mirror of
https://github.com/n00mkrad/flowframes.git
synced 2025-12-16 16:37:48 +01:00
281 lines
8.6 KiB
C#
281 lines
8.6 KiB
C#
using System;
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using System.Windows.Navigation;
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namespace Flowframes.Data
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{
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public struct Fraction
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{
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public long Numerator;
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public long Denominator;
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public static Fraction Zero = new Fraction(0, 0);
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public Fraction(long numerator, long denominator)
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{
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this.Numerator = numerator;
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this.Denominator = denominator;
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//If denominator negative...
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if (this.Denominator < 0)
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{
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//...move the negative up to the numerator
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this.Numerator = -this.Numerator;
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this.Denominator = -this.Denominator;
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}
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}
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public Fraction(long numerator, Fraction denominator)
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{
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//divide the numerator by the denominator fraction
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this = new Fraction(numerator, 1) / denominator;
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}
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public Fraction(Fraction numerator, long denominator)
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{
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//multiply the numerator fraction by 1 over the denominator
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this = numerator * new Fraction(1, denominator);
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}
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public Fraction(Fraction fraction)
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{
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Numerator = fraction.Numerator;
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Denominator = fraction.Denominator;
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}
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public Fraction(float value)
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{
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Numerator = (value * 10000f).RoundToInt();
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Denominator = 10000;
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this = GetReduced();
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}
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public Fraction(string text)
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{
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try
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{
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if (text.IsEmpty())
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{
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Numerator = 0;
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Denominator = 1;
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return;
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}
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string[] numbers = text.Split('/');
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// Check if split is only 1 items (probably integer number)
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if (numbers.Length == 1)
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{
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Numerator = numbers[0].GetFloat().RoundToInt();
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Denominator = 1;
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return;
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}
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Numerator = numbers[0].GetFloat().RoundToInt();
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Denominator = numbers[1].GetInt();
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}
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catch
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{
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try
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{
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Numerator = text.GetFloat().RoundToInt();
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Denominator = 1;
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}
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catch
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{
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Numerator = 0;
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Denominator = 1;
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}
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}
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Console.WriteLine($"Fraction from String: Fraction(\"{text}\") => {Numerator}/{Denominator}", true);
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}
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private static long GetGreatestCommonDenominator(long a, long b)
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{
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//Drop negative signs
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a = Math.Abs(a);
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b = Math.Abs(b);
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//Return the greatest common denominator between two longegers
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while (a != 0 && b != 0)
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{
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if (a > b)
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a %= b;
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else
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b %= a;
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}
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if (a == 0)
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return b;
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else
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return a;
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}
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private static long GetLeastCommonDenominator(long a, long b)
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{
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//Return the Least Common Denominator between two longegers
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return (a * b) / GetGreatestCommonDenominator(a, b);
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}
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public Fraction ToDenominator(long targetDenominator)
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{
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//Multiply the fraction by a factor to make the denominator
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//match the target denominator
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Fraction modifiedFraction = this;
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//Cannot reduce to smaller denominators
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if (targetDenominator < this.Denominator)
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return modifiedFraction;
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//The target denominator must be a factor of the current denominator
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if (targetDenominator % this.Denominator != 0)
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return modifiedFraction;
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if (this.Denominator != targetDenominator)
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{
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long factor = targetDenominator / this.Denominator;
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modifiedFraction.Denominator = targetDenominator;
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modifiedFraction.Numerator *= factor;
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}
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return modifiedFraction;
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}
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public Fraction GetReduced()
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{
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//Reduce the fraction to lowest terms
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Fraction modifiedFraction = this;
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try
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{
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//While the numerator and denominator share a greatest common denominator,
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//keep dividing both by it
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long gcd = 0;
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while (Math.Abs(gcd = GetGreatestCommonDenominator(modifiedFraction.Numerator, modifiedFraction.Denominator)) != 1)
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{
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modifiedFraction.Numerator /= gcd;
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modifiedFraction.Denominator /= gcd;
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}
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//Make sure only a single negative sign is on the numerator
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if (modifiedFraction.Denominator < 0)
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{
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modifiedFraction.Numerator = -this.Numerator;
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modifiedFraction.Denominator = -this.Denominator;
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}
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}
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catch (Exception e)
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{
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Logger.Log($"Failed to reduce fraction ({modifiedFraction}): {e.Message}", true);
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}
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return modifiedFraction;
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}
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public Fraction GetReciprocal()
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{
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//Flip the numerator and the denominator
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return new Fraction(this.Denominator, this.Numerator);
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}
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public static Fraction operator +(Fraction fraction1, Fraction fraction2)
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{
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//Check if either fraction is zero
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if (fraction1.Denominator == 0)
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return fraction2;
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else if (fraction2.Denominator == 0)
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return fraction1;
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//Get Least Common Denominator
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long lcd = GetLeastCommonDenominator(fraction1.Denominator, fraction2.Denominator);
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//Transform the fractions
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fraction1 = fraction1.ToDenominator(lcd);
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fraction2 = fraction2.ToDenominator(lcd);
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//Return sum
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return new Fraction(fraction1.Numerator + fraction2.Numerator, lcd).GetReduced();
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}
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public static Fraction operator -(Fraction fraction1, Fraction fraction2)
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{
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//Get Least Common Denominator
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long lcd = GetLeastCommonDenominator(fraction1.Denominator, fraction2.Denominator);
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//Transform the fractions
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fraction1 = fraction1.ToDenominator(lcd);
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fraction2 = fraction2.ToDenominator(lcd);
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//Return difference
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return new Fraction(fraction1.Numerator - fraction2.Numerator, lcd).GetReduced();
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}
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public static Fraction operator *(Fraction fract, long multi)
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{
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long numerator = (long)fract.Numerator * (long)multi;
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long denomenator = fract.Denominator;
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return new Fraction(numerator, denomenator).GetReduced();
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}
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public static Fraction operator *(Fraction fract, double multi)
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{
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long numerator = (long)Math.Round((double)(fract.Numerator * (double)multi));
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long denomenator = fract.Denominator;
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return new Fraction(numerator, denomenator).GetReduced();
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}
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public static Fraction operator *(Fraction fract, float multi)
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{
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long numerator = (fract.Numerator * multi).RoundToInt();
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long denomenator = fract.Denominator;
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return new Fraction(numerator, denomenator).GetReduced();
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}
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public static Fraction operator *(Fraction fraction1, Fraction fraction2)
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{
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long numerator = fraction1.Numerator * fraction2.Numerator;
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long denomenator = fraction1.Denominator * fraction2.Denominator;
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return new Fraction(numerator, denomenator).GetReduced();
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}
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public static Fraction operator /(Fraction fraction1, Fraction fraction2)
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{
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return new Fraction(fraction1 * fraction2.GetReciprocal()).GetReduced();
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}
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public double ToDouble()
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{
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return (double)this.Numerator / this.Denominator;
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}
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public override string ToString()
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{
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return Numerator + "/" + Denominator;
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}
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public float GetFloat()
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{
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if (Denominator < 1) // Avoid div by zero
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return 0f;
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return (float)Numerator / (float)Denominator;
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}
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public long GetLong()
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{
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return (long)Numerator / (long)Denominator;
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}
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public string GetString()
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{
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return ((float)Numerator / Denominator).ToString();
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}
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}
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}
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