"""Unit tests for the copy module.""" import copy import copyreg import weakref import abc from operator import le, lt, ge, gt, eq, ne, attrgetter import unittest from test import support order_comparisons = le, lt, ge, gt equality_comparisons = eq, ne comparisons = order_comparisons + equality_comparisons class TestCopy(unittest.TestCase): # Attempt full line coverage of copy.py from top to bottom def test_exceptions(self): self.assertIs(copy.Error, copy.error) self.assertTrue(issubclass(copy.Error, Exception)) # The copy() method def test_copy_basic(self): x = 42 y = copy.copy(x) self.assertEqual(x, y) def test_copy_copy(self): class C(object): def __init__(self, foo): self.foo = foo def __copy__(self): return C(self.foo) x = C(42) y = copy.copy(x) self.assertEqual(y.__class__, x.__class__) self.assertEqual(y.foo, x.foo) def test_copy_registry(self): class C(object): def __new__(cls, foo): obj = object.__new__(cls) obj.foo = foo return obj def pickle_C(obj): return (C, (obj.foo,)) x = C(42) self.assertRaises(TypeError, copy.copy, x) copyreg.pickle(C, pickle_C, C) y = copy.copy(x) self.assertIsNot(x, y) self.assertEqual(type(y), C) self.assertEqual(y.foo, x.foo) def test_copy_reduce_ex(self): class C(object): def __reduce_ex__(self, proto): c.append(1) return "" def __reduce__(self): self.fail("shouldn't call this") c = [] x = C() y = copy.copy(x) self.assertIs(y, x) self.assertEqual(c, [1]) def test_copy_reduce(self): class C(object): def __reduce__(self): c.append(1) return "" c = [] x = C() y = copy.copy(x) self.assertIs(y, x) self.assertEqual(c, [1]) def test_copy_cant(self): class C(object): def __getattribute__(self, name): if name.startswith("__reduce"): raise AttributeError(name) return object.__getattribute__(self, name) x = C() self.assertRaises(copy.Error, copy.copy, x) # Type-specific _copy_xxx() methods def test_copy_atomic(self): class NewStyle: pass def f(): pass class WithMetaclass(metaclass=abc.ABCMeta): pass tests = [None, ..., NotImplemented, 42, 2**100, 3.14, True, False, 1j, "hello", "hello\u1234", f.__code__, b"world", bytes(range(256)), range(10), slice(1, 10, 2), NewStyle, max, WithMetaclass, property()] for x in tests: self.assertIs(copy.copy(x), x) def test_copy_list(self): x = [1, 2, 3] y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) x = [] y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) def test_copy_tuple(self): x = (1, 2, 3) self.assertIs(copy.copy(x), x) x = () self.assertIs(copy.copy(x), x) x = (1, 2, 3, []) self.assertIs(copy.copy(x), x) def test_copy_dict(self): x = {"foo": 1, "bar": 2} y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) x = {} y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) def test_copy_set(self): x = {1, 2, 3} y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) x = set() y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) def test_copy_frozenset(self): x = frozenset({1, 2, 3}) self.assertIs(copy.copy(x), x) x = frozenset() self.assertIs(copy.copy(x), x) def test_copy_bytearray(self): x = bytearray(b'abc') y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) x = bytearray() y = copy.copy(x) self.assertEqual(y, x) self.assertIsNot(y, x) def test_copy_inst_vanilla(self): class C: def __init__(self, foo): self.foo = foo def __eq__(self, other): return self.foo == other.foo x = C(42) self.assertEqual(copy.copy(x), x) def test_copy_inst_copy(self): class C: def __init__(self, foo): self.foo = foo def __copy__(self): return C(self.foo) def __eq__(self, other): return self.foo == other.foo x = C(42) self.assertEqual(copy.copy(x), x) def test_copy_inst_getinitargs(self): class C: def __init__(self, foo): self.foo = foo def __getinitargs__(self): return (self.foo,) def __eq__(self, other): return self.foo == other.foo x = C(42) self.assertEqual(copy.copy(x), x) def test_copy_inst_getnewargs(self): class C(int): def __new__(cls, foo): self = int.