Is there a commonly used rational numbers library in Java?

Question

I'm looking for a Java library which represents fractions (rational numbers). For example, if I want to store the fraction 1/3 then it will not be saved as 0.33333 which will lose its accuracy.

Here is some of the functionality I expect finding in such a library:

getNumerator()
getDenominator()
add(Rational r1, Rational r2), subtract(Rational r1, Rational r2), multiply(Rational r1, Rational r2), divide(Rational r1, Rational r2)
isProper()
getCommonDenominator(Collection<Rational> rationals)
getSimplified()

I can implement such a library by myself, though I was wondering whether something similar already exists.

EDIT: It would also be nice if the library implements (in addition to the above) some number theory algorithms, such as getEgyptianFractionsSum() etc.

Thorbjørn Ravn Andersen · Answer 1 · 2011-03-26 13:58:03Z

up vote 4 down vote accepted

Does Apache Commons Math suit you?

edited Mar 26 '11 at 13:58

Thorbjørn Ravn Andersen
28k32681

answered Mar 26 '11 at 13:39

Petar Minchev
14.7k21835

feedback

hardmath · Answer 2 · 2011-03-26 22:59:51Z

up vote 1 down vote

I'm not sure how commonly used it is, but the apfloat packages (Java and C++) contain a class for rational arithmetic.

answered Mar 26 '11 at 22:59

hardmath
2,7381210

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mP. · Answer 3 · 2011-03-26 23:46:27Z

The Apfloat library has lots of great features, performance, accuracy and so on. Its definitely a better BigDecimal which to be fair works but is quite simple and offers little functionality.

http://www.apfloat.org/apfloat_java/

Contents:

Classpath setting First example Constructing Apfloats Double and float constructor caveats Apfloats are immutable Precision Output Advanced mathematical functions Integers Complex numbers Rational numbers Using some other radix than 10 Equality and comparison Formatting

desturrr · Answer 4 · 2012-01-26 19:40:33Z

I implemented a small class that can be used for that purposes, maybe it can be useful for you as well, use with caution.

import java.util.ArrayList;

public class RationalNumber {

/**
 * 
 * @author Suat KARAKUSOGLU
 * @email  suatkarakusoglu@gmail.com
 * This class has 2 kind of constructors
 * 1. is RationalNumber a=new RationalNumber("3.3");
 *       RationalNumber a=new RationalNumber("-3.3");
 * With this constructor one can enter the decimal number and also specify whether negative or not
 * 
 * 2. is RationalNumber a=new RationalNumber(3,5);
 * With this constructor the first value is nominator and second one is denominator.
 * 
 * The advantage side of this class is, it prevents the fractional errors while dividing
 * RationalNumber keeps all denominator and nominator values as it is and when the real value is
 * needed, the calculation occurs at that time.
 * 
 * Supports multiply,divide,add,subtract operations on RationalNumber classes.
 * 
 */


/*
 * Simple Usage:
 * 
 * RationalNumber a=new RationalNumber("3.3");
 * RationalNumber b=new RationalNumber("4.5");
 * System.out.println("a ="+a.getStringValue());
 * System.out.println("b ="+b.getStringValue());
 * System.out.println("a-b ="+a.subtract(b).getStringValue());
 * System.out.println("a ="+a.getStringValue());
 * System.out.println("b ="+b.getStringValue());
 * RationalNumber k=a.divide(b);
 * System.out.println("a/b="+k.getStringValue());
 * System.out.println("a/b="+k.getDoubleValue());
 * 
 * System out results:
 * 
 * a =33/10
 * b =9/2
 * a-b =-6/5
 * a =33/10
 * b =9/2
 * a/b=11/15
 * a/b=0.7333333333333333
 * 
 */

public ArrayList<Long> nominators = new ArrayList<Long>();
public ArrayList<Long> denominators = new ArrayList<Long>();

public RationalNumber(String rationalNumberStringValue) {
    this(parseRationalNumberStringValue(rationalNumberStringValue)[0],
            parseRationalNumberStringValue(rationalNumberStringValue)[1]);

}

private static Long[] parseRationalNumberStringValue(
        String rationalNumberStringValue) {

    boolean positive = true;
    if (rationalNumberStringValue.charAt(0) == '-') {
        positive = false;
        rationalNumberStringValue = rationalNumberStringValue.substring(1);
    }

    // 0. index is keeping nominator
    // 1. index is keeping denominator
    Long[] nominatorDenominator = new Long[2];
    nominatorDenominator[0] = 1l;
    nominatorDenominator[1] = 1l;

    String[] splittedNumberArr = rationalNumberStringValue.split("\\.");
    String denominatorStr = splittedNumberArr[1];

    for (int i = 0; i < denominatorStr.length(); i++) {
        nominatorDenominator[1] *= 10;
    }

    rationalNumberStringValue = removeCharAt(rationalNumberStringValue,
            rationalNumberStringValue.indexOf('.'));
    nominatorDenominator[0] = Long.valueOf(rationalNumberStringValue);
    if (!positive) {
        nominatorDenominator[0] *= -1;
    }
    return nominatorDenominator;

}

public static String removeCharAt(String s, int pos) {
    return s.substring(0, pos) + s.substring(pos + 1);
}

public RationalNumber(Integer nominator, Integer denominator) {

    this((long) nominator, (long) denominator);

