python-django-mptt 0.6.0-1 / usr / share / pyshared / mptt / models.py

from __future__ import unicode_literals
from functools import reduce
import operator
import threading
import warnings

from django.db import models
from django.db.models.base import ModelBase
from django.db.models.query import Q

from django.utils import six
from django.utils.translation import ugettext as _

from mptt.fields import TreeForeignKey, TreeOneToOneField, TreeManyToManyField
from mptt.managers import TreeManager


class _classproperty(object):
    def __init__(self, getter, setter=None):
        self.fget = getter
        self.fset = setter

    def __get__(self, cls, owner):
        return self.fget(owner)

    def __set__(self, cls, owner, value):
        if not self.fset:
            raise AttributeError("This classproperty is read only")
        self.fset(owner, value)


class classpropertytype(property):
    def __init__(self, name, bases=(), members={}):
        return super(classpropertytype, self).__init__(
            members.get('__get__'),
            members.get('__set__'),
            members.get('__delete__'),
            members.get('__doc__')
        )

classproperty = classpropertytype('classproperty')


class MPTTOptions(object):
    """
    Options class for MPTT models. Use this as an inner class called ``MPTTMeta``::

        class MyModel(MPTTModel):
            class MPTTMeta:
                order_insertion_by = ['name']
                parent_attr = 'myparent'
    """

    order_insertion_by = []
    left_attr = 'lft'
    right_attr = 'rght'
    tree_id_attr = 'tree_id'
    level_attr = 'level'
    parent_attr = 'parent'

    def __init__(self, opts=None, **kwargs):
        # Override defaults with options provided
        if opts:
            opts = list(opts.__dict__.items())
        else:
            opts = []
        opts.extend(list(kwargs.items()))

        if 'tree_manager_attr' in [opt[0] for opt in opts]:
            raise ValueError("`tree_manager_attr` has been removed; you should instantiate a TreeManager as a normal manager on your model instead.")

        for key, value in opts:
            if key[:2] == '__':
                continue
            setattr(self, key, value)

        # Normalize order_insertion_by to a list
        if isinstance(self.order_insertion_by, six.string_types):
            self.order_insertion_by = [self.order_insertion_by]
        elif isinstance(self.order_insertion_by, tuple):
            self.order_insertion_by = list(self.order_insertion_by)
        elif self.order_insertion_by is None:
            self.order_insertion_by = []

    def __iter__(self):
        return ((k, v) for k, v in self.__dict__.items() if k[0] != '_')

    # Helper methods for accessing tree attributes on models.
    def get_raw_field_value(self, instance, field_name):
        """
        Gets the value of the given fieldname for the instance.
        This is not the same as getattr().
        This function will return IDs for foreignkeys etc, rather than doing
        a database query.
        """
        field = instance._meta.get_field(field_name)
        return field.value_from_object(instance)

    def set_raw_field_value(self, instance, field_name, value):
        """
        Sets the value of the given fieldname for the instance.
        This is not the same as setattr().
        This function requires an ID for a foreignkey (etc) rather than an instance.
        """
        field = instance._meta.get_field(field_name)
        setattr(instance, field.attname, value)

    def update_mptt_cached_fields(self, instance):
        """
        Caches (in an instance._mptt_cached_fields dict) the original values of:
         - parent pk
         - fields specified in order_insertion_by

        These are used in pre_save to determine if the relevant fields have changed,
        so that the MPTT fields need to be updated.
        """
        instance._mptt_cached_fields = {}
        field_names = set((self.parent_attr,))
        field_names__add = field_names.add
        if self.order_insertion_by:
            for f in self.order_insertion_by:
                if f[0] == '-':
                    f = f[1:]
                field_names__add(f)
        for field_name in field_names:
            instance._mptt_cached_fields[field_name] = self.get_raw_field_value(instance, field_name)

    def insertion_target_filters(self, instance, order_insertion_by):
        """
        Creates a filter which matches suitable right siblings for ``node``,
        where insertion should maintain ordering according to the list of
        fields in ``order_insertion_by``.

