for accuracy and performance:

```
package
{
public class TestCommaNumberSolutions
{
private var functions:Array;
function TestCommaNumberSolutions()
{
functions = [
{ name: "commaify()", f: CommaNumberSolutions.commaify },
{ name: "addCommas()", f: CommaNumberSolutions.addCommas },
{ name: "getCommaString()", f: CommaNumberSolutions.getCommaString },
{ name: "formatNumber()", f: CommaNumberSolutions.formatNumber },
{ name: "regex1()", f: CommaNumberSolutions.regex1 },
{ name: "regex2()", f: CommaNumberSolutions.regex2 },
{ name: "commaCoder()", f: CommaNumberSolutions.commaCoder }
];
verify();
measure();
}
protected function verify():void
{
var assertions:Array = [
{ input: 1, output: "1" },
{ input: 21, output: "21" },
{ input: 321, output: "321" },
{ input: 4321, output: "4,321" },
{ input: 54321, output: "54,321" },
{ input: 654321, output: "654,321" },
{ input: 7654321, output: "7,654,321" },
{ input: 987654321, output: "987,654,321" },
{ input: 1987654321, output: "1,987,654,321" },
{ input: 21987654321, output: "21,987,654,321" },
{ input: 321987654321, output: "321,987,654,321" },
{ input: 4321987654321, output: "4,321,987,654,321" },
{ input: 54321987654321, output: "54,321,987,654,321" },
{ input: 654321987654321, output: "654,321,987,654,321" },
{ input: 7654321987654321, output: "7,654,321,987,654,321" },
{ input: 87654321987654321, output: "87,654,321,987,654,321" },
{ input: -1, output: "-1" },
{ input: -21, output: "-21" },
{ input: -321, output: "-321" },
{ input: -4321, output: "-4,321" },
{ input: -54321, output: "-54,321" },
{ input: -654321, output: "-654,321" },
{ input: -7654321, output: "-7,654,321" },
{ input: -987654321, output: "-987,654,321" },
{ input: -1987654321, output: "-1,987,654,321" },
{ input: -21987654321, output: "-21,987,654,321" },
{ input: -321987654321, output: "-321,987,654,321" },
{ input: -4321987654321, output: "-4,321,987,654,321" },
{ input: -54321987654321, output: "-54,321,987,654,321" },
{ input: -654321987654321, output: "-654,321,987,654,321" },
{ input: -7654321987654321, output: "-7,654,321,987,654,321" },
{ input: -87654321987654321, output: "-87,654,321,987,654,321" },
{ input: .012345, output: "0.012345" },
{ input: 1.012345, output: "1.012345" },
{ input: 21.012345, output: "21.012345" },
{ input: 321.012345, output: "321.012345" },
{ input: 4321.012345, output: "4,321.012345" },
{ input: 54321.012345, output: "54,321.012345" },
{ input: 654321.012345, output: "654,321.012345" },
{ input: 7654321.012345, output: "7,654,321.012345" },
{ input: 987654321.012345, output: "987,654,321.012345" },
{ input: 1987654321.012345, output: "1,987,654,321.012345" },
{ input: 21987654321.012345, output: "21,987,654,321.012345" },
{ input: -.012345, output: "-0.012345" },
{ input: -1.012345, output: "-1.012345" },
{ input: -21.012345, output: "-21.012345" },
{ input: -321.012345, output: "-321.012345" },
{ input: -4321.012345, output: "-4,321.012345" },
{ input: -54321.012345, output: "-54,321.012345" },
{ input: -654321.012345, output: "-654,321.012345" },
{ input: -7654321.012345, output: "-7,654,321.012345" },
{ input: -987654321.012345, output: "-987,654,321.012345" },
{ input: -1987654321.012345, output: "-1,987,654,321.012345" },
{ input: -21987654321.012345, output: "-21,987,654,321.012345" }
];
var i:int;
var len:int = assertions.length;
var assertion:Object;
var f:Function;
var s1:String;
var s2:String;
for each ( var o:Object in functions )
{
i = 0;
f = o.f;
trace( '\rVerify: ' + o.name );
for ( ; i < len; i++ )
{
assertion = assertions[ i ];
s1 = f.apply( null, [ assertion.input ] );
s2 = assertion.output;
if ( s1 !== s2 )
trace( 'Test #' + i + ' Failed: ' + s1 + ' !== ' + s2 );
}
}
}
protected function measure():void
{
// Generate random inputs
var values:Array = [];
for ( var i:int = 0; i < 999999; i++ ) {
values.push( Math.random() * int.MAX_VALUE * ( Math.random() > .5 ? -1 : 1) );
}
var len:int = values.length;
var stopwatch:Stopwatch = new Stopwatch;
var s:String;
var f:Function;
trace( '\rTesting ' + len + ' random values' );
// Test each function
for each ( var o:Object in functions )
{
i = 0;
s = "";
f = o.f;
stopwatch.start();
for ( ; i < len; i++ ) {
s += f.apply( null, [ values[i] ] ) + " ";
}
stopwatch.stop();
trace( o.name + '\t\ttook ' + (stopwatch.elapsed/1000) + 's' ); //(stopwatch.elapsed/len) + 'ms'
}
}
}
}
import flash.utils.getTimer;
class Stopwatch
{
protected var startStamp:int;
protected var stopStamp:int;
protected var _started:Boolean;
protected var _stopped:Boolean;
function Stopwatch( startNow:Boolean = true ):void
{
if ( startNow )
start();
}
public function start():void
{
startStamp = getTimer();
_started = true;
_stopped = false;
}
public function stop():void
{
stopStamp = getTimer();
_stopped = true;
_started = false;
}
public function get elapsed():int
{
return ( _stopped ) ? stopStamp - startStamp : ( _started ) ? getTimer() - startStamp : 0;
}
public function get started():Boolean
{
return _started;
}
public function get stopped():Boolean
{
return _stopped;
}
}
```