}

public RationalNumber(Long nominator, Long denominator) {

    nominators.add(nominator);
    denominators.add(denominator);
    simplify();

}

public RationalNumber(ArrayList<Long> nominatorList,
        ArrayList<Long> denominatorList) {

    nominators.addAll(nominatorList);
    denominators.addAll(denominatorList);
    simplify();

}

public String getStringValue() {
    return getMultipliedValue(this.nominators) + "/"
            + getMultipliedValue(this.denominators);
}

public double getDoubleValue() {
    return (double) getMultipliedValue(this.nominators)
            / (double) getMultipliedValue(this.denominators);
}

public RationalNumber multiply(RationalNumber rationalNumberToMultiply) {

    RationalNumber mulResult = new RationalNumber(
            rationalNumberToMultiply.nominators,
            rationalNumberToMultiply.denominators);
    mulResult.nominators.addAll(this.nominators);
    mulResult.denominators.addAll(this.denominators);

    return RationalNumber.simplifyRationalNumber(mulResult);
}

public RationalNumber divide(RationalNumber rationalNumberToDivide) {

    RationalNumber divideResult = new RationalNumber(
            rationalNumberToDivide.nominators,
            rationalNumberToDivide.denominators);

    // division means multiplication with reverse values
    ArrayList<Long> tempLongList = divideResult.nominators;
    divideResult.nominators = divideResult.denominators;
    divideResult.denominators = tempLongList;

    return this.multiply(divideResult);

}

public RationalNumber add(RationalNumber rationalNumberToAdd) {

    rationalNumberToAdd = RationalNumber
            .simplifyRationalNumber(rationalNumberToAdd);

    return new RationalNumber(
            (getMultipliedValue(this.nominators) * getMultipliedValue(rationalNumberToAdd.denominators))
                    + (getMultipliedValue(this.denominators) * getMultipliedValue(rationalNumberToAdd.nominators)),
            (getMultipliedValue(this.denominators) * getMultipliedValue(rationalNumberToAdd.denominators)));

}

public RationalNumber subtract(RationalNumber rationalNumberToSubtract) {

    rationalNumberToSubtract = RationalNumber
            .simplifyRationalNumber(rationalNumberToSubtract);

    RationalNumber subtractTempRational = new RationalNumber(
            rationalNumberToSubtract.nominators,
            rationalNumberToSubtract.denominators);

    // Multiply one of its nominators negative value
    subtractTempRational.nominators.set(0,
            (subtractTempRational.nominators.get(0) * -1));

    // add with its negative value
    return this.add(subtractTempRational);

}

private long getMultipliedValue(ArrayList<Long> longList) {
    Long mulResult = 1l;
    for (Long tempLong : longList) {
        mulResult *= tempLong;
    }
    return mulResult;
}

// simplifies original rationalnumber
public void simplify() {
    long tempGcd = 1;
    long iValue = 1;
    long jValue = 1;
    for (int i = 0; i < this.nominators.size(); i++) {
        iValue = this.nominators.get(i);
        for (int j = 0; j < this.denominators.size(); j++) {
            jValue = this.denominators.get(j);
            tempGcd = gcd(iValue, jValue);
            this.nominators.set(i, iValue / tempGcd);
            this.denominators.set(j, jValue / tempGcd);
        }
    }
}

public static RationalNumber simplifyRationalNumber(
        RationalNumber rationalNumberToSimplify) {
    long tempGcd = 1;
    long iValue = 1;
    long jValue = 1;
    for (int i = 0; i < rationalNumberToSimplify.nominators.size(); i++) {
        for (int j = 0; j < rationalNumberToSimplify.denominators.size(); j++) {
            iValue = rationalNumberToSimplify.nominators.get(i);
            jValue = rationalNumberToSimplify.denominators.get(j);
            tempGcd = gcd(iValue, jValue);
            rationalNumberToSimplify.nominators.set(i, iValue / tempGcd);
            rationalNumberToSimplify.denominators.set(j, jValue / tempGcd);
        }
    }
    return rationalNumberToSimplify;
}

// Euclidean algorithm to find greatest common divisor
public static long gcd(long a, long b) {

    a = Math.abs(a);
    b = Math.abs(b);

    if (a < b) {
        long temp = a;
        a = b;
        b = temp;
    }

    if (b == 0)
        return a;
    else
        return gcd(b, a % b);
}

public RationalNumber add(int integerToAdd) {

    RationalNumber tempRationalNumber=new RationalNumber(integerToAdd,1);
    return this.add(tempRationalNumber);
}
public RationalNumber subtract(int integerToSubtract) {

    RationalNumber tempRationalNumber=new RationalNumber(integerToSubtract,1);
    return this.subtract(tempRationalNumber);
}
public RationalNumber multiply(int integerToMultiply) {

    RationalNumber tempRationalNumber=new RationalNumber(integerToMultiply,1);
    return this.multiply(tempRationalNumber);
}
public RationalNumber divide(int integerToDivide) {

    RationalNumber tempRationalNumber=new RationalNumber(integerToDivide,1);
    return this.divide(tempRationalNumber);
}

}

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Is there a commonly used rational numbers library in Java?

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