import testenv; testenv.configure_for_tests() import datetime from sqlalchemy import * from sqlalchemy.sql import table, column from sqlalchemy import databases, exceptions, sql, util from sqlalchemy.sql.compiler import BIND_TEMPLATES from sqlalchemy.engine import default from sqlalchemy import types as sqltypes from testlib import * from sqlalchemy.databases import * # every dialect in databases.__all__ is expected to pass these tests. dialects = [getattr(databases, mod).dialect() for mod in databases.__all__ # fixme! if mod not in ('access',)] # if the configured dialect is out-of-tree or not yet in __all__, include it # too. if testing.db.name not in databases.__all__: dialects.append(testing.db.dialect) class CompileTest(TestBase, AssertsCompiledSQL): def test_compile(self): for dialect in dialects: bindtemplate = BIND_TEMPLATES[dialect.paramstyle] self.assert_compile(func.current_timestamp(), "CURRENT_TIMESTAMP", dialect=dialect) self.assert_compile(func.localtime(), "LOCALTIME", dialect=dialect) if isinstance(dialect, firebird.dialect): self.assert_compile(func.nosuchfunction(), "nosuchfunction", dialect=dialect) else: self.assert_compile(func.nosuchfunction(), "nosuchfunction()", dialect=dialect) self.assert_compile(func.char_length('foo'), "char_length(%s)" % bindtemplate % {'name':'param_1', 'position':1}, dialect=dialect) def test_underscores(self): self.assert_compile(func.if_(), "if()") def test_generic_now(self): assert isinstance(func.now().type, sqltypes.DateTime) for ret, dialect in [ ('CURRENT_TIMESTAMP', sqlite.dialect()), ('now()', postgres.dialect()), ('now()', mysql.dialect()), ('CURRENT_TIMESTAMP', oracle.dialect()) ]: self.assert_compile(func.now(), ret, dialect=dialect) def test_generic_random(self): assert func.random().type == sqltypes.NULLTYPE assert isinstance(func.random(type_=Integer).type, Integer) for ret, dialect in [ ('random()', sqlite.dialect()), ('random()', postgres.dialect()), ('rand()', mysql.dialect()), ('random()', oracle.dialect()) ]: self.assert_compile(func.random(), ret, dialect=dialect) def test_constructor(self): try: func.current_timestamp('somearg') assert False except TypeError: assert True try: func.char_length('a', 'b') assert False except TypeError: assert True try: func.char_length() assert False except TypeError: assert True def test_typing(self): assert isinstance(func.coalesce(datetime.date(2007, 10, 5), datetime.date(2005, 10, 15)).type, sqltypes.Date) assert isinstance(func.coalesce(None, datetime.date(2005, 10, 15)).type, sqltypes.Date) assert isinstance(func.concat("foo", "bar").type, sqltypes.String) def test_assorted(self): table1 = table('mytable', column('myid', Integer), ) table2 = table( 'myothertable', column('otherid', Integer), ) # test an expression with a function self.assert_compile(func.lala(3, 4, literal("five"), table1.c.myid) * table2.c.otherid, "lala(:lala_1, :lala_2, :param_1, mytable.myid) * myothertable.otherid") # test it in a SELECT self.assert_compile(select([func.count(table1.c.myid)]), "SELECT count(mytable.myid) AS count_1 FROM mytable") # test a "dotted" function name self.assert_compile(select([func.foo.bar.lala(table1.c.myid)]), "SELECT foo.bar.lala(mytable.myid) AS lala_1 FROM mytable") # test the bind parameter name with a "dotted" function name is only the name # (limits the length of the bind param name) self.assert_compile(select([func.foo.bar.lala(12)]), "SELECT foo.bar.lala(:lala_2) AS lala_1") # test a dotted func off the engine itself self.assert_compile(func.lala.hoho(7), "lala.hoho(:hoho_1)") # test None becomes NULL self.assert_compile(func.my_func(1,2,None,3), "my_func(:my_func_1, :my_func_2, NULL, :my_func_3)") # test pickling self.assert_compile(util.pickle.loads(util.pickle.dumps(func.my_func(1, 2, None, 3))), "my_func(:my_func_1, :my_func_2, NULL, :my_func_3)") # assert func raises AttributeError for __bases__ attribute, since its not a class # fixes pydoc try: func.