Because of AS3's lack of precision with larger Numbers every class failed these tests:

```
Test #15 Failed: 87,654,321,987,654,320 !== 87,654,321,987,654,321
Test #31 Failed: -87,654,321,987,654,320 !== -87,654,321,987,654,321
Test #42 Failed: 21,987,654,321.012344 !== 21,987,654,321.012345
Test #53 Failed: -21,987,654,321.012344 !== -21,987,654,321.012345
```

But only two functions passed all of the other tests: **commaify()** and **addCommas()**.

The performance tests show that **commaify()** is the most preformant of all the solutions:

```
Testing 999999 random values
commaify() took 12.411s
addCommas() took 17.863s
getCommaString() took 18.519s
formatNumber() took 14.409s
regex1() took 40.654s
regex2() took 36.985s
```

Additionally commaify() can be extended to including arguments for decimal length and zero-padding on the decimal portion — it also outperforms the others at **13.128s**:

```
public static function cappedDecimal( input:Number, decimalPlaces:int = 2 ):Number
{
if ( decimalPlaces == 0 )
return Math.floor( input );
var decimalFactor:Number = Math.pow( 10, decimalPlaces );
return Math.floor( input * decimalFactor ) / decimalFactor;
}
public static function cappedDecimalString( input:Number, decimalPlaces:int = 2, padZeros:Boolean = true ):String
{
if ( padZeros )
return cappedDecimal( input, decimalPlaces ).toFixed( decimalPlaces );
else
return cappedDecimal( input, decimalPlaces ).toString();
}
public static function commaifyExtended( input:Number, decimalPlaces:int = 2, padZeros:Boolean = true ):String
{
var split:Array = cappedDecimalString( input, decimalPlaces, padZeros ).split( '.' ),
front:String = split[0],
back:String = ( split.length > 1 ) ? "." + split[1] : null,
n:int = input < 0 ? 2 : 1,
commas:int = Math.floor( (front.length - n) / 3 ),
i:int = 1;
for ( ; i <= commas; i++ )
{
n = front.length - (3 * i + i - 1);
front = front.slice( 0, n ) + "," + front.slice( n );
}
if ( back )
return front + back;
else
return front;
}
```

So, I'd offer that commaify() meets the demands of versatility and performance though certainly not the most compact or elegant.