from collections import OrderedDict
from functools import partial
from inspect import isclass

from graphql_relay import from_global_id, to_global_id

from ..types import ID, Field, Interface, ObjectType
from ..types.interface import InterfaceOptions
from ..types.utils import get_type


def is_node(objecttype):
    """
    Check if the given objecttype has Node as an interface
    """
    if not isclass(objecttype):
        return False

    if not issubclass(objecttype, ObjectType):
        return False

    for i in objecttype._meta.interfaces:
        if issubclass(i, Node):
            return True

    return False


class GlobalID(Field):
    def __init__(self, node=None, parent_type=None, required=True, *args, **kwargs):
        super(GlobalID, self).__init__(ID, required=required, *args, **kwargs)
        self.node = node or Node
        self.parent_type_name = parent_type._meta.name if parent_type else None

    @staticmethod
    def id_resolver(parent_resolver, node, root, info, parent_type_name=None, **args):
        type_id = parent_resolver(root, info, **args)
        parent_type_name = parent_type_name or info.parent_type.name
        return node.to_global_id(parent_type_name, type_id)  # root._meta.name

    def get_resolver(self, parent_resolver):
        return partial(
            self.id_resolver,
            parent_resolver,
            self.node,
            parent_type_name=self.parent_type_name,
        )


class NodeField(Field):
    def __init__(self, node, type=False, **kwargs):
        assert issubclass(node, Node), "NodeField can only operate in Nodes"
        self.node_type = node
        self.field_type = type

        super(NodeField, self).__init__(
            # If we don's specify a type, the field type will be the node
            # interface
            type or node,
            id=ID(required=True, description="The ID of the object"),
            **kwargs
        )

    def get_resolver(self, parent_resolver):
        return partial(self.node_type.node_resolver, get_type(self.field_type))


class AbstractNode(Interface):
    class Meta:
        abstract = True

    @classmethod
    def __init_subclass_with_meta__(cls, **options):
        _meta = InterfaceOptions(cls)
        _meta.fields = OrderedDict(
            id=GlobalID(cls, description="The ID of the object.")
        )
        super(AbstractNode, cls).__init_subclass_with_meta__(_meta=_meta, **options)


class Node(AbstractNode):
    """An object with an ID"""

    @classmethod
    def Field(cls, *args, **kwargs):  # noqa: N802
        return NodeField(cls, *args, **kwargs)

    @classmethod
    def node_resolver(cls, only_type, root, info, id):
        return cls.get_node_from_global_id(info, id, only_type=only_type)

    @classmethod
    def get_node_from_global_id(cls, info, global_id, only_type=None):
        try:
            _type, _id = cls.from_global_id(global_id)
            graphene_type = info.schema.get_type(_type).graphene_type
        except Exception:
            return None

        if only_type:
            assert graphene_type == only_type, ("Must receive a {} id.").format(
                only_type._meta.name
            )

        # We make sure the ObjectType implements the "Node" interface
        if cls not in graphene_type._meta.interfaces:
            return None

        get_node = getattr(graphene_type, "get_node", None)
        if get_node:
            return get_node(info, _id)

    @classmethod
    def from_global_id(cls, global_id):
        return from_global_id(global_id)

    @classmethod
    def to_global_id(cls, type, id):
        return to_global_id(type, id)