        For example, given an ``order_insertion_by`` of
        ``['field1', 'field2', 'field3']``, the resulting filter should
        correspond to the following SQL::

           field1 > %s
           OR (field1 = %s AND field2 > %s)
           OR (field1 = %s AND field2 = %s AND field3 > %s)

        """
        fields = []
        filters = []
        fields__append = fields.append
        filters__append = filters.append
        and_ = operator.and_
        or_ = operator.or_
        for field_name in order_insertion_by:
            if field_name[0] == '-':
                field_name = field_name[1:]
                filter_suffix = '__lt'
            else:
                filter_suffix = '__gt'
            value = getattr(instance, field_name)
            if value is None:
                # node isn't saved yet. get the insertion value from pre_save.
                field = instance._meta.get_field(field_name)
                value = field.pre_save(instance, True)

            q = Q(**{field_name + filter_suffix: value})

            filters__append(reduce(and_, [Q(**{f: v}) for f, v in fields] + [q]))
            fields__append((field_name, value))
        return reduce(or_, filters)

    def get_ordered_insertion_target(self, node, parent):
        """
        Attempts to retrieve a suitable right sibling for ``node``
        underneath ``parent`` (which may be ``None`` in the case of root
        nodes) so that ordering by the fields specified by the node's class'
        ``order_insertion_by`` option is maintained.

        Returns ``None`` if no suitable sibling can be found.
        """
        right_sibling = None
        # Optimisation - if the parent doesn't have descendants,
        # the node will always be its last child.
        if parent is None or parent.get_descendant_count() > 0:
            opts = node._mptt_meta
            order_by = opts.order_insertion_by[:]
            filters = self.insertion_target_filters(node, order_by)
            if parent:
                filters = filters & Q(**{opts.parent_attr: parent})
                # Fall back on tree ordering if multiple child nodes have
                # the same values.
                order_by.append(opts.left_attr)
            else:
                filters = filters & Q(**{opts.parent_attr: None})
                # Fall back on tree id ordering if multiple root nodes have
                # the same values.
                order_by.append(opts.tree_id_attr)
            queryset = node.__class__._tree_manager.filter(filters).order_by(*order_by)
            if node.pk:
                queryset = queryset.exclude(pk=node.pk)
            try:
                right_sibling = queryset[:1][0]
            except IndexError:
                # No suitable right sibling could be found
                pass
        return right_sibling


class MPTTModelBase(ModelBase):
    """
    Metaclass for MPTT models
    """

    def __new__(meta, class_name, bases, class_dict):
        """
        Create subclasses of MPTTModel. This:
         - adds the MPTT fields to the class
         - adds a TreeManager to the model
        """
        if class_name == 'NewBase' and class_dict == {}:
            # skip ModelBase, on django < 1.5 it doesn't handle NewBase.
            super_new = super(ModelBase, meta).__new__
            return super_new(meta, class_name, bases, class_dict)
        is_MPTTModel = False
        try:
            MPTTModel
        except NameError:
            is_MPTTModel = True

        MPTTMeta = class_dict.pop('MPTTMeta', None)
        if not MPTTMeta:
            class MPTTMeta:
                pass

        initial_options = frozenset(dir(MPTTMeta))

        # extend MPTTMeta from base classes
        for base in bases:
            if hasattr(base, '_mptt_meta'):
                for name, value in base._mptt_meta:
                    if name == 'tree_manager_attr':
                        continue
                    if name not in initial_options:
                        setattr(MPTTMeta, name, value)

        class_dict['_mptt_meta'] = MPTTOptions(MPTTMeta)
        super_new = super(MPTTModelBase, meta).__new__
        cls = super_new(meta, class_name, bases, class_dict)
        cls = meta.register(cls)

        # see error cases in TreeManager.disable_mptt_updates for the reasoning here.
        cls._mptt_tracking_base = None
        if is_MPTTModel:
            bases = [cls]
        else:
            bases = [base for base in cls.mro() if issubclass(base, MPTTModel)]
        for base in bases:
            if not (base._meta.abstract or base._meta.proxy) and base._tree_manager.tree_model is base:
                cls._mptt_tracking_base = base
                break
        if cls is cls._mptt_tracking_base:
            cls._threadlocal = threading.local()
            # set on first access (to make threading errors more obvious):
            #    cls._threadlocal.mptt_delayed_tree_changes = None

        return cls

    @classmethod
    def register(meta, cls, **kwargs):
        """
        For the weird cases when you need to add tree-ness to an *existing*
        class. For other cases you should subclass MPTTModel instead of calling this.
        """

        if not issubclass(cls, models.Model):
            raise ValueError(_("register() expects a Django model class argument"))

        if not hasattr(cls, '_mptt_meta'):
            cls._mptt_meta = MPTTOptions(**kwargs)

        abstract = getattr(cls._meta, 'abstract', False)

        try:
            MPTTModel
        except NameError:
            # We're defining the base class right now, so don't do anything
            # We only want to add this stuff to the subclasses.
            # (Otherwise if field names are customized, we'll end up adding two
            # copies)
            pass
        else:
            if not issubclass(cls, MPTTModel):
                bases = list(cls.__bases__)

