veekun_pokedex/pokedex/db/multilang.py

173 lines
6.8 KiB
Python

from functools import partial
from sqlalchemy.ext.associationproxy import association_proxy
from sqlalchemy.orm import aliased, compile_mappers, mapper, relationship, synonym
from sqlalchemy.orm.collections import attribute_mapped_collection
from sqlalchemy.orm.session import Session, object_session
from sqlalchemy.schema import Column, ForeignKey, Table
from sqlalchemy.sql.expression import and_, bindparam, select
from sqlalchemy.types import Integer
def create_translation_table(_table_name, foreign_class, relation_name,
language_class, **kwargs):
"""Creates a table that represents some kind of data attached to the given
foreign class, but translated across several languages. Returns the new
table's mapped class. It won't be declarative, but it will have a
`__table__` attribute so you can retrieve the Table object.
`foreign_class` must have a `__singlename__`, currently only used to create
the name of the foreign key column.
TODO remove this requirement
Also supports the notion of a default language, which is attached to the
session. This is English by default, for historical and practical reasons.
Usage looks like this:
class Foo(Base): ...
create_translation_table('foo_bars', Foo, 'bars',
name = Column(...),
)
# Now you can do the following:
foo.name
foo.name_map['en']
foo.foo_bars['en']
foo.name_map['en'] = "new name"
del foo.name_map['en']
q.options(joinedload(Foo.bars_local))
q.options(joinedload(Foo.bars))
The following properties are added to the passed class:
- `(relation_name)`, a relation to the new table. It uses a dict-based
collection class, where the keys are language identifiers and the values
are rows in the created tables.
- `(relation_name)_local`, a relation to the row in the new table that
matches the current default language.
- `(relation_name)_class`, the class created by this function.
Note that these are distinct relations. Even though the former necessarily
includes the latter, SQLAlchemy doesn't treat them as linked; loading one
will not load the other. Modifying both within the same transaction has
undefined behavior.
For each column provided, the following additional attributes are added to
Foo:
- `(column)_map`, an association proxy onto `foo_bars`.
- `(column)`, an association proxy onto `foo_bars_local`.
Pardon the naming disparity, but the grammar suffers otherwise.
Modifying these directly is not likely to be a good idea.
"""
# n.b.: language_class only exists for the sake of tests, which sometimes
# want to create tables entirely separate from the pokedex metadata
foreign_key_name = foreign_class.__singlename__ + '_id'
# A foreign key "language_id" will clash with the language_id we naturally
# put in every table. Rename it something else
if foreign_key_name == 'language_id':
# TODO change language_id below instead and rename this
foreign_key_name = 'lang_id'
Translations = type(_table_name, (object,), {
'_language_identifier': association_proxy('language', 'identifier'),
})
# Create the table object
table = Table(_table_name, foreign_class.__table__.metadata,
Column(foreign_key_name, Integer, ForeignKey(foreign_class.id),
primary_key=True, nullable=False),
Column('language_id', Integer, ForeignKey(language_class.id),
primary_key=True, nullable=False),
)
Translations.__table__ = table
# Add ye columns
# Column objects have a _creation_order attribute in ascending order; use
# this to get the (unordered) kwargs sorted correctly
kwitems = kwargs.items()
kwitems.sort(key=lambda kv: kv[1]._creation_order)
for name, column in kwitems:
column.name = name
table.append_column(column)
# Construct ye mapper
mapper(Translations, table, properties={
# TODO change to foreign_id
'object_id': synonym(foreign_key_name),
# TODO change this as appropriate
'language': relationship(language_class,
primaryjoin=table.c.language_id == language_class.id,
lazy='joined',
innerjoin=True),
# TODO does this need to join to the original table?
})
# Add full-table relations to the original class
# Foo.bars_table
setattr(foreign_class, relation_name + '_table', Translations)
# Foo.bars
setattr(foreign_class, relation_name, relationship(Translations,
primaryjoin=foreign_class.id == Translations.object_id,
collection_class=attribute_mapped_collection('language'),
# TODO
lazy='select',
))
# Foo.bars_local
# This is a bit clever; it uses bindparam() to make the join clause
# modifiable on the fly. db sessions know the current language identifier
# populates the bindparam. The manual alias and join are (a) to make the
# condition nice (sqla prefers an EXISTS) and to make the columns play nice
# when foreign_class == language_class.
local_relation_name = relation_name + '_local'
language_class_a = aliased(language_class)
setattr(foreign_class, local_relation_name, relationship(Translations,
primaryjoin=and_(
foreign_class.id == Translations.object_id,
Translations.language_id == select(
[language_class_a.id],
language_class_a.identifier ==
bindparam('_default_language', required=True),
),
),
uselist=False,
# TODO MORESO HERE
lazy='select',
))
# Add per-column proxies to the original class
for name, column in kwitems:
# Class.(column) -- accessor for the default language's value
setattr(foreign_class, name,
association_proxy(local_relation_name, name))
# Class.(column)_map -- accessor for the language dict
# Need a custom creator since Translations doesn't have an init, and
# these are passed as *args anyway
def creator(language, value):
row = Translations()
row.language = language
setattr(row, name, value)
return row
setattr(foreign_class, name + '_map',
association_proxy(relation_name, name, creator=creator))
# Done
return Translations
class MultilangSession(Session):
"""A tiny Session subclass that adds support for a default language."""
default_language = 'en'
def execute(self, clause, params=None, *args, **kwargs):
if not params:
params = {}
params.setdefault('_default_language', self.default_language)
return super(MultilangSession, self).execute(
clause, params, *args, **kwargs)