def test_rshift(self): comp = Composition(ints_less_than) >> product self.assertEqual( [ (ints_less_than, False), (product, True) ], comp._flattened() )
def test_gt(self): comp = Composition(add_one) > add_two self.assertEqual( [ (add_one, False), (add_two, False) ], comp._flattened() )
def test_long(self): comp = Composition(add_one) for _ in range(99): comp = comp > add_one self.assertEqual(comp(0), 100)
def test_splat(self): comp = Composition(ints_less_than) >> product self.assertEqual(comp(4), 6)
def test_short(self): comp = Composition(add_one) self.assertEqual(comp(0), 1)
def test_rshift(self): comp = Composition(ints_less_than) >> product self.assertEqual([(ints_less_than, False), (product, True)], comp._flattened())
def test_nosplat(self): comp = Composition(add_one) > add_two self.assertEqual(comp(0), 3)
def test_gt(self): comp = Composition(add_one) > add_two self.assertEqual([(add_one, False), (add_two, False)], comp._flattened())
def test_ignores_tuples(self): self.assertEqual(Composition()._wrap(('1', '2')), ('1', '2'))
def test__wraps_splat(self): self.assertEqual(Composition()._wrap('x', splat=True), ('x', True))
def test__wraps(self): self.assertEqual(Composition()._wrap('x'), ('x', False))
def composable(func): 'return a Composition object with just this function' return Composition(func)