inline void Fraction::UnifyDenominators(Fraction& p_first, Fraction& p_second)
{
if (p_first.m_denominator == p_second.m_denominator)
{
return;
}
int firstNumerator = p_first.m_numerator;
int firstDenominator = p_first.m_denominator;
p_first.SetNumerator(firstNumerator * p_second.m_denominator);
p_first.SetDenominator(firstDenominator * p_second.m_denominator);
p_second.SetNumerator(p_second.m_numerator * firstDenominator);
p_second.SetDenominator(p_second.m_denominator * firstDenominator);
}
const Fraction operator*(const Fraction& term1, const Fraction& term2) {
//Turned into improper fractions and then mulitplied through
Fraction result;
result.SetNumerator(((term1.GetWhole() * term1.GetDenominator()) + term1.GetNumerator()) * ((term2.GetWhole() * term2.GetDenominator()) + term2.GetNumerator()));
result.SetDenominator(term1.GetDenominator() * term2.GetDenominator());
result.Normalize();
return result;
}
const Fraction operator/(const Fraction& term1, const Fraction& term2) {
//Multiplies by the reciprocal of term2
Fraction result;
result.SetNumerator(((term1.GetWhole() * term1.GetDenominator()) + term1.GetNumerator()) * term2.GetDenominator());
result.SetDenominator(term1.GetDenominator() * ((term2.GetWhole() * term2.GetDenominator()) + term2.GetNumerator()));
result.Normalize();
return result;
}
