# Some raw iter tests. Some "high-level" iterator tests can be found in # testvb.py and testOutlook.py import sys import unittest import pythoncom import win32com.server.util import win32com.test.util from win32com.client import Dispatch from win32com.client.gencache import EnsureDispatch class _BaseTestCase(win32com.test.util.TestCase): def test_enumvariant_vb(self): ob, iter = self.iter_factory() got = [] for v in iter: got.append(v) self.assertEqual(got, self.expected_data) def test_yield(self): ob, i = self.iter_factory() got = [] for v in iter(i): got.append(v) self.assertEqual(got, self.expected_data) def _do_test_nonenum(self, object): try: for i in object: pass self.fail("Could iterate over a non-iterable object") except TypeError: pass # this is expected. self.assertRaises(TypeError, iter, object) self.assertRaises(AttributeError, getattr, object, "next") def test_nonenum_wrapper(self): # Check our raw PyIDispatch ob = self.object._oleobj_ try: for i in ob: pass self.fail("Could iterate over a non-iterable object") except TypeError: pass # this is expected. self.assertRaises(TypeError, iter, ob) self.assertRaises(AttributeError, getattr, ob, "next") # And our Dispatch wrapper ob = self.object try: for i in ob: pass self.fail("Could iterate over a non-iterable object") except TypeError: pass # this is expected. # Note that as our object may be dynamic, we *do* have a __getitem__ # method, meaning we *can* call iter() on the object. In this case # actual iteration is what fails. # So either the 'iter(); will raise a type error, or an attempt to # fetch it try: next(iter(ob)) self.fail("Expected a TypeError fetching this iterator") except TypeError: pass # And it should never have a 'next' method self.assertRaises(AttributeError, getattr, ob, "next") class VBTestCase(_BaseTestCase): def setUp(self): def factory(): # Our VB test harness exposes a property with IEnumVariant. ob = self.object.EnumerableCollectionProperty for i in self.expected_data: ob.Add(i) # Get the raw IEnumVARIANT. invkind = pythoncom.DISPATCH_METHOD | pythoncom.DISPATCH_PROPERTYGET iter = ob._oleobj_.InvokeTypes( pythoncom.DISPID_NEWENUM, 0, invkind, (13, 10), () ) return ob, iter.QueryInterface(pythoncom.IID_IEnumVARIANT) # We *need* generated dispatch semantics, so dynamic __getitem__ etc # don't get in the way of our tests. self.object = EnsureDispatch("PyCOMVBTest.Tester") self.expected_data = [1, "Two", "3"] self.iter_factory = factory def tearDown(self): self.object = None # Test our client semantics, but using a wrapped Python list object. # This has the effect of re-using our client specific tests, but in this # case is exercising the server side. class SomeObject: _public_methods_ = ["GetCollection"] def __init__(self, data): self.data = data def GetCollection(self): return win32com.server.util.NewCollection(self.data) class WrappedPythonCOMServerTestCase(_BaseTestCase): def setUp(self): def factory(): ob = self.object.GetCollection() flags = pythoncom.DISPATCH_METHOD | pythoncom.DISPATCH_PROPERTYGET enum = ob._oleobj_.Invoke(pythoncom.DISPID_NEWENUM, 0, flags, 1) return ob, enum.QueryInterface(pythoncom.IID_IEnumVARIANT) self.expected_data = [1, "Two", 3] sv = win32com.server.util.wrap(SomeObject(self.expected_data)) self.object = Dispatch(sv) self.iter_factory = factory def tearDown(self): self.object = None def suite(): # We dont want our base class run suite = unittest.TestSuite() for item in list(globals().values()): if ( type(item) == type(unittest.TestCase) and issubclass(item, unittest.TestCase) and item != _BaseTestCase ): suite.addTest(unittest.makeSuite(item)) return suite if __name__ == "__main__": unittest.main(argv=sys.argv + ["suite"])