# How to deal with Number precision in Actionscript?

I have BigDecimal objects serialized with BlazeDS to Actionscript. Once they hit Actionscript as Number objects, they have values like:

140475.32 turns into 140475.31999999999998

How do I deal with this? The problem is that if I use a NumberFormatter with precision of 2, then the value is truncated to 140475.31. Any ideas?

-
FYI in AS 3 it looks like they actually added the 'toPrecision' method. livedocs.adobe.com/flash/9.0/ActionScriptLangRefV3/… –  Fraser Mar 11 '09 at 19:56
In case anyone stumbles on this, the accepted answer is NOT correct in all situations. A simple example is .575. If you do Math.round(.575 * 100)/100 you get .57. –  Maltiriel Feb 5 at 22:24

This is my generic solution for the problem.

var toFixed:Function = function(number:Number, factor:int) {
return Math.round(number * factor)/factor;
}

For example:

trace(toFixed(0.12345678, 10)); //0.1

Multiply 0.12345678 by 10.

That gives us 1.2345678.

When we round 1.2345678 we get 1.0 and 1.0

divided by 10 equals 0.1.

trace(toFixed(1.7302394309234435, 10000)); //1.7302

Multiply 1.7302394309234435 by 10000.

That gives us 17302.394309234435.

When we round 17302.394309234435 we get 17302 and 17302 divided by 10000 equals 1.7302

Edit

Based on the anonymous answer below - http://stackoverflow.com/a/1541929/74861 - there is a nice simplification for the parameter on the method that makes the precision much more intuitive. e.g.

var setPrecision:Function = function(number:Number, precision:int) {
precision = Math.pow(10, precision);
return Math.round(number * precision)/precision;
}

var number:Number = 10.98813311;
trace(setPrecision(number,1)); //Result is 10.9
trace(setPrecision(number,2)); //Result is 10.98
trace(setPrecision(number,3)); //Result is 10.988 and so on

N.B. I added this here just in case anyone sees this as the answer and doesn't scroll down...

-
Why is that "=" and not ""? –  Jesse Rusak Mar 11 '09 at 1:00
I always use the same technique. It works well. –  Luke Mar 11 '09 at 1:01
Very nice! It worked –  Mike Sickler Mar 11 '09 at 1:04
How is this different from the native toFixed function? –  grapefrukt Mar 11 '09 at 8:57
toPrecision actually returns a string, which means you have to reparse it. Nice one, Adobe! –  Richard Szalay Aug 25 '09 at 7:10

Just a slight variation on Frasers Function, for anyone who is interested.

function setPrecision(number:Number, precision:int) {
precision = Math.pow(10, precision);
return (Math.round(number * precision)/precision);
}

So to use:

var number:Number = 10.98813311;
trace(setPrecision(number,1)); //Result is 10.9
trace(setPrecision(number,2)); //Result is 10.98
trace(setPrecision(number,3)); //Result is 10.988 and so on
-
+1 for the simplification on the param –  Fraser Feb 25 '11 at 9:18

i've used Number.toFixed(precision) in ActionScript 3 to do this: http://livedocs.adobe.com/flex/3/langref/Number.html#toFixed%28%29

it handles rounding properly and specifies the number of digits after the decimal to display - unlike Number.toPrecision() that limits the total number of digits to display regardless of the position of the decimal.

var roundDown:Number = 1.434;
// will print 1.43
trace(roundDown.toFixed(2));

var roundUp:Number = 1.436;
// will print 1.44
trace(roundUp.toFixed(2));
-
Only sad thing is that it's not localized. You have to use a NumberFormatter if your language uses a comma as the decimal point separator. –  Fletch Oct 13 '10 at 12:47
Moreover, it's a String, not a Number. Sometimes this is desirable (like in your trace statements) but not always, in fact, not most of the time. Plus it's slow to convert back using parseInt() –  Tom Auger Jul 16 '14 at 18:32
toFixed also doesn't work in all situations. If you replace roundUp with .575 it yields .57 (.255 yields .26; this particular number does weird floating point things), so it seems to suffer from the same issues as the accepted solution. –  Maltiriel Feb 5 at 22:42

I converted the Java of BigDecimal to ActionScript. We had no choices since we compute for financial application.

