# ruff: noqa: SIM201 SIM300 SIM202 from __future__ import annotations import re import pytest import env from pybind11_tests import enums as m @pytest.mark.xfail( env.GRAALPY and env.GRAALPY_VERSION < (24, 2), reason="Fixed in GraalPy 24.2" ) def test_unscoped_enum(): assert str(m.UnscopedEnum.EOne) == "UnscopedEnum.EOne" assert str(m.UnscopedEnum.ETwo) == "UnscopedEnum.ETwo" assert str(m.EOne) == "UnscopedEnum.EOne" assert repr(m.UnscopedEnum.EOne) == "" assert repr(m.UnscopedEnum.ETwo) == "" assert repr(m.EOne) == "" # name property assert m.UnscopedEnum.EOne.name == "EOne" assert m.UnscopedEnum.EOne.value == 1 assert m.UnscopedEnum.ETwo.name == "ETwo" assert m.UnscopedEnum.ETwo.value == 2 assert m.EOne is m.UnscopedEnum.EOne # name, value readonly with pytest.raises(AttributeError): m.UnscopedEnum.EOne.name = "" with pytest.raises(AttributeError): m.UnscopedEnum.EOne.value = 10 # name, value returns a copy # TODO: Neither the name nor value tests actually check against aliasing. # Use a mutable type that has reference semantics. nonaliased_name = m.UnscopedEnum.EOne.name nonaliased_name = "bar" # noqa: F841 assert m.UnscopedEnum.EOne.name == "EOne" nonaliased_value = m.UnscopedEnum.EOne.value nonaliased_value = 10 # noqa: F841 assert m.UnscopedEnum.EOne.value == 1 # __members__ property assert m.UnscopedEnum.__members__ == { "EOne": m.UnscopedEnum.EOne, "ETwo": m.UnscopedEnum.ETwo, "EThree": m.UnscopedEnum.EThree, } # __members__ readonly with pytest.raises(AttributeError): m.UnscopedEnum.__members__ = {} # __members__ returns a copy nonaliased_members = m.UnscopedEnum.__members__ nonaliased_members["bar"] = "baz" assert m.UnscopedEnum.__members__ == { "EOne": m.UnscopedEnum.EOne, "ETwo": m.UnscopedEnum.ETwo, "EThree": m.UnscopedEnum.EThree, } for docstring_line in [ "An unscoped enumeration", "Members:", " EOne : Docstring for EOne", " ETwo : Docstring for ETwo", " EThree : Docstring for EThree", ]: assert docstring_line in m.UnscopedEnum.__doc__ # Unscoped enums will accept ==/!= int comparisons y = m.UnscopedEnum.ETwo assert y == 2 assert 2 == y assert y != 3 assert 3 != y # Compare with None assert y != None # noqa: E711 assert not (y == None) # noqa: E711 # Compare with an object assert y != object() assert not (y == object()) # Compare with string assert y != "2" assert "2" != y assert not ("2" == y) assert not (y == "2") with pytest.raises(TypeError): y < object() # noqa: B015 with pytest.raises(TypeError): y <= object() # noqa: B015 with pytest.raises(TypeError): y > object() # noqa: B015 with pytest.raises(TypeError): y >= object() # noqa: B015 with pytest.raises(TypeError): y | object() with pytest.raises(TypeError): y & object() with pytest.raises(TypeError): y ^ object() assert int(m.UnscopedEnum.ETwo) == 2 assert str(m.UnscopedEnum(2)) == "UnscopedEnum.ETwo" # order assert m.UnscopedEnum.EOne < m.UnscopedEnum.ETwo assert m.UnscopedEnum.EOne < 2 assert m.UnscopedEnum.ETwo > m.UnscopedEnum.EOne assert m.UnscopedEnum.ETwo > 1 assert m.UnscopedEnum.ETwo <= 2 assert m.UnscopedEnum.ETwo >= 2 assert m.UnscopedEnum.EOne <= m.UnscopedEnum.ETwo assert m.UnscopedEnum.EOne <= 2 assert m.UnscopedEnum.ETwo >= m.UnscopedEnum.EOne assert m.UnscopedEnum.ETwo >= 1 assert not (m.UnscopedEnum.ETwo < m.UnscopedEnum.EOne) assert not (2 < m.UnscopedEnum.EOne) # arithmetic assert m.UnscopedEnum.EOne & m.UnscopedEnum.EThree == m.UnscopedEnum.EOne assert m.UnscopedEnum.EOne | m.UnscopedEnum.ETwo == m.UnscopedEnum.EThree assert m.UnscopedEnum.EOne ^ m.UnscopedEnum.EThree == m.UnscopedEnum.ETwo def test_scoped_enum(): assert m.test_scoped_enum(m.ScopedEnum.Three) == "ScopedEnum::Three" z = m.ScopedEnum.Two assert m.test_scoped_enum(z) == "ScopedEnum::Two" # Scoped enums will *NOT* accept ==/!= int comparisons (Will always return False) assert not z == 3 assert not 3 == z assert z != 3 assert 3 != z # Compare with None assert z != None # noqa: E711 assert not (z == None) # noqa: E711 # Compare with an object assert z != object() assert not (z == object()) # Scoped enums will *NOT* accept >, <, >= and <= int comparisons (Will throw exceptions) with pytest.raises(TypeError): z > 3 # noqa: B015 with pytest.raises(TypeError): z < 3 # noqa: B015 with pytest.raises(TypeError): z >= 3 # noqa: B015 with pytest.raises(TypeError): z <= 3 # noqa: B015 # order assert m.ScopedEnum.Two < m.ScopedEnum.Three assert m.ScopedEnum.Three > m.ScopedEnum.Two assert m.ScopedEnum.Two <= m.ScopedEnum.Three assert m.ScopedEnum.Two <= m.ScopedEnum.Two assert m.ScopedEnum.Two >= m.ScopedEnum.Two assert m.ScopedEnum.Three >= m.ScopedEnum.Two def test_implicit_conversion(): assert str(m.ClassWithUnscopedEnum.EMode.EFirstMode) == "EMode.EFirstMode" assert str(m.ClassWithUnscopedEnum.EFirstMode) == "EMode.EFirstMode" assert repr(m.ClassWithUnscopedEnum.EMode.EFirstMode) == "" assert repr(m.ClassWithUnscopedEnum.EFirstMode) == "" f = m.ClassWithUnscopedEnum.test_function first = m.ClassWithUnscopedEnum.EFirstMode second = m.ClassWithUnscopedEnum.ESecondMode assert f(first) == 1 assert f(first) == f(first) assert not f(first) != f(first) assert f(first) != f(second) assert not f(first) == f(second) assert f(first) == int(f(first)) assert not f(first) != int(f(first)) assert f(first) != int(f(second)) assert not f(first) == int(f(second)) # noinspection PyDictCreation x = {f(first): 1, f(second): 2} x[f(first)] = 3 x[f(second)] = 4 # Hashing test assert repr(x) == "{: 3, : 4}" @pytest.mark.xfail( env.GRAALPY and env.GRAALPY_VERSION < (24, 2), reason="Fixed in GraalPy 24.2" ) def test_binary_operators(): assert int(m.Flags.Read) == 4 assert int(m.Flags.Write) == 2 assert int(m.Flags.Execute) == 1 assert int(m.Flags.Read | m.Flags.Write | m.Flags.Execute) == 7 assert int(m.Flags.Read | m.Flags.Write) == 6 assert int(m.Flags.Read | m.Flags.Execute) == 5 assert int(m.Flags.Write | m.Flags.Execute) == 3 assert int(m.Flags.Write | 1) == 3 assert ~m.Flags.Write == -3 state = m.Flags.Read | m.Flags.Write assert (state & m.Flags.Read) != 0 assert (state & m.Flags.Write) != 0 assert (state & m.Flags.Execute) == 0 assert (state & 1) == 0 state2 = ~state assert state2 == -7 assert int(state ^ state2) == -1 def