368 lines
13 KiB
Python
368 lines
13 KiB
Python
# ext/orderinglist.py
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# Copyright (C) 2005-2013 the SQLAlchemy authors and contributors <see AUTHORS file>
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#
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# This module is part of SQLAlchemy and is released under
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# the MIT License: http://www.opensource.org/licenses/mit-license.php
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"""A custom list that manages index/position information for contained
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elements.
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:author: Jason Kirtland
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``orderinglist`` is a helper for mutable ordered relationships. It will
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intercept list operations performed on a :func:`.relationship`-managed
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collection and
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automatically synchronize changes in list position onto a target scalar
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attribute.
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Example: A ``slide`` table, where each row refers to zero or more entries
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in a related ``bullet`` table. The bullets within a slide are
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displayed in order based on the value of the ``position`` column in the
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``bullet`` table. As entries are reordered in memory, the value of the
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``position`` attribute should be updated to reflect the new sort order::
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Base = declarative_base()
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class Slide(Base):
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__tablename__ = 'slide'
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id = Column(Integer, primary_key=True)
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name = Column(String)
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bullets = relationship("Bullet", order_by="Bullet.position")
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class Bullet(Base):
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__tablename__ = 'bullet'
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id = Column(Integer, primary_key=True)
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slide_id = Column(Integer, ForeignKey('slide.id'))
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position = Column(Integer)
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text = Column(String)
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The standard relationship mapping will produce a list-like attribute on each
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``Slide`` containing all related ``Bullet`` objects,
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but coping with changes in ordering is not handled automatically.
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When appending a ``Bullet`` into ``Slide.bullets``, the ``Bullet.position``
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attribute will remain unset until manually assigned. When the ``Bullet``
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is inserted into the middle of the list, the following ``Bullet`` objects
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will also need to be renumbered.
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The :class:`.OrderingList` object automates this task, managing the
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``position`` attribute on all ``Bullet`` objects in the collection. It is
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constructed using the :func:`.ordering_list` factory::
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from sqlalchemy.ext.orderinglist import ordering_list
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Base = declarative_base()
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class Slide(Base):
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__tablename__ = 'slide'
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id = Column(Integer, primary_key=True)
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name = Column(String)
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bullets = relationship("Bullet", order_by="Bullet.position",
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collection_class=ordering_list('position'))
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class Bullet(Base):
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__tablename__ = 'bullet'
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id = Column(Integer, primary_key=True)
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slide_id = Column(Integer, ForeignKey('slide.id'))
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position = Column(Integer)
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text = Column(String)
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With the above mapping the ``Bullet.position`` attribute is managed::
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s = Slide()
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s.bullets.append(Bullet())
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s.bullets.append(Bullet())
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s.bullets[1].position
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>>> 1
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s.bullets.insert(1, Bullet())
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s.bullets[2].position
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>>> 2
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The :class:`.OrderingList` construct only works with **changes** to a collection,
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and not the initial load from the database, and requires that the list be
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sorted when loaded. Therefore, be sure to
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specify ``order_by`` on the :func:`.relationship` against the target ordering
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attribute, so that the ordering is correct when first loaded.
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.. warning::
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:class:`.OrderingList` only provides limited functionality when a primary
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key column or unique column is the target of the sort. Since changing the
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order of entries often means that two rows must trade values, this is not
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possible when the value is constrained by a primary key or unique
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constraint, since one of the rows would temporarily have to point to a
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third available value so that the other row could take its old
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value. :class:`.OrderingList` doesn't do any of this for you,
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nor does SQLAlchemy itself.
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:func:`.ordering_list` takes the name of the related object's ordering attribute as
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an argument. By default, the zero-based integer index of the object's
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position in the :func:`.ordering_list` is synchronized with the ordering attribute:
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index 0 will get position 0, index 1 position 1, etc. To start numbering at 1
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or some other integer, provide ``count_from=1``.
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"""
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from ..orm.collections import collection
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from .. import util
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__all__ = ['ordering_list']
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def ordering_list(attr, count_from=None, **kw):
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"""Prepares an :class:`OrderingList` factory for use in mapper definitions.
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Returns an object suitable for use as an argument to a Mapper
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relationship's ``collection_class`` option. e.g.::
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from sqlalchemy.ext.orderinglist import ordering_list
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class Slide(Base):
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__tablename__ = 'slide'
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id = Column(Integer, primary_key=True)
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name = Column(String)
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bullets = relationship("Bullet", order_by="Bullet.position",
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collection_class=ordering_list('position'))
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:param attr:
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Name of the mapped attribute to use for storage and retrieval of
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ordering information
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:param count_from:
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Set up an integer-based ordering, starting at ``count_from``. For
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example, ``ordering_list('pos', count_from=1)`` would create a 1-based
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list in SQL, storing the value in the 'pos' column. Ignored if
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``ordering_func`` is supplied.
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Additional arguments are passed to the :class:`.OrderingList` constructor.
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"""
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kw = _unsugar_count_from(count_from=count_from, **kw)
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return lambda: OrderingList(attr, **kw)
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# Ordering utility functions
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def count_from_0(index, collection):
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"""Numbering function: consecutive integers starting at 0."""
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return index
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def count_from_1(index, collection):
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"""Numbering function: consecutive integers starting at 1."""
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return index + 1
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def count_from_n_factory(start):
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"""Numbering function: consecutive integers starting at arbitrary start."""
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def f(index, collection):
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return index + start
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try:
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f.__name__ = 'count_from_%i' % start
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except TypeError:
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pass
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return f
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def _unsugar_count_from(**kw):
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"""Builds counting functions from keyword arguments.
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Keyword argument filter, prepares a simple ``ordering_func`` from a
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``count_from`` argument, otherwise passes ``ordering_func`` on unchanged.
