import copy import unittest from test.test_support import run_unittest, TestFailed, check_warnings # Fake a number that implements numeric methods through __coerce__ class CoerceNumber: def __init__(self, arg): self.arg = arg def __repr__(self): return '<CoerceNumber %s>' % repr(self.arg) def __coerce__(self, other): if isinstance(other, CoerceNumber): return self.arg, other.arg else: return (self.arg, other) # New-style class version of CoerceNumber class CoerceTo(object): def __init__(self, arg): self.arg = arg def __coerce__(self, other): if isinstance(other, CoerceTo): return self.arg, other.arg else: return self.arg, other # Fake a number that implements numeric ops through methods. class MethodNumber: def __init__(self,arg): self.arg = arg def __repr__(self): return '<MethodNumber %s>' % repr(self.arg) def __add__(self,other): return self.arg + other def __radd__(self,other): return other + self.arg def __sub__(self,other): return self.arg - other def __rsub__(self,other): return other - self.arg def __mul__(self,other): return self.arg * other def __rmul__(self,other): return other * self.arg def __div__(self,other): return self.arg / other def __rdiv__(self,other): return other / self.arg def __truediv__(self,other): return self.arg / other def __rtruediv__(self,other): return other / self.arg def __floordiv__(self,other): return self.arg // other def __rfloordiv__(self,other): return other // self.arg def __pow__(self,other): return self.arg ** other def __rpow__(self,other): return other ** self.arg def __mod__(self,other): return self.arg % other def __rmod__(self,other): return other % self.arg def __cmp__(self, other): return cmp(self.arg, other) candidates = [2, 2L, 4.0, 2+0j, [1], (2,), None, MethodNumber(2), CoerceNumber(2)] infix_binops = [ '+', '-', '*', '**', '%', '//', '/' ] TE = TypeError # b = both normal and augmented give same result list # s = single result lists for normal and augmented # e = equals other results # result lists: ['+', '-', '*', '**', '%', '//', ('classic /', 'new /')] # ^^^^^^^^^^^^^^^^^^^^^^ # 2-tuple if results differ # else only one value infix_results = { # 2 (0,0): ('b', [4, 0, 4, 4, 0, 1, (1, 1.0)]), (0,1): ('e', (0,0)), (0,2): ('b', [6.0, -2.0, 8.0, 16.0, 2.0, 0.0, 0.5]), (0,3): ('b', [4+0j, 0+0j, 4+0j, 4+0j, 0+0j, 1+0j, 1+0j]), (0,4): ('b', [TE, TE, [1, 1], TE, TE, TE, TE]), (0,5): ('b', [TE, TE, (2, 2), TE, TE, TE, TE]), (0,6): ('b', [TE, TE, TE, TE, TE, TE, TE]), (0,7): ('e', (0,0)), (0,8): ('e', (0,0)), # 2L (1,0): ('e', (0,0)), (1,1): ('e', (0,1)), (1,2): ('e', (0,2)), (1,3): ('e', (0,3)), (1,4): ('e', (0,4)), (1,5): ('e', (0,5)), (1,6): ('e', (0,6)), (1,7): ('e', (0,7)), (1,8): ('e', (0,8)), # 4.0 (2,0): ('b', [6.0, 2.0, 8.0, 16.0, 0.0, 2.0, 2.0]), (2,1): ('e', (2,0)), (2,2): ('b', [8.0, 0.0, 16.0, 256.0, 0.0, 1.0, 1.0]), (2,3): ('b', [6+0j, 2+0j, 8+0j, 16+0j, 0+0j, 2+0j, 2+0j]), (2,4): ('b', [TE, TE, TE, TE, TE, TE, TE]), (2,5): ('e', (2,4)), (2,6): ('e', (2,4)), (2,7): ('e', (2,0)), (2,8): ('e', (2,0)), # (2+0j) (3,0): ('b', [4+0j, 0+0j, 4+0j, 4+0j, 0+0j, 1+0j, 1+0j]), (3,1): ('e', (3,0)), (3,2): ('b', [6+0j, -2+0j, 8+0j, 16+0j, 2+0j, 0+0j, 0.5+0j]), (3,3): ('b', [4+0j, 0+0j, 4+0j, 4+0j, 0+0j, 1+0j, 1+0j]), (3,4): ('b', [TE, TE, TE, TE, TE, TE, TE]), (3,5): ('e', (3,4)), (3,6): ('e', (3,4)), (3,7): ('e', (3,0)), (3,8): ('e', (3,0)), # [1] (4,0): ('b', [TE, TE, [1, 1], TE, TE, TE, TE]), (4,1): ('e', (4,0)), (4,2): ('b', [TE, TE, TE, TE, TE, TE, TE]), (4,3): ('b', [TE, TE, TE, TE, TE, TE, TE]), (4,4): ('b', [[1, 1], TE, TE, TE, TE, TE, TE]), (4,5): ('s', [TE, TE, TE, TE, TE, TE, TE], [[1, 2], TE, TE, TE, TE, TE, TE]), (4,6): ('b', [TE, TE, TE, TE, TE, TE, TE]), (4,7): ('e', (4,0)), (4,8): ('e', (4,0)), # (2,) (5,0): ('b', [TE, TE, (2, 2), TE, TE, TE, TE]), (5,1): ('e', (5,0)), (5,2): ('b', [TE, TE, TE, TE, TE, TE, TE]), (5,3): ('e', (5,2)), (5,4): ('e', (5,2)), (5,5): ('b', [(2, 2), TE, TE, TE, TE, TE, TE]), (5,6): ('b', [TE, TE, TE, TE, TE, TE, TE]), (5,7): ('e', (5,0)), (5,8): ('e', (5,0)), # None (6,0): ('b', [TE, TE, TE, TE, TE, TE, TE]), (6,1): ('e', (6,0)), (6,2): ('e', (6,0)), (6,3): ('e', (6,0)), (6,4): ('e', (6,0)), (6,5): ('e', (6,0)), (6,6): ('e', (6,0)), (6,7): ('e', (6,0)), (6,8): ('e', (6,0)), # MethodNumber(2) (7,0): ('e', (0,0)), (7,1): ('e', (0,1)), (7,2): ('e', (0,2)), (7,3): ('e', (0,3)), (7,4): ('e', (0,4)), (7,5): ('e', (0,5)), (7,6): ('e', (0,6)), (7,7): ('e', (0,7)), (7,8): ('e', (0,8)), # CoerceNumber(2) (8,0): ('e', (0,0)), (8,1): ('e', (0,1)), (8,2): ('e', (0,2)), (8,3): ('e', (0,3)), (8,4): ('e', (0,4)), (8,5): ('e', (0,5)), (8,6): ('e', (0,6)), (8,7): ('e', (0,7)), (8,8): ('e', (0,8)), } def