-

You can use property: rounding = "nearest"

In NumberFormatter, rounding have 4 values which you can choice: rounding="none|up|down|nearest". I think with your situation, you can chose rounding = "nearest".

-- chary --

-

I discovered that BlazeDS supports serializing Java BigDecimal objects to ActionScript Strings as well. So if you don't need the ActionScript data to be Numbers (you are not doing any math on the Flex / ActionScript side) then the String mapping works well (no rounding weirdness). See this link for the BlazeDS mapping options: http://livedocs.adobe.com/blazeds/1/blazeds_devguide/help.html?content=serialize_data_2.html

-

GraniteDS 2.2 has BigDecimal, BigInteger and Long implementations in ActionScript3, serialization options between Java / Flex for these types, and even code generation tools options in order to generate AS3 big numbers variables for the corresponding Java ones.

-

guys, just check the solution:

protected function button1_clickHandler(event:MouseEvent):void
{
var formatter:NumberFormatter = new NumberFormatter();
formatter.precision = 2;
formatter.rounding = NumberBaseRoundType.NEAREST;
var a:Number = 14.31999999999998;

trace(formatter.format(a)); //14.32
}
-

I ported the IBM ICU implementation of BigDecimal for the Actionscript client. Someone else has published their nearly identical version here as a google code project. Our version adds some convenience methods for doing comparisons.

You can extend the Blaze AMF endpoint to add serialization support for BigDecimal. Please note that the code in the other answer seems incomplete, and in our experience it fails to work in production.

AMF3 assumes that duplicate objects, traits and strings are sent by reference. The object reference tables need to be kept in sync while serializing, or the client will loose sync of these tables during deserialization and start throwing class cast errors, or corrupting the data in fields that don't match, but cast ok...

Here is the corrected code:

public void writeObject(final Object o) throws IOException {
if (o instanceof BigDecimal) {
write(kObjectType);
if(!byReference(o)){   // if not previously sent
String s = ((BigDecimal)o).toString();
TraitsInfo ti = new TraitsInfo("java.math.BigDecimal",false,true,0);
writeObjectTraits(ti); // will send traits by reference
writeUTF(s);
writeObjectEnd();  // for your AmfTrace to be correctly indented
}
} else {
super.writeObject(o);
}
}

There is another way to send a typed object, which does not require Externalizable on the client. The client will set the textValue property on the object instead:

TraitsInfo ti = new TraitsInfo("java.math.BigDecimal",false,false,1);
writeObjectTraits(ti);
writeObjectProperty("textValue",s);

In either case, your Actionscript class will need this tag:

[RemoteClass(alias="java.math.BigDecimal")]

The Actionscript class also needs a text property to match the one you chose to send that will initialize the BigDecimal value, or in the case of the Externalizable object, a couple of methods like this:

public  function writeExternal(output:IDataOutput):void {
output.writeUTF(this.toString());
}
public  function readExternal(input:IDataInput):void {
var s:String = input.readUTF();
setValueFromString(s);
}

This code only concerns data going from server to client. To deserialize in the other direction from client to server, we chose to extend AbstractProxy, and use a wrapper class to temporarily store the string value of the BigDecimal before the actual object is created, due to the fact that you cannot instantiate a BigDecimal and then assign the value, as the design of Blaze/LCDS expects should be the case with all objects.

Here's the proxy object to circumvent the default handling:

public class BigNumberProxy extends AbstractProxy {

public BigNumberProxy() {
this(null);
}

public BigNumberProxy(Object defaultInstance) {
super(defaultInstance);
this.setExternalizable(true);

if (defaultInstance != null)
alias = getClassName(defaultInstance);
}

protected String getClassName(Object instance) {
return((BigNumberWrapper)instance).getClassName();
}

public Object createInstance(String className) {
BigNumberWrapper w = new BigNumberWrapper();
w.setClassName(className);
return w;
}

public Object instanceComplete(Object instance) {
String desiredClassName = ((BigNumberWrapper)instance).getClassName();
if(desiredClassName.equals("java.math.BigDecimal"))
return new BigDecimal(((BigNumberWrapper)instance).stringValue);
return null;
}

public String getAlias(Object instance) {
return((BigNumberWrapper)instance).getClassName();
}

