Beispiel #1
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    def __add__(self, other_fraction):
        new_denom = number_theory.lcm(self.denominator,
                                      other_fraction.denominator)

        partial_num_1 = (new_denom // self.denominator) * self.numerator
        partial_num_2 = (new_denom //
                         other_fraction.denominator) * other_fraction.numerator

        return Fraction(partial_num_1 + partial_num_2, new_denom)
Beispiel #2
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def lcmTest():
    for i in range(0, 5):
        x = secrets.randbelow(2000)
        y = secrets.randbelow(2000)
    
        if x > y:
            greater = x
        else:
            greater = y

        while(True):
            if((greater % x == 0) and (greater % y == 0)):
                lcm = greater
                break
            greater += 1

    assert(lcm == nt.lcm(x,y))
Beispiel #3
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 def test_other(self):
     self.assertEqual(lcm(1071, 1029), 52479)
Beispiel #4
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 def test_one(self):
     self.assertEqual(lcm(7, 1), 7)
Beispiel #5
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 def test_zero(self):
     self.assertEqual(lcm(7, 0), 0)
Beispiel #6
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 def test_lcm_of_large_two_primes(self):
     assert number_theory.lcm(1013, 4297) == 4_352_861
Beispiel #7
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 def test_lcm_normal(self):
     assert number_theory.lcm(4, 6) == 12
     assert number_theory.lcm(3, 5) == 15
     assert number_theory.lcm(8, 20) == 40
Beispiel #8
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 def test_lcm_b_multiple_b(self):
     assert number_theory.lcm(3, 9) == 9
Beispiel #9
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 def test_lcm_a_multiple_b(self):
     assert number_theory.lcm(9, 3) == 9
Beispiel #10
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 def test_lcm_same(self):
     assert number_theory.lcm(1, 1) == 1
Beispiel #11
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from number_theory import gcd, lcm

lcm_final = 1

for i in range(20):
    lcm_final = lcm(lcm_final, i + 1)
    print('%d -> %d' % (i + 1, lcm_final))