3.7 KiB
v2.0 Upgrade Guide
ObjectType
, Interface
, InputObjectType
, Scalar
and Enum
implementations
have been quite simplified, without the need to define a explicit Metaclass for each subtype.
It also improves the function resolvers, simplifying the code the developer have to write to use them.
Deprecations:
Breaking changes:
New Features!
InputObjectType
Meta as Class arguments
(only available for Python 3)
The type metaclases are now deleted as are no longer necessary, if your code was depending on this strategy for creating custom attrs, see an example on how to do it in 2.0.
Deprecations
AbstractType deprecated
AbstractType is deprecated in graphene 2.0, you can now use normal inheritance instead.
Before:
class CommonFields(AbstractType):
name = String()
class Pet(CommonFields, Interface):
pass
With 2.0:
class CommonFields(object):
name = String()
class Pet(CommonFields, Interface):
pass
resolve_only_args
resolve_only_args
is now deprecated in favor of type annotations (using the polyfill @graphene.annotate
in Python 2 in case is necessary for accessing context
or info
).
Before:
class User(ObjectType):
name = String()
@resolve_only_args
def resolve_name(self):
return self.name
With 2.0:
class User(ObjectType):
name = String()
def resolve_name(self):
return self.name
Breaking Changes
Node Connections
Node types no longer have a Connection
by default.
In 2.0 and onwards Connection
s should be defined explicitly.
Before:
class User(ObjectType):
class Meta:
interfaces = [relay.Node]
name = String()
class Query(ObjectType):
user_connection = relay.ConnectionField(User)
With 2.0:
class User(ObjectType):
class Meta:
interfaces = [relay.Node]
name = String()
class UserConnection(relay.Connection):
class Meta:
node = User
class Query(ObjectType):
user_connection = relay.ConnectionField(UserConnection)
New Features
InputObjectType
If you are using InputObjectType
, you now can access
it's fields via getattr
(my_input.myattr
) when resolving, instead of
the classic way my_input['myattr']
.
And also use custom defined properties on your input class.
Example. Before:
class UserInput(InputObjectType):
id = ID()
def is_user_id(id):
return id.startswith('userid_')
class Query(ObjectType):
user = graphene.Field(User, input=UserInput())
@resolve_only_args
def resolve_user(self, input):
user_id = input.get('id')
if is_user_id(user_id):
return get_user(user_id)
With 2.0:
class UserInput(InputObjectType):
id = ID()
@property
def is_user_id(self):
return self.id.startswith('userid_')
class Query(ObjectType):
user = graphene.Field(User, input=UserInput())
def resolve_user(self, input):
if input.is_user_id:
return get_user(input.id)
Meta as Class arguments
Now you can use the meta options as class arguments (ONLY PYTHON 3).
Before:
class Dog(ObjectType):
class Meta:
interfaces = [Pet]
name = String()
With 2.0:
class Dog(ObjectType, interfaces=[Pet]):
name = String()
UUID Scalar
In Graphene 2.0 there is a new dedicated scalar for UUIDs, UUID
.