# Performant algorithm to rationalize floats

Given a floating point number, I'm looking to get a `String` representation of a rational number approximating the decimal (to within a given tolerance ε is fine). My current approach is as follows:

``````String rationalize(double d)
{
String s = Double.toString(d);
s = s.substring(s.indexOf('.')+1, s.length());
return s + " / " + ApintMath.pow(new Apint(10), s.length()).toString();
}
``````

If you're unfamiliar with it, `ApintMath.pow` will work even with arbitrarily long numbers, which is good because I'm attempting to convert decimals with thousands of decimal places. The performance of my algorithm is terrible.

I attribute this to two things, but there could be more:

1. My approach to getting a fraction is pretty naive. I'm sure there's a better way.
2. The fraction is unsimplified, so any subsequent calculations using this fraction are likely going to waste a lot of time.

How would you do this? Are there other areas I haven't talked about that are slowing me down?

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Also related: stackoverflow.com/questions/7563669/… – Mysticial Apr 2 '12 at 21:04

Addendum: I've had good results using `org.jscience.mathematics.number.Rational` in linear systems; `org.apache.commons.math.fraction.BigFraction` offers several constructors for `double` that may be useful. All throw suitable exceptions for undefined values.