__new__(cls) self.foo = foo return self def __getnewargs__(self): return self.foo, def __eq__(self, other): return self.foo == other.foo x = C(42) y = copy.copy(x) self.assertIsInstance(y, C) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertEqual(y.foo, x.foo) def test_copy_inst_getnewargs_ex(self): class C(int): def __new__(cls, *, foo): self = int.__new__(cls) self.foo = foo return self def __getnewargs_ex__(self): return (), {'foo': self.foo} def __eq__(self, other): return self.foo == other.foo x = C(foo=42) y = copy.copy(x) self.assertIsInstance(y, C) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertEqual(y.foo, x.foo) def test_copy_inst_getstate(self): class C: def __init__(self, foo): self.foo = foo def __getstate__(self): return {"foo": self.foo} def __eq__(self, other): return self.foo == other.foo x = C(42) self.assertEqual(copy.copy(x), x) def test_copy_inst_setstate(self): class C: def __init__(self, foo): self.foo = foo def __setstate__(self, state): self.foo = state["foo"] def __eq__(self, other): return self.foo == other.foo x = C(42) self.assertEqual(copy.copy(x), x) def test_copy_inst_getstate_setstate(self): class C: def __init__(self, foo): self.foo = foo def __getstate__(self): return self.foo def __setstate__(self, state): self.foo = state def __eq__(self, other): return self.foo == other.foo x = C(42) self.assertEqual(copy.copy(x), x) # State with boolean value is false (issue #25718) x = C(0.0) self.assertEqual(copy.copy(x), x) # The deepcopy() method def test_deepcopy_basic(self): x = 42 y = copy.deepcopy(x) self.assertEqual(y, x) def test_deepcopy_memo(self): # Tests of reflexive objects are under type-specific sections below. # This tests only repetitions of objects. x = [] x = [x, x] y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertIsNot(y[0], x[0]) self.assertIs(y[0], y[1]) def test_deepcopy_issubclass(self): # XXX Note: there's no way to test the TypeError coming out of # issubclass() -- this can only happen when an extension # module defines a "type" that doesn't formally inherit from # type. class Meta(type): pass class C(metaclass=Meta): pass self.assertEqual(copy.deepcopy(C), C) def test_deepcopy_deepcopy(self): class C(object): def __init__(self, foo): self.foo = foo def __deepcopy__(self, memo=None): return C(self.foo) x = C(42) y = copy.deepcopy(x) self.assertEqual(y.__class__, x.__class__) self.assertEqual(y.foo, x.foo) def test_deepcopy_registry(self): class C(object): def __new__(cls, foo): obj = object.__new__(cls) obj.foo = foo return obj def pickle_C(obj): return (C, (obj.foo,)) x = C(42) self.assertRaises(TypeError, copy.deepcopy, x) copyreg.pickle(C, pickle_C, C) y = copy.deepcopy(x) self.assertIsNot(x, y) self.assertEqual(type(y), C) self.assertEqual(y.foo, x.foo) def test_deepcopy_reduce_ex(self): class C(object): def __reduce_ex__(self, proto): c.append(1) return "" def __reduce__(self): self.fail("shouldn't call this") c = [] x = C() y = copy.deepcopy(x) self.assertIs(y, x) self.assertEqual(c, [1]) def test_deepcopy_reduce(self): class C(object): def __reduce__(self): c.append(1) return "" c = [] x = C() y = copy.deepcopy(x) self.assertIs(y, x) self.assertEqual(c, [1]) def test_deepcopy_cant(self): class C(object): def __getattribute__(self, name): if name.startswith("__reduce"): raise AttributeError(name) return object.