def test_make_generate_function_returns_callable(self): """ Ensures the make_generate_function returns a callable (the generate function to use in the GA). """ result = make_generate_function(7, 0.2, CANTUS_FIRMUS) self.assertTrue(callable(result))
def test_make_generate_function_returns_callable(self): """ Ensures the make_generate_function returns a callable (the generate function to use in the GA). """ result = make_generate_function(7, 0.2, CANTUS_FIRMUS) self.assertTrue(callable(result))
def test_generate_function_returns_list(self): """ Ensures the new population is a list. """ generate_function = make_generate_function(7, 0.2, CANTUS_FIRMUS) g1 = Genome([1, 2, 3]) g1.fitness = 1 g2 = Genome([1, 2, 3]) g2.fitness = 2 seed_population = [g1, g2] result = generate_function(seed_population) self.assertTrue(list, type(result))
def test_generate_function_returns_list(self): """ Ensures the new population is a list. """ generate_function = make_generate_function(7, 0.2, CANTUS_FIRMUS) g1 = Genome([1, 2, 3]) g1.fitness = 1 g2 = Genome([1, 2, 3]) g2.fitness = 2 seed_population = [g1, g2] result = generate_function(seed_population) self.assertTrue(list, type(result))
def test_generate_function_returns_list_of_correct_length(self): """ Ensure the new population is the correct length. """ generate_function = make_generate_function(7, 0.2, CANTUS_FIRMUS) g1 = Genome([1, 2, 3]) g1.fitness = 1 g2 = Genome([1, 2, 3]) g2.fitness = 2 g3 = Genome([1, 2, 3]) g3.fitness = 3 seed_population = [g1, g2, g3] result = generate_function(seed_population) self.assertTrue(3, len(result))
def test_generate_function_returns_list_of_correct_length(self): """ Ensure the new population is the correct length. """ generate_function = make_generate_function(7, 0.2, CANTUS_FIRMUS) g1 = Genome([1, 2, 3]) g1.fitness = 1 g2 = Genome([1, 2, 3]) g2.fitness = 2 g3 = Genome([1, 2, 3]) g3.fitness = 3 seed_population = [g1, g2, g3] result = generate_function(seed_population) self.assertTrue(3, len(result))