165 lines
5.3 KiB
C++
165 lines
5.3 KiB
C++
#include "fraction.hpp"
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namespace FractionNS {
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int gcd(int p, int q) {
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if(p < 0) p = -p;
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if(q < 0) q = -q;
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while(true) {
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if(p == 0) return q;
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q %= p;
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if(q == 0) return p;
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p %= q;
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}
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}
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int lcm(int p, int q) {
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int gcd = FractionNS::gcd(p, q);
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return gcd != 0 ? (p / gcd * q) : 0;
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}
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void Fraction::reduce()
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{
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auto gcd = FractionNS::gcd(m_numerator, m_denominator);
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if((gcd == 1 && m_denominator >= 0) || gcd == 0) return;
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if(gcd == 1 && m_denominator < 0) {
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m_numerator = -m_numerator;
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m_denominator = -m_denominator;
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}
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else if(m_denominator < 0)
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{
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m_numerator = -m_numerator / gcd;
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m_denominator = -m_denominator / gcd;
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} else {
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m_numerator /= gcd;
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m_denominator /= gcd;
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}
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}
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Fraction::Fraction(int numerator, int denominator)
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{
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if(denominator == 0) throw std::range_error("Tried to divide by 0.");
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this->m_numerator = numerator;
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this->m_denominator = denominator;
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reduce();
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}
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Fraction::Fraction(const int n) {
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this->m_numerator = n;
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this->m_denominator = 1;
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}
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Fraction::Fraction(const Fraction& n) {
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this->m_numerator = n.getNumerator();
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this->m_denominator = n.getDenominator();
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}
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int Fraction::getNumerator() const { return m_numerator; }
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int Fraction::getDenominator() const { return m_denominator; }
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void Fraction::setNumerator(int numerator) {
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auto gcd = FractionNS::gcd(numerator, this->m_denominator);
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this->m_numerator = numerator / gcd;
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}
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void Fraction::setDenominator(int denominator) {
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if(denominator == 0) throw std::range_error("Tried to divide by 0.");
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auto gcd = FractionNS::gcd(this->m_numerator, denominator);
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this->m_denominator = denominator / gcd;
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}
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QString Fraction::display() const {
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return QString::number(m_numerator) + '/' + QString::number(m_denominator);
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}
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bool Fraction::operator==(const int n) const {
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return (double(m_numerator) / double(m_denominator)) == n;
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}
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bool Fraction::operator==(const float n) const {
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return (float(m_numerator) / float(m_denominator)) == n;
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}
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bool Fraction::operator==(const double n) const {
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return (double(m_numerator) / double(m_denominator)) == n;
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}
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bool Fraction::operator==(const Fraction& n) const {
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return (this->m_numerator == n.getNumerator())
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&& (this->m_denominator == n.getDenominator());
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}
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bool Fraction::operator!=(const int n) const {
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return (double(m_numerator) / double(m_denominator)) != n;
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}
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bool Fraction::operator!=(const float n) const {
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return (double(m_numerator) / double(m_denominator)) != n;
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}
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bool Fraction::operator!=(const double n) const {
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return (double(m_numerator) / double(m_denominator)) != n;
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}
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bool Fraction::operator!=(const Fraction& n) const {
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return (this->m_numerator != n.getNumerator())
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|| (this->m_denominator != n.getDenominator());
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}
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Fraction& Fraction::operator+(const int n) const {
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auto newNumerator = m_numerator + (n * m_denominator);
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return *new Fraction(newNumerator, m_denominator);
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}
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Fraction& Fraction::operator+(const Fraction& other) const {
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auto lcm = FractionNS::lcm(m_denominator, other.getDenominator());
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auto ownNumeratorPart = m_numerator * (lcm / m_denominator);
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auto otherNumeratorPart = other.getNumerator() * (lcm / other.getDenominator());
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return *new Fraction(ownNumeratorPart + otherNumeratorPart, lcm);
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}
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Fraction& Fraction::operator+=(const int other) {
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this->m_numerator = m_numerator + (other * m_denominator);
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reduce();
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return *this;
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}
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Fraction& Fraction::operator+=(const Fraction& other) {
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// Sanity check for Clang
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// Not strictly necessary since setting to 0 is checked against in setDenominator and constructor(s).
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if(other.getDenominator() == 0) return *this;
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auto lcm = FractionNS::lcm(m_denominator, other.getDenominator());
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auto ownNumeratorPart = m_numerator * (lcm / m_denominator);
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auto otherNumeratorPart = other.getNumerator() * (lcm / other.getDenominator());
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this->m_numerator = ownNumeratorPart + otherNumeratorPart;
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this->m_denominator = lcm;
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reduce();
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return *this;
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}
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Fraction& Fraction::operator-(const int n) const {
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auto newNumerator = m_numerator - (n * m_denominator);
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return *new Fraction(newNumerator, m_denominator);
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};
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Fraction& Fraction::operator-(const Fraction& other) const {
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auto lcm = FractionNS::lcm(m_denominator, other.getDenominator());
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auto ownNumeratorPart = m_numerator * (lcm / m_denominator);
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auto otherNumeratorPart = other.getNumerator() * (lcm / other.getDenominator());
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return *new Fraction(ownNumeratorPart - otherNumeratorPart, lcm);
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}
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Fraction& Fraction::operator-=(const int n) {
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auto newNumerator = m_numerator - (n * m_denominator);
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return *new Fraction(newNumerator, m_denominator);
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};
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Fraction& Fraction::operator-=(const Fraction& other) {
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// Sanity check for Clang
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// Not strictly necessary since setting to 0 is checked against in setDenominator and constructor(s).
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if(other.getDenominator() == 0) return *this;
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auto lcm = FractionNS::lcm(m_denominator, other.getDenominator());
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auto ownNumeratorPart = m_numerator * (lcm / m_denominator);
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auto otherNumeratorPart = other.getNumerator() * (lcm / other.getDenominator());
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return *new Fraction(ownNumeratorPart - otherNumeratorPart, lcm);
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}
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}
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