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# BigDecimal precision explosion

I'm trying to do calculations in Scala (and/or Java) at a fixed precision larger than that of a double. I'm using BigDecimals with Scala's default MathContext, which has precision 34. Even though all the inputs have this precision, I'm finding that after a few computations, the precision of the results starts to explode.

Here's an example computation that I think illustrates the problem:

``````import math.BigDecimal

val z40 = BigDecimal(0).setScale(40) // 0E-40
z40.scale                            // 40
z40.precision                        // 1
(1 + z40*z40).precision              // 81
``````

the result is 81, which is higher precision than `z40`. In my case, I'm never using setScale, but zeros with very large scales are arising in computations.

This is not the behavior I want. I would like `(1 + z40*z40)` to have precision 34 -- the precision of the MathContext in which the computations are being performed (since `z40*z40` is negligibly small compared to 1). How can I get this kind of arithmetic?

Update: This behavior is due to a change in the handling of MathContexts between Scala 2.9.* and 2.10.*. (Thanks to Paul Phillips for pointing out the commit.) See also this discussion.

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Shouldn't it be `scale` instead of `precision` in your code? – ntalbs Dec 31 '12 at 3:46
"When a MathContext object is supplied with a precision setting of 0 (for example, MathContext.UNLIMITED), arithmetic operations are exact, as are the arithmetic methods which take no MathContext object." Maybe you need to pass the `MathContext` explicitly? – Daniel Fischer Dec 31 '12 at 3:55
@ntalbs yes, you're right -- fixed above. – davidsd Dec 31 '12 at 4:01
@DanielFischer, it looks like Scala's BigDecimal wrapper does pass in the `MathContext` in, e.g., the `+` method. Is that what you're recommending? If so, it doesn't seem to help. – davidsd Dec 31 '12 at 4:13
@davidsd Not knowing Scala, I just made a guess based on the docs for `BigDecimal`. – Daniel Fischer Dec 31 '12 at 4:18

## 3 Answers

Seems strange. I tried your code and get the result as you expected:

``````\$ scala
Welcome to Scala version 2.9.2 (Java HotSpot(TM) 64-Bit Server VM, Java 1.7.0_10).
Type in expressions to have them evaluated.
Type :help for more information.

scala> import math.BigDecimal
import math.BigDecimal

scala> val z40 = BigDecimal(0).setScale(40)
z40: scala.math.BigDecimal = 0E-40

scala> z40.scale
res0: Int = 40

scala> z40.precision
res1: Int = 1

scala> (1 + z40*z40).precision
res2: Int = 34

scala> _
``````

As you can see, `(1+z40*z40).precision` is `34` as you expected.

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Aha! I get the same result with Scala 2.9.2. However, the example code in the question was run on 2.10.0-RC1, which must have a bug! Thanks, your simple observation saved me a lot of time. I'll have to see if later release candidates fix this bug. – davidsd Dec 31 '12 at 4:17
Ok, I'm still getting incorrect behavior in 2.10.0-RC5. Any ideas on how to track the problem down? – davidsd Dec 31 '12 at 4:28
@davidsd Have you tried `apply(MathContext)`? – ntalbs Dec 31 '12 at 4:32
Sure, `apply(MathContext)` works to get the result back to the right level of precision. Ideally, I'd rather not clutter my code with expressions like `(1+z40*z40)(z40.mc)`, but maybe I'll have to. – davidsd Dec 31 '12 at 4:37
Please don't add pictures containing text to your posts. Just copy the text directly to make your post search-, edit- and copyable. – sschaef Dec 31 '12 at 10:30

Actually, I believe the last line

``````(1 + z40*z40).precision
``````

produces the result `34` (not `81`). I don't think the precision is actually increasing here.

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Agreed. See my comment on @ntalb's answer about 2.9.2 vs 2.10.0-RC1. – davidsd Dec 31 '12 at 4:18

Here is how to create BigDecimals:

``````val z1 = BigDecimal(1, new java.math.MathContext(
40, java.math.RoundingMode.valueOf(
scala.math.BigDecimal.RoundingMode.HALF_UP.toString)))

val z40 = BigDecimal(0, new java.math.MathContext(
40, java.math.RoundingMode.valueOf(
scala.math.BigDecimal.RoundingMode.HALF_UP.toString)))
``````

Can't see any precision explosion. Just use a proper `MathContext`.

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When I wrote my own BigDecimal form, I played with the Java tool first. The problem with setting MathContext is computations take significantly longer. It appears the code computes all decimals, then truncates them to the desired precision. – user85109 Dec 31 '12 at 18:52
Yep. I've ended up rewriting all operations as a fixed-point math on 2 `long`-s (enough for currency values). – idonnie Dec 31 '12 at 19:11
Speaking of correctness in general - you have no choice, only supply `MathContext` on each step. But maybe you have a different working idea? – idonnie Dec 31 '12 at 19:14
If one will use the Java tool, there is no choice. It is also why I did write my own tool from scratch, but it runs in MATLAB. Anyway, it can be a lot of fun to write efficient code for many of the special functions, trying to get hundreds or many thousands of digits out the end. (Ok, fun is a relative thing.) – user85109 Dec 31 '12 at 19:44