/// <summary>
/// Works fine, after moderate testing.
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static ProperFraction operator *(ProperFraction a, ProperFraction b)
{
if (a == null || b == null)
{
throw new Exception();
}
Int64 aN = a.decimalpart.getNumerator(), aD = a.decimalpart.getDenominator();
Int64 bN = b.decimalpart.getNumerator(), bD = b.decimalpart.getDenominator();
Int64 aI = a.integerpart, bI = b.integerpart;
//Covert to improper fraction to elimiate integer part.
aN += aI * aD; bN += bI * bD;
//Does numerator of a share factor with denominator of b?
Int64 factor1 = ImproperFraction.GCD(aN, bD);
aN /= factor1; bD /= factor1;
//Does the numerator of b share factor with the denominator of a?
Int64 factor2 = ImproperFraction.GCD(bN, aD);
bN /= factor2; aD /= factor2;
//take care of the sign:
bool negative = a.sign != b.sign;
if (negative)
{
aN = -aN;
}
return(new ProperFraction(aN * bN, aD * bD));
}
/// <summary>
/// construct an instance of proper fraction by inputing numerator and denominator.
///
/// </summary>
/// <param name="n"></param>
/// Numerator.
/// <param name="d"></param>
/// Denominator
/// If this is zero, then this class will throw an zero
/// denominator exception.
///
public ProperFraction(Int64 n, Int64 d)
{
if (d == 0)
{
throw new DividebyZeroException();
}
if (n == 0)
{
this.integerpart = 0;
decimalpart = new ImproperFraction(0, Math.Abs(d));
return;
}
sign = n < 0 == d < 0;
n = Math.Abs(n); d = Math.Abs(d);
Int64 integerdivide = n / d;
integerpart = integerdivide;
n = n % d;
decimalpart = new ImproperFraction(n, d);
}
