def e(self, e): _ret_c = lib.cw__enum_usage_interface_e(self._cpp_impl, CPyEnum.fromPy(e)) CPyException.toPyCheckAndRaise(_ret_c) _ret = CPyEnum.toPy(Color, _ret_c) assert _ret.value != -1 return _ret
def python_create_enum_usage_record(e, o, l, s, m): py_rec = EnumUsageRecord( CPyEnum.toPy(Color, e), CPyEnum.toPyOpt(Color, o), CPyObject.toPy(ListEnumColorHelper.c_data_set, l), CPyObjectProxy.toPyObj(SetEnumColorHelper.c_data_set, s), CPyObjectProxy.toPyObj(MapEnumColorEnumColorHelper.c_data_set, m)) return CPyRecord.fromPy(EnumUsageRecord.c_data_set, py_rec) #to do: can be optional?
def __get_value(cself, key): pyKey = CPyEnum.toPy(Color, key) assert pyKey is not None try: _ret = CPyEnum.fromPy(CPyObjectProxy.toPyObj(None, cself)[pyKey]) assert _ret != -1 return _ret except Exception as _djinni_py_e: CPyException.setExceptionFromPy(_djinni_py_e) return ffi.NULL
def __get_value(cself, key): pyKey = CPyEnum.toPy(Color, key) assert pyKey is not None try: with CPyString.fromPy(CPyObjectProxy.toPyObj(None, cself)[pyKey]) as py_obj: _ret = py_obj.release_djinni_string() assert _ret != ffi.NULL return _ret except Exception as _djinni_py_e: CPyException.setExceptionFromPy(_djinni_py_e) return ffi.NULL
def create_all_datatypes(booleanData, integer8Data, integer16Data, integer32Data, integer64Data, float32Data, float64Data, stringData, binaryData, dateData, listData, setData, mapData, optionalData, enum_data): py_rec = AllDatatypes( CPyPrimitive.toPy(booleanData), CPyPrimitive.toPy(integer8Data), CPyPrimitive.toPy(integer16Data), CPyPrimitive.toPy(integer32Data), CPyPrimitive.toPy(integer64Data), CPyPrimitive.toPy(float32Data), CPyPrimitive.toPy(float64Data), CPyString.toPy(stringData), CPyBinary.toPy(binaryData), CPyDate.toPy(dateData), CPyObject.toPy(ListBoolHelper.c_data_set, listData), CPyObjectProxy.toPyObj(SetBoolHelper.c_data_set, setData), CPyObjectProxy.toPyObj(MapInt8TBoolHelper.c_data_set, mapData), CPyBoxedBool.toPyOpt(optionalData), CPyEnum.toPy(EnumData, enum_data)) return CPyRecord.fromPy(AllDatatypes.c_data_set, py_rec) #to do: can be optional?
def python_create_my_record(test, test1, test2, test3, test3_1, test4, test4_1, test5, test6, test7, test8, test9, test10, test10_1, test11, test13, test14, test15, test16, test17): py_rec = MyRecord( CPyPrimitive.toPy(test), CPyBoxedU32.toPyOpt(test1), CPyObject.toPy(ListUint32THelper.c_data_set, test2), CPyString.toPy(test3), CPyString.toPyOpt(test3_1), CPyDate.toPy(test4), CPyBoxedDate.toPyOpt(test4_1), CPyBinary.toPy(test5), CPyObject.toPy(ListBinaryHelper.c_data_set, test6), CPyObjectProxy.toPyObj(SetInt32THelper.c_data_set, test7), CPyObjectProxy.toPyObj(MapInt32TStringHelper.c_data_set, test8), CPyRecord.toPy(Rc.c_data_set, test9), CPyRecord.toPyOpt(Rc.c_data_set, test10), CPyObject.toPy(ListRecordRcHelper.c_data_set, test10_1), CPyEnum.toPy(MyEnum, test11), CPyEnum.toPyOpt(MyEnum, test13), CPyBoxedI16.toPyOpt(test14), CPyObject.toPy(ListEnumMyEnumHelper.c_data_set, test15), CPyObjectProxy.toPyObj(SetEnumMyEnumHelper.c_data_set, test16), CPyObjectProxy.toPyObj(MapEnumMyEnumInt16THelper.c_data_set, test17)) return CPyRecord.fromPy(MyRecord.c_data_set, py_rec) #to do: can be optional?
def __python_add(cself, el): CPyObjectProxy.toPyObj(None, cself).add(CPyEnum.toPy(Color, el))
def __python_add(cself, el): CPyObject.toPy(None, cself).append(CPyEnum.toPy(MyEnum, el))
def __python_add(cself, key, value): CPyObjectProxy.toPyObj(None, cself)[CPyEnum.toPy(Color, key)] = CPyString.toPy(value)
def __python_add(cself, key, value): CPyObjectProxy.toPyObj(None, cself)[CPyEnum.toPy(Color, key)] = CPyEnum.toPy(Color, value)
def __python_add(cself, key, value): CPyObjectProxy.toPyObj(None, cself)[CPyEnum.toPy( MyEnum, key)] = CPyPrimitive.toPy(value)
def get_enum(self): _ret_c = lib.cw__foo_enum_interface_get_enum(self._cpp_impl) CPyException.toPyCheckAndRaise(_ret_c) _ret = CPyEnum.toPy(Color, _ret_c) assert _ret.value != -1 return _ret
def say_hi(self): _ret_c = lib.cw__hello_say_hi(self._cpp_impl) CPyException.toPyCheckAndRaise(_ret_c) _ret = CPyEnum.toPy(MyEnum, _ret_c) assert _ret.value != -1 return _ret
def python_create_rc(a, b, c, d, e): py_rec = Rc(CPyPrimitive.toPy(a), CPyPrimitive.toPy(b), CPyBoxedI32.toPyOpt(c), CPyEnum.toPy(MyEnum, d), CPyBinary.toPy(e)) return CPyRecord.fromPy(Rc.c_data_set, py_rec) #to do: can be optional?