2020-02-03 05:00:36 +01:00
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// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved.
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2019-07-03 12:12:36 +02:00
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// Use of this source code is governed by an MIT license
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// that can be found in the LICENSE file.
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2019-07-15 21:16:41 +02:00
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module fractions
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import math
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2020-05-08 14:39:23 +02:00
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import math.bits
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2019-07-03 12:12:36 +02:00
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// Fraction Struct
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2020-05-11 06:20:55 +02:00
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// ---------------
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// A Fraction has a numerator (n) and a denominator (d). If the user uses
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// the helper functions in this module, then the following are guaranteed:
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// 1. If the user provides n and d with gcd(n, d) > 1, the fraction will
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// not be reduced automatically.
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// 2. d cannot be set to zero. The factory function will panic.
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// 3. If provided d is negative, it will be made positive. n will change as well.
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struct Fraction {
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n i64
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d i64
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pub:
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is_reduced bool
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}
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// A factory function for creating a Fraction, adds a boundary condition
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// to ensure that the denominator is non-zero. It automatically converts
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// the negative denominator to positive and adjusts the numerator.
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// NOTE: Fractions created are not reduced by default.
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pub fn fraction(n, d i64) Fraction {
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if d == 0 {
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panic('Denominator cannot be zero')
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}
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// The denominator is always guaranteed to be positive (and non-zero).
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if d < 0 {
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return fraction(-n, -d)
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}
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return Fraction{
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n: n
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d: d
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is_reduced: math.gcd(n, d) == 1
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}
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}
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// To String method
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pub fn (f Fraction) str() string {
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return '$f.n/$f.d'
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}
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//
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// + ---------------------+
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// | Arithmetic functions.|
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// + ---------------------+
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//
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// These are implemented from Knuth, TAOCP Vol 2. Section 4.5
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//
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// Returns a correctly reduced result for both addition and subtraction
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// NOTE: requires reduced inputs
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fn general_addition_result(f1, f2 Fraction, addition bool) Fraction {
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d1 := math.gcd(f1.d, f2.d)
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// d1 happends to be 1 around 600/(pi)^2 or 61 percent of the time (Theorem 4.5.2D)
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if d1 == 1 {
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num1n2d := f1.n * f2.d
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num1d2n := f1.d * f2.n
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n := if addition { num1n2d + num1d2n } else { num1n2d - num1d2n }
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return Fraction{
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n: n
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d: f1.d * f2.d
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is_reduced: true
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}
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}
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// Here d1 > 1.
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f1den := f1.d / d1
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f2den := f2.d / d1
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term1 := f1.n * f2den
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term2 := f2.n * f1den
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t := if addition { term1 + term2 } else { term1 - term2 }
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d2 := math.gcd(t, d1)
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return Fraction{
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n: t / d2
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d: f1den * (f2.d / d2)
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is_reduced: true
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}
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}
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// Fraction add using operator overloading
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pub fn (f1 Fraction) +(f2 Fraction) Fraction {
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return general_addition_result(f1.reduce(), f2.reduce(), true)
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}
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2019-07-12 20:45:56 +02:00
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// Fraction subtract using operator overloading
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pub fn (f1 Fraction) -(f2 Fraction) Fraction {
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return general_addition_result(f1.reduce(), f2.reduce(), false)
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}
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// Returns a correctly reduced result for both multiplication and division
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// NOTE: requires reduced inputs
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fn general_multiplication_result(f1, f2 Fraction, multiplication bool) Fraction {
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// * Theorem: If f1 and f2 are reduced i.e. gcd(f1.n, f1.d) == 1 and gcd(f2.n, f2.d) == 1,
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// then gcd(f1.n * f2.n, f1.d * f2.d) == gcd(f1.n, f2.d) * gcd(f1.d, f2.n)
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// * Knuth poses this an exercise for 4.5.1. - Exercise 2
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// * Also, note that:
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// The terms are flipped for multiplication and division, so the gcds must be calculated carefully
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// We do multiple divisions in order to prevent any possible overflows.