                # strip out bases that are strict superclasses of MPTTModel.
                # (i.e. Model, object)
                # this helps linearize the type hierarchy if possible
                for i in range(len(bases) - 1, -1, -1):
                    if issubclass(MPTTModel, bases[i]):
                        del bases[i]

                bases.insert(0, MPTTModel)
                cls.__bases__ = tuple(bases)

            for key in ('left_attr', 'right_attr', 'tree_id_attr', 'level_attr'):
                field_name = getattr(cls._mptt_meta, key)
                try:
                    cls._meta.get_field(field_name)
                except models.FieldDoesNotExist:
                    field = models.PositiveIntegerField(db_index=True, editable=False)
                    field.contribute_to_class(cls, field_name)

            # Add a tree manager, if there isn't one already
            if not abstract:
                manager = getattr(cls, 'objects', None)
                if manager is None:
                    manager = cls._default_manager._copy_to_model(cls)
                    manager.contribute_to_class(cls, 'objects')
                elif manager.model != cls:
                    # manager was inherited
                    manager = manager._copy_to_model(cls)
                    manager.contribute_to_class(cls, 'objects')
                if hasattr(manager, 'init_from_model'):
                    manager.init_from_model(cls)

                # make sure we have a tree manager somewhere
                tree_manager = None
                for attr in sorted(dir(cls)):
                    try:
                        obj = getattr(cls, attr)
                    except AttributeError:
                        continue
                    if isinstance(obj, TreeManager):
                        tree_manager = obj
                        # prefer any locally defined manager (i.e. keep going if not local)
                        if obj.model is cls:
                            break
                if tree_manager and tree_manager.model is not cls:
                    tree_manager = tree_manager._copy_to_model(cls)
                elif tree_manager is None:
                    tree_manager = TreeManager()
                tree_manager.contribute_to_class(cls, '_tree_manager')
                tree_manager.init_from_model(cls)

                # avoid using ManagerDescriptor, so instances can refer to self._tree_manager
                setattr(cls, '_tree_manager', tree_manager)
        return cls


class MPTTModel(six.with_metaclass(MPTTModelBase, models.Model)):
    """
    Base class for tree models.
    """
    _default_manager = TreeManager()

    class Meta:
        abstract = True

    def __init__(self, *args, **kwargs):
        super(MPTTModel, self).__init__(*args, **kwargs)
        self._mptt_meta.update_mptt_cached_fields(self)

    def _mpttfield(self, fieldname):
        translated_fieldname = getattr(self._mptt_meta, fieldname + '_attr')
        return getattr(self, translated_fieldname)

    @_classproperty
    def _mptt_updates_enabled(cls):
        if not cls._mptt_tracking_base:
            return True
        return getattr(cls._mptt_tracking_base._threadlocal, 'mptt_updates_enabled', True)

    # ideally this'd be part of the _mptt_updates_enabled classproperty, but it seems
    # that settable classproperties are very, very hard to do! suggestions please :)
    @classmethod
    def _set_mptt_updates_enabled(cls, value):
        assert cls is cls._mptt_tracking_base, "Can't enable or disable mptt updates on a non-tracking class."
        cls._threadlocal.mptt_updates_enabled = value

    @_classproperty
    def _mptt_is_tracking(cls):
        if not cls._mptt_tracking_base:
            return False
        if not hasattr(cls._threadlocal, 'mptt_delayed_tree_changes'):
            # happens the first time this is called from each thread
            cls._threadlocal.mptt_delayed_tree_changes = None
        return cls._threadlocal.mptt_delayed_tree_changes is not None

