# encoding: utf8 from nose.tools import * import unittest from sqlalchemy import Column, Integer, String, create_engine from sqlalchemy.orm import class_mapper, joinedload, sessionmaker from sqlalchemy.orm.session import Session from sqlalchemy.ext.declarative import declarative_base from pokedex.db import tables, markdown def test_variable_names(): """We want pokedex.db.tables to export tables using the class name""" for varname in dir(tables): if not varname[0].isupper(): continue table = getattr(tables, varname) try: if not issubclass(table, tables.TableBase) or table is tables.TableBase: continue except TypeError: continue classname = table.__name__ if classname and varname[0].isupper(): assert varname == classname, '%s refers to %s' % (varname, classname) for table in tables.table_classes: assert getattr(tables, table.__name__) is table def test_i18n_table_creation(): """Creates and manipulates a magical i18n table, completely independent of the existing schema and data. Makes sure that the expected behavior of the various proxies and columns works. """ Base = declarative_base() engine = create_engine("sqlite:///:memory:", echo=True) Base.metadata.bind = engine # Need this for the foreign keys to work! class Language(Base): __tablename__ = 'languages' id = Column(Integer, primary_key=True, nullable=False) identifier = Column(String(2), nullable=False, unique=True) class Foo(Base): __tablename__ = 'foos' __singlename__ = 'foo' id = Column(Integer, primary_key=True, nullable=False) FooText = tables.create_translation_table('foo_text', Foo, _language_class=Language, name = Column(String(100)), ) # TODO move this to the real code class DurpSession(Session): def execute(self, clause, params=None, *args, **kwargs): if not params: params = {} params.setdefault('_default_language', 'en') return super(DurpSession, self).execute(clause, params, *args, **kwargs) # OK, create all the tables and gimme a session Base.metadata.create_all() sess = sessionmaker(engine, class_=DurpSession)() # Create some languages and foos to bind together lang_en = Language(identifier='en') sess.add(lang_en) lang_jp = Language(identifier='jp') sess.add(lang_jp) lang_ru = Language(identifier='ru') sess.add(lang_ru) foo = Foo() sess.add(foo) # Commit so the above get primary keys filled in sess.commit() # Give our foo some names, as directly as possible foo_text = FooText() foo_text.object_id = foo.id foo_text.language_id = lang_en.id foo_text.name = 'english' sess.add(foo_text) foo_text = FooText() foo_text.object_id = foo.id foo_text.language_id = lang_jp.id foo_text.name = 'nihongo' sess.add(foo_text) # Commit! This will expire all of the above. sess.commit() ### Test 1: re-fetch foo and check its attributes foo = sess.query(Foo).params(_default_language='en').one() # Dictionary of language identifiers => names assert foo.name_map['en'] == 'english' assert foo.name_map['jp'] == 'nihongo' # Default language, currently English assert foo.name == 'english' sess.expire_all() ### Test 2: joinedload on the default name should appear to work # THIS SHOULD WORK SOMEDAY # .options(joinedload(Foo.name)) \ foo = sess.query(Foo) \ .options(joinedload(Foo.foo_text_local)) \ .one() assert foo.name == 'english' sess.expire_all() ### Test 3: joinedload on all the names should appear to work # THIS SHOULD ALSO WORK SOMEDAY # .options(joinedload(Foo.name_map)) \ foo = sess.query(Foo) \ .options(joinedload(Foo.foo_text)) \ .one() assert foo.name_map['en'] == 'english' assert foo.name_map['jp'] == 'nihongo' sess.expire_all() ### Test 4: Mutating the dict collection should work foo = sess.query(Foo).one() foo.name_map['en'] = 'different english' foo.name_map['ru'] = 'new russian' sess.commit() assert foo.name_map['en'] == 'different english' assert foo.name_map['ru'] == 'new russian' def test_texts(): """Check DB schema for integrity of text columns & translations. Mostly protects against copy/paste oversights and rebase hiccups. If there's a reason to relax the tests, do it """ for table in sorted(tables.table_classes, key=lambda t: t.__name__): if issubclass(table, tables.LanguageSpecific): good_formats = 'markdown plaintext gametext'.split() assert_text = '%s is language-specific' else: good_formats = 'identifier latex'.split() assert_text = '%s is not language-specific' mapper = class_mapper(table) for column in sorted(mapper.c, key=lambda c: c.name): format = column.info.get('format', None) if format is not None: if format not in good_formats: raise AssertionError(assert_text % column) is_markdown = isinstance(column.type, markdown.MarkdownColumn) if is_markdown != (format == 'markdown'): raise AssertionError('%s: markdown format/column type mismatch' % column) if (format != 'identifier') and (column.name == 'identifier'): raise AssertionError('%s: identifier column name/type mismatch' % column) if column.info.get('official', None) and format not in 'gametext plaintext': raise AssertionError('%s: official text with bad format' % column) else: if isinstance(column.type, (markdown.MarkdownColumn, tables.Unicode)): raise AssertionError('%s: text column without format' % column) if column.name == 'name' and format != 'plaintext': raise AssertionError('%s: non-plaintext name' % column) # No mention of English in the description assert 'English' not in column.info['description'], column def test_identifiers_with_names(): """Test that named tables have identifiers, and non-named tables don't ...have either names or identifiers. """ for table in sorted(tables.table_classes, key=lambda t: t.__name__): if issubclass(table, tables.Named): assert issubclass(table, tables.OfficiallyNamed) or issubclass(table, tables.UnofficiallyNamed), table assert hasattr(table, 'identifier'), table else: assert not hasattr(table, 'identifier'), table if not issubclass(table, tables.LanguageSpecific): assert not hasattr(table, 'name'), table