+
+
+### Add text/prose tables
+
+default_lang = u'en'
+
+def create_translation_table(_table_name, foreign_class,
+ _language_class=Language, **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.
+TODO give it a __table__ or __init__?
+
+ `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,
+ 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.default_translation))
+ q.options(joinedload(Foo.foo_bars))
+
+ In the above example, the following attributes are added to Foo:
+
+ - `foo_bars`, 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.
+ - `foo_bars_local`, a relation to the row in the new table that matches the
+ current default language.
+
+ 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),
+ )
+
+ # 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': relation(_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
+ # Class.foo_bars
+ setattr(foreign_class, _table_name, relation(Translations,
+ primaryjoin=foreign_class.id == Translations.object_id,
+ collection_class=attribute_mapped_collection('language'),
+ # TODO
+ lazy='select',
+ ))
+ # Class.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.
+ local_relation_name = _table_name + '_local'
+ setattr(foreign_class, local_relation_name, relation(Translations,
+ primaryjoin=and_(
+ foreign_class.id == Translations.object_id,
+ Translations._language_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(_table_name, name, creator=creator))
+
+ # Done
+ return Translations
+
+def makeTextTable(foreign_table_class, table_suffix_plural, table_suffix_singular, columns, lazy, Language=Language):
+ # With "Language", we'd have two language_id. So, rename one to 'lang'
+ foreign_key_name = foreign_table_class.__singlename__
+ if foreign_key_name == 'language':
+ foreign_key_name = 'lang'
+
+ table_name = foreign_table_class.__singlename__ + '_' + table_suffix_plural
+
+ class TranslatedStringsTable(object):
+ __tablename__ = table_name
+ _attrname = table_suffix_plural
+ _language_identifier = association_proxy('language', 'identifier')
+
+ for column_name, column_name_plural, column in columns:
+ column.name = column_name
+ if not column.nullable:
+ # A Python side default value, so that the strings can be set
+ # one by one without the DB complaining about missing values
+ column.default = ColumnDefault(u'')
+
+ table = Table(table_name, foreign_table_class.__table__.metadata,
+ Column(foreign_key_name + '_id', Integer, ForeignKey(foreign_table_class.id),
+ primary_key=True, nullable=False),
+ Column('language_id', Integer, ForeignKey(Language.id),
+ primary_key=True, index=True, nullable=False),
+ *(column for name, plural, column in columns)
+ )
+
+ mapper(TranslatedStringsTable, table,
+ properties={
+ "object_id": synonym(foreign_key_name + '_id'),
+ "language": relation(Language,
+ primaryjoin=table.c.language_id == Language.id,
+ ),
+ foreign_key_name: relation(foreign_table_class,
+ primaryjoin=(foreign_table_class.id == table.c[foreign_key_name + "_id"]),
+ backref=backref(table_suffix_plural,
+ collection_class=attribute_mapped_collection('_language_identifier'),
+ lazy=lazy,
+ ),
+ ),
+ },
+ )
+
+ # The relation to the object
+ TranslatedStringsTable.object = getattr(TranslatedStringsTable, foreign_key_name)
+
+ # Link the tables themselves, so we can get them if needed
+ TranslatedStringsTable.foreign_table_class = foreign_table_class
+ setattr(foreign_table_class, table_suffix_singular + '_table', TranslatedStringsTable)
+
+ for column_name, column_name_plural, column in columns:
+ # Provide a property with all the names, and an English accessor
+ # for backwards compatibility
+ def text_string_creator(language_code, string):
+ row = TranslatedStringsTable()
+ row._language_identifier = language_code
+ setattr(row, column_name, string)
+ return row
+
+ setattr(foreign_table_class, column_name_plural,
+ association_proxy(table_suffix_plural, column_name, creator=text_string_creator))
+ setattr(foreign_table_class, column_name, DefaultLangProperty(column_name_plural))
+
+ if column_name == 'name':
+ foreign_table_class.name_table = TranslatedStringsTable
+
+ compile_mappers()
+ return TranslatedStringsTable
+
+class DefaultLangProperty(object):
+ def __init__(self, column_name):
+ self.column_name = column_name
+
+ def __get__(self, instance, cls):
+ if instance:
+ return getattr(instance, self.column_name)[default_lang]
+ else:
+ # TODO I think this is kind of broken
+ return getattr(cls, self.column_name)[default_lang]
+
+ def __set__(self, instance, value):
+ getattr(instance, self.colname)[default_lang] = value
+
+ def __delete__(self, instance):
+ del getattr(instance, self.colname)[default_lang]
+
+for table in list(table_classes):
+ # Find all the language-specific columns, keeping them in the order they
+ # were defined
+ all_columns = []
+ for colname in dir(table):
+ column = getattr(table, colname)
+ if isinstance(column, LanguageSpecificColumn):
+ all_columns.append((colname, column))
+ delattr(table, colname)
+ all_columns.sort(key=lambda pair: pair[1].order)
+
+ # Break them into text and prose columns
+ text_columns = []
+ prose_columns = []
+ for colname, column in all_columns:
+ spec = colname, column.plural, column.makeSAColumn()
+ if isinstance(column, TextColumn):
+ text_columns.append(spec)
+ elif isinstance(column, ProseColumn):
+ prose_columns.append(spec)
+
+ if (text_columns or prose_columns) and issubclass(table, LanguageSpecific):
+ raise AssertionError("Language-specific table %s shouldn't have explicit language-specific columns" % table)
+
+ if text_columns:
+ string_table = makeTextTable(table, 'texts', 'text', text_columns, lazy=False)
+ if prose_columns:
+ string_table = makeTextTable(table, 'prose', 'prose', prose_columns, lazy='select')
+
+### Add language relations
+for table in list(table_classes):
+ if issubclass(table, LanguageSpecific):
+ table.language = relation(Language, primaryjoin=table.language_id == Language.id)
+
+Move.effect = DefaultLangProperty('effects')
+Move.effects = markdown.MoveEffectsProperty('effect')
+Move.short_effect = DefaultLangProperty('short_effects')
+Move.short_effects = markdown.MoveEffectsProperty('short_effect')
+
+MoveChangelog.effect = DefaultLangProperty('effects')
+MoveChangelog.effects = markdown.MoveEffectsProperty('effect')
+MoveChangelog.short_effect = DefaultLangProperty('short_effects')
+MoveChangelog.short_effects = markdown.MoveEffectsProperty('short_effect')