Exemplo n.º 1
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 def test_reduces_proper_mutability(self):
     A = Prob3.Fraction(4, 8)
     B = Prob3.Fraction(4, 8)
     C = B.reduce()
     assert str(A) == str(
         B
     ), 'In the process of reducing you changed the value of your Fraction. You want to return a NEW FRACTION without changing anything in place!'
Exemplo n.º 2
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 def test_divide_by_fraction(self):
     vals = {
         ((1, 2), (1, 2)): '2/2',
         ((3, 4), (1, 2)): '6/4',
         ((6, 3), (1, 8)): '48/3',
     }
     for key in vals:
         A = Prob3.Fraction(*key[0])
         B = Prob3.Fraction(*key[1])
         assert str(A / B) == vals[
             key], f'Dividing Fraction{key[0]} by Fraction{key[1]} should equal {vals[key]} but is equaling {str(A/B)}'
         assert isinstance(
             A * B, Prob3.Fraction
         ), 'Dividing a fraction by another fraction should return an object of type Fraction.'
Exemplo n.º 3
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 def test_multiply_fractions(self):
     vals = {
         ((1, 2), (1, 2)): '1/4',
         ((3, 4), (1, 2)): '3/8',
         ((6, 3), (1, 8)): '6/24',
     }
     for key in vals:
         A = Prob3.Fraction(*key[0])
         B = Prob3.Fraction(*key[1])
         assert str(A * B) == vals[
             key], f'Multiplying Fraction{key[0]} by Fraction{key[1]} should equal {vals[key]} but is equaling {str(A*B)}'
         assert isinstance(
             A * B, Prob3.Fraction
         ), 'Multiplying two fractions should return an object of type Fraction.'
Exemplo n.º 4
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 def test_inverse(self):
     vals = {(3, 2): '2/3', (1, 8): '8/1', (2, 16): '16/2'}
     for key in vals:
         A = Prob3.Fraction(*key)
         assert str(A.inverse()) == vals[
             key], f'The inverse is not correct. Should be {vals[key]} but is getting a printed value of {str(A.inverse())}'
         assert isinstance(
             A.inverse(), Prob3.Fraction
         ), 'You should be returning a Fraction object type.'
Exemplo n.º 5
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 def test_float_conversion(self):
     vals = {
         (4, 5): float(4 / 5),
         (2, 3): float(2 / 3),
         (7, 1): float(7 / 1),
     }
     for key in vals:
         A = Prob3.Fraction(*key)
         assert float(A) == vals[
             key], f'Conversion to a float is not equaling the desired value of {vals[key]} for Fraction{key}.'
Exemplo n.º 6
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 def test_multiply_fraction_by_integer(self):
     vals = {((1, 2), 3): '3/2', ((3, 4), 2): '6/4', ((8, 5), 10): '80/5'}
     for key in vals:
         A = Prob3.Fraction(*key[0])
         B = key[1]
         assert str(A * B) == vals[
             key], f'Multiplying Fraction{key[0]} by {key[1]} should give {vals[key]} but instead gives {str(A*B)}.'
         assert str(B * A) == vals[
             key], f'Multiplying {key[1]} by Fraction{key[0]} should give {vals[key]} but instead gives {str(A*B)}.'
         assert isinstance(
             A * B, Prob3.Fraction
         ), 'Multiplying a fraction by an integer should return an object of type Fraction.'
Exemplo n.º 7
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 def test_reduces_proper_value(self):
     vals = {
         (1, 2): '1/2',
         (3, 6): '1/2',
         (8, 24): '1/3',
         (10, 100): '1/10'
     }
     for key in vals:
         A = Prob3.Fraction(*key)
         assert str(A.reduce()) == vals[
             key], f'The fraction of Fraction{key} did not properly reduce to a printed value of {vals[key]}.'
         assert isinstance(
             A.reduce(), Prob3.Fraction
         ), 'You should still be returning a Fraction type object, but you are not.'
Exemplo n.º 8
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 def test_divide_by_integer(self):
     vals = {
         ((1, 2), 3): '1/6',
         ((3, 4), 4): '3/16',
         ((6, 3), 2): '6/6',
     }
     for key in vals:
         A = Prob3.Fraction(*key[0])
         B = key[1]
         assert str(A / B) == vals[
             key], f'Dividing Fraction{key[0]} by {key[1]} should equal {vals[key]} but is equaling {str(A/B)}'
         assert isinstance(
             A * B, Prob3.Fraction
         ), 'Dividing a fraction by an integer should return an object of type Fraction.'
Exemplo n.º 9
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 def test_prints_nicely(self):
     vals = {(1, 2): '1/2', (5, 2): '5/2', (4, 8): '4/8', (9, 3): '9/3'}
     for key in vals:
         A = Prob3.Fraction(*key)
         assert str(A) == vals[
             key], f'The fraction of Fraction{key} did not print properly as {vals[key]}'
Exemplo n.º 10
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 def test_can_create_instance(self):
     A = Prob3.Fraction(1, 2)
     assert isinstance(A, Prob3.Fraction)