# Strange float division result

I have occurred in this strange division error in a grails project (But I think grails has little to do with it, is a groovy or java question I think):

If in the groovy console I run this

``````float money = -1.30
float r = 0.01

println ((money/r).class.name)
println ((money/r).floatValue())
println ((money/r).toString() )
``````

I get this output

``````java.lang.Double
-130.0
-129.99999813735482
``````

The float division in groovy give me a Double, and this is correct but why the Double toString() give me a so strange value "-129.99999813735482" and not the correct "-130.0"?

-
This may interest you –  Pshemo Dec 3 '12 at 12:02
Floats and doubles are inaccurate to some degree. So my guess is, that the `-130.0` is an approximation of some sort and `-129.99999813735482` ist the actual value. –  Cobra_Fast Dec 3 '12 at 12:03
@Andrew Thompson: generally and if at all possible, it should be declared as a decimal type such as BigDecimal in Java. –  Michael Borgwardt Dec 3 '12 at 12:06
@MichaelBorgwardt "it (money) should be declared as a decimal type such as BigDecimal in Java." Thanks for the heads-up. I'd thought 'non-floating point', but had not thought much further. –  Andrew Thompson Dec 3 '12 at 12:09

As everyone says, `double` and `float` aren't precise enough for what you're trying to do.

One solution is to not use `float` as your object type, and do:

``````def money = -1.30
def r = 0.01

println ((money/r).class.name)
println ((money/r).floatValue())
println ((money/r).toString() )
``````

As you can see, Groovy uses `BigDecimal`, which means the output is:

``````java.math.BigDecimal
-130.0
-130
``````
-
The assertion that `double` and `float` are not precise enough is interesting. How many bits would `double` need to have in order to get the exact result correctly? –  Eric Postpischil Dec 3 '12 at 15:02
Infinitely many; `0.01` cannot be represented exactly as a binary floating-point number. –  Louis Wasserman Dec 3 '12 at 15:58

From the Floating-Point Guide:

Why don’t my numbers, like 0.1 + 0.2 add up to a nice round 0.3, and instead I get a weird result like 0.30000000000000004?

Because internally, computers use a format (binary floating-point) that cannot accurately represent a number like 0.1, 0.2 or 0.3 at all.

When the code is compiled or interpreted, your “0.1” is already rounded to the nearest number in that format, which results in a small rounding error even before the calculation happens.

Specifically, neither 1.3 nor 0.01 can be accurately represented by a `float`.

-
Yes, and even though `System.out.println(1.3f)` shows `"1.3"`, you can reveal the truth with `String.format("%.16f", 1.3f)`: `"1,2999999523162842"` and see it was never `1.3` at all. –  Esailija Dec 3 '12 at 12:11
By doing the `floatValue`, you are limiting the precission of the value. So the JVM does a rounding and you get the different value.