}

This statement will have to execute somewhere in your application, to tie the proxy object to the class you want to control. We use a static method:

PropertyProxyRegistry.getRegistry().register(
java.math.BigDecimal.class, new BigNumberProxy());

Our wrapper class looks like this:

public class BigNumberWrapper implements Externalizable {

String stringValue;
String className;

public void readExternal(ObjectInput arg0) throws IOException, ClassNotFoundException {
}

public void writeExternal(ObjectOutput arg0) throws IOException {
arg0.writeUTF(stringValue);
}

public String getStringValue() {
return stringValue;
}

public void setStringValue(String stringValue) {
this.stringValue = stringValue;
}

public String getClassName() {
return className;
}

public void setClassName(String className) {
this.className = className;
}

}
-
Do you have a complete sample that demostrates how it is set up? –  Igor Nikolaev Nov 11 '11 at 21:30

We were able to reuse one of the available BigDecimal.as classes on the web and extended blazeds by sublassing from AMF3Output, you'll need to specify your own endpoint class in the flex xml files, in that custom endpoint you can insert your own serializer that instantiates an AMF3Output subclass.

public class EnhancedAMF3Output extends Amf3Output {

public EnhancedAMF3Output(final SerializationContext context) {
super(context);
}

public void writeObject(final Object o) throws IOException {
if (o instanceof BigDecimal) {
write(kObjectType);
writeUInt29(7); // write U290-traits-ext (first 3 bits set)
writeStringWithoutType("java.math.BigDecimal");
writeAMFString(((BigDecimal)o).toString());
} else {
super.writeObject(o);
}
}
}

as simple as that! then you have native BigDecimal support using blazeds, wooohoo! Make sure your BigDecimal as3 class implements IExternalizable

cheers, jb

-

Surprisingly the round function in MS Excel gives us different values then you have presented above. For example in Excel

Round(143,355;2) = 143,36

So my workaround for Excel round is like:

public function setPrecision(number:Number, precision:int):Number {
precision = Math.pow(10, precision);

const excelFactor : Number = 0.00000001;

number += excelFactor;

return (Math.round(number * precision)/precision);
}
-

If you know the precision you need beforehand, you could store the numbers scaled so that the smallest amount you need is a whole value. For example, store the numbers as cents rather than dollars.

If that's not an option, how about something like this:

function printTwoDecimals(x)
{
printWithNoDecimals(x);
print(".");
var scaled = Math.round(x * 100);
printWithNoDecimals(scaled % 100);
}

(With however you print with no decimals stuck in there.)

This won't work for really big numbers, though, because you can still lose precision.

-

You may vote and watch the enhancement request in the Flash PLayer Jira bug tracking system at https://bugs.adobe.com/jira/browse/FP-3315

And meanwhile use the Number.toFixed() work-around see : (http://livedocs.adobe.com/flex/3/langref/Number.html#toFixed%28%29)

or use the open source implementations out there : (http://code.google.com/p/bigdecimal/) or (http://www.fxcomps.com/money.html)

As for the serialization efforts, well, it will be small if you use Blazeds or LCDS as they do support Java BigDecimal serialization (to String) cf. (http://livedocs.adobe.com/livecycle/es/sdkHelp/programmer/lcds/wwhelp/wwhimpl/common/html/wwhelp.htm?context=LiveDocs_Parts&file=serialize_data_3.html)

-

It seems more like a transport problem, the number being correct but the scale ignored. If the number has to be stored as a BigDecimal on the server you may want to convert it server side to a less ambiguous format (Number, Double, Float) before sending it.

-
Java BigDecimal can be converted to AS3 String. BigDecimal is necessary for extremely large numbers: Number doesn't exist in Java; while double and float types are not big enough. –  Luis B Dec 9 '09 at 21:39