__getattribute__(self, name) x = C() self.assertRaises(copy.Error, copy.deepcopy, x) # Type-specific _deepcopy_xxx() methods def test_deepcopy_atomic(self): class NewStyle: pass def f(): pass tests = [None, ..., NotImplemented, 42, 2**100, 3.14, True, False, 1j, b"bytes", "hello", "hello\u1234", f.__code__, NewStyle, range(10), max, property()] for x in tests: self.assertIs(copy.deepcopy(x), x) def test_deepcopy_list(self): x = [[1, 2], 3] y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(x, y) self.assertIsNot(x[0], y[0]) def test_deepcopy_reflexive_list(self): x = [] x.append(x) y = copy.deepcopy(x) for op in comparisons: self.assertRaises(RecursionError, op, y, x) self.assertIsNot(y, x) self.assertIs(y[0], y) self.assertEqual(len(y), 1) def test_deepcopy_empty_tuple(self): x = () y = copy.deepcopy(x) self.assertIs(x, y) def test_deepcopy_tuple(self): x = ([1, 2], 3) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(x, y) self.assertIsNot(x[0], y[0]) def test_deepcopy_tuple_of_immutables(self): x = ((1, 2), 3) y = copy.deepcopy(x) self.assertIs(x, y) def test_deepcopy_reflexive_tuple(self): x = ([],) x[0].append(x) y = copy.deepcopy(x) for op in comparisons: self.assertRaises(RecursionError, op, y, x) self.assertIsNot(y, x) self.assertIsNot(y[0], x[0]) self.assertIs(y[0][0], y) def test_deepcopy_dict(self): x = {"foo": [1, 2], "bar": 3} y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(x, y) self.assertIsNot(x["foo"], y["foo"]) def test_deepcopy_reflexive_dict(self): x = {} x['foo'] = x y = copy.deepcopy(x) for op in order_comparisons: self.assertRaises(TypeError, op, y, x) for op in equality_comparisons: self.assertRaises(RecursionError, op, y, x) self.assertIsNot(y, x) self.assertIs(y['foo'], y) self.assertEqual(len(y), 1) def test_deepcopy_keepalive(self): memo = {} x = [] y = copy.deepcopy(x, memo) self.assertIs(memo[id(memo)][0], x) def test_deepcopy_dont_memo_immutable(self): memo = {} x = [1, 2, 3, 4] y = copy.deepcopy(x, memo) self.assertEqual(y, x) # There's the entry for the new list, and the keep alive. self.assertEqual(len(memo), 2) memo = {} x = [(1, 2)] y = copy.deepcopy(x, memo) self.assertEqual(y, x) # Tuples with immutable contents are immutable for deepcopy. self.assertEqual(len(memo), 2) def test_deepcopy_inst_vanilla(self): class C: def __init__(self, foo): self.foo = foo def __eq__(self, other): return self.foo == other.foo x = C([42]) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y.foo, x.foo) def test_deepcopy_inst_deepcopy(self): class C: def __init__(self, foo): self.foo = foo def __deepcopy__(self, memo): return C(copy.deepcopy(self.foo, memo)) def __eq__(self, other): return self.foo == other.foo x = C([42]) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertIsNot(y.foo, x.foo) def test_deepcopy_inst_getinitargs(self): class C: def __init__(self, foo): self.foo = foo def __getinitargs__(self): return (self.foo,) def __eq__(self, other): return self.foo == other.foo x = C([42]) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertIsNot(y.foo, x.foo) def test_deepcopy_inst_getnewargs(self): class C(int): def __new__(cls, foo): self = int.__new__(cls) self.foo = foo return self def __getnewargs__(self): return self.foo, def __eq__(self, other): return self.foo == other.foo x = C([42]) y = copy.deepcopy(x) self.assertIsInstance(y, C) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertEqual(y.foo, x.foo) self.assertIsNot(y.foo, x.foo) def test_deepcopy_inst_getnewargs_ex(self): class C(int): def __new__(cls, *, foo): self = int.