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Extended enum support (#503)
* Allow enums to be ordered * Support binary operators
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@ -1205,12 +1205,30 @@ public:
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def("__int__", [](Type value) { return (UnderlyingType) value; });
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def("__eq__", [](const Type &value, Type *value2) { return value2 && value == *value2; });
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def("__ne__", [](const Type &value, Type *value2) { return !value2 || value != *value2; });
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def("__lt__", [](const Type &value, Type *value2) { return value2 && value < *value2; });
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def("__gt__", [](const Type &value, Type *value2) { return value2 && value > *value2; });
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def("__le__", [](const Type &value, Type *value2) { return value2 && value <= *value2; });
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def("__ge__", [](const Type &value, Type *value2) { return value2 && value >= *value2; });
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if (std::is_convertible<Type, UnderlyingType>::value) {
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// Don't provide comparison with the underlying type if the enum isn't convertible,
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// i.e. if Type is a scoped enum, mirroring the C++ behaviour. (NB: we explicitly
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// convert Type to UnderlyingType below anyway because this needs to compile).
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def("__eq__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value == value2; });
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def("__ne__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value != value2; });
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def("__lt__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value < value2; });
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def("__gt__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value > value2; });
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def("__le__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value <= value2; });
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def("__ge__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value >= value2; });
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def("__invert__", [](const Type &value) { return ~((UnderlyingType) value); });
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def("__and__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value & value2; });
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def("__or__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value | value2; });
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def("__xor__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value ^ value2; });
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def("__rand__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value & value2; });
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def("__ror__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value | value2; });
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def("__rxor__", [](const Type &value, UnderlyingType value2) { return (UnderlyingType) value ^ value2; });
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def("__and__", [](const Type &value, const Type &value2) { return (UnderlyingType) value & (UnderlyingType) value2; });
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def("__or__", [](const Type &value, const Type &value2) { return (UnderlyingType) value | (UnderlyingType) value2; });
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def("__xor__", [](const Type &value, const Type &value2) { return (UnderlyingType) value ^ (UnderlyingType) value2; });
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}
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def("__hash__", [](const Type &value) { return (UnderlyingType) value; });
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// Pickling and unpickling -- needed for use with the 'multiprocessing' module
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@ -19,6 +19,12 @@ enum class ScopedEnum {
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Three
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};
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enum Flags {
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Read = 4,
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Write = 2,
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Execute = 1
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};
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class ClassWithUnscopedEnum {
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public:
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enum EMode {
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@ -48,6 +54,13 @@ test_initializer enums([](py::module &m) {
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.value("Three", ScopedEnum::Three)
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;
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py::enum_<Flags>(m, "Flags")
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.value("Read", Flags::Read)
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.value("Write", Flags::Write)
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.value("Execute", Flags::Execute)
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.export_values();
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;
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py::class_<ClassWithUnscopedEnum> exenum_class(m, "ClassWithUnscopedEnum");
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exenum_class.def_static("test_function", &ClassWithUnscopedEnum::test_function);
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py::enum_<ClassWithUnscopedEnum::EMode>(exenum_class, "EMode")
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@ -16,6 +16,24 @@ def test_unscoped_enum():
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assert int(UnscopedEnum.ETwo) == 2
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assert str(UnscopedEnum(2)) == "UnscopedEnum.ETwo"
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# order
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assert UnscopedEnum.EOne < UnscopedEnum.ETwo
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assert UnscopedEnum.EOne < 2
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assert UnscopedEnum.ETwo > UnscopedEnum.EOne
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assert UnscopedEnum.ETwo > 1
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assert UnscopedEnum.ETwo <= 2
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assert UnscopedEnum.ETwo >= 2
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assert UnscopedEnum.EOne <= UnscopedEnum.ETwo
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assert UnscopedEnum.EOne <= 2
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assert UnscopedEnum.ETwo >= UnscopedEnum.EOne
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assert UnscopedEnum.ETwo >= 1
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assert not (UnscopedEnum.ETwo < UnscopedEnum.EOne)
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assert not (2 < UnscopedEnum.EOne)
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def test_scoped_enum():
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from pybind11_tests import ScopedEnum, test_scoped_enum
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assert test_scoped_enum(ScopedEnum.Three) == "ScopedEnum::Three"
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def test_scoped_enum():
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from pybind11_tests import ScopedEnum, test_scoped_enum
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@ -30,6 +48,13 @@ def test_scoped_enum():
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with pytest.raises(TypeError):
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assert z != 3
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# order
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assert ScopedEnum.Two < ScopedEnum.Three
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assert ScopedEnum.Three > ScopedEnum.Two
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assert ScopedEnum.Two <= ScopedEnum.Three
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assert ScopedEnum.Two <= ScopedEnum.Two
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assert ScopedEnum.Two >= ScopedEnum.Two
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assert ScopedEnum.Three >= ScopedEnum.Two
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def test_implicit_conversion():
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from pybind11_tests import ClassWithUnscopedEnum
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@ -61,3 +86,26 @@ def test_implicit_conversion():
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x[f(second)] = 4
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# Hashing test
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assert str(x) == "{EMode.EFirstMode: 3, EMode.ESecondMode: 4}"
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def test_binary_operators():
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from pybind11_tests import Flags
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assert int(Flags.Read) == 4
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assert int(Flags.Write) == 2
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assert int(Flags.Execute) == 1
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assert int(Flags.Read | Flags.Write | Flags.Execute) == 7
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assert int(Flags.Read | Flags.Write) == 6
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assert int(Flags.Read | Flags.Execute) == 5
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assert int(Flags.Write | Flags.Execute) == 3
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assert int(Flags.Write | 1) == 3
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state = Flags.Read | Flags.Write
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assert (state & Flags.Read) != 0
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assert (state & Flags.Write) != 0
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assert (state & Flags.Execute) == 0
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assert (state & 1) == 0
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state2 = ~state
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assert state2 == -7
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assert int(state ^ state2) == -1
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