2019-07-04 14:24:53 +03:00
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import math
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// Results are verified using https://www.calculatorsoup.com/calculators/math/fractions.php
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fn test_fraction_creation() {
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mut f1 := math.fraction(4,8)
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assert f1.f64() == 0.5
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assert f1.str().eq('4/8')
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f1 = math.fraction(10,5)
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assert f1.f64() == 2.0
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assert f1.str().eq('10/5')
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f1 = math.fraction(9,3)
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assert f1.f64() == 3.0
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assert f1.str().eq('9/3')
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}
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fn test_fraction_add() {
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mut f1 := math.fraction(4,8)
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mut f2 := math.fraction(5,10)
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mut sum := f1 + f2
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assert sum.f64() == 1.0
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assert sum.str().eq('80/80')
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f1 = math.fraction(5,5)
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f2 = math.fraction(8,8)
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sum = f1 + f2
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assert sum.f64() == 2.0
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assert sum.str().eq('80/40')
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f1 = math.fraction(9,3)
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f2 = math.fraction(1,3)
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sum = f1 + f2
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println(sum.f64())
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assert sum.str().eq('10/3')
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f1 = math.fraction(3,7)
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f2 = math.fraction(1,4)
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sum = f1 + f2
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println(sum.f64())
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assert sum.str().eq('19/28')
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}
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fn test_fraction_subtract() {
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mut f1 := math.fraction(4,8)
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mut f2 := math.fraction(5,10)
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mut diff := f2 - f1
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assert diff.f64() == 0
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assert diff.str().eq('0/80')
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f1 = math.fraction(5,5)
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f2 = math.fraction(8,8)
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diff = f2 - f1
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assert diff.f64() == 0
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assert diff.str().eq('0/40')
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f1 = math.fraction(9,3)
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f2 = math.fraction(1,3)
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diff = f1 - f2
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println(diff.f64())
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assert diff.str().eq('8/3')
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f1 = math.fraction(3,7)
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f2 = math.fraction(1,4)
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diff = f1 - f2
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println(diff.f64())
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assert diff.str().eq('5/28')
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}
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fn test_fraction_multiply() {
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mut f1 := math.fraction(4,8)
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mut f2 := math.fraction(5,10)
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mut product := f1.multiply(f2)
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assert product.f64() == 0.25
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assert product.str().eq('20/80')
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f1 = math.fraction(5,5)
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f2 = math.fraction(8,8)
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product = f1.multiply(f2)
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assert product.f64() == 1.0
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assert product.str().eq('40/40')
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f1 = math.fraction(9,3)
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f2 = math.fraction(1,3)
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product = f1.multiply(f2)
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assert product.f64() == 1.0
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assert product.str().eq('9/9')
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f1 = math.fraction(3,7)
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f2 = math.fraction(1,4)
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product = f1.multiply(f2)
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println(product.f64())
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assert product.str().eq('3/28')
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}
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fn test_fraction_divide() {
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mut f1 := math.fraction(4,8)
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mut f2 := math.fraction(5,10)
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mut re := f1.divide(f2)
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assert re.f64() == 1.0
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assert re.str().eq('40/40')
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f1 = math.fraction(5,5)
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f2 = math.fraction(8,8)
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re = f1.divide(f2)
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assert re.f64() == 1.0
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assert re.str().eq('40/40')
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f1 = math.fraction(9,3)
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f2 = math.fraction(1,3)
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re = f1.divide(f2)
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assert re.f64() == 9.0
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assert re.str().eq('27/3')
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f1 = math.fraction(3,7)
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f2 = math.fraction(1,4)
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re = f1.divide(f2)
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println(re.f64())
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assert re.str().eq('12/7')
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}
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fn test_fraction_reciprocal() {
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mut f1 := math.fraction(4,8)
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assert f1.reciprocal().str().eq('8/4')
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f1 = math.fraction(5,10)
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assert f1.reciprocal().str().eq('10/5')
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f1 = math.fraction(5,5)
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assert f1.reciprocal().str().eq('5/5')
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f1 = math.fraction(8,8)
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assert f1.reciprocal().str().eq('8/8')
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f1 = math.fraction(9,3)
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assert f1.reciprocal().str().eq('3/9')
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f1 = math.fraction(1,3)
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assert f1.reciprocal().str().eq('3/1')
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f1 = math.fraction(3,7)
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assert f1.reciprocal().str().eq('7/3')
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f1 = math.fraction(1,4)
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assert f1.reciprocal().str().eq('4/1')
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}
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fn test_fraction_equals() {
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mut f1 := math.fraction(4,8)
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mut f2 := math.fraction(5,10)
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assert f1.equals(f2)
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f1 = math.fraction(1,2)
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f2 = math.fraction(3,4)
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assert !f1.equals(f2)
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2019-07-12 09:27:10 +03:00
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}
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fn test_gcd_and_reduce(){
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mut f := math.fraction(3, 9)
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assert f.gcd() == 3
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assert f.reduce().equals(math.fraction(1, 3))
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2019-07-04 14:24:53 +03:00
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}
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