__new__(cls) self.foo = foo return self def __getnewargs_ex__(self): return (), {'foo': self.foo} def __eq__(self, other): return self.foo == other.foo x = C(foo=[42]) y = copy.deepcopy(x) self.assertIsInstance(y, C) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertEqual(y.foo, x.foo) self.assertIsNot(y.foo, x.foo) def test_deepcopy_inst_getstate(self): class C: def __init__(self, foo): self.foo = foo def __getstate__(self): return {"foo": self.foo} def __eq__(self, other): return self.foo == other.foo x = C([42]) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertIsNot(y.foo, x.foo) def test_deepcopy_inst_setstate(self): class C: def __init__(self, foo): self.foo = foo def __setstate__(self, state): self.foo = state["foo"] def __eq__(self, other): return self.foo == other.foo x = C([42]) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertIsNot(y.foo, x.foo) def test_deepcopy_inst_getstate_setstate(self): class C: def __init__(self, foo): self.foo = foo def __getstate__(self): return self.foo def __setstate__(self, state): self.foo = state def __eq__(self, other): return self.foo == other.foo x = C([42]) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertIsNot(y.foo, x.foo) # State with boolean value is false (issue #25718) x = C([]) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y, x) self.assertIsNot(y.foo, x.foo) def test_deepcopy_reflexive_inst(self): class C: pass x = C() x.foo = x y = copy.deepcopy(x) self.assertIsNot(y, x) self.assertIs(y.foo, y) # _reconstruct() def test_reconstruct_string(self): class C(object): def __reduce__(self): return "" x = C() y = copy.copy(x) self.assertIs(y, x) y = copy.deepcopy(x) self.assertIs(y, x) def test_reconstruct_nostate(self): class C(object): def __reduce__(self): return (C, ()) x = C() x.foo = 42 y = copy.copy(x) self.assertIs(y.__class__, x.__class__) y = copy.deepcopy(x) self.assertIs(y.__class__, x.__class__) def test_reconstruct_state(self): class C(object): def __reduce__(self): return (C, (), self.__dict__) def __eq__(self, other): return self.__dict__ == other.__dict__ x = C() x.foo = [42] y = copy.copy(x) self.assertEqual(y, x) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y.foo, x.foo) def test_reconstruct_state_setstate(self): class C(object): def __reduce__(self): return (C, (), self.__dict__) def __setstate__(self, state): self.__dict__.update(state) def __eq__(self, other): return self.__dict__ == other.__dict__ x = C() x.foo = [42] y = copy.copy(x) self.assertEqual(y, x) y = copy.deepcopy(x) self.assertEqual(y, x) self.assertIsNot(y.foo, x.foo) def test_reconstruct_reflexive(self): class C(object): pass x = C() x.foo = x y = copy.deepcopy(x) self.assertIsNot(y, x) self.assertIs(y.foo, y) # Additions for Python 2.3 and pickle protocol 2 def test_reduce_4tuple(self): class C(list): def __reduce__(self): return (C, (), self.__dict__, iter(self)) def __eq__(self, other): return (list(self) == list(other) and self.__dict__ == other.__dict__) x = C([[1, 2], 3]) y = copy.copy(x) self.assertEqual(x, y) self.assertIsNot(x, y) self.assertIs(x[0], y[0]) y = copy.deepcopy(x) self.assertEqual(x, y) self.assertIsNot(x, y) self.assertIsNot(x[0], y[0]) def test_reduce_5tuple(self): class C(dict): def __reduce__(self): return (C, (), self.__dict__, None, self.items()) def __eq__(self, other): return (dict(self) == dict(other) and self.__dict__ == other.