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"""
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count_from = kw.pop('count_from', None)
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if kw.get('ordering_func', None) is None and count_from is not None:
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if count_from == 0:
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kw['ordering_func'] = count_from_0
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elif count_from == 1:
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kw['ordering_func'] = count_from_1
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else:
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kw['ordering_func'] = count_from_n_factory(count_from)
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return kw
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class OrderingList(list):
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"""A custom list that manages position information for its children.
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The :class:`.OrderingList` object is normally set up using the
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:func:`.ordering_list` factory function, used in conjunction with
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the :func:`.relationship` function.
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"""
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def __init__(self, ordering_attr=None, ordering_func=None,
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reorder_on_append=False):
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"""A custom list that manages position information for its children.
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``OrderingList`` is a ``collection_class`` list implementation that
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syncs position in a Python list with a position attribute on the
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mapped objects.
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This implementation relies on the list starting in the proper order,
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so be **sure** to put an ``order_by`` on your relationship.
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:param ordering_attr:
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Name of the attribute that stores the object's order in the
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relationship.
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:param ordering_func: Optional. A function that maps the position in
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the Python list to a value to store in the
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``ordering_attr``. Values returned are usually (but need not be!)
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integers.
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An ``ordering_func`` is called with two positional parameters: the
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index of the element in the list, and the list itself.
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If omitted, Python list indexes are used for the attribute values.
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Two basic pre-built numbering functions are provided in this module:
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``count_from_0`` and ``count_from_1``. For more exotic examples
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like stepped numbering, alphabetical and Fibonacci numbering, see
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the unit tests.
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:param reorder_on_append:
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Default False. When appending an object with an existing (non-None)
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ordering value, that value will be left untouched unless
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``reorder_on_append`` is true. This is an optimization to avoid a
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variety of dangerous unexpected database writes.
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SQLAlchemy will add instances to the list via append() when your
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object loads. If for some reason the result set from the database
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skips a step in the ordering (say, row '1' is missing but you get
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'2', '3', and '4'), reorder_on_append=True would immediately
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renumber the items to '1', '2', '3'. If you have multiple sessions
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making changes, any of whom happen to load this collection even in
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passing, all of the sessions would try to "clean up" the numbering
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in their commits, possibly causing all but one to fail with a
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concurrent modification error.
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Recommend leaving this with the default of False, and just call
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``reorder()`` if you're doing ``append()`` operations with
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previously ordered instances or when doing some housekeeping after
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manual sql operations.
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"""
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self.ordering_attr = ordering_attr
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if ordering_func is None:
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ordering_func = count_from_0
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self.ordering_func = ordering_func
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self.reorder_on_append = reorder_on_append
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# More complex serialization schemes (multi column, e.g.) are possible by
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# subclassing and reimplementing these two methods.
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def _get_order_value(self, entity):
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return getattr(entity, self.ordering_attr)
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def _set_order_value(self, entity, value):
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setattr(entity, self.ordering_attr, value)
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def reorder(self):
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"""Synchronize ordering for the entire collection.
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Sweeps through the list and ensures that each object has accurate
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ordering information set.
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"""
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for index, entity in enumerate(self):
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self._order_entity(index, entity, True)
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# As of 0.5, _reorder is no longer semi-private
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_reorder = reorder
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def _order_entity(self, index, entity, reorder=True):
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have = self._get_order_value(entity)
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# Don't disturb existing ordering if reorder is False
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if have is not None and not reorder:
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return
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should_be = self.ordering_func(index, self)
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if have != should_be:
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self._set_order_value(entity, should_be)
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def append(self, entity):
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super(OrderingList, self).append(entity)
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self._order_entity(len(self) - 1, entity, self.reorder_on_append)
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def _raw_append(self, entity):
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"""Append without any ordering behavior."""
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super(OrderingList, self).append(entity)
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_raw_append = collection.adds(1)(_raw_append)
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def insert(self, index, entity):
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super(OrderingList, self).insert(index, entity)
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self._reorder()
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def remove(self, entity):
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super(OrderingList, self).remove(entity)
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self._reorder()
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def pop(self, index=-1):
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entity = super(OrderingList, self).pop(index)
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self._reorder()
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return entity
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def __setitem__(self, index, entity):
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if isinstance(index, slice):
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step = index.step or 1
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start = index.start or 0
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if start < 0:
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start += len(self)
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stop = index.stop or len(self)
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if stop < 0:
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stop += len(self)
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for i in xrange(start, stop, step):
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self.__setitem__(i, entity[i])
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else:
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self._order_entity(index, entity, True)
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super(OrderingList, self).__setitem__(index, entity)
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def __delitem__(self, index):
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super(OrderingList, self).__delitem__(index)
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self._reorder()
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# Py2K
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def __setslice__(self, start, end, values):
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super(OrderingList, self).__setslice__(start, end, values)
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self._reorder()
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def __delslice__(self, start, end):
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super(OrderingList, self).__delslice__(start, end)
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self._reorder()
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# end Py2K
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def __reduce__(self):
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return _reconstitute, (self.__class__, self.__dict__, list(self))
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for func_name, func in locals().items():
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if (util.callable(func) and func.func_name == func_name and
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not func.__doc__ and hasattr(list, func_name)):
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func.__doc__ = getattr(list, func_name).__doc__
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del func_name, func
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def _reconstitute(cls, dict_, items):
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""" Reconstitute an :class:`.OrderingList`.
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This is the adjoint to :meth:`.OrderingList.__reduce__`. It is used for
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unpickling :class:`.OrderingList` objects.
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"""
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obj = cls.__new__(cls)
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obj.__dict__.update(dict_)
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list.extend(obj, items)
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return obj
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