    @classmethod
    def _mptt_start_tracking(cls):
        assert cls is cls._mptt_tracking_base, "Can't start or stop mptt tracking on a non-tracking class."
        assert not cls._mptt_is_tracking, "mptt tracking is already started."
        cls._threadlocal.mptt_delayed_tree_changes = set()

    @classmethod
    def _mptt_stop_tracking(cls):
        assert cls is cls._mptt_tracking_base, "Can't start or stop mptt tracking on a non-tracking class."
        assert cls._mptt_is_tracking, "mptt tracking isn't started."
        results = cls._threadlocal.mptt_delayed_tree_changes
        cls._threadlocal.mptt_delayed_tree_changes = None
        return results

    @classmethod
    def _mptt_track_tree_modified(cls, tree_id):
        if not cls._mptt_is_tracking:
            return
        cls._threadlocal.mptt_delayed_tree_changes.add(tree_id)

    @classmethod
    def _mptt_track_tree_insertions(cls, tree_id, num_inserted):
        if not cls._mptt_is_tracking:
            return
        changes = cls._threadlocal.mptt_delayed_tree_changes
        if not num_inserted or not changes:
            return

        if num_inserted < 0:
            deleted = range(tree_id + num_inserted, -num_inserted)
            changes.difference_update(deleted)
        new_changes = set([(t + num_inserted if t >= tree_id else t) for t in changes])
        cls._threadlocal.mptt_delayed_tree_changes = new_changes

    def get_ancestors(self, ascending=False, include_self=False):
        """
        Creates a ``QuerySet`` containing the ancestors of this model
        instance.

        This defaults to being in descending order (root ancestor first,
        immediate parent last); passing ``True`` for the ``ascending``
        argument will reverse the ordering (immediate parent first, root
        ancestor last).

        If ``include_self`` is ``True``, the ``QuerySet`` will also
        include this model instance.
        """
        if self.is_root_node():
            if not include_self:
                return self._tree_manager.none()
            else:
                # Filter on pk for efficiency.
                return self._tree_manager.filter(pk=self.pk)

        opts = self._mptt_meta

        order_by = opts.left_attr
        if ascending:
            order_by = '-' + order_by

        left = getattr(self, opts.left_attr)
        right = getattr(self, opts.right_attr)

        if not include_self:
            left -= 1
            right += 1

        qs = self._tree_manager._mptt_filter(
            left__lte=left,
            right__gte=right,
            tree_id=self._mpttfield('tree_id'),
        )

        return qs.order_by(order_by)

    def get_children(self):
        """
        Returns a ``QuerySet`` containing the immediate children of this
        model instance, in tree order.

        The benefit of using this method over the reverse relation
        provided by the ORM to the instance's children is that a
        database query can be avoided in the case where the instance is
        a leaf node (it has no children).

        If called from a template where the tree has been walked by the
        ``cache_tree_children`` filter, no database query is required.
        """
        if hasattr(self, '_cached_children'):
            qs = self._tree_manager.filter(pk__in=[n.pk for n in self._cached_children])
            qs._result_cache = self._cached_children
            return qs
        else:
            if self.is_leaf_node():
                return self._tree_manager.none()

            return self._tree_manager._mptt_filter(parent=self)

    def get_descendants(self, include_self=False):
        """
        Creates a ``QuerySet`` containing descendants of this model
        instance, in tree order.

        If ``include_self`` is ``True``, the ``QuerySet`` will also
        include this model instance.
        """
        if self.is_leaf_node():
            if not include_self:
                return self._tree_manager.none()
            else:
                return self._tree_manager.filter(pk=self.pk)

        opts = self._mptt_meta
        left = getattr(self, opts.left_attr)
        right = getattr(self, opts.right_attr)

        if not include_self:
            left += 1
            right -= 1

        return self._tree_manager._mptt_filter(
            tree_id=self._mpttfield('tree_id'),
            left__gte=left,
            left__lte=right
        )

    def get_descendant_count(self):
        """
        Returns the number of descendants this model instance has.
        """
        if self._mpttfield('right') is None:
            # node not saved yet
            return 0
        else:
            return (self._mpttfield('right') - self._mpttfield('left') - 1) // 2

    def get_leafnodes(self, include_self=False):
        """
        Creates a ``QuerySet`` containing leafnodes of this model
        instance, in tree order.