__dict__) x = C([("foo", [1, 2]), ("bar", 3)]) y = copy.copy(x) self.assertEqual(x, y) self.assertIsNot(x, y) self.assertIs(x["foo"], y["foo"]) y = copy.deepcopy(x) self.assertEqual(x, y) self.assertIsNot(x, y) self.assertIsNot(x["foo"], y["foo"]) def test_reduce_6tuple(self): def state_setter(*args, **kwargs): self.fail("shouldn't call this") class C: def __reduce__(self): return C, (), self.__dict__, None, None, state_setter x = C() with self.assertRaises(TypeError): copy.copy(x) with self.assertRaises(TypeError): copy.deepcopy(x) def test_reduce_6tuple_none(self): class C: def __reduce__(self): return C, (), self.__dict__, None, None, None x = C() with self.assertRaises(TypeError): copy.copy(x) with self.assertRaises(TypeError): copy.deepcopy(x) def test_copy_slots(self): class C(object): __slots__ = ["foo"] x = C() x.foo = [42] y = copy.copy(x) self.assertIs(x.foo, y.foo) def test_deepcopy_slots(self): class C(object): __slots__ = ["foo"] x = C() x.foo = [42] y = copy.deepcopy(x) self.assertEqual(x.foo, y.foo) self.assertIsNot(x.foo, y.foo) def test_deepcopy_dict_subclass(self): class C(dict): def __init__(self, d=None): if not d: d = {} self._keys = list(d.keys()) super().__init__(d) def __setitem__(self, key, item): super().__setitem__(key, item) if key not in self._keys: self._keys.append(key) x = C(d={'foo':0}) y = copy.deepcopy(x) self.assertEqual(x, y) self.assertEqual(x._keys, y._keys) self.assertIsNot(x, y) x['bar'] = 1 self.assertNotEqual(x, y) self.assertNotEqual(x._keys, y._keys) def test_copy_list_subclass(self): class C(list): pass x = C([[1, 2], 3]) x.foo = [4, 5] y = copy.copy(x) self.assertEqual(list(x), list(y)) self.assertEqual(x.foo, y.foo) self.assertIs(x[0], y[0]) self.assertIs(x.foo, y.foo) def test_deepcopy_list_subclass(self): class C(list): pass x = C([[1, 2], 3]) x.foo = [4, 5] y = copy.deepcopy(x) self.assertEqual(list(x), list(y)) self.assertEqual(x.foo, y.foo) self.assertIsNot(x[0], y[0]) self.assertIsNot(x.foo, y.foo) def test_copy_tuple_subclass(self): class C(tuple): pass x = C([1, 2, 3]) self.assertEqual(tuple(x), (1, 2, 3)) y = copy.copy(x) self.assertEqual(tuple(y), (1, 2, 3)) def test_deepcopy_tuple_subclass(self): class C(tuple): pass x = C([[1, 2], 3]) self.assertEqual(tuple(x), ([1, 2], 3)) y = copy.deepcopy(x) self.assertEqual(tuple(y), ([1, 2], 3)) self.assertIsNot(x, y) self.assertIsNot(x[0], y[0]) def test_getstate_exc(self): class EvilState(object): def __getstate__(self): raise ValueError("ain't got no stickin' state") self.assertRaises(ValueError, copy.copy, EvilState()) def test_copy_function(self): self.assertEqual(copy.copy(global_foo), global_foo) def foo(x, y): return x+y self.assertEqual(copy.copy(foo), foo) bar = lambda: None self.assertEqual(copy.copy(bar), bar) def test_deepcopy_function(self): self.assertEqual(copy.deepcopy(global_foo), global_foo) def foo(x, y): return x+y self.assertEqual(copy.deepcopy(foo), foo) bar = lambda: None self.assertEqual(copy.deepcopy(bar), bar) def _check_weakref(self, _copy): class C(object): pass obj = C() x = weakref.ref(obj) y = _copy(x) self.assertIs(y, x) del obj y = _copy(x) self.assertIs(y, x) def test_copy_weakref(self): self._check_weakref(copy.copy) def test_deepcopy_weakref(self): self._check_weakref(copy.deepcopy) def _check_copy_weakdict(self, _dicttype): class C(object): pass a, b, c, d = [C() for i in range(4)] u = _dicttype() u[a] = b u[c] = d v = copy.copy(u) self.assertIsNot(v, u) self.assertEqual(v, u) self.assertEqual(v[a], b) self.assertEqual(v[c], d) self.assertEqual(len(v), 2) del c, d support.gc_collect() # For PyPy or other GCs. self.assertEqual(len(v), 1) x, y = C(), C() # The underlying containers are decoupled v[x] = y self.assertNotIn(x, u) def test_copy_weakkeydict(self): self._check_copy_weakdict(weakref.WeakKeyDictionary) def