__bases__ assert False except AttributeError: assert True def test_functions_with_cols(self): users = table('users', column('id'), column('name'), column('fullname')) calculate = select([column('q'), column('z'), column('r')], from_obj=[func.calculate(bindparam('x'), bindparam('y'))]) self.assert_compile(select([users], users.c.id > calculate.c.z), "SELECT users.id, users.name, users.fullname " "FROM users, (SELECT q, z, r " "FROM calculate(:x, :y)) " "WHERE users.id > z" ) s = select([users], users.c.id.between( calculate.alias('c1').unique_params(x=17, y=45).c.z, calculate.alias('c2').unique_params(x=5, y=12).c.z)) self.assert_compile(s, "SELECT users.id, users.name, users.fullname " "FROM users, (SELECT q, z, r " "FROM calculate(:x_1, :y_1)) AS c1, (SELECT q, z, r " "FROM calculate(:x_2, :y_2)) AS c2 " "WHERE users.id BETWEEN c1.z AND c2.z" , checkparams={'y_1': 45, 'x_1': 17, 'y_2': 12, 'x_2': 5}) class ExecuteTest(TestBase): def test_standalone_execute(self): x = testing.db.func.current_date().execute().scalar() y = testing.db.func.current_date().select().execute().scalar() z = testing.db.func.current_date().scalar() assert (x == y == z) is True # ansi func x = testing.db.func.current_date() assert isinstance(x.type, Date) assert isinstance(x.execute().scalar(), datetime.date) def test_conn_execute(self): conn = testing.db.connect() try: x = conn.execute(func.current_date()).scalar() y = conn.execute(func.current_date().select()).scalar() z = conn.scalar(func.current_date()) finally: conn.close() assert (x == y == z) is True def test_update(self): """ Tests sending functions and SQL expressions to the VALUES and SET clauses of INSERT/UPDATE instances, and that column-level defaults get overridden. """ meta = MetaData(testing.db) t = Table('t1', meta, Column('id', Integer, Sequence('t1idseq', optional=True), primary_key=True), Column('value', Integer) ) t2 = Table('t2', meta, Column('id', Integer, Sequence('t2idseq', optional=True), primary_key=True), Column('value', Integer, default=7), Column('stuff', String(20), onupdate="thisisstuff") ) meta.create_all() try: t.insert(values=dict(value=func.length("one"))).execute() assert t.select().execute().fetchone()['value'] == 3 t.update(values=dict(value=func.length("asfda"))).execute() assert t.select().execute().fetchone()['value'] == 5 r = t.insert(values=dict(value=func.length("sfsaafsda"))).execute() id = r.last_inserted_ids()[0] assert t.select(t.c.id==id).execute().fetchone()['value'] == 9 t.update(values={t.c.value:func.length("asdf")}).execute() assert t.select().execute().fetchone()['value'] == 4 print "--------------------------" t2.insert().execute() t2.insert(values=dict(value=func.length("one"))).execute() t2.insert(values=dict(value=func.length("asfda") + -19)).execute(stuff="hi") res = exec_sorted(select([t2.c.value, t2.c.stuff])) self.assertEquals(res, [(-14, 'hi'), (3, None), (7, None)]) t2.update(values=dict(value=func.length("asdsafasd"))).execute(stuff="some stuff") assert select([t2.c.value, t2.c.stuff]).execute().fetchall() == [(9,"some stuff"), (9,"some stuff"), (9,"some stuff")] t2.delete().execute() t2.insert(values=dict(value=func.length("one") + 8)).execute() assert t2.select().execute().fetchone()['value'] == 11 t2.update(values=dict(value=func.length("asfda"))).execute() assert select([t2.c.value, t2.c.stuff]).execute().fetchone() == (5, "thisisstuff") t2.update(values={t2.c.value:func.length("asfdaasdf"), t2.c.stuff:"foo"}).execute() print "HI", select([t2.c.value, t2.c.stuff]).execute().fetchone() assert select([t2.c.value, t2.c.stuff]).execute().fetchone() == (9, "foo") finally: meta.drop_all() @testing.fails_on_everything_except('postgres') def test_as_from(self): # TODO: shouldnt this work on oracle too ? x = testing.db.func.current_date().execute().scalar() y = testing.db.func.current_date().select().execute().scalar() z = testing.db.func.current_date().scalar() w = select(['*'], from_obj=[testing.db.func.current_date()]).scalar() # construct a column-based FROM object out of a function, like in [ticket:172] s = select([sql.column('date', type_=DateTime)], from_obj=[testing.db.func.current_date()]) q = s.execute().fetchone()[s.c.date] r = s.alias('datequery').select().scalar() assert x == y == z == w == q == r def exec_sorted(statement, *args, **kw): """Executes a statement and returns a sorted list plain tuple rows.""" return sorted([tuple(row) for row in statement.execute(*args, **kw).fetchall()]) if __name__ == '__main__': testenv.main()