import pytest from pybind11_tests import kwargs_and_defaults as m def test_function_signatures(doc): assert doc(m.kw_func0) == "kw_func0(arg0: int, arg1: int) -> str" assert doc(m.kw_func1) == "kw_func1(x: int, y: int) -> str" assert doc(m.kw_func2) == "kw_func2(x: int = 100, y: int = 200) -> str" assert doc(m.kw_func3) == "kw_func3(data: str = 'Hello world!') -> None" assert doc(m.kw_func4) == "kw_func4(myList: List[int] = [13, 17]) -> str" assert doc(m.kw_func_udl) == "kw_func_udl(x: int, y: int = 300) -> str" assert doc(m.kw_func_udl_z) == "kw_func_udl_z(x: int, y: int = 0) -> str" assert doc(m.args_function) == "args_function(*args) -> tuple" assert doc(m.args_kwargs_function) == "args_kwargs_function(*args, **kwargs) -> tuple" assert doc(m.KWClass.foo0) == \ "foo0(self: m.kwargs_and_defaults.KWClass, arg0: int, arg1: float) -> None" assert doc(m.KWClass.foo1) == \ "foo1(self: m.kwargs_and_defaults.KWClass, x: int, y: float) -> None" def test_named_arguments(msg): assert m.kw_func0(5, 10) == "x=5, y=10" assert m.kw_func1(5, 10) == "x=5, y=10" assert m.kw_func1(5, y=10) == "x=5, y=10" assert m.kw_func1(y=10, x=5) == "x=5, y=10" assert m.kw_func2() == "x=100, y=200" assert m.kw_func2(5) == "x=5, y=200" assert m.kw_func2(x=5) == "x=5, y=200" assert m.kw_func2(y=10) == "x=100, y=10" assert m.kw_func2(5, 10) == "x=5, y=10" assert m.kw_func2(x=5, y=10) == "x=5, y=10" with pytest.raises(TypeError) as excinfo: # noinspection PyArgumentList m.kw_func2(x=5, y=10, z=12) assert excinfo.match( r'(?s)^kw_func2\(\): incompatible.*Invoked with: kwargs: ((x=5|y=10|z=12)(, |$))' + '{3}$') assert m.kw_func4() == "{13 17}" assert m.kw_func4(myList=[1, 2, 3]) == "{1 2 3}" assert m.kw_func_udl(x=5, y=10) == "x=5, y=10" assert m.kw_func_udl_z(x=5) == "x=5, y=0" def test_arg_and_kwargs(): args = 'arg1_value', 'arg2_value', 3 assert m.args_function(*args) == args args = 'a1', 'a2' kwargs = dict(arg3='a3', arg4=4) assert m.args_kwargs_function(*args, **kwargs) == (args, kwargs) def test_mixed_args_and_kwargs(msg): mpa = m.mixed_plus_args mpk = m.mixed_plus_kwargs mpak = m.mixed_plus_args_kwargs mpakd = m.mixed_plus_args_kwargs_defaults assert mpa(1, 2.5, 4, 99.5, None) == (1, 2.5, (4, 99.5, None)) assert mpa(1, 2.5) == (1, 2.5, ()) with pytest.raises(TypeError) as excinfo: assert mpa(1) assert msg(excinfo.value) == """ mixed_plus_args(): incompatible function arguments. The following argument types are supported: 1. (arg0: int, arg1: float, *args) -> tuple Invoked with: 1 """ # noqa: E501 line too long with pytest.raises(TypeError) as excinfo: assert mpa() assert msg(excinfo.value) == """ mixed_plus_args(): incompatible function arguments. The following argument types are supported: 1. (arg0: int, arg1: float, *args) -> tuple Invoked with: """ # noqa: E501 line too long assert mpk(-2, 3.5, pi=3.14159, e=2.71828) == (-2, 3.5, {'e': 2.71828, 'pi': 3.14159}) assert mpak(7, 7.7, 7.77, 7.777, 7.7777, minusseven=-7) == ( 7, 7.7, (7.77, 7.777, 7.7777), {'minusseven': -7}) assert mpakd() == (1, 3.14159, (), {}) assert mpakd(3) == (3, 3.14159, (), {}) assert mpakd(j=2.71828) == (1, 2.71828, (), {}) assert mpakd(k=42) == (1, 3.14159, (), {'k': 42}) assert mpakd(1, 1, 2, 3, 5, 8, then=13, followedby=21) == ( 1, 1, (2, 3, 5, 8), {'then': 13, 'followedby': 21}) # Arguments specified both positionally and via kwargs should fail: with pytest.raises(TypeError) as excinfo: assert mpakd(1, i=1) assert msg(excinfo.value) == """ mixed_plus_args_kwargs_defaults(): incompatible function arguments. The following argument types are supported: 1. (i: int = 1, j: float = 3.14159, *args, **kwargs) -> tuple Invoked with: 1; kwargs: i=1 """ # noqa: E501 line too long with pytest.raises(TypeError) as excinfo: assert mpakd(1, 2, j=1) assert msg(excinfo.value) == """ mixed_plus_args_kwargs_defaults(): incompatible function arguments. The following argument types are supported: 1. (i: int = 1, j: float = 3.14159, *args, **kwargs) -> tuple Invoked with: 1, 2; kwargs: j=1 """ # noqa: E501 line too long def test_args_refcount(): """Issue/PR #1216 - py::args elements get double-inc_ref()ed when combined with regular arguments""" refcount = m.arg_refcount_h myval = 54321 expected = refcount(myval) assert m.arg_refcount_h(myval) == expected assert m.arg_refcount_o(myval) == expected + 1 assert m.arg_refcount_h(myval) == expected assert refcount(myval) == expected assert m.mixed_plus_args(1, 2.0, "a", myval) == (1, 2.0, ("a", myval)) assert refcount(myval) == expected assert m.mixed_plus_kwargs(3, 4.0, a=1, b=myval) == (3, 4.0, {"a": 1, "b": myval}) assert refcount(myval) == expected assert m.args_function(-1, myval) == (-1, myval) assert refcount(myval) == expected assert m.mixed_plus_args_kwargs(5, 6.0, myval, a=myval) == (5, 6.0, (myval,), {"a": myval}) assert refcount(myval) == expected assert m.args_kwargs_function(7, 8, myval, a=1, b=myval) == \ ((7, 8, myval), {"a": 1, "b": myval}) assert refcount(myval) == expected exp3 = refcount(myval, myval, myval) assert m.args_refcount(myval, myval, myval) == (exp3, exp3, exp3) assert refcount(myval) == expected # This function takes the first arg as a `py::object` and the rest as a `py::args`. Unlike the # previous case, when we have both positional and `py::args` we need to construct a new tuple # for the `py::args`; in the previous case, we could simply inc_ref and pass on Python's input # tuple without having to inc_ref the individual elements, but here we can't, hence the extra # refs. assert m.mixed_args_refcount(myval, myval, myval) == (exp3 + 3, exp3 + 3, exp3 + 3)