Enums ===== An ``Enum`` is a special ``GraphQL`` type that represents a set of symbolic names (members) bound to unique, constant values. Definition ---------- You can create an ``Enum`` using classes: .. code:: python import graphene class Episode(graphene.Enum): NEWHOPE = 4 EMPIRE = 5 JEDI = 6 But also using instances of Enum: .. code:: python Episode = graphene.Enum('Episode', [('NEWHOPE', 4), ('EMPIRE', 5), ('JEDI', 6)]) Value descriptions ------------------ It's possible to add a description to an enum value, for that the enum value needs to have the ``description`` property on it. .. code:: python class Episode(graphene.Enum): NEWHOPE = 4 EMPIRE = 5 JEDI = 6 @property def description(self): if self == Episode.NEWHOPE: return 'New Hope Episode' return 'Other episode' Usage with Python Enums ----------------------- In case the Enums are already defined it's possible to reuse them using the ``Enum.from_enum`` function. .. code:: python graphene.Enum.from_enum(AlreadyExistingPyEnum) ``Enum.from_enum`` supports a ``description`` and ``deprecation_reason`` lambdas as input so you can add description etc. to your enum without changing the original: .. code:: python graphene.Enum.from_enum( AlreadyExistingPyEnum, description=lambda v: return 'foo' if v == AlreadyExistingPyEnum.Foo else 'bar' ) Notes ----- ``graphene.Enum`` uses |enum.Enum|_ internally (or a backport if that's not available) and can be used in a similar way, with the exception of member getters. In the Python ``Enum`` implementation you can access a member by initing the Enum. .. code:: python from enum import Enum class Color(Enum): RED = 1 GREEN = 2 BLUE = 3 assert Color(1) == Color.RED However, in Graphene ``Enum`` you need to call get to have the same effect: .. code:: python from graphene import Enum class Color(Enum): RED = 1 GREEN = 2 BLUE = 3 assert Color.get(1) == Color.RED .. |enum.Enum| replace:: ``enum.Enum`` .. _enum.Enum: https://docs.python.org/3/library/enum.html