# Augmented assignment test. from test.test_support import run_unittest, check_py3k_warnings import unittest class AugAssignTest(unittest.TestCase): def testBasic(self): x = 2 x += 1 x *= 2 x **= 2 x -= 8 x //= 5 x %= 3 x &= 2 x |= 5 x ^= 1 x /= 2 if 1/2 == 0: # classic division self.assertEqual(x, 3) else: # new-style division (with -Qnew) self.assertEqual(x, 3.0) def test_with_unpacking(self): self.assertRaises(SyntaxError, compile, "x, b += 3", "", "exec") def testInList(self): x = [2] x[0] += 1 x[0] *= 2 x[0] **= 2 x[0] -= 8 x[0] //= 5 x[0] %= 3 x[0] &= 2 x[0] |= 5 x[0] ^= 1 x[0] /= 2 if 1/2 == 0: self.assertEqual(x[0], 3) else: self.assertEqual(x[0], 3.0) def testInDict(self): x = {0: 2} x[0] += 1 x[0] *= 2 x[0] **= 2 x[0] -= 8 x[0] //= 5 x[0] %= 3 x[0] &= 2 x[0] |= 5 x[0] ^= 1 x[0] /= 2 if 1/2 == 0: self.assertEqual(x[0], 3) else: self.assertEqual(x[0], 3.0) def testSequences(self): x = [1,2] x += [3,4] x *= 2 self.assertEqual(x, [1, 2, 3, 4, 1, 2, 3, 4]) x = [1, 2, 3] y = x x[1:2] *= 2 y[1:2] += [1] self.assertEqual(x, [1, 2, 1, 2, 3]) self.assertTrue(x is y) def testCustomMethods1(self): class aug_test: def __init__(self, value): self.val = value def __radd__(self, val): return self.val + val def __add__(self, val): return aug_test(self.val + val) class aug_test2(aug_test): def __iadd__(self, val): self.val = self.val + val return self class aug_test3(aug_test): def __iadd__(self, val): return aug_test3(self.val + val) x = aug_test(1) y = x x += 10 self.assertIsInstance(x, aug_test) self.assertTrue(y is not x) self.assertEqual(x.val, 11) x = aug_test2(2) y = x x += 10 self.assertTrue(y is x) self.assertEqual(x.val, 12) x = aug_test3(3) y = x x += 10 self.assertIsInstance(x, aug_test3) self.assertTrue(y is not x) self.assertEqual(x.val, 13) def testCustomMethods2(test_self): output = [] class testall: def __add__(self, val): output.append("__add__ called") def __radd__(self, val): output.append("__radd__ called") def __iadd__(self, val): output.append("__iadd__ called") return self def __sub__(self, val): output.append("__sub__ called") def __rsub__(self, val): output.append("__rsub__ called") def __isub__(self, val): output.append("__isub__ called") return self def __mul__(self, val): output.append("__mul__ called") def __rmul__(self, val): output.append("__rmul__ called") def __imul__(self, val): output.append("__imul__ called") return self def __div__(self, val): output.append("__div__ called") def __rdiv__(self, val): output.append("__rdiv__ called") def __idiv__(self, val): output.append("__idiv__ called") return self def __floordiv__(self, val): output.append("__floordiv__ called") return self def __ifloordiv__(self, val): output.append("__ifloordiv__ called") return self def __rfloordiv__(self, val): output.append("__rfloordiv__ called") return self def __truediv__(self, val): output.append("__truediv__ called") return self def __itruediv__(self, val): output.append("__itruediv__ called") return self def __mod__(self, val): output.append("__mod__ called") def __rmod__(self, val): output.append("__rmod__ called") def __imod__(self, val): output.append("__imod__ called") return self def __pow__(self, val): output.append("__pow__ called") def __rpow__(self, val): output.append("__rpow__ called") def __ipow__(self, val): output.append("__ipow__ called") return self def __or__(self, val): output.append("__or__ called") def __ror__(self, val): output.append("__ror__ called") def __ior__(self, val): output.append("__ior__ called") return self def __and__(self, val): output.append("__and__ called") def __rand__(self, val): output.append("__rand__ called") def __iand__(self, val): output.append("__iand__ called") return self def __xor__(self, val): output.append("__xor__ called") def __rxor__(self, val): output.append("__rxor__ called") def __ixor__(self, val): output.append("__ixor__ called") return self def __rshift__(self, val): output.append("__rshift__ called") def __rrshift__(self, val): output.append("__rrshift__ called") def __irshift__(self, val): output.append("__irshift__ called") return self def __lshift__(self, val): output.append("__lshift__ called") def __rlshift__(self, val): output.append("__rlshift__ called") def __ilshift__(self, val): output.append("__ilshift__ called") return self x = testall() x + 1 1 + x x += 1 x - 1 1 - x x -= 1 x * 1 1 * x x *= 1 if 1/2 == 0: x / 1 1 / x x /= 1 else: # True division is in effect, so "/" doesn't map to __div__ etc; # but the canned expected-output file requires that those get called. x.__div__(1) x.__rdiv__(1) x.__idiv__(1) x // 1 1 // x x //= 1 x % 1 1 % x x %= 1 x ** 1 1 ** x x **= 1 x | 1 1 | x x |= 1 x & 1 1 & x x &= 1 x ^ 1 1 ^ x x ^= 1 x >> 1 1 >> x x >>= 1 x << 1 1 << x x <<= 1 test_self.assertEqual(output, '''\ __add__ called __radd__ called __iadd__ called __sub__ called __rsub__ called __isub__ called __mul__ called __rmul__ called __imul__ called __div__ called __rdiv__ called __idiv__ called __floordiv__ called __rfloordiv__ called __ifloordiv__ called __mod__ called __rmod__ called __imod__ called __pow__ called __rpow__ called __ipow__ called __or__ called __ror__ called __ior__ called __and__ called __rand__ called __iand__ called __xor__ called __rxor__ called __ixor__ called __rshift__ called __rrshift__ called __irshift__ called __lshift__ called __rlshift__ called __ilshift__ called '''.splitlines()) def test_main(): with check_py3k_warnings(("classic int division", DeprecationWarning)): run_unittest(AugAssignTest) if __name__ == '__main__': test_main()