from math import copysign, isnan class ExtraAssertions: def assertIsSubclass(self, cls, superclass, msg=None): if issubclass(cls, superclass): return standardMsg = f'{cls!r} is not a subclass of {superclass!r}' self.fail(self._formatMessage(msg, standardMsg)) def assertNotIsSubclass(self, cls, superclass, msg=None): if not issubclass(cls, superclass): return standardMsg = f'{cls!r} is a subclass of {superclass!r}' self.fail(self._formatMessage(msg, standardMsg)) def assertHasAttr(self, obj, name, msg=None): if not hasattr(obj, name): if isinstance(obj, types.ModuleType): standardMsg = f'module {obj.__name__!r} has no attribute {name!r}' elif isinstance(obj, type): standardMsg = f'type object {obj.__name__!r} has no attribute {name!r}' else: standardMsg = f'{type(obj).__name__!r} object has no attribute {name!r}' self.fail(self._formatMessage(msg, standardMsg)) def assertNotHasAttr(self, obj, name, msg=None): if hasattr(obj, name): if isinstance(obj, types.ModuleType): standardMsg = f'module {obj.__name__!r} has unexpected attribute {name!r}' elif isinstance(obj, type): standardMsg = f'type object {obj.__name__!r} has unexpected attribute {name!r}' else: standardMsg = f'{type(obj).__name__!r} object has unexpected attribute {name!r}' self.fail(self._formatMessage(msg, standardMsg)) def assertStartsWith(self, s, prefix, msg=None): if s.startswith(prefix): return standardMsg = f"{s!r} doesn't start with {prefix!r}" self.fail(self._formatMessage(msg, standardMsg)) def assertNotStartsWith(self, s, prefix, msg=None): if not s.startswith(prefix): return self.fail(self._formatMessage(msg, f"{s!r} starts with {prefix!r}")) def assertEndsWith(self, s, suffix, msg=None): if s.endswith(suffix): return standardMsg = f"{s!r} doesn't end with {suffix!r}" self.fail(self._formatMessage(msg, standardMsg)) def assertNotEndsWith(self, s, suffix, msg=None): if not s.endswith(suffix): return self.fail(self._formatMessage(msg, f"{s!r} ends with {suffix!r}")) class ExceptionIsLikeMixin: def assertExceptionIsLike(self, exc, template): """ Passes when the provided `exc` matches the structure of `template`. Individual exceptions don't have to be the same objects or even pass an equality test: they only need to be the same type and contain equal `exc_obj.args`. """ if exc is None and template is None: return if template is None: self.fail(f"unexpected exception: {exc}") if exc is None: self.fail(f"expected an exception like {template!r}, got None") if not isinstance(exc, ExceptionGroup): self.assertEqual(exc.__class__, template.__class__) self.assertEqual(exc.args[0], template.args[0]) else: self.assertEqual(exc.message, template.message) self.assertEqual(len(exc.exceptions), len(template.exceptions)) for e, t in zip(exc.exceptions, template.exceptions): self.assertExceptionIsLike(e, t) class FloatsAreIdenticalMixin: def assertFloatsAreIdentical(self, x, y): """Fail unless floats x and y are identical, in the sense that: (1) both x and y are nans, or (2) both x and y are infinities, with the same sign, or (3) both x and y are zeros, with the same sign, or (4) x and y are both finite and nonzero, and x == y """ msg = 'floats {!r} and {!r} are not identical' if isnan(x) or isnan(y): if isnan(x) and isnan(y): return elif x == y: if x != 0.0: return # both zero; check that signs match elif copysign(1.0, x) == copysign(1.0, y): return else: msg += ': zeros have different signs' self.fail(msg.format(x, y)) class ComplexesAreIdenticalMixin(FloatsAreIdenticalMixin): def assertComplexesAreIdentical(self, x, y): """Fail unless complex numbers x and y have equal values and signs. In particular, if x and y both have real (or imaginary) part zero, but the zeros have different signs, this test will fail. """ self.assertFloatsAreIdentical(x.real, y.real) self.assertFloatsAreIdentical(x.imag, y.imag)