test_enum_to_int(): m.test_enum_to_int(m.Flags.Read) m.test_enum_to_int(m.ClassWithUnscopedEnum.EMode.EFirstMode) m.test_enum_to_int(m.ScopedCharEnum.Positive) m.test_enum_to_int(m.ScopedBoolEnum.TRUE) m.test_enum_to_uint(m.Flags.Read) m.test_enum_to_uint(m.ClassWithUnscopedEnum.EMode.EFirstMode) m.test_enum_to_uint(m.ScopedCharEnum.Positive) m.test_enum_to_uint(m.ScopedBoolEnum.TRUE) m.test_enum_to_long_long(m.Flags.Read) m.test_enum_to_long_long(m.ClassWithUnscopedEnum.EMode.EFirstMode) m.test_enum_to_long_long(m.ScopedCharEnum.Positive) m.test_enum_to_long_long(m.ScopedBoolEnum.TRUE) def test_duplicate_enum_name(): with pytest.raises(ValueError) as excinfo: m.register_bad_enum() assert str(excinfo.value) == 'SimpleEnum: element "ONE" already exists!' def test_char_underlying_enum(): # Issue #1331/PR #1334: assert type(m.ScopedCharEnum.Positive.__int__()) is int assert int(m.ScopedChar16Enum.Zero) == 0 assert hash(m.ScopedChar32Enum.Positive) == 1 assert type(m.ScopedCharEnum.Positive.__getstate__()) is int assert m.ScopedWCharEnum(1) == m.ScopedWCharEnum.Positive with pytest.raises(TypeError): # Even if the underlying type is char, only an int can be used to construct the enum: m.ScopedCharEnum("0") def test_bool_underlying_enum(): assert type(m.ScopedBoolEnum.TRUE.__int__()) is int assert int(m.ScopedBoolEnum.FALSE) == 0 assert hash(m.ScopedBoolEnum.TRUE) == 1 assert type(m.ScopedBoolEnum.TRUE.__getstate__()) is int assert m.ScopedBoolEnum(1) == m.ScopedBoolEnum.TRUE # Enum could construct with a bool # (bool is a strict subclass of int, and False will be converted to 0) assert m.ScopedBoolEnum(False) == m.ScopedBoolEnum.FALSE def test_docstring_signatures(): for enum_type in [m.ScopedEnum, m.UnscopedEnum]: for attr in enum_type.__dict__.values(): # Issue #2623/PR #2637: Add argument names to enum_ methods assert "arg0" not in (attr.__doc__ or "") def test_str_signature(): for enum_type in [m.ScopedEnum, m.UnscopedEnum]: assert enum_type.__str__.__doc__.startswith("__str__") def test_generated_dunder_methods_pos_only(): for enum_type in [m.ScopedEnum, m.UnscopedEnum]: for binary_op in [ "__eq__", "__ne__", "__ge__", "__gt__", "__lt__", "__le__", "__and__", "__rand__", # "__or__", # fail with some compilers (__doc__ = "Return self|value.") # "__ror__", # fail with some compilers (__doc__ = "Return value|self.") "__xor__", "__rxor__", "__rxor__", ]: method = getattr(enum_type, binary_op, None) if method is not None: assert ( re.match( rf"^{binary_op}\(self: [\w\.]+, other: [\w\.]+, /\)", method.__doc__, ) is not None ) for unary_op in [ "__int__", "__index__", "__hash__", "__str__", "__repr__", ]: method = getattr(enum_type, unary_op, None) if method is not None: assert ( re.match( rf"^{unary_op}\(self: [\w\.]+, /\)", method.__doc__, ) is not None ) assert ( re.match( r"^__getstate__\(self: [\w\.]+, /\)", enum_type.__getstate__.__doc__, ) is not None ) assert ( re.match( r"^__setstate__\(self: [\w\.]+, state: [\w\.]+, /\)", enum_type.__setstate__.__doc__, ) is not None ) @pytest.mark.skipif( isinstance(m.obj_cast_UnscopedEnum_ptr, str), reason=m.obj_cast_UnscopedEnum_ptr ) def test_obj_cast_unscoped_enum_ptr(): assert m.obj_cast_UnscopedEnum_ptr(m.UnscopedEnum.ETwo) == 2 assert m.obj_cast_UnscopedEnum_ptr(m.UnscopedEnum.EOne) == 1 assert m.obj_cast_UnscopedEnum_ptr(None) == 0