"Test the functionality of Python classes implementing operators." from test_support import TestFailed testmeths = [ # Binary operations "add", "radd", "sub", "rsub", "mul", "rmul", "div", "rdiv", "mod", "rmod", "divmod", "rdivmod", "pow", "rpow", "rshift", "rrshift", "lshift", "rlshift", "and", "rand", "or", "ror", "xor", "rxor", # List/dict operations "contains", "getitem", "getslice", "setitem", "setslice", "delitem", "delslice", # Unary operations "neg", "pos", "abs", "int", "long", "float", "oct", "hex", # generic operations "init", ] # These need to return something other than None # "coerce", # "hash", # "str", # "repr", # These are separate because they can influence the test of other methods. # "getattr", # "setattr", # "delattr", class AllTests: def __coerce__(self, *args): print "__coerce__:", args return (self,) + args def __hash__(self, *args): print "__hash__:", args return hash(id(self)) def __str__(self, *args): print "__str__:", args return "AllTests" def __repr__(self, *args): print "__repr__:", args return "AllTests" def __cmp__(self, *args): print "__cmp__:", args return 0 def __del__(self, *args): print "__del__:", args for method in testmeths: exec """def __%(method)s__(self, *args): print "__%(method)s__:", args """%locals() in AllTests.__dict__ # this also tests __init__ of course. testme = AllTests() # Binary operations testme + 1 1 + testme testme - 1 1 - testme testme * 1 1 * testme testme / 1 1 / testme testme % 1 1 % testme divmod(testme,1) divmod(1, testme) testme ** 1 1 ** testme testme >> 1 1 >> testme testme << 1 1 << testme testme & 1 1 & testme testme | 1 1 | testme testme ^ 1 1 ^ testme # List/dict operations 1 in testme testme[1] testme[1] = 1 del testme[1] testme[:42] testme[:42] = "The Answer" del testme[:42] testme[2:1024:10] testme[2:1024:10] = "A lot" del testme[2:1024:10] testme[:42, ..., :24:, 24, 100] testme[:42, ..., :24:, 24, 100] = "Strange" del testme[:42, ..., :24:, 24, 100] # Now remove the slice hooks to see if converting normal slices to slice # object works. del AllTests.__getslice__ del AllTests.__setslice__ del AllTests.__delslice__ import sys if sys.platform[:4] != 'java': testme[:42] testme[:42] = "The Answer" del testme[:42] else: # This works under Jython, but the actual slice values are # different. print "__getitem__: (slice(0, 42, None),)" print "__setitem__: (slice(0, 42, None), 'The Answer')" print "__delitem__: (slice(0, 42, None),)" # Unary operations -testme +testme abs(testme) if sys.platform[:4] != 'java': int(testme) long(testme) float(testme) oct(testme) hex(testme) else: # Jython enforced that the these methods return # a value of the expected type. print "__int__: ()" print "__long__: ()" print "__float__: ()" print "__oct__: ()" print "__hex__: ()" # And the rest... hash(testme) repr(testme) str(testme) testme == 1 testme < 1 testme > 1 testme <> 1 testme != 1 1 == testme 1 < testme 1 > testme 1 <> testme 1 != testme # This test has to be last (duh.) del testme if sys.platform[:4] == 'java': import java java.lang.System.gc() # Interfering tests class ExtraTests: def __getattr__(self, *args): print "__getattr__:", args return "SomeVal" def __setattr__(self, *args): print "__setattr__:", args def __delattr__(self, *args): print "__delattr__:", args testme = ExtraTests() testme.spam testme.eggs = "spam, spam, spam and ham" del testme.cardinal # Test correct errors from hash() on objects with comparisons but no __hash__ class C0: pass hash(C0()) # This should work; the next two should raise TypeError class C1: def __cmp__(self, other): return 0 try: hash(C1()) except TypeError: pass else: raise TestFailed, "hash(C1()) should raise an exception" class C2: def __eq__(self, other): return 1 try: hash(C2()) except TypeError: pass else: raise TestFailed, "hash(C2()) should raise an exception"