test_copy_weakvaluedict(self): self._check_copy_weakdict(weakref.WeakValueDictionary) def test_deepcopy_weakkeydict(self): class C(object): def __init__(self, i): self.i = i a, b, c, d = [C(i) for i in range(4)] u = weakref.WeakKeyDictionary() u[a] = b u[c] = d # Keys aren't copied, values are v = copy.deepcopy(u) self.assertNotEqual(v, u) self.assertEqual(len(v), 2) self.assertIsNot(v[a], b) self.assertIsNot(v[c], d) self.assertEqual(v[a].i, b.i) self.assertEqual(v[c].i, d.i) del c support.gc_collect() # For PyPy or other GCs. self.assertEqual(len(v), 1) def test_deepcopy_weakvaluedict(self): class C(object): def __init__(self, i): self.i = i a, b, c, d = [C(i) for i in range(4)] u = weakref.WeakValueDictionary() u[a] = b u[c] = d # Keys are copied, values aren't v = copy.deepcopy(u) self.assertNotEqual(v, u) self.assertEqual(len(v), 2) (x, y), (z, t) = sorted(v.items(), key=lambda pair: pair[0].i) self.assertIsNot(x, a) self.assertEqual(x.i, a.i) self.assertIs(y, b) self.assertIsNot(z, c) self.assertEqual(z.i, c.i) self.assertIs(t, d) del x, y, z, t del d support.gc_collect() # For PyPy or other GCs. self.assertEqual(len(v), 1) def test_deepcopy_bound_method(self): class Foo(object): def m(self): pass f = Foo() f.b = f.m g = copy.deepcopy(f) self.assertEqual(g.m, g.b) self.assertIs(g.b.__self__, g) g.b() class TestReplace(unittest.TestCase): def test_unsupported(self): self.assertRaises(TypeError, copy.replace, 1) self.assertRaises(TypeError, copy.replace, []) self.assertRaises(TypeError, copy.replace, {}) def f(): pass self.assertRaises(TypeError, copy.replace, f) class A: pass self.assertRaises(TypeError, copy.replace, A) self.assertRaises(TypeError, copy.replace, A()) def test_replace_method(self): class A: def __new__(cls, x, y=0): self = object.__new__(cls) self.x = x self.y = y return self def __init__(self, *args, **kwargs): self.z = self.x + self.y def __replace__(self, **changes): x = changes.get('x', self.x) y = changes.get('y', self.y) return type(self)(x, y) attrs = attrgetter('x', 'y', 'z') a = A(11, 22) self.assertEqual(attrs(copy.replace(a)), (11, 22, 33)) self.assertEqual(attrs(copy.replace(a, x=1)), (1, 22, 23)) self.assertEqual(attrs(copy.replace(a, y=2)), (11, 2, 13)) self.assertEqual(attrs(copy.replace(a, x=1, y=2)), (1, 2, 3)) def test_namedtuple(self): from collections import namedtuple from typing import NamedTuple PointFromCall = namedtuple('Point', 'x y', defaults=(0,)) class PointFromInheritance(PointFromCall): pass class PointFromClass(NamedTuple): x: int y: int = 0 for Point in (PointFromCall, PointFromInheritance, PointFromClass): with self.subTest(Point=Point): p = Point(11, 22) self.assertIsInstance(p, Point) self.assertEqual(copy.replace(p), (11, 22)) self.assertIsInstance(copy.replace(p), Point) self.assertEqual(copy.replace(p, x=1), (1, 22)) self.assertEqual(copy.replace(p, y=2), (11, 2)) self.assertEqual(copy.replace(p, x=1, y=2), (1, 2)) with self.assertRaisesRegex(ValueError, 'unexpected field name'): copy.replace(p, x=1, error=2) def test_dataclass(self): from dataclasses import dataclass @dataclass class C: x: int y: int = 0 attrs = attrgetter('x', 'y') c = C(11, 22) self.assertEqual(attrs(copy.replace(c)), (11, 22)) self.assertEqual(attrs(copy.replace(c, x=1)), (1, 22)) self.assertEqual(attrs(copy.replace(c, y=2)), (11, 2)) self.assertEqual(attrs(copy.replace(c, x=1, y=2)), (1, 2)) with self.assertRaisesRegex(TypeError, 'unexpected keyword argument'): copy.replace(c, x=1, error=2) def global_foo(x, y): return x+y if __name__ == "__main__": unittest.main()