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// * One more thing:
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// if d = gcd(a, b) for example, then d divides both a and b
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if multiplication {
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d1 := math.gcd(f1.n, f2.d)
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d2 := math.gcd(f1.d, f2.n)
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return Fraction{
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n: (f1.n / d1) * (f2.n / d2)
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d: (f2.d / d1) * (f1.d / d2)
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is_reduced: true
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}
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} else {
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d1 := math.gcd(f1.n, f2.n)
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d2 := math.gcd(f1.d, f2.d)
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return Fraction{
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n: (f1.n / d1) * (f2.d / d2)
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d: (f2.n / d1) * (f1.d / d2)
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is_reduced: true
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}
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}
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}
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// Fraction multiply using operator overloading
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pub fn (f1 Fraction) *(f2 Fraction) Fraction {
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return general_multiplication_result(f1.reduce(), f2.reduce(), true)
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}
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// Fraction divide using operator overloading
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pub fn (f1 Fraction) /(f2 Fraction) Fraction {
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if f2.n == 0 {
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panic('Cannot divive by zero')
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}
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// If the second fraction is negative, it will
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// mess up the sign. We need positive denominator
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if f2.n < 0 {
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return f1.negate() / f2.negate()
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}
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return general_multiplication_result(f1.reduce(), f2.reduce(), false)
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}
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// Fraction add method. Deprecated. Use the operator instead.
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[deprecated]
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pub fn (f1 Fraction) add(f2 Fraction) Fraction {
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return f1 + f2
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}
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// Fraction subtract method. Deprecated. Use the operator instead.
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[deprecated]
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pub fn (f1 Fraction) subtract(f2 Fraction) Fraction {
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return f1 - f2
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}
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// Fraction multiply method. Deprecated. Use the operator instead.
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[deprecated]
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pub fn (f1 Fraction) multiply(f2 Fraction) Fraction {
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return f1 * f2
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}
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// Fraction divide method. Deprecated. Use the operator instead.
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[deprecated]
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pub fn (f1 Fraction) divide(f2 Fraction) Fraction {
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return f1 / f2
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}
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// Fraction negate method
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pub fn (f Fraction) negate() Fraction {
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return Fraction{
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n: -f.n
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d: f.d
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is_reduced: f.is_reduced
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}
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}
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// Fraction reciprocal method
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pub fn (f Fraction) reciprocal() Fraction {
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if f.n == 0 {
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panic('Denominator cannot be zero')
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}
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return Fraction{
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n: f.d
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d: f.n
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is_reduced: f.is_reduced
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}
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}
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// Fraction method which reduces the fraction
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pub fn (f Fraction) reduce() Fraction {
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if f.is_reduced {
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return f
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}
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cf := math.gcd(f.n, f.d)
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return Fraction{
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n: f.n / cf
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d: f.d / cf
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is_reduced: true
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}
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}
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// f64 converts the Fraction to 64-bit floating point
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pub fn (f Fraction) f64() f64 {
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return f64(f.n) / f64(f.d)
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}
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//
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// + ------------------+
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// | Utility functions.|
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// + ------------------+
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//
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// Returns the absolute value of an i64
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fn abs(num i64) i64 {
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if num < 0 {
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return -num
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} else {
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return num
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}
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}
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fn cmp_i64s(a, b i64) int {
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if a == b {
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return 0
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} else if a > b {
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return 1
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} else {
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return -1
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}
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}
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fn cmp_f64s(a, b f64) int {
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// V uses epsilon comparison internally
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if a == b {
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return 0
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} else if a > b {
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return 1
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} else {
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return -1
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}
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}
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// Two integers are safe to multiply when their bit lengths
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// sum up to less than 64 (conservative estimate).
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fn safe_to_multiply(a, b i64) bool {
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return (bits.len_64(abs(a)) + bits.len_64(abs(b))) < 64
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}
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fn cmp(f1, f2 Fraction) int {
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if safe_to_multiply(f1.n, f2.d) && safe_to_multiply(f2.n, f1.d) {
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return cmp_i64s(f1.n * f2.d, f2.n * f1.d)
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} else {
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return cmp_f64s(f1.f64(), f2.f64())
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}
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}
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// +-----------------------------+
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// | Public comparison functions |
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// +-----------------------------+
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// equals returns true if both the Fractions are equal
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pub fn (f1 Fraction) equals(f2 Fraction) bool {
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return cmp(f1, f2) == 0
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}
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// ge returns true if f1 >= f2
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pub fn (f1 Fraction) ge(f2 Fraction) bool {
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return cmp(f1, f2) >= 0
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}
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// gt returns true if f1 > f2
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pub fn (f1 Fraction) gt(f2 Fraction) bool {
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return cmp(f1, f2) > 0
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}
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// le returns true if f1 <= f2
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pub fn (f1 Fraction) le(f2 Fraction) bool {
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return cmp(f1, f2) <= 0
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}
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// lt returns true if f1 < f2
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pub fn (f1 Fraction) lt(f2 Fraction) bool {
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return cmp(f1, f2) < 0
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}
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