        If ``include_self`` is ``True``, the ``QuerySet`` will also
        include this model instance (if it is a leaf node)
        """
        descendants = self.get_descendants(include_self=include_self)

        return self._tree_manager._mptt_filter(descendants,
            left=(models.F(self._mptt_meta.right_attr) - 1)
        )

    def get_next_sibling(self, *filter_args, **filter_kwargs):
        """
        Returns this model instance's next sibling in the tree, or
        ``None`` if it doesn't have a next sibling.
        """
        qs = self._tree_manager.filter(*filter_args, **filter_kwargs)
        if self.is_root_node():
            qs = self._tree_manager._mptt_filter(qs,
                parent=None,
                tree_id__gt=self._mpttfield('tree_id'),
            )
        else:
            qs = self._tree_manager._mptt_filter(qs,
                parent__pk=getattr(self, self._mptt_meta.parent_attr + '_id'),
                left__gt=self._mpttfield('right'),
            )

        siblings = qs[:1]
        return siblings and siblings[0] or None

    def get_previous_sibling(self, *filter_args, **filter_kwargs):
        """
        Returns this model instance's previous sibling in the tree, or
        ``None`` if it doesn't have a previous sibling.
        """
        opts = self._mptt_meta
        qs = self._tree_manager.filter(*filter_args, **filter_kwargs)
        if self.is_root_node():
            qs = self._tree_manager._mptt_filter(qs,
                parent=None,
                tree_id__lt=self._mpttfield('tree_id'),
            )
            qs = qs.order_by('-' + opts.tree_id_attr)
        else:
            qs = self._tree_manager._mptt_filter(qs,
                parent__pk=getattr(self, opts.parent_attr + '_id'),
                right__lt=self._mpttfield('left'),
            )
            qs = qs.order_by('-' + opts.right_attr)

        siblings = qs[:1]
        return siblings and siblings[0] or None

    def get_root(self):
        """
        Returns the root node of this model instance's tree.
        """
        if self.is_root_node() and type(self) == self._tree_manager.tree_model:
            return self

        return self._tree_manager._mptt_filter(
            tree_id=self._mpttfield('tree_id'),
            parent=None,
        ).get()

    def get_siblings(self, include_self=False):
        """
        Creates a ``QuerySet`` containing siblings of this model
        instance. Root nodes are considered to be siblings of other root
        nodes.

        If ``include_self`` is ``True``, the ``QuerySet`` will also
        include this model instance.
        """
        if self.is_root_node():
            queryset = self._tree_manager._mptt_filter(parent=None)
        else:
            parent_id = getattr(self, self._mptt_meta.parent_attr + '_id')
            queryset = self._tree_manager._mptt_filter(parent__pk=parent_id)
        if not include_self:
            queryset = queryset.exclude(pk=self.pk)
        return queryset

    def get_level(self):
        """
        Returns the level of this node (distance from root)
        """
        return getattr(self, self._mptt_meta.level_attr)

    def insert_at(self, target, position='first-child', save=False, allow_existing_pk=False):
        """
        Convenience method for calling ``TreeManager.insert_node`` with this
        model instance.
        """
        self._tree_manager.insert_node(self, target, position, save, allow_existing_pk=allow_existing_pk)

    def is_child_node(self):
        """
        Returns ``True`` if this model instance is a child node, ``False``
        otherwise.
        """
        return not self.is_root_node()

    def is_leaf_node(self):
        """
        Returns ``True`` if this model instance is a leaf node (it has no
        children), ``False`` otherwise.
        """
        return not self.get_descendant_count()

    def is_root_node(self):
        """
        Returns ``True`` if this model instance is a root node,
        ``False`` otherwise.
        """
        return getattr(self, self._mptt_meta.parent_attr + '_id') is None

    def is_descendant_of(self, other, include_self=False):
        """
        Returns ``True`` if this model is a descendant of the given node,
        ``False`` otherwise.
        If include_self is True, also returns True if the two nodes are the same node.
        """
        opts = self._mptt_meta

        if include_self and other.pk == self.pk:
            return True

        if getattr(self, opts.tree_id_attr) != getattr(other, opts.tree_id_attr):
            return False
        else:
            left = getattr(self, opts.left_attr)
            right = getattr(self, opts.right_attr)

            return left > getattr(other, opts.left_attr) and right < getattr(other, opts.right_attr)

    def is_ancestor_of(self, other, include_self=False):
        """
        Returns ``True`` if this model is an ancestor of the given node,
        ``False`` otherwise.
        If include_self is True, also returns True if the two nodes are the same node.
        """
        if include_self and other.pk == self.pk:
            return True
        return other.is_descendant_of(self)

    def move_to(self, target, position='first-child'):
        """
        Convenience method for calling ``TreeManager.move_node`` with this
        model instance.