process_infix_results(): for key in sorted(infix_results): val = infix_results[key] if val[0] == 'e': infix_results[key] = infix_results[val[1]] else: if val[0] == 's': res = (val[1], val[2]) elif val[0] == 'b': res = (val[1], val[1]) for i in range(1): if isinstance(res[i][6], tuple): if 1/2 == 0: # testing with classic (floor) division res[i][6] = res[i][6][0] else: # testing with -Qnew res[i][6] = res[i][6][1] infix_results[key] = res with check_warnings(("classic (int|long) division", DeprecationWarning), quiet=True): process_infix_results() # now infix_results has two lists of results for every pairing. prefix_binops = [ 'divmod' ] prefix_results = [ [(1,0), (1L,0L), (0.0,2.0), ((1+0j),0j), TE, TE, TE, TE, (1,0)], [(1L,0L), (1L,0L), (0.0,2.0), ((1+0j),0j), TE, TE, TE, TE, (1L,0L)], [(2.0,0.0), (2.0,0.0), (1.0,0.0), ((2+0j),0j), TE, TE, TE, TE, (2.0,0.0)], [((1+0j),0j), ((1+0j),0j), (0j,(2+0j)), ((1+0j),0j), TE, TE, TE, TE, ((1+0j),0j)], [TE, TE, TE, TE, TE, TE, TE, TE, TE], [TE, TE, TE, TE, TE, TE, TE, TE, TE], [TE, TE, TE, TE, TE, TE, TE, TE, TE], [TE, TE, TE, TE, TE, TE, TE, TE, TE], [(1,0), (1L,0L), (0.0,2.0), ((1+0j),0j), TE, TE, TE, TE, (1,0)] ] def format_float(value): if abs(value) < 0.01: return '0.0' else: return '%.1f' % value # avoid testing platform fp quirks def format_result(value): if isinstance(value, complex): return '(%s + %sj)' % (format_float(value.real), format_float(value.imag)) elif isinstance(value, float): return format_float(value) return str(value) class CoercionTest(unittest.TestCase): def test_infix_binops(self): for ia, a in enumerate(candidates): for ib, b in enumerate(candidates): results = infix_results[(ia, ib)] for op, res, ires in zip(infix_binops, results[0], results[1]): if res is TE: self.assertRaises(TypeError, eval, 'a %s b' % op, {'a': a, 'b': b}) else: self.assertEqual(format_result(res), format_result(eval('a %s b' % op)), '%s %s %s == %s failed' % (a, op, b, res)) try: z = copy.copy(a) except copy.Error: z = a # assume it has no inplace ops if ires is TE: try: exec 'z %s= b' % op except TypeError: pass else: self.fail("TypeError not raised") else: exec('z %s= b' % op) self.assertEqual(ires, z) def test_prefix_binops(self): for ia, a in enumerate(candidates): for ib, b in enumerate(candidates): for op in prefix_binops: res = prefix_results[ia][ib] if res is TE: self.assertRaises(TypeError, eval, '%s(a, b)' % op, {'a': a, 'b': b}) else: self.assertEqual(format_result(res), format_result(eval('%s(a, b)' % op)), '%s(%s, %s) == %s failed' % (op, a, b, res)) def test_cmptypes(self): # Built-in tp_compare slots expect their arguments to have the # same type, but a user-defined __coerce__ doesn't have to obey. # SF #980352 evil_coercer = CoerceTo(42) # Make sure these don't crash any more self.assertNotEqual(cmp(u'fish', evil_coercer), 0) self.assertNotEqual(cmp(slice(1), evil_coercer), 0) # ...but that this still works class WackyComparer(object): def __cmp__(slf, other): self.assertTrue(other == 42, 'expected evil_coercer, got %r' % other) return 0 __hash__ = None # Invalid cmp makes this unhashable self.assertEqual(cmp(WackyComparer(), evil_coercer), 0) # ...and classic classes too, since that code path is a little different class ClassicWackyComparer: def __cmp__(slf, other): self.assertTrue(other == 42, 'expected evil_coercer, got %r' % other) return 0 self.assertEqual(cmp(ClassicWackyComparer(), evil_coercer), 0) def test_infinite_rec_classic_classes(self): # if __coerce__() returns its arguments reversed it causes an infinite # recursion for classic classes. class Tester: def __coerce__(self, other): return other, self exc = TestFailed("__coerce__() returning its arguments reverse " "should raise RuntimeError") try: Tester() + 1 except (RuntimeError, TypeError): return except: raise exc else: raise exc def test_main(): with check_warnings(("complex divmod.., // and % are deprecated", DeprecationWarning), ("classic (int|long) division", DeprecationWarning), quiet=True): run_unittest(CoercionTest) if __name__ == "__main__": test_main()