        NOTE: This is a low-level method; it does NOT respect ``MPTTMeta.order_insertion_by``.
        In most cases you should just move the node yourself by setting node.parent.
        """
        self._tree_manager.move_node(self, target, position)

    def _is_saved(self, using=None):
        if not self.pk or self._mpttfield('tree_id') is None:
            return False
        opts = self._meta
        if opts.pk.rel is None:
            return True
        else:
            if not hasattr(self, '_mptt_saved'):
                manager = self.__class__._base_manager
                manager = manager.using(using)
                self._mptt_saved = manager.filter(pk=self.pk).exists()
            return self._mptt_saved

    def save(self, *args, **kwargs):
        """
        If this is a new node, sets tree fields up before it is inserted
        into the database, making room in the tree structure as neccessary,
        defaulting to making the new node the last child of its parent.

        It the node's left and right edge indicators already been set, we
        take this as indication that the node has already been set up for
        insertion, so its tree fields are left untouched.

        If this is an existing node and its parent has been changed,
        performs reparenting in the tree structure, defaulting to making the
        node the last child of its new parent.

        In either case, if the node's class has its ``order_insertion_by``
        tree option set, the node will be inserted or moved to the
        appropriate position to maintain ordering by the specified field.
        """
        do_updates = self.__class__._mptt_updates_enabled
        track_updates = self.__class__._mptt_is_tracking

        opts = self._mptt_meta

        if not (do_updates or track_updates):
            # inside manager.disable_mptt_updates(), don't do any updates.
            # unless we're also inside TreeManager.delay_mptt_updates()
            if self._mpttfield('left') is None:
                # we need to set *some* values, though don't care too much what.
                parent = getattr(self, '_%s_cache' % opts.parent_attr, None)
                # if we have a cached parent, have a stab at getting possibly-correct values.
                # otherwise, meh.
                if parent:
                    left = parent._mpttfield('left') + 1
                    setattr(self, opts.left_attr, left)
                    setattr(self, opts.right_attr, left + 1)
                    setattr(self, opts.level_attr, parent._mpttfield('level') + 1)
                    setattr(self, opts.tree_id_attr, parent._mpttfield('tree_id'))
                    self._tree_manager._post_insert_update_cached_parent_right(parent, 2)
                else:
                    setattr(self, opts.left_attr, 1)
                    setattr(self, opts.right_attr, 2)
                    setattr(self, opts.level_attr, 0)
                    setattr(self, opts.tree_id_attr, 0)
            return super(MPTTModel, self).save(*args, **kwargs)

        parent_id = opts.get_raw_field_value(self, opts.parent_attr)

        # determine whether this instance is already in the db
        force_update = kwargs.get('force_update', False)
        force_insert = kwargs.get('force_insert', False)
        collapse_old_tree = None
        if force_update or (not force_insert and self._is_saved(using=kwargs.get('using'))):
            # it already exists, so do a move
            old_parent_id = self._mptt_cached_fields[opts.parent_attr]
            same_order = old_parent_id == parent_id
            if same_order and len(self._mptt_cached_fields) > 1:
                get_raw_field_value = opts.get_raw_field_value
                for field_name, old_value in self._mptt_cached_fields.items():
                    if old_value != get_raw_field_value(self, field_name):
                        same_order = False
                        break
                if not do_updates and not same_order:
                    same_order = True
                    self.__class__._mptt_track_tree_modified(self._mpttfield('tree_id'))
            elif (not do_updates) and not same_order and old_parent_id is None:
                # the old tree no longer exists, so we need to collapse it.
                collapse_old_tree = self._mpttfield('tree_id')
                parent = getattr(self, opts.parent_attr)
                tree_id = parent._mpttfield('tree_id')
                left = parent._mpttfield('left') + 1
                self.__class__._mptt_track_tree_modified(tree_id)
                setattr(self, opts.tree_id_attr, tree_id)
                setattr(self, opts.left_attr, left)
                setattr(self, opts.right_attr, left + 1)
                setattr(self, opts.level_attr, parent._mpttfield('level') + 1)
                same_order = True

            if not same_order:
                opts.set_raw_field_value(self, opts.parent_attr, old_parent_id)
                try:
                    right_sibling = None
                    if opts.order_insertion_by:
                        right_sibling = opts.get_ordered_insertion_target(self, getattr(self, opts.parent_attr))

                    if parent_id is not None:
                        parent = getattr(self, opts.parent_attr)
                        # If we aren't already a descendant of the new parent, we need to update the parent.rght so
                        # things like get_children and get_descendant_count work correctly.
                        update_cached_parent = (
                            getattr(self, opts.tree_id_attr) != getattr(parent, opts.tree_id_attr) or
                            getattr(self, opts.left_attr) < getattr(parent, opts.left_attr) or
                            getattr(self, opts.right_attr) > getattr(parent, opts.right_attr))

                    if right_sibling:
                        self._tree_manager._move_node(self, right_sibling, 'left', save=False)
                    else:
                        # Default movement
                        if parent_id is None:
                            root_nodes = self._tree_manager.root_nodes()
                            try:
                                rightmost_sibling = root_nodes.exclude(pk=self.pk).order_by('-' + opts.tree_id_attr)[0]
                                self._tree_manager._move_node(self, rightmost_sibling, 'right', save=False)
                            except IndexError:
                                pass
                        else:
                            self._tree_manager._move_node(self, parent, 'last-child', save=False)

                    if parent_id is not None and update_cached_parent:
                        # Update rght of cached parent
                        right_shift = 2 * (self.get_descendant_count() + 1)
                        self._tree_manager._post_insert_update_cached_parent_right(parent, right_shift)
                finally:
                    # Make sure the new parent is always
                    # restored on the way out in case of errors.
                    opts.set_raw_field_value(self, opts.parent_attr, parent_id)
            else:
                opts.set_raw_field_value(self, opts.parent_attr, parent_id)
        else:
            # new node, do an insert
            if (getattr(self, opts.left_attr) and getattr(self, opts.right_attr)):
                # This node has already been set up for insertion.
                pass
            else:
                parent = getattr(self, opts.parent_attr)

                right_sibling = None
                # if we're inside delay_mptt_updates, don't do queries to find sibling position.
                # instead, do default insertion. correct positions will be found during partial rebuild later.
                # *unless* this is a root node. (as update tracking doesn't handle re-ordering of trees.)
                if do_updates or parent is None:
                    if opts.order_insertion_by:
                        right_sibling = opts.get_ordered_insertion_target(self, parent)

                if right_sibling:
                    self.insert_at(right_sibling, 'left', allow_existing_pk=True)

                    if parent:
                        # since we didn't insert into parent, we have to update parent.rght
                        # here instead of in TreeManager.insert_node()
                        right_shift = 2 * (self.get_descendant_count() + 1)
                        self._tree_manager._post_insert_update_cached_parent_right(parent, right_shift)
                else:
                    # Default insertion
                    self.insert_at(parent, position='last-child', allow_existing_pk=True)
        try:
            super(MPTTModel, self).save(*args, **kwargs)
        finally:
            if collapse_old_tree is not None:
                self._tree_manager._create_tree_space(collapse_old_tree, -1)

        self._mptt_saved = True
        opts.update_mptt_cached_fields(self)

    def delete(self, *args, **kwargs):
        """Calling ``delete`` on a node will delete it as well as its full subtree, as
        opposed to reattaching all the subnodes to its parent node.

        There are no argument specific to a MPTT model, all the arguments will be passed
        directly to the django's ``Model.delete``.

        ``delete`` will not return anything. """
        tree_width = (self._mpttfield('right') -
                      self._mpttfield('left') + 1)
        target_right = self._mpttfield('right')
        tree_id = self._mpttfield('tree_id')
        self._tree_manager._close_gap(tree_width, target_right, tree_id)
        parent = getattr(self, '_%s_cache' % self._mptt_meta.parent_attr, None)
        if parent:
            right_shift = -self.get_descendant_count() - 2
            self._tree_manager._post_insert_update_cached_parent_right(parent, right_shift)

        super(MPTTModel, self).delete(*args, **kwargs)